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| author | Kelly Rauchenberger <fefferburbia@gmail.com> | 2021-02-05 20:20:21 -0500 |
|---|---|---|
| committer | Kelly Rauchenberger <fefferburbia@gmail.com> | 2021-02-05 20:20:21 -0500 |
| commit | bd1a66887f00e186ab86a5195ebb3271ea732b38 (patch) | |
| tree | d3fc0335d98f386877b991f538e2645ff6d74fd1 /vendor/sol | |
| parent | ccf0fab9f7b8057afc5884e70fff29109f707bf8 (diff) | |
| download | tanetane-bd1a66887f00e186ab86a5195ebb3271ea732b38.tar.gz tanetane-bd1a66887f00e186ab86a5195ebb3271ea732b38.tar.bz2 tanetane-bd1a66887f00e186ab86a5195ebb3271ea732b38.zip | |
Created script system
Diffstat (limited to 'vendor/sol')
| -rw-r--r-- | vendor/sol/config.hpp | 53 | ||||
| -rw-r--r-- | vendor/sol/sol.hpp | 26674 |
2 files changed, 26727 insertions, 0 deletions
| diff --git a/vendor/sol/config.hpp b/vendor/sol/config.hpp new file mode 100644 index 0000000..90ec711 --- /dev/null +++ b/vendor/sol/config.hpp | |||
| @@ -0,0 +1,53 @@ | |||
| 1 | // The MIT License (MIT) | ||
| 2 | |||
| 3 | // Copyright (c) 2013-2020 Rapptz, ThePhD and contributors | ||
| 4 | |||
| 5 | // Permission is hereby granted, free of charge, to any person obtaining a copy of | ||
| 6 | // this software and associated documentation files (the "Software"), to deal in | ||
| 7 | // the Software without restriction, including without limitation the rights to | ||
| 8 | // use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of | ||
| 9 | // the Software, and to permit persons to whom the Software is furnished to do so, | ||
| 10 | // subject to the following conditions: | ||
| 11 | |||
| 12 | // The above copyright notice and this permission notice shall be included in all | ||
| 13 | // copies or substantial portions of the Software. | ||
| 14 | |||
| 15 | // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | ||
| 16 | // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS | ||
| 17 | // FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR | ||
| 18 | // COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | ||
| 19 | // IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | ||
| 20 | // CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | ||
| 21 | |||
| 22 | // This file was generated with a script. | ||
| 23 | // Generated 2020-10-03 21:34:25.034794 UTC | ||
| 24 | // This header was generated with sol v3.2.1 (revision 48eea7b5) | ||
| 25 | // https://github.com/ThePhD/sol2 | ||
| 26 | |||
| 27 | #ifndef SOL_SINGLE_CONFIG_HPP | ||
| 28 | #define SOL_SINGLE_CONFIG_HPP | ||
| 29 | |||
| 30 | // beginning of sol/config.hpp | ||
| 31 | |||
| 32 | /* Base, empty configuration file! | ||
| 33 | |||
| 34 | To override, place a file in your include paths of the form: | ||
| 35 | |||
| 36 | . (your include path here) | ||
| 37 | | sol (directory, or equivalent) | ||
| 38 | | config.hpp (your config.hpp file) | ||
| 39 | |||
| 40 | So that when sol2 includes the file | ||
| 41 | |||
| 42 | #include <sol/config.hpp> | ||
| 43 | |||
| 44 | it gives you the configuration values you desire. Configuration values can be | ||
| 45 | seen in the safety.rst of the doc/src, or at | ||
| 46 | https://sol2.readthedocs.io/en/latest/safety.html ! You can also pass them through | ||
| 47 | the build system, or the command line options of your compiler. | ||
| 48 | |||
| 49 | */ | ||
| 50 | |||
| 51 | // end of sol/config.hpp | ||
| 52 | |||
| 53 | #endif // SOL_SINGLE_CONFIG_HPP | ||
| diff --git a/vendor/sol/sol.hpp b/vendor/sol/sol.hpp new file mode 100644 index 0000000..c25fd54 --- /dev/null +++ b/vendor/sol/sol.hpp | |||
| @@ -0,0 +1,26674 @@ | |||
| 1 | // The MIT License (MIT) | ||
| 2 | |||
| 3 | // Copyright (c) 2013-2020 Rapptz, ThePhD and contributors | ||
| 4 | |||
| 5 | // Permission is hereby granted, free of charge, to any person obtaining a copy of | ||
| 6 | // this software and associated documentation files (the "Software"), to deal in | ||
| 7 | // the Software without restriction, including without limitation the rights to | ||
| 8 | // use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of | ||
| 9 | // the Software, and to permit persons to whom the Software is furnished to do so, | ||
| 10 | // subject to the following conditions: | ||
| 11 | |||
| 12 | // The above copyright notice and this permission notice shall be included in all | ||
| 13 | // copies or substantial portions of the Software. | ||
| 14 | |||
| 15 | // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR | ||
| 16 | // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS | ||
| 17 | // FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR | ||
| 18 | // COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER | ||
| 19 | // IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN | ||
| 20 | // CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | ||
| 21 | |||
| 22 | // This file was generated with a script. | ||
| 23 | // Generated 2020-10-03 21:34:24.496436 UTC | ||
| 24 | // This header was generated with sol v3.2.1 (revision 48eea7b5) | ||
| 25 | // https://github.com/ThePhD/sol2 | ||
| 26 | |||
| 27 | #ifndef SOL_SINGLE_INCLUDE_HPP | ||
| 28 | #define SOL_SINGLE_INCLUDE_HPP | ||
| 29 | |||
| 30 | // beginning of sol/sol.hpp | ||
| 31 | |||
| 32 | #ifndef SOL_HPP | ||
| 33 | #define SOL_HPP | ||
| 34 | |||
| 35 | // beginning of sol/version.hpp | ||
| 36 | |||
| 37 | #include <sol/config.hpp> | ||
| 38 | |||
| 39 | #include <cstdint> | ||
| 40 | |||
| 41 | #define SOL_VERSION_MAJOR 3 | ||
| 42 | #define SOL_VERSION_MINOR 5 | ||
| 43 | #define SOL_VERSION_PATCH 0 | ||
| 44 | #define SOL_VERSION_STRING "3.5.0" | ||
| 45 | #define SOL_VERSION ((SOL_VERSION_MAJOR * 100000) + (SOL_VERSION_MINOR * 100) + (SOL_VERSION_PATCH)) | ||
| 46 | |||
| 47 | #define SOL_IS_ON(OP_SYMBOL) ((3 OP_SYMBOL 3) != 0) | ||
| 48 | #define SOL_IS_OFF(OP_SYMBOL) ((3 OP_SYMBOL 3) == 0) | ||
| 49 | #define SOL_IS_DEFAULT_ON(OP_SYMBOL) ((3 OP_SYMBOL 3) > 3) | ||
| 50 | #define SOL_IS_DEFAULT_OFF(OP_SYMBOL) ((3 OP_SYMBOL 3 OP_SYMBOL 3) < 0) | ||
| 51 | |||
| 52 | #define SOL_ON | | ||
| 53 | #define SOL_OFF ^ | ||
| 54 | #define SOL_DEFAULT_ON + | ||
| 55 | #define SOL_DEFAULT_OFF - | ||
| 56 | |||
| 57 | #if defined(_MSC_VER) | ||
| 58 | #define SOL_COMPILER_CLANG_I_ SOL_OFF | ||
| 59 | #define SOL_COMPILER_GCC_I_ SOL_OFF | ||
| 60 | #define SOL_COMPILER_EDG_I_ SOL_OFF | ||
| 61 | #define SOL_COMPILER_VCXX_I_ SOL_ON | ||
| 62 | #elif defined(__clang__) | ||
| 63 | #define SOL_COMPILER_CLANG_I_ SOL_ON | ||
| 64 | #define SOL_COMPILER_GCC_I_ SOL_OFF | ||
| 65 | #define SOL_COMPILER_EDG_I_ SOL_OFF | ||
| 66 | #define SOL_COMPILER_VCXX_I_ SOL_OFF | ||
| 67 | #elif defined(__GNUC__) | ||
| 68 | #define SOL_COMPILER_CLANG_I_ SOL_OFF | ||
| 69 | #define SOL_COMPILER_GCC_I_ SOL_ON | ||
| 70 | #define SOL_COMPILER_EDG_I_ SOL_OFF | ||
| 71 | #define SOL_COMPILER_VCXX_I_ SOL_OFF | ||
| 72 | #else | ||
| 73 | #define SOL_COMPILER_CLANG_I_ SOL_OFF | ||
| 74 | #define SOL_COMPILER_GCC_I_ SOL_OFF | ||
| 75 | #define SOL_COMPILER_EDG_I_ SOL_OFF | ||
| 76 | #define SOL_COMPILER_VCXX_I_ SOL_OFF | ||
| 77 | #endif | ||
| 78 | |||
| 79 | #if defined(__MINGW32__) | ||
| 80 | #define SOL_COMPILER_FRONTEND_MINGW_I_ SOL_ON | ||
| 81 | #else | ||
| 82 | #define SOL_COMPILER_FRONTEND_MINGW_I_ SOL_OFF | ||
| 83 | #endif | ||
| 84 | |||
| 85 | #if SIZE_MAX <= 0xFFFFULL | ||
| 86 | #define SOL_PLATFORM_X16_I_ SOL_ON | ||
| 87 | #define SOL_PLATFORM_X86_I_ SOL_OFF | ||
| 88 | #define SOL_PLATFORM_X64_I_ SOL_OFF | ||
| 89 | #elif SIZE_MAX <= 0xFFFFFFFFULL | ||
| 90 | #define SOL_PLATFORM_X16_I_ SOL_OFF | ||
| 91 | #define SOL_PLATFORM_X86_I_ SOL_ON | ||
| 92 | #define SOL_PLATFORM_X64_I_ SOL_OFF | ||
| 93 | #else | ||
| 94 | #define SOL_PLATFORM_X16_I_ SOL_OFF | ||
| 95 | #define SOL_PLATFORM_X86_I_ SOL_OFF | ||
| 96 | #define SOL_PLATFORM_X64_I_ SOL_ON | ||
| 97 | #endif | ||
| 98 | |||
| 99 | #define SOL_PLATFORM_ARM32_I_ SOL_OFF | ||
| 100 | #define SOL_PLATFORM_ARM64_I_ SOL_OFF | ||
| 101 | |||
| 102 | #if defined(_WIN32) | ||
| 103 | #define SOL_PLATFORM_WINDOWS_I_ SOL_ON | ||
| 104 | #else | ||
| 105 | #define SOL_PLATFORM_WINDOWS_I_ SOL_OFF | ||
| 106 | #endif | ||
| 107 | #if defined(__APPLE__) | ||
| 108 | #define SOL_PLATFORM_APPLE_I_ SOL_ON | ||
| 109 | #else | ||
| 110 | #define SOL_PLATFORM_APPLE_I_ SOL_OFF | ||
| 111 | #endif | ||
| 112 | #if defined(__unix__) | ||
| 113 | #define SOL_PLATFORM_UNIXLIKE_I_ SOL_ON | ||
| 114 | #else | ||
| 115 | #define SOL_PLATFORM_UNIXLIKE_I_ SOL_OFF | ||
| 116 | #endif | ||
| 117 | #if defined(__linux__) | ||
| 118 | #define SOL_PLATFORM_LINUXLIKE_I_ SOL_ON | ||
| 119 | #else | ||
| 120 | #define SOL_PLATFORM_LINUXLIKE_I_ SOL_OFF | ||
| 121 | #endif | ||
| 122 | |||
| 123 | #define SOL_PLATFORM_APPLE_IPHONE_I_ SOL_OFF | ||
| 124 | #define SOL_PLATFORM_BSDLIKE_I_ SOL_OFF | ||
| 125 | |||
| 126 | #if defined(SOL_IN_DEBUG_DETECTED) | ||
| 127 | #if SOL_IN_DEBUG_DETECTED != 0 | ||
| 128 | #define SOL_DEBUG_BUILD_I_ SOL_ON | ||
| 129 | #else | ||
| 130 | #define SOL_DEBUG_BUILD_I_ SOL_OFF | ||
| 131 | #endif | ||
| 132 | #elif !defined(NDEBUG) | ||
| 133 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) && defined(_DEBUG) | ||
| 134 | #define SOL_DEBUG_BUILD_I_ SOL_ON | ||
| 135 | #elif (SOL_IS_ON(SOL_COMPILER_CLANG_I_) || SOL_IS_ON(SOL_COMPILER_GCC_I_)) && !defined(__OPTIMIZE__) | ||
| 136 | #define SOL_DEBUG_BUILD_I_ SOL_ON | ||
| 137 | #else | ||
| 138 | #define SOL_DEBUG_BUILD_I_ SOL_OFF | ||
| 139 | #endif | ||
| 140 | #else | ||
| 141 | #define SOL_DEBUG_BUILD_I_ SOL_DEFAULT_OFF | ||
| 142 | #endif // We are in a debug mode of some sort | ||
| 143 | |||
| 144 | #if defined(SOL_NO_EXCEPTIONS) | ||
| 145 | #if (SOL_NO_EXCEPTIONS != 0) | ||
| 146 | #define SOL_EXCEPTIONS_I_ SOL_OFF | ||
| 147 | #else | ||
| 148 | #define SOL_EXCEPTIONS_I_ SOL_ON | ||
| 149 | #endif | ||
| 150 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 151 | #if !defined(_CPPUNWIND) | ||
| 152 | #define SOL_EXCEPTIONS_I_ SOL_OFF | ||
| 153 | #else | ||
| 154 | #define SOL_EXCEPTIONS_I_ SOL_ON | ||
| 155 | #endif | ||
| 156 | #elif SOL_IS_ON(SOL_COMPILER_CLANG_I_) || SOL_IS_ON(SOL_COMPILER_GCC_I_) | ||
| 157 | #if !defined(__EXCEPTIONS) | ||
| 158 | #define SOL_EXCEPTIONS_I_ SOL_OFF | ||
| 159 | #else | ||
| 160 | #define SOL_EXCEPTIONS_I_ SOL_ON | ||
| 161 | #endif | ||
| 162 | #else | ||
| 163 | #define SOL_EXCEPTIONS_I_ SOL_DEFAULT_ON | ||
| 164 | #endif | ||
| 165 | |||
| 166 | #if defined(SOL_NO_RTTI) | ||
| 167 | #if (SOL_NO_RTTI != 0) | ||
| 168 | #define SOL_RTTI_I_ SOL_OFF | ||
| 169 | #else | ||
| 170 | #define SOL_RTTI_I_ SOL_ON | ||
| 171 | #endif | ||
| 172 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 173 | #if !defined(_CPPRTTI) | ||
| 174 | #define SOL_RTTI_I_ SOL_OFF | ||
| 175 | #else | ||
| 176 | #define SOL_RTTI_I_ SOL_ON | ||
| 177 | #endif | ||
| 178 | #elif SOL_IS_ON(SOL_COMPILER_CLANG_I_) || SOL_IS_ON(SOL_COMPILER_GCC_I_) | ||
| 179 | #if !defined(__GXX_RTTI) | ||
| 180 | #define SOL_RTTI_I_ SOL_OFF | ||
| 181 | #else | ||
| 182 | #define SOL_RTTI_I_ SOL_ON | ||
| 183 | #endif | ||
| 184 | #else | ||
| 185 | #define SOL_RTTI_I_ SOL_DEFAULT_ON | ||
| 186 | #endif | ||
| 187 | |||
| 188 | #if defined(SOL_NO_THREAD_LOCAL) && (SOL_NO_THREAD_LOCAL != 0) | ||
| 189 | #define SOL_USE_THREAD_LOCAL_I_ SOL_OFF | ||
| 190 | #else | ||
| 191 | #define SOL_USE_THREAD_LOCAL_I_ SOL_DEFAULT_ON | ||
| 192 | #endif // thread_local keyword is bjorked on some platforms | ||
| 193 | |||
| 194 | #if defined(SOL_ALL_SAFETIES_ON) && (SOL_ALL_SAFETIES_ON != 0) | ||
| 195 | #define SOL_ALL_SAFETIES_ON_I_ SOL_ON | ||
| 196 | #else | ||
| 197 | #define SOL_ALL_SAFETIES_ON_I_ SOL_DEFAULT_OFF | ||
| 198 | #endif | ||
| 199 | |||
| 200 | #if defined(SOL_SAFE_GETTER) && (SOL_SAFE_GETTER != 0) | ||
| 201 | #define SOL_SAFE_GETTER_I_ SOL_ON | ||
| 202 | #else | ||
| 203 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 204 | #define SOL_SAFE_GETTER_I_ SOL_ON | ||
| 205 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 206 | #define SOL_SAFE_GETTER_I_ SOL_DEFAULT_ON | ||
| 207 | #else | ||
| 208 | #define SOL_SAFE_GETTER_I_ SOL_DEFAULT_OFF | ||
| 209 | #endif | ||
| 210 | #endif | ||
| 211 | |||
| 212 | #if defined(SOL_SAFE_USERTYPE) && (SOL_SAFE_USERTYPE != 0) | ||
| 213 | #define SOL_SAFE_USERTYPE_I_ SOL_ON | ||
| 214 | #else | ||
| 215 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 216 | #define SOL_SAFE_USERTYPE_I_ SOL_ON | ||
| 217 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 218 | #define SOL_SAFE_USERTYPE_I_ SOL_DEFAULT_ON | ||
| 219 | #else | ||
| 220 | #define SOL_SAFE_USERTYPE_I_ SOL_DEFAULT_OFF | ||
| 221 | #endif | ||
| 222 | #endif | ||
| 223 | |||
| 224 | #if defined(SOL_SAFE_REFERENCES) && (SOL_SAFE_REFERENCES != 0) | ||
| 225 | #define SOL_SAFE_REFERENCES_I_ SOL_ON | ||
| 226 | #else | ||
| 227 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 228 | #define SOL_SAFE_REFERENCES_I_ SOL_ON | ||
| 229 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 230 | #define SOL_SAFE_REFERENCES_I_ SOL_DEFAULT_ON | ||
| 231 | #else | ||
| 232 | #define SOL_SAFE_REFERENCES_I_ SOL_DEFAULT_OFF | ||
| 233 | #endif | ||
| 234 | #endif | ||
| 235 | |||
| 236 | #if (defined(SOL_SAFE_FUNCTIONS) && (SOL_SAFE_FUNCTIONS != 0)) \ | ||
| 237 | || (defined(SOL_SAFE_FUNCTION_OBJECTS) && (SOL_SAFE_FUNCTION_OBJECTS != 0)) | ||
| 238 | #define SOL_SAFE_FUNCTION_OBJECTS_I_ SOL_ON | ||
| 239 | #else | ||
| 240 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 241 | #define SOL_SAFE_FUNCTION_OBJECTS_I_ SOL_ON | ||
| 242 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 243 | #define SOL_SAFE_FUNCTION_OBJECTS_I_ SOL_DEFAULT_ON | ||
| 244 | #else | ||
| 245 | #define SOL_SAFE_FUNCTION_OBJECTS_I_ SOL_DEFAULT_OFF | ||
| 246 | #endif | ||
| 247 | #endif | ||
| 248 | |||
| 249 | #if defined(SOL_SAFE_FUNCTION_CALLS) && (SOL_SAFE_FUNCTION_CALLS != 0) | ||
| 250 | #define SOL_SAFE_FUNCTION_CALLS_I_ SOL_ON | ||
| 251 | #else | ||
| 252 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 253 | #define SOL_SAFE_FUNCTION_CALLS_I_ SOL_ON | ||
| 254 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 255 | #define SOL_SAFE_FUNCTION_CALLS_I_ SOL_DEFAULT_ON | ||
| 256 | #else | ||
| 257 | #define SOL_SAFE_FUNCTION_CALLS_I_ SOL_DEFAULT_OFF | ||
| 258 | #endif | ||
| 259 | #endif | ||
| 260 | |||
| 261 | #if defined(SOL_SAFE_PROXIES) && (SOL_SAFE_PROXIES != 0) | ||
| 262 | #define SOL_SAFE_PROXIES_I_ SOL_ON | ||
| 263 | #else | ||
| 264 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 265 | #define SOL_SAFE_PROXIES_I_ SOL_ON | ||
| 266 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 267 | #define SOL_SAFE_PROXIES_I_ SOL_DEFAULT_ON | ||
| 268 | #else | ||
| 269 | #define SOL_SAFE_PROXIES_I_ SOL_DEFAULT_OFF | ||
| 270 | #endif | ||
| 271 | #endif | ||
| 272 | |||
| 273 | #if defined(SOL_SAFE_NUMERICS) && (SOL_SAFE_NUMERICS != 0) | ||
| 274 | #define SOL_SAFE_NUMERICS_I_ SOL_ON | ||
| 275 | #else | ||
| 276 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 277 | #define SOL_SAFE_NUMERICS_I_ SOL_ON | ||
| 278 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 279 | #define SOL_SAFE_NUMERICS_I_ SOL_DEFAULT_ON | ||
| 280 | #else | ||
| 281 | #define SOL_SAFE_NUMERICS_I_ SOL_DEFAULT_OFF | ||
| 282 | #endif | ||
| 283 | #endif | ||
| 284 | |||
| 285 | #if defined(SOL_SAFE_STACK_CHECK) && (SOL_SAFE_STACK_CHECK != 0) | ||
| 286 | #define SOL_SAFE_STACK_CHECK_I_ SOL_ON | ||
| 287 | #else | ||
| 288 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 289 | #define SOL_SAFE_STACK_CHECK_I_ SOL_ON | ||
| 290 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 291 | #define SOL_SAFE_STACK_CHECK_I_ SOL_DEFAULT_ON | ||
| 292 | #else | ||
| 293 | #define SOL_SAFE_STACK_CHECK_I_ SOL_DEFAULT_OFF | ||
| 294 | #endif | ||
| 295 | #endif | ||
| 296 | |||
| 297 | #if (defined(SOL_NO_CHECK_NUMBER_PRECISION) && (SOL_NO_CHECK_NUMBER_PRECISION != 0)) \ | ||
| 298 | || (defined(SOL_NO_CHECKING_NUMBER_PRECISION) && (SOL_NO_CHECKING_NUMBER_PRECISION != 0)) | ||
| 299 | #define SOL_NUMBER_PRECISION_CHECKS_I_ SOL_OFF | ||
| 300 | #else | ||
| 301 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 302 | #define SOL_NUMBER_PRECISION_CHECKS_I_ SOL_ON | ||
| 303 | #elif SOL_IS_ON(SOL_SAFE_NUMERICS_I_) | ||
| 304 | #define SOL_NUMBER_PRECISION_CHECKS_I_ SOL_ON | ||
| 305 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 306 | #define SOL_NUMBER_PRECISION_CHECKS_I_ SOL_DEFAULT_ON | ||
| 307 | #else | ||
| 308 | #define SOL_NUMBER_PRECISION_CHECKS_I_ SOL_DEFAULT_OFF | ||
| 309 | #endif | ||
| 310 | #endif | ||
| 311 | |||
| 312 | #if defined(SOL_STRINGS_ARE_NUMBERS) | ||
| 313 | #if (SOL_STRINGS_ARE_NUMBERS != 0) | ||
| 314 | #define SOL_STRINGS_ARE_NUMBERS_I_ SOL_ON | ||
| 315 | #else | ||
| 316 | #define SOL_STRINGS_ARE_NUMBERS_I_ SOL_OFF | ||
| 317 | #endif | ||
| 318 | #else | ||
| 319 | #define SOL_STRINGS_ARE_NUMBERS_I_ SOL_DEFAULT_OFF | ||
| 320 | #endif | ||
| 321 | |||
| 322 | #if defined(SOL_ENABLE_INTEROP) && (SOL_ENABLE_INTEROP != 0) \ | ||
| 323 | || defined(SOL_USE_INTEROP) && (SOL_USE_INTEROP != 0) | ||
| 324 | #define SOL_USE_INTEROP_I_ SOL_ON | ||
| 325 | #else | ||
| 326 | #define SOL_USE_INTEROP_I_ SOL_DEFAULT_OFF | ||
| 327 | #endif | ||
| 328 | |||
| 329 | #if defined(SOL_NO_NIL) | ||
| 330 | #if (SOL_NO_NIL != 0) | ||
| 331 | #define SOL_NIL_I_ SOL_OFF | ||
| 332 | #else | ||
| 333 | #define SOL_NIL_I_ SOL_ON | ||
| 334 | #endif | ||
| 335 | #elif defined(__MAC_OS_X_VERSION_MAX_ALLOWED) || defined(__OBJC__) || defined(nil) | ||
| 336 | #define SOL_NIL_I_ SOL_DEFAULT_OFF | ||
| 337 | #else | ||
| 338 | #define SOL_NIL_I_ SOL_DEFAULT_ON | ||
| 339 | #endif | ||
| 340 | |||
| 341 | #if defined(SOL_USERTYPE_TYPE_BINDING_INFO) | ||
| 342 | #if (SOL_USERTYPE_TYPE_BINDING_INFO != 0) | ||
| 343 | #define SOL_USERTYPE_TYPE_BINDING_INFO_I_ SOL_ON | ||
| 344 | #else | ||
| 345 | #define SOL_USERTYPE_TYPE_BINDING_INFO_I_ SOL_OFF | ||
| 346 | #endif | ||
| 347 | #else | ||
| 348 | #define SOL_USERTYPE_TYPE_BINDING_INFO_I_ SOL_DEFAULT_ON | ||
| 349 | #endif // We should generate a my_type.__type table with lots of class information for usertypes | ||
| 350 | |||
| 351 | #if defined(SOL_AUTOMAGICAL_TYPES_BY_DEFAULT) | ||
| 352 | #if (SOL_AUTOMAGICAL_TYPES_BY_DEFAULT != 0) | ||
| 353 | #define SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_ SOL_ON | ||
| 354 | #else | ||
| 355 | #define SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_ SOL_OFF | ||
| 356 | #endif | ||
| 357 | #elif defined(SOL_DEFAULT_AUTOMAGICAL_USERTYPES) | ||
| 358 | #if (SOL_DEFAULT_AUTOMAGICAL_USERTYPES != 0) | ||
| 359 | #define SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_ SOL_ON | ||
| 360 | #else | ||
| 361 | #define SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_ SOL_OFF | ||
| 362 | #endif | ||
| 363 | #else | ||
| 364 | #define SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_ SOL_DEFAULT_ON | ||
| 365 | #endif // make is_automagical on/off by default | ||
| 366 | |||
| 367 | #if defined(SOL_STD_VARIANT) | ||
| 368 | #if (SOL_STD_VARIANT != 0) | ||
| 369 | #define SOL_STD_VARIANT_I_ SOL_ON | ||
| 370 | #else | ||
| 371 | #define SOL_STD_VARIANT_I_ SOL_OFF | ||
| 372 | #endif | ||
| 373 | #else | ||
| 374 | #if SOL_IS_ON(SOL_COMPILER_CLANG_I_) && SOL_IS_ON(SOL_PLATFORM_APPLE_I_) | ||
| 375 | #if defined(__has_include) | ||
| 376 | #if __has_include(<variant>) | ||
| 377 | #define SOL_STD_VARIANT_I_ SOL_ON | ||
| 378 | #else | ||
| 379 | #define SOL_STD_VARIANT_I_ SOL_OFF | ||
| 380 | #endif | ||
| 381 | #else | ||
| 382 | #define SOL_STD_VARIANT_I_ SOL_OFF | ||
| 383 | #endif | ||
| 384 | #else | ||
| 385 | #define SOL_STD_VARIANT_I_ SOL_DEFAULT_ON | ||
| 386 | #endif | ||
| 387 | #endif // make is_automagical on/off by default | ||
| 388 | |||
| 389 | #if defined(SOL_NOEXCEPT_FUNCTION_TYPE) | ||
| 390 | #if (SOL_NOEXCEPT_FUNCTION_TYPE != 0) | ||
| 391 | #define SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_ SOL_ON | ||
| 392 | #else | ||
| 393 | #define SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_ SOL_OFF | ||
| 394 | #endif | ||
| 395 | #else | ||
| 396 | #if defined(__cpp_noexcept_function_type) | ||
| 397 | #define SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_ SOL_ON | ||
| 398 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) && (defined(_MSVC_LANG) && (_MSVC_LANG < 201403L)) | ||
| 399 | // There is a bug in the VC++ compiler?? | ||
| 400 | // on /std:c++latest under x86 conditions (VS 15.5.2), | ||
| 401 | // compiler errors are tossed for noexcept markings being on function types | ||
| 402 | // that are identical in every other way to their non-noexcept marked types function types... | ||
| 403 | // VS 2019: There is absolutely a bug. | ||
| 404 | #define SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_ SOL_OFF | ||
| 405 | #else | ||
| 406 | #define SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_ SOL_DEFAULT_ON | ||
| 407 | #endif | ||
| 408 | #endif // noexcept is part of a function's type | ||
| 409 | |||
| 410 | #if defined(SOL_STACK_STRING_OPTIMIZATION_SIZE) && SOL_STACK_STRING_OPTIMIZATION_SIZE > 0 | ||
| 411 | #define SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_ SOL_STACK_STRING_OPTIMIZATION_SIZE | ||
| 412 | #else | ||
| 413 | #define SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_ 1024 | ||
| 414 | #endif | ||
| 415 | |||
| 416 | #if defined(SOL_ID_SIZE) && SOL_ID_SIZE > 0 | ||
| 417 | #define SOL_ID_SIZE_I_ SOL_ID_SIZE | ||
| 418 | #else | ||
| 419 | #define SOL_ID_SIZE_I_ 512 | ||
| 420 | #endif | ||
| 421 | |||
| 422 | #if defined(LUA_IDSIZE) && LUA_IDSIZE > 0 | ||
| 423 | #define SOL_FILE_ID_SIZE_I_ LUA_IDSIZE | ||
| 424 | #elif defined(SOL_ID_SIZE) && SOL_ID_SIZE > 0 | ||
| 425 | #define SOL_FILE_ID_SIZE_I_ SOL_FILE_ID_SIZE | ||
| 426 | #else | ||
| 427 | #define SOL_FILE_ID_SIZE_I_ 2048 | ||
| 428 | #endif | ||
| 429 | |||
| 430 | #if defined(SOL_PRINT_ERRORS) | ||
| 431 | #if (SOL_PRINT_ERRORS != 0) | ||
| 432 | #define SOL_PRINT_ERRORS_I_ SOL_ON | ||
| 433 | #else | ||
| 434 | #define SOL_PRINT_ERRORS_I_ SOL_OFF | ||
| 435 | #endif | ||
| 436 | #else | ||
| 437 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 438 | #define SOL_PRINT_ERRORS_I_ SOL_ON | ||
| 439 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 440 | #define SOL_PRINT_ERRORS_I_ SOL_DEFAULT_ON | ||
| 441 | #else | ||
| 442 | #define SOL_PRINT_ERRORS_I_ SOL_OFF | ||
| 443 | #endif | ||
| 444 | #endif | ||
| 445 | |||
| 446 | #if defined(SOL_DEFAULT_PASS_ON_ERROR) && (SOL_DEFAULT_PASS_ON_ERROR != 0) | ||
| 447 | #define SOL_DEFAULT_PASS_ON_ERROR_I_ SOL_ON | ||
| 448 | #else | ||
| 449 | #if SOL_IS_ON(SOL_ALL_SAFETIES_ON_I_) | ||
| 450 | #define SOL_DEFAULT_PASS_ON_ERROR_I_ SOL_ON | ||
| 451 | #elif SOL_IS_ON(SOL_DEBUG_BUILD_I_) | ||
| 452 | #define SOL_DEFAULT_PASS_ON_ERROR_I_ SOL_DEFAULT_ON | ||
| 453 | #else | ||
| 454 | #define SOL_DEFAULT_PASS_ON_ERROR_I_ SOL_OFF | ||
| 455 | #endif | ||
| 456 | #endif | ||
| 457 | |||
| 458 | #if defined(SOL_USING_CXX_LUA) | ||
| 459 | #if (SOL_USING_CXX_LUA != 0) | ||
| 460 | #define SOL_USE_CXX_LUA_I_ SOL_ON | ||
| 461 | #else | ||
| 462 | #define SOL_USE_CXX_LUA_I_ SOL_OFF | ||
| 463 | #endif | ||
| 464 | #elif defined(SOL_USE_CXX_LUA) | ||
| 465 | #if (SOL_USE_CXX_LUA != 0) | ||
| 466 | #define SOL_USE_CXX_LUA_I_ SOL_ON | ||
| 467 | #else | ||
| 468 | #define SOL_USE_CXX_LUA_I_ SOL_OFF | ||
| 469 | #endif | ||
| 470 | #else | ||
| 471 | #define SOL_USE_CXX_LUA_I_ SOL_OFF | ||
| 472 | #endif | ||
| 473 | |||
| 474 | #if defined(SOL_USING_CXX_LUAJIT) | ||
| 475 | #if (SOL_USING_CXX_LUA != 0) | ||
| 476 | #define SOL_USE_CXX_LUAJIT_I_ SOL_ON | ||
| 477 | #else | ||
| 478 | #define SOL_USE_CXX_LUAJIT_I_ SOL_OFF | ||
| 479 | #endif | ||
| 480 | #elif defined(SOL_USE_CXX_LUAJIT) | ||
| 481 | #if (SOL_USE_CXX_LUA != 0) | ||
| 482 | #define SOL_USE_CXX_LUAJIT_I_ SOL_ON | ||
| 483 | #else | ||
| 484 | #define SOL_USE_CXX_LUAJIT_I_ SOL_OFF | ||
| 485 | #endif | ||
| 486 | #else | ||
| 487 | #define SOL_USE_CXX_LUAJIT_I_ SOL_OFF | ||
| 488 | #endif | ||
| 489 | |||
| 490 | #if defined(SOL_NO_LUA_HPP) | ||
| 491 | #if (SOL_NO_LUA_HPP != 0) | ||
| 492 | #define SOL_USE_LUA_HPP_I_ SOL_OFF | ||
| 493 | #else | ||
| 494 | #define SOL_USE_LUA_HPP_I_ SOL_ON | ||
| 495 | #endif | ||
| 496 | #elif defined(SOL_USING_CXX_LUA) | ||
| 497 | #define SOL_USE_LUA_HPP_I_ SOL_OFF | ||
| 498 | #elif defined(__has_include) | ||
| 499 | #if __has_include(<lua.hpp>) | ||
| 500 | #define SOL_USE_LUA_HPP_I_ SOL_ON | ||
| 501 | #else | ||
| 502 | #define SOL_USE_LUA_HPP_I_ SOL_OFF | ||
| 503 | #endif | ||
| 504 | #else | ||
| 505 | #define SOL_USE_LUA_HPP_I_ SOL_DEFAULT_ON | ||
| 506 | #endif | ||
| 507 | |||
| 508 | #if defined(SOL_CONTAINERS_START) | ||
| 509 | #define SOL_CONTAINER_START_INDEX_I_ SOL_CONTAINERS_START | ||
| 510 | #elif defined(SOL_CONTAINERS_START_INDEX) | ||
| 511 | #define SOL_CONTAINER_START_INDEX_I_ SOL_CONTAINERS_START_INDEX | ||
| 512 | #elif defined(SOL_CONTAINER_START_INDEX) | ||
| 513 | #define SOL_CONTAINER_START_INDEX_I_ SOL_CONTAINER_START_INDEX | ||
| 514 | #else | ||
| 515 | #define SOL_CONTAINER_START_INDEX_I_ 1 | ||
| 516 | #endif | ||
| 517 | |||
| 518 | #if defined (SOL_NO_MEMORY_ALIGNMENT) | ||
| 519 | #if (SOL_NO_MEMORY_ALIGNMENT != 0) | ||
| 520 | #define SOL_ALIGN_MEMORY_I_ SOL_OFF | ||
| 521 | #else | ||
| 522 | #define SOL_ALIGN_MEMORY_I_ SOL_ON | ||
| 523 | #endif | ||
| 524 | #else | ||
| 525 | #define SOL_ALIGN_MEMORY_I_ SOL_DEFAULT_ON | ||
| 526 | #endif | ||
| 527 | |||
| 528 | #if defined(SOL_USE_BOOST) | ||
| 529 | #if (SOL_USE_BOOST != 0) | ||
| 530 | #define SOL_USE_BOOST_I_ SOL_ON | ||
| 531 | #else | ||
| 532 | #define SOL_USE_BOOST_I_ SOL_OFF | ||
| 533 | #endif | ||
| 534 | #else | ||
| 535 | #define SOL_USE_BOOST_I_ SOL_OFF | ||
| 536 | #endif | ||
| 537 | |||
| 538 | #if defined(SOL_USE_UNSAFE_BASE_LOOKUP) | ||
| 539 | #if (SOL_USE_UNSAFE_BASE_LOOKUP != 0) | ||
| 540 | #define SOL_USE_UNSAFE_BASE_LOOKUP_I_ SOL_ON | ||
| 541 | #else | ||
| 542 | #define SOL_USE_UNSAFE_BASE_LOOKUP_I_ SOL_OFF | ||
| 543 | #endif | ||
| 544 | #else | ||
| 545 | #define SOL_USE_UNSAFE_BASE_LOOKUP_I_ SOL_OFF | ||
| 546 | #endif | ||
| 547 | |||
| 548 | #if defined(SOL_INSIDE_UNREAL) | ||
| 549 | #if (SOL_INSIDE_UNREAL != 0) | ||
| 550 | #define SOL_INSIDE_UNREAL_ENGINE_I_ SOL_ON | ||
| 551 | #else | ||
| 552 | #define SOL_INSIDE_UNREAL_ENGINE_I_ SOL_OFF | ||
| 553 | #endif | ||
| 554 | #else | ||
| 555 | #if defined(UE_BUILD_DEBUG) || defined(UE_BUILD_DEVELOPMENT) || defined(UE_BUILD_TEST) || defined(UE_BUILD_SHIPPING) || defined(UE_SERVER) | ||
| 556 | #define SOL_INSIDE_UNREAL_ENGINE_I_ SOL_ON | ||
| 557 | #else | ||
| 558 | #define SOL_INSIDE_UNREAL_ENGINE_I_ SOL_DEFAULT_OFF | ||
| 559 | #endif | ||
| 560 | #endif | ||
| 561 | |||
| 562 | #if defined(SOL_NO_COMPAT) | ||
| 563 | #if (SOL_NO_COMPAT != 0) | ||
| 564 | #define SOL_USE_COMPATIBILITY_LAYER_I_ SOL_OFF | ||
| 565 | #else | ||
| 566 | #define SOL_USE_COMPATIBILITY_LAYER_I_ SOL_ON | ||
| 567 | #endif | ||
| 568 | #else | ||
| 569 | #define SOL_USE_COMPATIBILITY_LAYER_I_ SOL_DEFAULT_ON | ||
| 570 | #endif | ||
| 571 | |||
| 572 | #if defined(SOL_GET_FUNCTION_POINTER_UNSAFE) | ||
| 573 | #if (SOL_GET_FUNCTION_POINTER_UNSAFE != 0) | ||
| 574 | #define SOL_GET_FUNCTION_POINTER_UNSAFE_I_ SOL_ON | ||
| 575 | #else | ||
| 576 | #define SOL_GET_FUNCTION_POINTER_UNSAFE_I_ SOL_OFF | ||
| 577 | #endif | ||
| 578 | #else | ||
| 579 | #define SOL_GET_FUNCTION_POINTER_UNSAFE_I_ SOL_DEFAULT_OFF | ||
| 580 | #endif | ||
| 581 | |||
| 582 | #if SOL_IS_ON(SOL_COMPILER_FRONTEND_MINGW_I_) && defined(__GNUC__) && (__GNUC__ < 6) | ||
| 583 | // MinGW is off its rocker in some places... | ||
| 584 | #define SOL_MINGW_CCTYPE_IS_POISONED_I_ SOL_ON | ||
| 585 | #else | ||
| 586 | #define SOL_MINGW_CCTYPE_IS_POISONED_I_ SOL_DEFAULT_OFF | ||
| 587 | #endif | ||
| 588 | |||
| 589 | // end of sol/version.hpp | ||
| 590 | |||
| 591 | #if SOL_IS_ON(SOL_INSIDE_UNREAL_ENGINE_I_) | ||
| 592 | #ifdef check | ||
| 593 | #pragma push_macro("check") | ||
| 594 | #undef check | ||
| 595 | #endif | ||
| 596 | #endif // Unreal Engine 4 Bullshit | ||
| 597 | |||
| 598 | #if SOL_IS_ON(SOL_COMPILER_GCC_I_) | ||
| 599 | #pragma GCC diagnostic push | ||
| 600 | #pragma GCC diagnostic ignored "-Wshadow" | ||
| 601 | #pragma GCC diagnostic ignored "-Wconversion" | ||
| 602 | #if __GNUC__ > 6 | ||
| 603 | #pragma GCC diagnostic ignored "-Wnoexcept-type" | ||
| 604 | #endif | ||
| 605 | #elif SOL_IS_ON(SOL_COMPILER_CLANG_I_) | ||
| 606 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 607 | #pragma warning(push) | ||
| 608 | #pragma warning(disable : 4505) // unreferenced local function has been removed GEE THANKS | ||
| 609 | #endif // clang++ vs. g++ vs. VC++ | ||
| 610 | |||
| 611 | // beginning of sol/forward.hpp | ||
| 612 | |||
| 613 | #ifndef SOL_FORWARD_HPP | ||
| 614 | #define SOL_FORWARD_HPP | ||
| 615 | |||
| 616 | #include <utility> | ||
| 617 | #include <type_traits> | ||
| 618 | #include <string_view> | ||
| 619 | |||
| 620 | #if SOL_IS_ON(SOL_USE_CXX_LUA_I_) || SOL_IS_ON(SOL_USE_CXX_LUAJIT_I_) | ||
| 621 | struct lua_State; | ||
| 622 | #else | ||
| 623 | extern "C" { | ||
| 624 | struct lua_State; | ||
| 625 | } | ||
| 626 | #endif // C++ Mangling for Lua vs. Not | ||
| 627 | |||
| 628 | namespace sol { | ||
| 629 | |||
| 630 | enum class type; | ||
| 631 | |||
| 632 | class stateless_reference; | ||
| 633 | template <bool b> | ||
| 634 | class basic_reference; | ||
| 635 | using reference = basic_reference<false>; | ||
| 636 | using main_reference = basic_reference<true>; | ||
| 637 | class stateless_stack_reference; | ||
| 638 | class stack_reference; | ||
| 639 | |||
| 640 | template <typename A> | ||
| 641 | class basic_bytecode; | ||
| 642 | |||
| 643 | struct lua_value; | ||
| 644 | |||
| 645 | struct proxy_base_tag; | ||
| 646 | template <typename> | ||
| 647 | struct proxy_base; | ||
| 648 | template <typename, typename> | ||
| 649 | struct table_proxy; | ||
| 650 | |||
| 651 | template <bool, typename> | ||
| 652 | class basic_table_core; | ||
| 653 | template <bool b> | ||
| 654 | using table_core = basic_table_core<b, reference>; | ||
| 655 | template <bool b> | ||
| 656 | using main_table_core = basic_table_core<b, main_reference>; | ||
| 657 | template <bool b> | ||
| 658 | using stack_table_core = basic_table_core<b, stack_reference>; | ||
| 659 | template <typename base_type> | ||
| 660 | using basic_table = basic_table_core<false, base_type>; | ||
| 661 | using table = table_core<false>; | ||
| 662 | using global_table = table_core<true>; | ||
| 663 | using main_table = main_table_core<false>; | ||
| 664 | using main_global_table = main_table_core<true>; | ||
| 665 | using stack_table = stack_table_core<false>; | ||
| 666 | using stack_global_table = stack_table_core<true>; | ||
| 667 | |||
| 668 | template <typename> | ||
| 669 | struct basic_lua_table; | ||
| 670 | using lua_table = basic_lua_table<reference>; | ||
| 671 | using stack_lua_table = basic_lua_table<stack_reference>; | ||
| 672 | |||
| 673 | template <typename T, typename base_type> | ||
| 674 | class basic_usertype; | ||
| 675 | template <typename T> | ||
| 676 | using usertype = basic_usertype<T, reference>; | ||
| 677 | template <typename T> | ||
| 678 | using stack_usertype = basic_usertype<T, stack_reference>; | ||
| 679 | |||
| 680 | template <typename base_type> | ||
| 681 | class basic_metatable; | ||
| 682 | using metatable = basic_metatable<reference>; | ||
| 683 | using stack_metatable = basic_metatable<stack_reference>; | ||
| 684 | |||
| 685 | template <typename base_t> | ||
| 686 | struct basic_environment; | ||
| 687 | using environment = basic_environment<reference>; | ||
| 688 | using main_environment = basic_environment<main_reference>; | ||
| 689 | using stack_environment = basic_environment<stack_reference>; | ||
| 690 | |||
| 691 | template <typename T, bool> | ||
| 692 | class basic_function; | ||
| 693 | template <typename T, bool, typename H> | ||
| 694 | class basic_protected_function; | ||
| 695 | using unsafe_function = basic_function<reference, false>; | ||
| 696 | using safe_function = basic_protected_function<reference, false, reference>; | ||
| 697 | using main_unsafe_function = basic_function<main_reference, false>; | ||
| 698 | using main_safe_function = basic_protected_function<main_reference, false, reference>; | ||
| 699 | using stack_unsafe_function = basic_function<stack_reference, false>; | ||
| 700 | using stack_safe_function = basic_protected_function<stack_reference, false, reference>; | ||
| 701 | using stack_aligned_unsafe_function = basic_function<stack_reference, true>; | ||
| 702 | using stack_aligned_safe_function = basic_protected_function<stack_reference, true, reference>; | ||
| 703 | using protected_function = safe_function; | ||
| 704 | using main_protected_function = main_safe_function; | ||
| 705 | using stack_protected_function = stack_safe_function; | ||
| 706 | using stack_aligned_protected_function = stack_aligned_safe_function; | ||
| 707 | #if SOL_IS_ON(SOL_SAFE_FUNCTION_OBJECTS_I_) | ||
| 708 | using function = protected_function; | ||
| 709 | using main_function = main_protected_function; | ||
| 710 | using stack_function = stack_protected_function; | ||
| 711 | using stack_aligned_function = stack_aligned_safe_function; | ||
| 712 | #else | ||
| 713 | using function = unsafe_function; | ||
| 714 | using main_function = main_unsafe_function; | ||
| 715 | using stack_function = stack_unsafe_function; | ||
| 716 | using stack_aligned_function = stack_aligned_unsafe_function; | ||
| 717 | #endif | ||
| 718 | using stack_aligned_stack_handler_function = basic_protected_function<stack_reference, true, stack_reference>; | ||
| 719 | |||
| 720 | struct unsafe_function_result; | ||
| 721 | struct protected_function_result; | ||
| 722 | using safe_function_result = protected_function_result; | ||
| 723 | #if SOL_IS_ON(SOL_SAFE_FUNCTION_OBJECTS_I_) | ||
| 724 | using function_result = safe_function_result; | ||
| 725 | #else | ||
| 726 | using function_result = unsafe_function_result; | ||
| 727 | #endif | ||
| 728 | |||
| 729 | template <typename base_t> | ||
| 730 | class basic_object_base; | ||
| 731 | template <typename base_t> | ||
| 732 | class basic_object; | ||
| 733 | template <typename base_t> | ||
| 734 | class basic_userdata; | ||
| 735 | template <typename base_t> | ||
| 736 | class basic_lightuserdata; | ||
| 737 | template <typename base_t> | ||
| 738 | class basic_coroutine; | ||
| 739 | template <typename base_t> | ||
| 740 | class basic_thread; | ||
| 741 | |||
| 742 | using object = basic_object<reference>; | ||
| 743 | using userdata = basic_userdata<reference>; | ||
| 744 | using lightuserdata = basic_lightuserdata<reference>; | ||
| 745 | using thread = basic_thread<reference>; | ||
| 746 | using coroutine = basic_coroutine<reference>; | ||
| 747 | using main_object = basic_object<main_reference>; | ||
| 748 | using main_userdata = basic_userdata<main_reference>; | ||
| 749 | using main_lightuserdata = basic_lightuserdata<main_reference>; | ||
| 750 | using main_coroutine = basic_coroutine<main_reference>; | ||
| 751 | using stack_object = basic_object<stack_reference>; | ||
| 752 | using stack_userdata = basic_userdata<stack_reference>; | ||
| 753 | using stack_lightuserdata = basic_lightuserdata<stack_reference>; | ||
| 754 | using stack_thread = basic_thread<stack_reference>; | ||
| 755 | using stack_coroutine = basic_coroutine<stack_reference>; | ||
| 756 | |||
| 757 | struct stack_proxy_base; | ||
| 758 | struct stack_proxy; | ||
| 759 | struct variadic_args; | ||
| 760 | struct variadic_results; | ||
| 761 | struct stack_count; | ||
| 762 | struct this_state; | ||
| 763 | struct this_main_state; | ||
| 764 | struct this_environment; | ||
| 765 | |||
| 766 | class state_view; | ||
| 767 | class state; | ||
| 768 | |||
| 769 | template <typename T> | ||
| 770 | struct as_table_t; | ||
| 771 | template <typename T> | ||
| 772 | struct as_container_t; | ||
| 773 | template <typename T> | ||
| 774 | struct nested; | ||
| 775 | template <typename T> | ||
| 776 | struct light; | ||
| 777 | template <typename T> | ||
| 778 | struct user; | ||
| 779 | template <typename T> | ||
| 780 | struct as_args_t; | ||
| 781 | template <typename T> | ||
| 782 | struct protect_t; | ||
| 783 | template <typename F, typename... Policies> | ||
| 784 | struct policy_wrapper; | ||
| 785 | |||
| 786 | template <typename T> | ||
| 787 | struct usertype_traits; | ||
| 788 | template <typename T> | ||
| 789 | struct unique_usertype_traits; | ||
| 790 | |||
| 791 | template <typename... Args> | ||
| 792 | struct types { | ||
| 793 | typedef std::make_index_sequence<sizeof...(Args)> indices; | ||
| 794 | static constexpr std::size_t size() { | ||
| 795 | return sizeof...(Args); | ||
| 796 | } | ||
| 797 | }; | ||
| 798 | |||
| 799 | template <typename T> | ||
| 800 | struct derive : std::false_type { | ||
| 801 | typedef types<> type; | ||
| 802 | }; | ||
| 803 | |||
| 804 | template <typename T> | ||
| 805 | struct base : std::false_type { | ||
| 806 | typedef types<> type; | ||
| 807 | }; | ||
| 808 | |||
| 809 | template <typename T> | ||
| 810 | struct weak_derive { | ||
| 811 | static bool value; | ||
| 812 | }; | ||
| 813 | |||
| 814 | template <typename T> | ||
| 815 | bool weak_derive<T>::value = false; | ||
| 816 | |||
| 817 | namespace stack { | ||
| 818 | struct record; | ||
| 819 | } | ||
| 820 | |||
| 821 | #if SOL_IS_OFF(SOL_USE_BOOST_I_) | ||
| 822 | template <class T> | ||
| 823 | class optional; | ||
| 824 | |||
| 825 | template <class T> | ||
| 826 | class optional<T&>; | ||
| 827 | #endif | ||
| 828 | |||
| 829 | using check_handler_type = int(lua_State*, int, type, type, const char*); | ||
| 830 | |||
| 831 | } // namespace sol | ||
| 832 | |||
| 833 | #define SOL_BASE_CLASSES(T, ...) \ | ||
| 834 | namespace sol { \ | ||
| 835 | template <> \ | ||
| 836 | struct base<T> : std::true_type { \ | ||
| 837 | typedef ::sol::types<__VA_ARGS__> type; \ | ||
| 838 | }; \ | ||
| 839 | } \ | ||
| 840 | void a_sol3_detail_function_decl_please_no_collide() | ||
| 841 | #define SOL_DERIVED_CLASSES(T, ...) \ | ||
| 842 | namespace sol { \ | ||
| 843 | template <> \ | ||
| 844 | struct derive<T> : std::true_type { \ | ||
| 845 | typedef ::sol::types<__VA_ARGS__> type; \ | ||
| 846 | }; \ | ||
| 847 | } \ | ||
| 848 | void a_sol3_detail_function_decl_please_no_collide() | ||
| 849 | |||
| 850 | #endif // SOL_FORWARD_HPP | ||
| 851 | // end of sol/forward.hpp | ||
| 852 | |||
| 853 | // beginning of sol/forward_detail.hpp | ||
| 854 | |||
| 855 | #ifndef SOL_FORWARD_DETAIL_HPP | ||
| 856 | #define SOL_FORWARD_DETAIL_HPP | ||
| 857 | |||
| 858 | // beginning of sol/traits.hpp | ||
| 859 | |||
| 860 | // beginning of sol/tuple.hpp | ||
| 861 | |||
| 862 | // beginning of sol/base_traits.hpp | ||
| 863 | |||
| 864 | #include <type_traits> | ||
| 865 | |||
| 866 | namespace sol { | ||
| 867 | namespace detail { | ||
| 868 | struct unchecked_t {}; | ||
| 869 | const unchecked_t unchecked = unchecked_t{}; | ||
| 870 | } // namespace detail | ||
| 871 | |||
| 872 | namespace meta { | ||
| 873 | using sfinae_yes_t = std::true_type; | ||
| 874 | using sfinae_no_t = std::false_type; | ||
| 875 | |||
| 876 | template <typename T> | ||
| 877 | using void_t = void; | ||
| 878 | |||
| 879 | template <typename T> | ||
| 880 | using unqualified = std::remove_cv<std::remove_reference_t<T>>; | ||
| 881 | |||
| 882 | template <typename T> | ||
| 883 | using unqualified_t = typename unqualified<T>::type; | ||
| 884 | |||
| 885 | namespace meta_detail { | ||
| 886 | template <typename T> | ||
| 887 | struct unqualified_non_alias : unqualified<T> {}; | ||
| 888 | |||
| 889 | template <template <class...> class Test, class, class... Args> | ||
| 890 | struct is_detected : std::false_type {}; | ||
| 891 | |||
| 892 | template <template <class...> class Test, class... Args> | ||
| 893 | struct is_detected<Test, void_t<Test<Args...>>, Args...> : std::true_type {}; | ||
| 894 | } // namespace meta_detail | ||
| 895 | |||
| 896 | template <template <class...> class Trait, class... Args> | ||
| 897 | using is_detected = typename meta_detail::is_detected<Trait, void, Args...>::type; | ||
| 898 | |||
| 899 | template <template <class...> class Trait, class... Args> | ||
| 900 | constexpr inline bool is_detected_v = is_detected<Trait, Args...>::value; | ||
| 901 | |||
| 902 | template <std::size_t I> | ||
| 903 | using index_value = std::integral_constant<std::size_t, I>; | ||
| 904 | |||
| 905 | template <bool> | ||
| 906 | struct conditional { | ||
| 907 | template <typename T, typename U> | ||
| 908 | using type = T; | ||
| 909 | }; | ||
| 910 | |||
| 911 | template <> | ||
| 912 | struct conditional<false> { | ||
| 913 | template <typename T, typename U> | ||
| 914 | using type = U; | ||
| 915 | }; | ||
| 916 | |||
| 917 | template <bool B, typename T, typename U> | ||
| 918 | using conditional_t = typename conditional<B>::template type<T, U>; | ||
| 919 | |||
| 920 | namespace meta_detail { | ||
| 921 | template <typename T, template <typename...> class Templ> | ||
| 922 | struct is_specialization_of : std::false_type {}; | ||
| 923 | template <typename... T, template <typename...> class Templ> | ||
| 924 | struct is_specialization_of<Templ<T...>, Templ> : std::true_type {}; | ||
| 925 | } // namespace meta_detail | ||
| 926 | |||
| 927 | template <typename T, template <typename...> class Templ> | ||
| 928 | using is_specialization_of = meta_detail::is_specialization_of<std::remove_cv_t<T>, Templ>; | ||
| 929 | |||
| 930 | template <typename T, template <typename...> class Templ> | ||
| 931 | inline constexpr bool is_specialization_of_v = is_specialization_of<std::remove_cv_t<T>, Templ>::value; | ||
| 932 | |||
| 933 | template <typename T> | ||
| 934 | struct identity { | ||
| 935 | typedef T type; | ||
| 936 | }; | ||
| 937 | |||
| 938 | template <typename T> | ||
| 939 | using identity_t = typename identity<T>::type; | ||
| 940 | |||
| 941 | template <typename T> | ||
| 942 | using is_builtin_type = std::integral_constant<bool, std::is_arithmetic<T>::value || std::is_pointer<T>::value || std::is_array<T>::value>; | ||
| 943 | |||
| 944 | } // namespace meta | ||
| 945 | } // namespace sol | ||
| 946 | |||
| 947 | // end of sol/base_traits.hpp | ||
| 948 | |||
| 949 | #include <tuple> | ||
| 950 | #include <cstddef> | ||
| 951 | |||
| 952 | namespace sol { | ||
| 953 | namespace detail { | ||
| 954 | using swallow = std::initializer_list<int>; | ||
| 955 | } // namespace detail | ||
| 956 | |||
| 957 | namespace meta { | ||
| 958 | template <typename T> | ||
| 959 | using is_tuple = is_specialization_of<T, std::tuple>; | ||
| 960 | |||
| 961 | template <typename T> | ||
| 962 | constexpr inline bool is_tuple_v = is_tuple<T>::value; | ||
| 963 | |||
| 964 | namespace detail { | ||
| 965 | template <typename... Args> | ||
| 966 | struct tuple_types_ { typedef types<Args...> type; }; | ||
| 967 | |||
| 968 | template <typename... Args> | ||
| 969 | struct tuple_types_<std::tuple<Args...>> { typedef types<Args...> type; }; | ||
| 970 | } // namespace detail | ||
| 971 | |||
| 972 | template <typename... Args> | ||
| 973 | using tuple_types = typename detail::tuple_types_<Args...>::type; | ||
| 974 | |||
| 975 | template <typename Arg> | ||
| 976 | struct pop_front_type; | ||
| 977 | |||
| 978 | template <typename Arg> | ||
| 979 | using pop_front_type_t = typename pop_front_type<Arg>::type; | ||
| 980 | |||
| 981 | template <typename... Args> | ||
| 982 | struct pop_front_type<types<Args...>> { | ||
| 983 | typedef void front_type; | ||
| 984 | typedef types<Args...> type; | ||
| 985 | }; | ||
| 986 | |||
| 987 | template <typename Arg, typename... Args> | ||
| 988 | struct pop_front_type<types<Arg, Args...>> { | ||
| 989 | typedef Arg front_type; | ||
| 990 | typedef types<Args...> type; | ||
| 991 | }; | ||
| 992 | |||
| 993 | template <std::size_t N, typename Tuple> | ||
| 994 | using tuple_element = std::tuple_element<N, std::remove_reference_t<Tuple>>; | ||
| 995 | |||
| 996 | template <std::size_t N, typename Tuple> | ||
| 997 | using tuple_element_t = std::tuple_element_t<N, std::remove_reference_t<Tuple>>; | ||
| 998 | |||
| 999 | template <std::size_t N, typename Tuple> | ||
| 1000 | using unqualified_tuple_element = unqualified<tuple_element_t<N, Tuple>>; | ||
| 1001 | |||
| 1002 | template <std::size_t N, typename Tuple> | ||
| 1003 | using unqualified_tuple_element_t = unqualified_t<tuple_element_t<N, Tuple>>; | ||
| 1004 | |||
| 1005 | } // namespace meta | ||
| 1006 | } // namespace sol | ||
| 1007 | |||
| 1008 | // end of sol/tuple.hpp | ||
| 1009 | |||
| 1010 | // beginning of sol/bind_traits.hpp | ||
| 1011 | |||
| 1012 | namespace sol { namespace meta { | ||
| 1013 | namespace meta_detail { | ||
| 1014 | |||
| 1015 | template <class F> | ||
| 1016 | struct check_deducible_signature { | ||
| 1017 | struct nat {}; | ||
| 1018 | template <class G> | ||
| 1019 | static auto test(int) -> decltype(&G::operator(), void()); | ||
| 1020 | template <class> | ||
| 1021 | static auto test(...) -> nat; | ||
| 1022 | |||
| 1023 | using type = std::is_void<decltype(test<F>(0))>; | ||
| 1024 | }; | ||
| 1025 | } // namespace meta_detail | ||
| 1026 | |||
| 1027 | template <class F> | ||
| 1028 | struct has_deducible_signature : meta_detail::check_deducible_signature<F>::type {}; | ||
| 1029 | |||
| 1030 | namespace meta_detail { | ||
| 1031 | |||
| 1032 | template <std::size_t I, typename T> | ||
| 1033 | struct void_tuple_element : meta::tuple_element<I, T> {}; | ||
| 1034 | |||
| 1035 | template <std::size_t I> | ||
| 1036 | struct void_tuple_element<I, std::tuple<>> { | ||
| 1037 | typedef void type; | ||
| 1038 | }; | ||
| 1039 | |||
| 1040 | template <std::size_t I, typename T> | ||
| 1041 | using void_tuple_element_t = typename void_tuple_element<I, T>::type; | ||
| 1042 | |||
| 1043 | template <bool it_is_noexcept, bool has_c_variadic, typename T, typename R, typename... Args> | ||
| 1044 | struct basic_traits { | ||
| 1045 | private: | ||
| 1046 | using first_type = meta::conditional_t<std::is_void<T>::value, int, T>&; | ||
| 1047 | |||
| 1048 | public: | ||
| 1049 | inline static constexpr const bool is_noexcept = it_is_noexcept; | ||
| 1050 | inline static constexpr bool is_member_function = std::is_void<T>::value; | ||
| 1051 | inline static constexpr bool has_c_var_arg = has_c_variadic; | ||
| 1052 | inline static constexpr std::size_t arity = sizeof...(Args); | ||
| 1053 | inline static constexpr std::size_t free_arity = sizeof...(Args) + static_cast<std::size_t>(!std::is_void<T>::value); | ||
| 1054 | typedef types<Args...> args_list; | ||
| 1055 | typedef std::tuple<Args...> args_tuple; | ||
| 1056 | typedef T object_type; | ||
| 1057 | typedef R return_type; | ||
| 1058 | typedef tuple_types<R> returns_list; | ||
| 1059 | typedef R(function_type)(Args...); | ||
| 1060 | typedef meta::conditional_t<std::is_void<T>::value, args_list, types<first_type, Args...>> free_args_list; | ||
| 1061 | typedef meta::conditional_t<std::is_void<T>::value, R(Args...), R(first_type, Args...)> free_function_type; | ||
| 1062 | typedef meta::conditional_t<std::is_void<T>::value, R (*)(Args...), R (*)(first_type, Args...)> free_function_pointer_type; | ||
| 1063 | typedef std::remove_pointer_t<free_function_pointer_type> signature_type; | ||
| 1064 | template <std::size_t i> | ||
| 1065 | using arg_at = void_tuple_element_t<i, args_tuple>; | ||
| 1066 | }; | ||
| 1067 | |||
| 1068 | template <typename Signature, bool b = has_deducible_signature<Signature>::value> | ||
| 1069 | struct fx_traits : basic_traits<false, false, void, void> {}; | ||
| 1070 | |||
| 1071 | // Free Functions | ||
| 1072 | template <typename R, typename... Args> | ||
| 1073 | struct fx_traits<R(Args...), false> : basic_traits<false, false, void, R, Args...> { | ||
| 1074 | typedef R (*function_pointer_type)(Args...); | ||
| 1075 | }; | ||
| 1076 | |||
| 1077 | template <typename R, typename... Args> | ||
| 1078 | struct fx_traits<R (*)(Args...), false> : basic_traits<false, false, void, R, Args...> { | ||
| 1079 | typedef R (*function_pointer_type)(Args...); | ||
| 1080 | }; | ||
| 1081 | |||
| 1082 | template <typename R, typename... Args> | ||
| 1083 | struct fx_traits<R(Args..., ...), false> : basic_traits<false, true, void, R, Args...> { | ||
| 1084 | typedef R (*function_pointer_type)(Args..., ...); | ||
| 1085 | }; | ||
| 1086 | |||
| 1087 | template <typename R, typename... Args> | ||
| 1088 | struct fx_traits<R (*)(Args..., ...), false> : basic_traits<false, true, void, R, Args...> { | ||
| 1089 | typedef R (*function_pointer_type)(Args..., ...); | ||
| 1090 | }; | ||
| 1091 | |||
| 1092 | // Member Functions | ||
| 1093 | /* C-Style Variadics */ | ||
| 1094 | template <typename T, typename R, typename... Args> | ||
| 1095 | struct fx_traits<R (T::*)(Args...), false> : basic_traits<false, false, T, R, Args...> { | ||
| 1096 | typedef R (T::*function_pointer_type)(Args...); | ||
| 1097 | }; | ||
| 1098 | |||
| 1099 | template <typename T, typename R, typename... Args> | ||
| 1100 | struct fx_traits<R (T::*)(Args..., ...), false> : basic_traits<false, true, T, R, Args...> { | ||
| 1101 | typedef R (T::*function_pointer_type)(Args..., ...); | ||
| 1102 | }; | ||
| 1103 | |||
| 1104 | /* Const Volatile */ | ||
| 1105 | template <typename T, typename R, typename... Args> | ||
| 1106 | struct fx_traits<R (T::*)(Args...) const, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1107 | typedef R (T::*function_pointer_type)(Args...) const; | ||
| 1108 | }; | ||
| 1109 | |||
| 1110 | template <typename T, typename R, typename... Args> | ||
| 1111 | struct fx_traits<R (T::*)(Args..., ...) const, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1112 | typedef R (T::*function_pointer_type)(Args..., ...) const; | ||
| 1113 | }; | ||
| 1114 | |||
| 1115 | template <typename T, typename R, typename... Args> | ||
| 1116 | struct fx_traits<R (T::*)(Args...) const volatile, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1117 | typedef R (T::*function_pointer_type)(Args...) const volatile; | ||
| 1118 | }; | ||
| 1119 | |||
| 1120 | template <typename T, typename R, typename... Args> | ||
| 1121 | struct fx_traits<R (T::*)(Args..., ...) const volatile, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1122 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile; | ||
| 1123 | }; | ||
| 1124 | |||
| 1125 | /* Member Function Qualifiers */ | ||
| 1126 | template <typename T, typename R, typename... Args> | ||
| 1127 | struct fx_traits<R (T::*)(Args...)&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1128 | typedef R (T::*function_pointer_type)(Args...) &; | ||
| 1129 | }; | ||
| 1130 | |||
| 1131 | template <typename T, typename R, typename... Args> | ||
| 1132 | struct fx_traits<R (T::*)(Args..., ...)&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1133 | typedef R (T::*function_pointer_type)(Args..., ...) &; | ||
| 1134 | }; | ||
| 1135 | |||
| 1136 | template <typename T, typename R, typename... Args> | ||
| 1137 | struct fx_traits<R (T::*)(Args...) const&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1138 | typedef R (T::*function_pointer_type)(Args...) const&; | ||
| 1139 | }; | ||
| 1140 | |||
| 1141 | template <typename T, typename R, typename... Args> | ||
| 1142 | struct fx_traits<R (T::*)(Args..., ...) const&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1143 | typedef R (T::*function_pointer_type)(Args..., ...) const&; | ||
| 1144 | }; | ||
| 1145 | |||
| 1146 | template <typename T, typename R, typename... Args> | ||
| 1147 | struct fx_traits<R (T::*)(Args...) const volatile&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1148 | typedef R (T::*function_pointer_type)(Args...) const volatile&; | ||
| 1149 | }; | ||
| 1150 | |||
| 1151 | template <typename T, typename R, typename... Args> | ||
| 1152 | struct fx_traits<R (T::*)(Args..., ...) const volatile&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1153 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile&; | ||
| 1154 | }; | ||
| 1155 | |||
| 1156 | template <typename T, typename R, typename... Args> | ||
| 1157 | struct fx_traits<R (T::*)(Args...)&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1158 | typedef R (T::*function_pointer_type)(Args...) &&; | ||
| 1159 | }; | ||
| 1160 | |||
| 1161 | template <typename T, typename R, typename... Args> | ||
| 1162 | struct fx_traits<R (T::*)(Args..., ...)&&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1163 | typedef R (T::*function_pointer_type)(Args..., ...) &&; | ||
| 1164 | }; | ||
| 1165 | |||
| 1166 | template <typename T, typename R, typename... Args> | ||
| 1167 | struct fx_traits<R (T::*)(Args...) const&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1168 | typedef R (T::*function_pointer_type)(Args...) const&&; | ||
| 1169 | }; | ||
| 1170 | |||
| 1171 | template <typename T, typename R, typename... Args> | ||
| 1172 | struct fx_traits<R (T::*)(Args..., ...) const&&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1173 | typedef R (T::*function_pointer_type)(Args..., ...) const&&; | ||
| 1174 | }; | ||
| 1175 | |||
| 1176 | template <typename T, typename R, typename... Args> | ||
| 1177 | struct fx_traits<R (T::*)(Args...) const volatile&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1178 | typedef R (T::*function_pointer_type)(Args...) const volatile&&; | ||
| 1179 | }; | ||
| 1180 | |||
| 1181 | template <typename T, typename R, typename... Args> | ||
| 1182 | struct fx_traits<R (T::*)(Args..., ...) const volatile&&, false> : basic_traits<false, true, T, R, Args...> { | ||
| 1183 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile&&; | ||
| 1184 | }; | ||
| 1185 | |||
| 1186 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 1187 | |||
| 1188 | template <typename R, typename... Args> | ||
| 1189 | struct fx_traits<R(Args...) noexcept, false> : basic_traits<true, false, void, R, Args...> { | ||
| 1190 | typedef R (*function_pointer_type)(Args...) noexcept; | ||
| 1191 | }; | ||
| 1192 | |||
| 1193 | template <typename R, typename... Args> | ||
| 1194 | struct fx_traits<R (*)(Args...) noexcept, false> : basic_traits<true, false, void, R, Args...> { | ||
| 1195 | typedef R (*function_pointer_type)(Args...) noexcept; | ||
| 1196 | }; | ||
| 1197 | |||
| 1198 | template <typename R, typename... Args> | ||
| 1199 | struct fx_traits<R(Args..., ...) noexcept, false> : basic_traits<true, true, void, R, Args...> { | ||
| 1200 | typedef R (*function_pointer_type)(Args..., ...) noexcept; | ||
| 1201 | }; | ||
| 1202 | |||
| 1203 | template <typename R, typename... Args> | ||
| 1204 | struct fx_traits<R (*)(Args..., ...) noexcept, false> : basic_traits<true, true, void, R, Args...> { | ||
| 1205 | typedef R (*function_pointer_type)(Args..., ...) noexcept; | ||
| 1206 | }; | ||
| 1207 | |||
| 1208 | template <typename T, typename R, typename... Args> | ||
| 1209 | struct fx_traits<R (T::*)(Args...) noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1210 | typedef R (T::*function_pointer_type)(Args...) noexcept; | ||
| 1211 | }; | ||
| 1212 | |||
| 1213 | template <typename T, typename R, typename... Args> | ||
| 1214 | struct fx_traits<R (T::*)(Args..., ...) noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1215 | typedef R (T::*function_pointer_type)(Args..., ...) noexcept; | ||
| 1216 | }; | ||
| 1217 | |||
| 1218 | /* Const Volatile */ | ||
| 1219 | template <typename T, typename R, typename... Args> | ||
| 1220 | struct fx_traits<R (T::*)(Args...) const noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1221 | typedef R (T::*function_pointer_type)(Args...) const noexcept; | ||
| 1222 | }; | ||
| 1223 | |||
| 1224 | template <typename T, typename R, typename... Args> | ||
| 1225 | struct fx_traits<R (T::*)(Args..., ...) const noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1226 | typedef R (T::*function_pointer_type)(Args..., ...) const noexcept; | ||
| 1227 | }; | ||
| 1228 | |||
| 1229 | template <typename T, typename R, typename... Args> | ||
| 1230 | struct fx_traits<R (T::*)(Args...) const volatile noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1231 | typedef R (T::*function_pointer_type)(Args...) const volatile noexcept; | ||
| 1232 | }; | ||
| 1233 | |||
| 1234 | template <typename T, typename R, typename... Args> | ||
| 1235 | struct fx_traits<R (T::*)(Args..., ...) const volatile noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1236 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile noexcept; | ||
| 1237 | }; | ||
| 1238 | |||
| 1239 | template <typename T, typename R, typename... Args> | ||
| 1240 | struct fx_traits<R (T::*)(Args...) & noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1241 | typedef R (T::*function_pointer_type)(Args...) & noexcept; | ||
| 1242 | }; | ||
| 1243 | |||
| 1244 | template <typename T, typename R, typename... Args> | ||
| 1245 | struct fx_traits<R (T::*)(Args..., ...) & noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1246 | typedef R (T::*function_pointer_type)(Args..., ...) & noexcept; | ||
| 1247 | }; | ||
| 1248 | |||
| 1249 | template <typename T, typename R, typename... Args> | ||
| 1250 | struct fx_traits<R (T::*)(Args...) const& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1251 | typedef R (T::*function_pointer_type)(Args...) const& noexcept; | ||
| 1252 | }; | ||
| 1253 | |||
| 1254 | template <typename T, typename R, typename... Args> | ||
| 1255 | struct fx_traits<R (T::*)(Args..., ...) const& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1256 | typedef R (T::*function_pointer_type)(Args..., ...) const& noexcept; | ||
| 1257 | }; | ||
| 1258 | |||
| 1259 | template <typename T, typename R, typename... Args> | ||
| 1260 | struct fx_traits<R (T::*)(Args...) const volatile& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1261 | typedef R (T::*function_pointer_type)(Args...) const volatile& noexcept; | ||
| 1262 | }; | ||
| 1263 | |||
| 1264 | template <typename T, typename R, typename... Args> | ||
| 1265 | struct fx_traits<R (T::*)(Args..., ...) const volatile& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1266 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile& noexcept; | ||
| 1267 | }; | ||
| 1268 | |||
| 1269 | template <typename T, typename R, typename... Args> | ||
| 1270 | struct fx_traits<R (T::*)(Args...) && noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1271 | typedef R (T::*function_pointer_type)(Args...) && noexcept; | ||
| 1272 | }; | ||
| 1273 | |||
| 1274 | template <typename T, typename R, typename... Args> | ||
| 1275 | struct fx_traits<R (T::*)(Args..., ...) && noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1276 | typedef R (T::*function_pointer_type)(Args..., ...) && noexcept; | ||
| 1277 | }; | ||
| 1278 | |||
| 1279 | template <typename T, typename R, typename... Args> | ||
| 1280 | struct fx_traits<R (T::*)(Args...) const&& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1281 | typedef R (T::*function_pointer_type)(Args...) const&& noexcept; | ||
| 1282 | }; | ||
| 1283 | |||
| 1284 | template <typename T, typename R, typename... Args> | ||
| 1285 | struct fx_traits<R (T::*)(Args..., ...) const&& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1286 | typedef R (T::*function_pointer_type)(Args..., ...) const&& noexcept; | ||
| 1287 | }; | ||
| 1288 | |||
| 1289 | template <typename T, typename R, typename... Args> | ||
| 1290 | struct fx_traits<R (T::*)(Args...) const volatile&& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1291 | typedef R (T::*function_pointer_type)(Args...) const volatile&& noexcept; | ||
| 1292 | }; | ||
| 1293 | |||
| 1294 | template <typename T, typename R, typename... Args> | ||
| 1295 | struct fx_traits<R (T::*)(Args..., ...) const volatile&& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1296 | typedef R (T::*function_pointer_type)(Args..., ...) const volatile&& noexcept; | ||
| 1297 | }; | ||
| 1298 | |||
| 1299 | #endif // noexcept is part of a function's type | ||
| 1300 | |||
| 1301 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) && SOL_IS_ON(SOL_PLATFORM_X86_I_) | ||
| 1302 | template <typename R, typename... Args> | ||
| 1303 | struct fx_traits<R __stdcall(Args...), false> : basic_traits<false, false, void, R, Args...> { | ||
| 1304 | typedef R(__stdcall* function_pointer_type)(Args...); | ||
| 1305 | }; | ||
| 1306 | |||
| 1307 | template <typename R, typename... Args> | ||
| 1308 | struct fx_traits<R(__stdcall*)(Args...), false> : basic_traits<false, false, void, R, Args...> { | ||
| 1309 | typedef R(__stdcall* function_pointer_type)(Args...); | ||
| 1310 | }; | ||
| 1311 | |||
| 1312 | template <typename T, typename R, typename... Args> | ||
| 1313 | struct fx_traits<R (__stdcall T::*)(Args...), false> : basic_traits<false, false, T, R, Args...> { | ||
| 1314 | typedef R (__stdcall T::*function_pointer_type)(Args...); | ||
| 1315 | }; | ||
| 1316 | |||
| 1317 | /* Const Volatile */ | ||
| 1318 | template <typename T, typename R, typename... Args> | ||
| 1319 | struct fx_traits<R (__stdcall T::*)(Args...) const, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1320 | typedef R (__stdcall T::*function_pointer_type)(Args...) const; | ||
| 1321 | }; | ||
| 1322 | |||
| 1323 | template <typename T, typename R, typename... Args> | ||
| 1324 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1325 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile; | ||
| 1326 | }; | ||
| 1327 | |||
| 1328 | /* Member Function Qualifiers */ | ||
| 1329 | template <typename T, typename R, typename... Args> | ||
| 1330 | struct fx_traits<R (__stdcall T::*)(Args...)&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1331 | typedef R (__stdcall T::*function_pointer_type)(Args...) &; | ||
| 1332 | }; | ||
| 1333 | |||
| 1334 | template <typename T, typename R, typename... Args> | ||
| 1335 | struct fx_traits<R (__stdcall T::*)(Args...) const&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1336 | typedef R (__stdcall T::*function_pointer_type)(Args...) const&; | ||
| 1337 | }; | ||
| 1338 | |||
| 1339 | template <typename T, typename R, typename... Args> | ||
| 1340 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1341 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&; | ||
| 1342 | }; | ||
| 1343 | |||
| 1344 | template <typename T, typename R, typename... Args> | ||
| 1345 | struct fx_traits<R (__stdcall T::*)(Args...)&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1346 | typedef R (__stdcall T::*function_pointer_type)(Args...) &&; | ||
| 1347 | }; | ||
| 1348 | |||
| 1349 | template <typename T, typename R, typename... Args> | ||
| 1350 | struct fx_traits<R (__stdcall T::*)(Args...) const&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1351 | typedef R (__stdcall T::*function_pointer_type)(Args...) const&&; | ||
| 1352 | }; | ||
| 1353 | |||
| 1354 | template <typename T, typename R, typename... Args> | ||
| 1355 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile&&, false> : basic_traits<false, false, T, R, Args...> { | ||
| 1356 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&&; | ||
| 1357 | }; | ||
| 1358 | |||
| 1359 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 1360 | |||
| 1361 | template <typename R, typename... Args> | ||
| 1362 | struct fx_traits<R __stdcall(Args...) noexcept, false> : basic_traits<true, false, void, R, Args...> { | ||
| 1363 | typedef R(__stdcall* function_pointer_type)(Args...) noexcept; | ||
| 1364 | }; | ||
| 1365 | |||
| 1366 | template <typename R, typename... Args> | ||
| 1367 | struct fx_traits<R(__stdcall*)(Args...) noexcept, false> : basic_traits<true, false, void, R, Args...> { | ||
| 1368 | typedef R(__stdcall* function_pointer_type)(Args...) noexcept; | ||
| 1369 | }; | ||
| 1370 | |||
| 1371 | /* __stdcall cannot be applied to functions with varargs*/ | ||
| 1372 | /*template <typename R, typename... Args> | ||
| 1373 | struct fx_traits<__stdcall R(Args..., ...) noexcept, false> : basic_traits<true, true, void, R, Args...> { | ||
| 1374 | typedef R(__stdcall* function_pointer_type)(Args..., ...) noexcept; | ||
| 1375 | }; | ||
| 1376 | |||
| 1377 | template <typename R, typename... Args> | ||
| 1378 | struct fx_traits<R (__stdcall *)(Args..., ...) noexcept, false> : basic_traits<true, true, void, R, Args...> { | ||
| 1379 | typedef R(__stdcall* function_pointer_type)(Args..., ...) noexcept; | ||
| 1380 | };*/ | ||
| 1381 | |||
| 1382 | template <typename T, typename R, typename... Args> | ||
| 1383 | struct fx_traits<R (__stdcall T::*)(Args...) noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1384 | typedef R (__stdcall T::*function_pointer_type)(Args...) noexcept; | ||
| 1385 | }; | ||
| 1386 | |||
| 1387 | /* __stdcall does not work with varargs */ | ||
| 1388 | /*template <typename T, typename R, typename... Args> | ||
| 1389 | struct fx_traits<R (__stdcall T::*)(Args..., ...) noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1390 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) noexcept; | ||
| 1391 | };*/ | ||
| 1392 | |||
| 1393 | /* Const Volatile */ | ||
| 1394 | template <typename T, typename R, typename... Args> | ||
| 1395 | struct fx_traits<R (__stdcall T::*)(Args...) const noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1396 | typedef R (__stdcall T::*function_pointer_type)(Args...) const noexcept; | ||
| 1397 | }; | ||
| 1398 | |||
| 1399 | /* __stdcall does not work with varargs */ | ||
| 1400 | /*template <typename T, typename R, typename... Args> | ||
| 1401 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1402 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const noexcept; | ||
| 1403 | };*/ | ||
| 1404 | |||
| 1405 | template <typename T, typename R, typename... Args> | ||
| 1406 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1407 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile noexcept; | ||
| 1408 | }; | ||
| 1409 | |||
| 1410 | /* __stdcall does not work with varargs */ | ||
| 1411 | /*template <typename T, typename R, typename... Args> | ||
| 1412 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const volatile noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1413 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile noexcept; | ||
| 1414 | };*/ | ||
| 1415 | |||
| 1416 | template <typename T, typename R, typename... Args> | ||
| 1417 | struct fx_traits<R (__stdcall T::*)(Args...) & noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1418 | typedef R (__stdcall T::*function_pointer_type)(Args...) & noexcept; | ||
| 1419 | }; | ||
| 1420 | |||
| 1421 | /* __stdcall does not work with varargs */ | ||
| 1422 | /*template <typename T, typename R, typename... Args> | ||
| 1423 | struct fx_traits<R (__stdcall T::*)(Args..., ...) & noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1424 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) & noexcept; | ||
| 1425 | };*/ | ||
| 1426 | |||
| 1427 | template <typename T, typename R, typename... Args> | ||
| 1428 | struct fx_traits<R (__stdcall T::*)(Args...) const& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1429 | typedef R (__stdcall T::*function_pointer_type)(Args...) const& noexcept; | ||
| 1430 | }; | ||
| 1431 | |||
| 1432 | /* __stdcall does not work with varargs */ | ||
| 1433 | /*template <typename T, typename R, typename... Args> | ||
| 1434 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1435 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const& noexcept; | ||
| 1436 | };*/ | ||
| 1437 | |||
| 1438 | template <typename T, typename R, typename... Args> | ||
| 1439 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1440 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile& noexcept; | ||
| 1441 | }; | ||
| 1442 | |||
| 1443 | /* __stdcall does not work with varargs */ | ||
| 1444 | /*template <typename T, typename R, typename... Args> | ||
| 1445 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const volatile& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1446 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile& noexcept; | ||
| 1447 | };*/ | ||
| 1448 | |||
| 1449 | template <typename T, typename R, typename... Args> | ||
| 1450 | struct fx_traits<R (__stdcall T::*)(Args...) && noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1451 | typedef R (__stdcall T::*function_pointer_type)(Args...) && noexcept; | ||
| 1452 | }; | ||
| 1453 | |||
| 1454 | /* __stdcall does not work with varargs */ | ||
| 1455 | /*template <typename T, typename R, typename... Args> | ||
| 1456 | struct fx_traits<R (__stdcall T::*)(Args..., ...) && noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1457 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) && noexcept; | ||
| 1458 | };*/ | ||
| 1459 | |||
| 1460 | template <typename T, typename R, typename... Args> | ||
| 1461 | struct fx_traits<R (__stdcall T::*)(Args...) const&& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1462 | typedef R (__stdcall T::*function_pointer_type)(Args...) const&& noexcept; | ||
| 1463 | }; | ||
| 1464 | |||
| 1465 | /* __stdcall does not work with varargs */ | ||
| 1466 | /*template <typename T, typename R, typename... Args> | ||
| 1467 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const&& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1468 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const&& noexcept; | ||
| 1469 | };*/ | ||
| 1470 | |||
| 1471 | template <typename T, typename R, typename... Args> | ||
| 1472 | struct fx_traits<R (__stdcall T::*)(Args...) const volatile&& noexcept, false> : basic_traits<true, false, T, R, Args...> { | ||
| 1473 | typedef R (__stdcall T::*function_pointer_type)(Args...) const volatile&& noexcept; | ||
| 1474 | }; | ||
| 1475 | |||
| 1476 | /* __stdcall does not work with varargs */ | ||
| 1477 | /*template <typename T, typename R, typename... Args> | ||
| 1478 | struct fx_traits<R (__stdcall T::*)(Args..., ...) const volatile&& noexcept, false> : basic_traits<true, true, T, R, Args...> { | ||
| 1479 | typedef R (__stdcall T::*function_pointer_type)(Args..., ...) const volatile&& noexcept; | ||
| 1480 | };*/ | ||
| 1481 | #endif // noexcept is part of a function's type | ||
| 1482 | #endif // __stdcall x86 VC++ bug | ||
| 1483 | |||
| 1484 | template <typename Signature> | ||
| 1485 | struct fx_traits<Signature, true> | ||
| 1486 | : public fx_traits<typename fx_traits<decltype(&Signature::operator())>::function_type, false> {}; | ||
| 1487 | |||
| 1488 | template <typename Signature, bool b = std::is_member_object_pointer<Signature>::value> | ||
| 1489 | struct callable_traits | ||
| 1490 | : public fx_traits<std::decay_t<Signature>> {}; | ||
| 1491 | |||
| 1492 | template <typename R, typename T> | ||
| 1493 | struct callable_traits<R(T::*), true> { | ||
| 1494 | typedef meta::conditional_t<std::is_array_v<R>, std::add_lvalue_reference_t<R>, R> return_type; | ||
| 1495 | typedef return_type Arg; | ||
| 1496 | typedef T object_type; | ||
| 1497 | using signature_type = R(T::*); | ||
| 1498 | inline static constexpr bool is_noexcept = false; | ||
| 1499 | inline static constexpr bool is_member_function = false; | ||
| 1500 | inline static constexpr std::size_t arity = 1; | ||
| 1501 | inline static constexpr std::size_t free_arity = 2; | ||
| 1502 | typedef std::tuple<Arg> args_tuple; | ||
| 1503 | typedef types<Arg> args_list; | ||
| 1504 | typedef types<T, Arg> free_args_list; | ||
| 1505 | typedef meta::tuple_types<return_type> returns_list; | ||
| 1506 | typedef return_type(function_type)(T&, return_type); | ||
| 1507 | typedef return_type (*function_pointer_type)(T&, Arg); | ||
| 1508 | typedef return_type (*free_function_pointer_type)(T&, Arg); | ||
| 1509 | template <std::size_t i> | ||
| 1510 | using arg_at = void_tuple_element_t<i, args_tuple>; | ||
| 1511 | }; | ||
| 1512 | |||
| 1513 | } // namespace meta_detail | ||
| 1514 | |||
| 1515 | template <typename Signature> | ||
| 1516 | struct bind_traits : meta_detail::callable_traits<Signature> {}; | ||
| 1517 | |||
| 1518 | template <typename Signature> | ||
| 1519 | using function_args_t = typename bind_traits<Signature>::args_list; | ||
| 1520 | |||
| 1521 | template <typename Signature> | ||
| 1522 | using function_signature_t = typename bind_traits<Signature>::signature_type; | ||
| 1523 | |||
| 1524 | template <typename Signature> | ||
| 1525 | using function_return_t = typename bind_traits<Signature>::return_type; | ||
| 1526 | }} // namespace sol::meta | ||
| 1527 | |||
| 1528 | // end of sol/bind_traits.hpp | ||
| 1529 | |||
| 1530 | // beginning of sol/pointer_like.hpp | ||
| 1531 | |||
| 1532 | #include <utility> | ||
| 1533 | #include <type_traits> | ||
| 1534 | |||
| 1535 | namespace sol { | ||
| 1536 | |||
| 1537 | namespace meta { | ||
| 1538 | namespace meta_detail { | ||
| 1539 | template <typename T> | ||
| 1540 | using is_dereferenceable_test = decltype(*std::declval<T>()); | ||
| 1541 | |||
| 1542 | template <typename T> | ||
| 1543 | using is_explicitly_dereferenceable_test = decltype(std::declval<T>().operator*()); | ||
| 1544 | } | ||
| 1545 | |||
| 1546 | template <typename T> | ||
| 1547 | using is_pointer_like = std::integral_constant<bool, !std::is_array_v<T> && (std::is_pointer_v<T> || is_detected_v<meta_detail::is_explicitly_dereferenceable_test, T>)>; | ||
| 1548 | |||
| 1549 | template <typename T> | ||
| 1550 | constexpr inline bool is_pointer_like_v = is_pointer_like<T>::value; | ||
| 1551 | } // namespace meta | ||
| 1552 | |||
| 1553 | namespace detail { | ||
| 1554 | |||
| 1555 | template <typename T> | ||
| 1556 | auto unwrap(T&& item) -> decltype(std::forward<T>(item)) { | ||
| 1557 | return std::forward<T>(item); | ||
| 1558 | } | ||
| 1559 | |||
| 1560 | template <typename T> | ||
| 1561 | T& unwrap(std::reference_wrapper<T> arg) { | ||
| 1562 | return arg.get(); | ||
| 1563 | } | ||
| 1564 | |||
| 1565 | template <typename T> | ||
| 1566 | inline decltype(auto) deref(T&& item) { | ||
| 1567 | using Tu = meta::unqualified_t<T>; | ||
| 1568 | if constexpr (meta::is_pointer_like_v<Tu>) { | ||
| 1569 | return *std::forward<T>(item); | ||
| 1570 | } | ||
| 1571 | else { | ||
| 1572 | return std::forward<T>(item); | ||
| 1573 | } | ||
| 1574 | } | ||
| 1575 | |||
| 1576 | template <typename T> | ||
| 1577 | inline decltype(auto) deref_move_only(T&& item) { | ||
| 1578 | using Tu = meta::unqualified_t<T>; | ||
| 1579 | if constexpr (meta::is_pointer_like_v<Tu> && !std::is_pointer_v<Tu> && !std::is_copy_constructible_v<Tu>) { | ||
| 1580 | return *std::forward<T>(item); | ||
| 1581 | } | ||
| 1582 | else { | ||
| 1583 | return std::forward<T>(item); | ||
| 1584 | } | ||
| 1585 | } | ||
| 1586 | |||
| 1587 | template <typename T> | ||
| 1588 | inline T* ptr(T& val) { | ||
| 1589 | return std::addressof(val); | ||
| 1590 | } | ||
| 1591 | |||
| 1592 | template <typename T> | ||
| 1593 | inline T* ptr(std::reference_wrapper<T> val) { | ||
| 1594 | return std::addressof(val.get()); | ||
| 1595 | } | ||
| 1596 | |||
| 1597 | template <typename T> | ||
| 1598 | inline T* ptr(T* val) { | ||
| 1599 | return val; | ||
| 1600 | } | ||
| 1601 | } // namespace detail | ||
| 1602 | } // namespace sol | ||
| 1603 | |||
| 1604 | // end of sol/pointer_like.hpp | ||
| 1605 | |||
| 1606 | // beginning of sol/string_view.hpp | ||
| 1607 | |||
| 1608 | #include <cstddef> | ||
| 1609 | #include <string> | ||
| 1610 | #include <string_view> | ||
| 1611 | #include <functional> | ||
| 1612 | |||
| 1613 | namespace sol { | ||
| 1614 | template <typename C, typename T = std::char_traits<C>> | ||
| 1615 | using basic_string_view = std::basic_string_view<C, T>; | ||
| 1616 | |||
| 1617 | typedef std::string_view string_view; | ||
| 1618 | typedef std::wstring_view wstring_view; | ||
| 1619 | typedef std::u16string_view u16string_view; | ||
| 1620 | typedef std::u32string_view u32string_view; | ||
| 1621 | typedef std::hash<std::string_view> string_view_hash; | ||
| 1622 | } // namespace sol | ||
| 1623 | |||
| 1624 | // end of sol/string_view.hpp | ||
| 1625 | |||
| 1626 | #include <type_traits> | ||
| 1627 | #include <cstdint> | ||
| 1628 | #include <memory> | ||
| 1629 | #include <functional> | ||
| 1630 | #include <array> | ||
| 1631 | #include <iterator> | ||
| 1632 | #include <iosfwd> | ||
| 1633 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 1634 | #include <variant> | ||
| 1635 | #endif // variant is weird on XCode, thanks XCode | ||
| 1636 | |||
| 1637 | namespace sol { namespace meta { | ||
| 1638 | template <typename T> | ||
| 1639 | struct unwrapped { | ||
| 1640 | typedef T type; | ||
| 1641 | }; | ||
| 1642 | |||
| 1643 | template <typename T> | ||
| 1644 | struct unwrapped<std::reference_wrapper<T>> { | ||
| 1645 | typedef T type; | ||
| 1646 | }; | ||
| 1647 | |||
| 1648 | template <typename T> | ||
| 1649 | using unwrapped_t = typename unwrapped<T>::type; | ||
| 1650 | |||
| 1651 | template <typename T> | ||
| 1652 | struct unwrap_unqualified : unwrapped<unqualified_t<T>> {}; | ||
| 1653 | |||
| 1654 | template <typename T> | ||
| 1655 | using unwrap_unqualified_t = typename unwrap_unqualified<T>::type; | ||
| 1656 | |||
| 1657 | template <typename T> | ||
| 1658 | struct remove_member_pointer; | ||
| 1659 | |||
| 1660 | template <typename R, typename T> | ||
| 1661 | struct remove_member_pointer<R T::*> { | ||
| 1662 | typedef R type; | ||
| 1663 | }; | ||
| 1664 | |||
| 1665 | template <typename R, typename T> | ||
| 1666 | struct remove_member_pointer<R T::*const> { | ||
| 1667 | typedef R type; | ||
| 1668 | }; | ||
| 1669 | |||
| 1670 | template <typename T> | ||
| 1671 | using remove_member_pointer_t = remove_member_pointer<T>; | ||
| 1672 | |||
| 1673 | template <typename T, typename...> | ||
| 1674 | struct all_same : std::true_type {}; | ||
| 1675 | |||
| 1676 | template <typename T, typename U, typename... Args> | ||
| 1677 | struct all_same<T, U, Args...> : std::integral_constant<bool, std::is_same<T, U>::value && all_same<T, Args...>::value> {}; | ||
| 1678 | |||
| 1679 | template <typename T, typename...> | ||
| 1680 | struct any_same : std::false_type {}; | ||
| 1681 | |||
| 1682 | template <typename T, typename U, typename... Args> | ||
| 1683 | struct any_same<T, U, Args...> : std::integral_constant<bool, std::is_same<T, U>::value || any_same<T, Args...>::value> {}; | ||
| 1684 | |||
| 1685 | template <typename T, typename... Args> | ||
| 1686 | constexpr inline bool any_same_v = any_same<T, Args...>::value; | ||
| 1687 | |||
| 1688 | template <bool B> | ||
| 1689 | using boolean = std::integral_constant<bool, B>; | ||
| 1690 | |||
| 1691 | template <bool B> | ||
| 1692 | constexpr inline bool boolean_v = boolean<B>::value; | ||
| 1693 | |||
| 1694 | template <typename T> | ||
| 1695 | using neg = boolean<!T::value>; | ||
| 1696 | |||
| 1697 | template <typename T> | ||
| 1698 | constexpr inline bool neg_v = neg<T>::value; | ||
| 1699 | |||
| 1700 | template <typename... Args> | ||
| 1701 | struct all : boolean<true> {}; | ||
| 1702 | |||
| 1703 | template <typename T, typename... Args> | ||
| 1704 | struct all<T, Args...> : std::conditional_t<T::value, all<Args...>, boolean<false>> {}; | ||
| 1705 | |||
| 1706 | template <typename... Args> | ||
| 1707 | struct any : boolean<false> {}; | ||
| 1708 | |||
| 1709 | template <typename T, typename... Args> | ||
| 1710 | struct any<T, Args...> : std::conditional_t<T::value, boolean<true>, any<Args...>> {}; | ||
| 1711 | |||
| 1712 | template <typename T, typename... Args> | ||
| 1713 | constexpr inline bool all_v = all<T, Args...>::value; | ||
| 1714 | |||
| 1715 | template <typename T, typename... Args> | ||
| 1716 | constexpr inline bool any_v = any<T, Args...>::value; | ||
| 1717 | |||
| 1718 | enum class enable_t { _ }; | ||
| 1719 | |||
| 1720 | constexpr const auto enabler = enable_t::_; | ||
| 1721 | |||
| 1722 | template <bool value, typename T = void> | ||
| 1723 | using disable_if_t = std::enable_if_t<!value, T>; | ||
| 1724 | |||
| 1725 | template <typename... Args> | ||
| 1726 | using enable = std::enable_if_t<all<Args...>::value, enable_t>; | ||
| 1727 | |||
| 1728 | template <typename... Args> | ||
| 1729 | using disable = std::enable_if_t<neg<all<Args...>>::value, enable_t>; | ||
| 1730 | |||
| 1731 | template <typename... Args> | ||
| 1732 | using enable_any = std::enable_if_t<any<Args...>::value, enable_t>; | ||
| 1733 | |||
| 1734 | template <typename... Args> | ||
| 1735 | using disable_any = std::enable_if_t<neg<any<Args...>>::value, enable_t>; | ||
| 1736 | |||
| 1737 | template <typename V, typename... Vs> | ||
| 1738 | struct find_in_pack_v : boolean<false> {}; | ||
| 1739 | |||
| 1740 | template <typename V, typename Vs1, typename... Vs> | ||
| 1741 | struct find_in_pack_v<V, Vs1, Vs...> : any<boolean<(V::value == Vs1::value)>, find_in_pack_v<V, Vs...>> {}; | ||
| 1742 | |||
| 1743 | namespace meta_detail { | ||
| 1744 | template <std::size_t I, typename T, typename... Args> | ||
| 1745 | struct index_in_pack : std::integral_constant<std::size_t, SIZE_MAX> {}; | ||
| 1746 | |||
| 1747 | template <std::size_t I, typename T, typename T1, typename... Args> | ||
| 1748 | struct index_in_pack<I, T, T1, Args...> | ||
| 1749 | : conditional_t<std::is_same<T, T1>::value, std::integral_constant<std::ptrdiff_t, I>, index_in_pack<I + 1, T, Args...>> {}; | ||
| 1750 | } // namespace meta_detail | ||
| 1751 | |||
| 1752 | template <typename T, typename... Args> | ||
| 1753 | struct index_in_pack : meta_detail::index_in_pack<0, T, Args...> {}; | ||
| 1754 | |||
| 1755 | template <typename T, typename List> | ||
| 1756 | struct index_in : meta_detail::index_in_pack<0, T, List> {}; | ||
| 1757 | |||
| 1758 | template <typename T, typename... Args> | ||
| 1759 | struct index_in<T, types<Args...>> : meta_detail::index_in_pack<0, T, Args...> {}; | ||
| 1760 | |||
| 1761 | template <std::size_t I, typename... Args> | ||
| 1762 | struct at_in_pack {}; | ||
| 1763 | |||
| 1764 | template <std::size_t I, typename... Args> | ||
| 1765 | using at_in_pack_t = typename at_in_pack<I, Args...>::type; | ||
| 1766 | |||
| 1767 | template <std::size_t I, typename Arg, typename... Args> | ||
| 1768 | struct at_in_pack<I, Arg, Args...> : std::conditional<I == 0, Arg, at_in_pack_t<I - 1, Args...>> {}; | ||
| 1769 | |||
| 1770 | template <typename Arg, typename... Args> | ||
| 1771 | struct at_in_pack<0, Arg, Args...> { | ||
| 1772 | typedef Arg type; | ||
| 1773 | }; | ||
| 1774 | |||
| 1775 | namespace meta_detail { | ||
| 1776 | template <typename, typename TI> | ||
| 1777 | using on_even = meta::boolean<(TI::value % 2) == 0>; | ||
| 1778 | |||
| 1779 | template <typename, typename TI> | ||
| 1780 | using on_odd = meta::boolean<(TI::value % 2) == 1>; | ||
| 1781 | |||
| 1782 | template <typename, typename> | ||
| 1783 | using on_always = std::true_type; | ||
| 1784 | |||
| 1785 | template <template <typename...> class When, std::size_t Limit, std::size_t I, template <typename...> class Pred, typename... Ts> | ||
| 1786 | struct count_when_for_pack : std::integral_constant<std::size_t, 0> {}; | ||
| 1787 | template <template <typename...> class When, std::size_t Limit, std::size_t I, template <typename...> class Pred, typename T, typename... Ts> | ||
| 1788 | struct count_when_for_pack<When, Limit, I, Pred, T, Ts...> : conditional_t < sizeof...(Ts) | ||
| 1789 | == 0 | ||
| 1790 | || Limit<2, std::integral_constant<std::size_t, I + static_cast<std::size_t>(Limit != 0 && Pred<T>::value)>, | ||
| 1791 | count_when_for_pack<When, Limit - static_cast<std::size_t>(When<T, std::integral_constant<std::size_t, I>>::value), | ||
| 1792 | I + static_cast<std::size_t>(When<T, std::integral_constant<std::size_t, I>>::value&& Pred<T>::value), Pred, Ts...>> {}; | ||
| 1793 | } // namespace meta_detail | ||
| 1794 | |||
| 1795 | template <template <typename...> class Pred, typename... Ts> | ||
| 1796 | struct count_for_pack : meta_detail::count_when_for_pack<meta_detail::on_always, sizeof...(Ts), 0, Pred, Ts...> {}; | ||
| 1797 | |||
| 1798 | template <template <typename...> class Pred, typename... Ts> | ||
| 1799 | inline constexpr std::size_t count_for_pack_v = count_for_pack<Pred, Ts...>::value; | ||
| 1800 | |||
| 1801 | template <template <typename...> class Pred, typename List> | ||
| 1802 | struct count_for; | ||
| 1803 | |||
| 1804 | template <template <typename...> class Pred, typename... Args> | ||
| 1805 | struct count_for<Pred, types<Args...>> : count_for_pack<Pred, Args...> {}; | ||
| 1806 | |||
| 1807 | template <std::size_t Limit, template <typename...> class Pred, typename... Ts> | ||
| 1808 | struct count_for_to_pack : meta_detail::count_when_for_pack<meta_detail::on_always, Limit, 0, Pred, Ts...> {}; | ||
| 1809 | |||
| 1810 | template <std::size_t Limit, template <typename...> class Pred, typename... Ts> | ||
| 1811 | inline constexpr std::size_t count_for_to_pack_v = count_for_to_pack<Limit, Pred, Ts...>::value; | ||
| 1812 | |||
| 1813 | template <template <typename...> class When, std::size_t Limit, template <typename...> class Pred, typename... Ts> | ||
| 1814 | struct count_when_for_to_pack : meta_detail::count_when_for_pack<When, Limit, 0, Pred, Ts...> {}; | ||
| 1815 | |||
| 1816 | template <template <typename...> class When, std::size_t Limit, template <typename...> class Pred, typename... Ts> | ||
| 1817 | inline constexpr std::size_t count_when_for_to_pack_v = count_when_for_to_pack<When, Limit, Pred, Ts...>::value; | ||
| 1818 | |||
| 1819 | template <template <typename...> class Pred, typename... Ts> | ||
| 1820 | using count_even_for_pack = count_when_for_to_pack<meta_detail::on_even, sizeof...(Ts), Pred, Ts...>; | ||
| 1821 | |||
| 1822 | template <template <typename...> class Pred, typename... Ts> | ||
| 1823 | inline constexpr std::size_t count_even_for_pack_v = count_even_for_pack<Pred, Ts...>::value; | ||
| 1824 | |||
| 1825 | template <template <typename...> class Pred, typename... Ts> | ||
| 1826 | using count_odd_for_pack = count_when_for_to_pack<meta_detail::on_odd, sizeof...(Ts), Pred, Ts...>; | ||
| 1827 | |||
| 1828 | template <template <typename...> class Pred, typename... Ts> | ||
| 1829 | inline constexpr std::size_t count_odd_for_pack_v = count_odd_for_pack<Pred, Ts...>::value; | ||
| 1830 | |||
| 1831 | template <typename... Args> | ||
| 1832 | struct return_type { | ||
| 1833 | typedef std::tuple<Args...> type; | ||
| 1834 | }; | ||
| 1835 | |||
| 1836 | template <typename T> | ||
| 1837 | struct return_type<T> { | ||
| 1838 | typedef T type; | ||
| 1839 | }; | ||
| 1840 | |||
| 1841 | template <> | ||
| 1842 | struct return_type<> { | ||
| 1843 | typedef void type; | ||
| 1844 | }; | ||
| 1845 | |||
| 1846 | template <typename... Args> | ||
| 1847 | using return_type_t = typename return_type<Args...>::type; | ||
| 1848 | |||
| 1849 | namespace meta_detail { | ||
| 1850 | template <typename> | ||
| 1851 | struct always_true : std::true_type {}; | ||
| 1852 | struct is_invokable_tester { | ||
| 1853 | template <typename Fun, typename... Args> | ||
| 1854 | static always_true<decltype(std::declval<Fun>()(std::declval<Args>()...))> test(int); | ||
| 1855 | template <typename...> | ||
| 1856 | static std::false_type test(...); | ||
| 1857 | }; | ||
| 1858 | } // namespace meta_detail | ||
| 1859 | |||
| 1860 | template <typename T> | ||
| 1861 | struct is_invokable; | ||
| 1862 | template <typename Fun, typename... Args> | ||
| 1863 | struct is_invokable<Fun(Args...)> : decltype(meta_detail::is_invokable_tester::test<Fun, Args...>(0)) {}; | ||
| 1864 | |||
| 1865 | namespace meta_detail { | ||
| 1866 | |||
| 1867 | template <typename T, typename = void> | ||
| 1868 | struct is_callable : std::is_function<std::remove_pointer_t<T>> {}; | ||
| 1869 | |||
| 1870 | template <typename T> | ||
| 1871 | struct is_callable<T, | ||
| 1872 | std::enable_if_t<std::is_final<unqualified_t<T>>::value && std::is_class<unqualified_t<T>>::value | ||
| 1873 | && std::is_same<decltype(void(&T::operator())), void>::value>> {}; | ||
| 1874 | |||
| 1875 | template <typename T> | ||
| 1876 | struct is_callable<T, | ||
| 1877 | std::enable_if_t<!std::is_final<unqualified_t<T>>::value && std::is_class<unqualified_t<T>>::value | ||
| 1878 | && std::is_destructible<unqualified_t<T>>::value>> { | ||
| 1879 | struct F { | ||
| 1880 | void operator()() {}; | ||
| 1881 | }; | ||
| 1882 | struct Derived : T, F {}; | ||
| 1883 | template <typename U, U> | ||
| 1884 | struct Check; | ||
| 1885 | |||
| 1886 | template <typename V> | ||
| 1887 | static sfinae_no_t test(Check<void (F::*)(), &V::operator()>*); | ||
| 1888 | |||
| 1889 | template <typename> | ||
| 1890 | static sfinae_yes_t test(...); | ||
| 1891 | |||
| 1892 | static constexpr bool value = std::is_same_v<decltype(test<Derived>(0)), sfinae_yes_t>; | ||
| 1893 | }; | ||
| 1894 | |||
| 1895 | template <typename T> | ||
| 1896 | struct is_callable<T, | ||
| 1897 | std::enable_if_t<!std::is_final<unqualified_t<T>>::value && std::is_class<unqualified_t<T>>::value | ||
| 1898 | && !std::is_destructible<unqualified_t<T>>::value>> { | ||
| 1899 | struct F { | ||
| 1900 | void operator()() {}; | ||
| 1901 | }; | ||
| 1902 | struct Derived : T, F { | ||
| 1903 | ~Derived() = delete; | ||
| 1904 | }; | ||
| 1905 | template <typename U, U> | ||
| 1906 | struct Check; | ||
| 1907 | |||
| 1908 | template <typename V> | ||
| 1909 | static sfinae_no_t test(Check<void (F::*)(), &V::operator()>*); | ||
| 1910 | |||
| 1911 | template <typename> | ||
| 1912 | static sfinae_yes_t test(...); | ||
| 1913 | |||
| 1914 | static constexpr bool value = std::is_same_v<decltype(test<Derived>(0)), sfinae_yes_t>; | ||
| 1915 | }; | ||
| 1916 | |||
| 1917 | struct has_begin_end_impl { | ||
| 1918 | template <typename T, typename U = unqualified_t<T>, typename B = decltype(std::declval<U&>().begin()), | ||
| 1919 | typename E = decltype(std::declval<U&>().end())> | ||
| 1920 | static std::true_type test(int); | ||
| 1921 | |||
| 1922 | template <typename...> | ||
| 1923 | static std::false_type test(...); | ||
| 1924 | }; | ||
| 1925 | |||
| 1926 | struct has_key_type_impl { | ||
| 1927 | template <typename T, typename U = unqualified_t<T>, typename V = typename U::key_type> | ||
| 1928 | static std::true_type test(int); | ||
| 1929 | |||
| 1930 | template <typename...> | ||
| 1931 | static std::false_type test(...); | ||
| 1932 | }; | ||
| 1933 | |||
| 1934 | struct has_key_comp_impl { | ||
| 1935 | template <typename T, typename V = decltype(std::declval<unqualified_t<T>>().key_comp())> | ||
| 1936 | static std::true_type test(int); | ||
| 1937 | |||
| 1938 | template <typename...> | ||
| 1939 | static std::false_type test(...); | ||
| 1940 | }; | ||
| 1941 | |||
| 1942 | struct has_load_factor_impl { | ||
| 1943 | template <typename T, typename V = decltype(std::declval<unqualified_t<T>>().load_factor())> | ||
| 1944 | static std::true_type test(int); | ||
| 1945 | |||
| 1946 | template <typename...> | ||
| 1947 | static std::false_type test(...); | ||
| 1948 | }; | ||
| 1949 | |||
| 1950 | struct has_mapped_type_impl { | ||
| 1951 | template <typename T, typename V = typename unqualified_t<T>::mapped_type> | ||
| 1952 | static std::true_type test(int); | ||
| 1953 | |||
| 1954 | template <typename...> | ||
| 1955 | static std::false_type test(...); | ||
| 1956 | }; | ||
| 1957 | |||
| 1958 | struct has_value_type_impl { | ||
| 1959 | template <typename T, typename V = typename unqualified_t<T>::value_type> | ||
| 1960 | static std::true_type test(int); | ||
| 1961 | |||
| 1962 | template <typename...> | ||
| 1963 | static std::false_type test(...); | ||
| 1964 | }; | ||
| 1965 | |||
| 1966 | struct has_iterator_impl { | ||
| 1967 | template <typename T, typename V = typename unqualified_t<T>::iterator> | ||
| 1968 | static std::true_type test(int); | ||
| 1969 | |||
| 1970 | template <typename...> | ||
| 1971 | static std::false_type test(...); | ||
| 1972 | }; | ||
| 1973 | |||
| 1974 | struct has_key_value_pair_impl { | ||
| 1975 | template <typename T, typename U = unqualified_t<T>, typename V = typename U::value_type, typename F = decltype(std::declval<V&>().first), | ||
| 1976 | typename S = decltype(std::declval<V&>().second)> | ||
| 1977 | static std::true_type test(int); | ||
| 1978 | |||
| 1979 | template <typename...> | ||
| 1980 | static std::false_type test(...); | ||
| 1981 | }; | ||
| 1982 | |||
| 1983 | template <typename T> | ||
| 1984 | struct has_push_back_test { | ||
| 1985 | private: | ||
| 1986 | template <typename C> | ||
| 1987 | static sfinae_yes_t test(decltype(std::declval<C>().push_back(std::declval<std::add_rvalue_reference_t<typename C::value_type>>()))*); | ||
| 1988 | template <typename C> | ||
| 1989 | static sfinae_no_t test(...); | ||
| 1990 | |||
| 1991 | public: | ||
| 1992 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 1993 | }; | ||
| 1994 | |||
| 1995 | template <typename T> | ||
| 1996 | struct has_insert_test { | ||
| 1997 | private: | ||
| 1998 | template <typename C> | ||
| 1999 | static sfinae_yes_t test(decltype(std::declval<C>().insert(std::declval<std::add_rvalue_reference_t<typename C::const_iterator>>(), | ||
| 2000 | std::declval<std::add_rvalue_reference_t<typename C::value_type>>()))*); | ||
| 2001 | template <typename C> | ||
| 2002 | static sfinae_no_t test(...); | ||
| 2003 | |||
| 2004 | public: | ||
| 2005 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 2006 | }; | ||
| 2007 | |||
| 2008 | template <typename T> | ||
| 2009 | struct has_insert_after_test { | ||
| 2010 | private: | ||
| 2011 | template <typename C> | ||
| 2012 | static sfinae_yes_t test(decltype(std::declval<C>().insert_after(std::declval<std::add_rvalue_reference_t<typename C::const_iterator>>(), | ||
| 2013 | std::declval<std::add_rvalue_reference_t<typename C::value_type>>()))*); | ||
| 2014 | template <typename C> | ||
| 2015 | static sfinae_no_t test(...); | ||
| 2016 | |||
| 2017 | public: | ||
| 2018 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 2019 | }; | ||
| 2020 | |||
| 2021 | template <typename T> | ||
| 2022 | struct has_size_test { | ||
| 2023 | private: | ||
| 2024 | template <typename C> | ||
| 2025 | static sfinae_yes_t test(decltype(std::declval<C>().size())*); | ||
| 2026 | template <typename C> | ||
| 2027 | static sfinae_no_t test(...); | ||
| 2028 | |||
| 2029 | public: | ||
| 2030 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 2031 | }; | ||
| 2032 | |||
| 2033 | template <typename T> | ||
| 2034 | struct has_max_size_test { | ||
| 2035 | private: | ||
| 2036 | template <typename C> | ||
| 2037 | static sfinae_yes_t test(decltype(std::declval<C>().max_size())*); | ||
| 2038 | template <typename C> | ||
| 2039 | static sfinae_no_t test(...); | ||
| 2040 | |||
| 2041 | public: | ||
| 2042 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 2043 | }; | ||
| 2044 | |||
| 2045 | template <typename T> | ||
| 2046 | struct has_to_string_test { | ||
| 2047 | private: | ||
| 2048 | template <typename C> | ||
| 2049 | static sfinae_yes_t test(decltype(std::declval<C>().to_string())*); | ||
| 2050 | template <typename C> | ||
| 2051 | static sfinae_no_t test(...); | ||
| 2052 | |||
| 2053 | public: | ||
| 2054 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), sfinae_yes_t>; | ||
| 2055 | }; | ||
| 2056 | |||
| 2057 | template <typename T, typename U, typename = void> | ||
| 2058 | class supports_op_less_test : public std::false_type {}; | ||
| 2059 | template <typename T, typename U> | ||
| 2060 | class supports_op_less_test<T, U, void_t<decltype(std::declval<T&>() < std::declval<U&>())>> | ||
| 2061 | : public std::integral_constant<bool, | ||
| 2062 | !is_specialization_of_v<unqualified_t<T>, std::variant> && !is_specialization_of_v<unqualified_t<U>, std::variant>> {}; | ||
| 2063 | |||
| 2064 | template <typename T, typename U, typename = void> | ||
| 2065 | class supports_op_equal_test : public std::false_type {}; | ||
| 2066 | template <typename T, typename U> | ||
| 2067 | class supports_op_equal_test<T, U, void_t<decltype(std::declval<T&>() == std::declval<U&>())>> | ||
| 2068 | : public std::integral_constant<bool, | ||
| 2069 | !is_specialization_of_v<unqualified_t<T>, std::variant> && !is_specialization_of_v<unqualified_t<U>, std::variant>> {}; | ||
| 2070 | |||
| 2071 | template <typename T, typename U, typename = void> | ||
| 2072 | class supports_op_less_equal_test : public std::false_type {}; | ||
| 2073 | template <typename T, typename U> | ||
| 2074 | class supports_op_less_equal_test<T, U, void_t<decltype(std::declval<T&>() <= std::declval<U&>())>> | ||
| 2075 | : public std::integral_constant<bool, | ||
| 2076 | !is_specialization_of_v<unqualified_t<T>, std::variant> && !is_specialization_of_v<unqualified_t<U>, std::variant>> {}; | ||
| 2077 | |||
| 2078 | template <typename T, typename U, typename = void> | ||
| 2079 | class supports_op_left_shift_test : public std::false_type {}; | ||
| 2080 | template <typename T, typename U> | ||
| 2081 | class supports_op_left_shift_test<T, U, void_t<decltype(std::declval<T&>() << std::declval<U&>())>> : public std::true_type {}; | ||
| 2082 | |||
| 2083 | template <typename T, typename = void> | ||
| 2084 | class supports_adl_to_string_test : public std::false_type {}; | ||
| 2085 | template <typename T> | ||
| 2086 | class supports_adl_to_string_test<T, void_t<decltype(to_string(std::declval<const T&>()))>> : public std::true_type {}; | ||
| 2087 | |||
| 2088 | template <typename T, bool b> | ||
| 2089 | struct is_matched_lookup_impl : std::false_type {}; | ||
| 2090 | template <typename T> | ||
| 2091 | struct is_matched_lookup_impl<T, true> : std::is_same<typename T::key_type, typename T::value_type> {}; | ||
| 2092 | |||
| 2093 | template <typename T> | ||
| 2094 | using non_void_t = meta::conditional_t<std::is_void_v<T>, ::sol::detail::unchecked_t, T>; | ||
| 2095 | } // namespace meta_detail | ||
| 2096 | |||
| 2097 | template <typename T, typename U = T> | ||
| 2098 | class supports_op_less : public meta_detail::supports_op_less_test<T, U> {}; | ||
| 2099 | |||
| 2100 | template <typename T, typename U = T> | ||
| 2101 | class supports_op_equal : public meta_detail::supports_op_equal_test<T, U> {}; | ||
| 2102 | |||
| 2103 | template <typename T, typename U = T> | ||
| 2104 | class supports_op_less_equal : public meta_detail::supports_op_less_equal_test<T, U> {}; | ||
| 2105 | |||
| 2106 | template <typename T, typename U = T> | ||
| 2107 | class supports_op_left_shift : public meta_detail::supports_op_left_shift_test<T, U> {}; | ||
| 2108 | |||
| 2109 | template <typename T> | ||
| 2110 | class supports_adl_to_string : public meta_detail::supports_adl_to_string_test<T> {}; | ||
| 2111 | |||
| 2112 | template <typename T> | ||
| 2113 | class supports_to_string_member : public meta::boolean<meta_detail::has_to_string_test<meta_detail::non_void_t<T>>::value> {}; | ||
| 2114 | |||
| 2115 | template <typename T> | ||
| 2116 | using is_callable = boolean<meta_detail::is_callable<T>::value>; | ||
| 2117 | |||
| 2118 | template <typename T> | ||
| 2119 | constexpr inline bool is_callable_v = is_callable<T>::value; | ||
| 2120 | |||
| 2121 | template <typename T> | ||
| 2122 | struct has_begin_end : decltype(meta_detail::has_begin_end_impl::test<T>(0)) {}; | ||
| 2123 | |||
| 2124 | template <typename T> | ||
| 2125 | constexpr inline bool has_begin_end_v = has_begin_end<T>::value; | ||
| 2126 | |||
| 2127 | template <typename T> | ||
| 2128 | struct has_key_value_pair : decltype(meta_detail::has_key_value_pair_impl::test<T>(0)) {}; | ||
| 2129 | |||
| 2130 | template <typename T> | ||
| 2131 | struct has_key_type : decltype(meta_detail::has_key_type_impl::test<T>(0)) {}; | ||
| 2132 | |||
| 2133 | template <typename T> | ||
| 2134 | struct has_key_comp : decltype(meta_detail::has_key_comp_impl::test<T>(0)) {}; | ||
| 2135 | |||
| 2136 | template <typename T> | ||
| 2137 | struct has_load_factor : decltype(meta_detail::has_load_factor_impl::test<T>(0)) {}; | ||
| 2138 | |||
| 2139 | template <typename T> | ||
| 2140 | struct has_mapped_type : decltype(meta_detail::has_mapped_type_impl::test<T>(0)) {}; | ||
| 2141 | |||
| 2142 | template <typename T> | ||
| 2143 | struct has_iterator : decltype(meta_detail::has_iterator_impl::test<T>(0)) {}; | ||
| 2144 | |||
| 2145 | template <typename T> | ||
| 2146 | struct has_value_type : decltype(meta_detail::has_value_type_impl::test<T>(0)) {}; | ||
| 2147 | |||
| 2148 | template <typename T> | ||
| 2149 | using has_push_back = meta::boolean<meta_detail::has_push_back_test<T>::value>; | ||
| 2150 | |||
| 2151 | template <typename T> | ||
| 2152 | using has_max_size = meta::boolean<meta_detail::has_max_size_test<T>::value>; | ||
| 2153 | |||
| 2154 | template <typename T> | ||
| 2155 | using has_insert = meta::boolean<meta_detail::has_insert_test<T>::value>; | ||
| 2156 | |||
| 2157 | template <typename T> | ||
| 2158 | using has_insert_after = meta::boolean<meta_detail::has_insert_after_test<T>::value>; | ||
| 2159 | |||
| 2160 | template <typename T> | ||
| 2161 | using has_size = meta::boolean<meta_detail::has_size_test<T>::value>; | ||
| 2162 | |||
| 2163 | template <typename T> | ||
| 2164 | using is_associative = meta::all<has_key_type<T>, has_key_value_pair<T>, has_mapped_type<T>>; | ||
| 2165 | |||
| 2166 | template <typename T> | ||
| 2167 | using is_lookup = meta::all<has_key_type<T>, has_value_type<T>>; | ||
| 2168 | |||
| 2169 | template <typename T> | ||
| 2170 | using is_ordered = meta::all<has_key_comp<T>, meta::neg<has_load_factor<T>>>; | ||
| 2171 | |||
| 2172 | template <typename T> | ||
| 2173 | using is_matched_lookup = meta_detail::is_matched_lookup_impl<T, is_lookup<T>::value>; | ||
| 2174 | |||
| 2175 | template <typename T> | ||
| 2176 | using is_initializer_list = meta::is_specialization_of<T, std::initializer_list>; | ||
| 2177 | |||
| 2178 | template <typename T> | ||
| 2179 | constexpr inline bool is_initializer_list_v = is_initializer_list<T>::value; | ||
| 2180 | |||
| 2181 | template <typename T, typename CharT = char> | ||
| 2182 | using is_string_literal_array_of = boolean<std::is_array_v<T> && std::is_same_v<std::remove_all_extents_t<T>, CharT>>; | ||
| 2183 | |||
| 2184 | template <typename T, typename CharT = char> | ||
| 2185 | constexpr inline bool is_string_literal_array_of_v = is_string_literal_array_of<T, CharT>::value; | ||
| 2186 | |||
| 2187 | template <typename T> | ||
| 2188 | using is_string_literal_array = boolean<std::is_array_v<T> && any_same_v<std::remove_all_extents_t<T>, char, char16_t, char32_t, wchar_t>>; | ||
| 2189 | |||
| 2190 | template <typename T> | ||
| 2191 | constexpr inline bool is_string_literal_array_v = is_string_literal_array<T>::value; | ||
| 2192 | |||
| 2193 | template <typename T, typename CharT> | ||
| 2194 | struct is_string_of : std::false_type {}; | ||
| 2195 | |||
| 2196 | template <typename CharT, typename CharTargetT, typename TraitsT, typename AllocT> | ||
| 2197 | struct is_string_of<std::basic_string<CharT, TraitsT, AllocT>, CharTargetT> : std::is_same<CharT, CharTargetT> {}; | ||
| 2198 | |||
| 2199 | template <typename T, typename CharT> | ||
| 2200 | constexpr inline bool is_string_of_v = is_string_of<T, CharT>::value; | ||
| 2201 | |||
| 2202 | template <typename T, typename CharT> | ||
| 2203 | struct is_string_view_of : std::false_type {}; | ||
| 2204 | |||
| 2205 | template <typename CharT, typename CharTargetT, typename TraitsT> | ||
| 2206 | struct is_string_view_of<std::basic_string_view<CharT, TraitsT>, CharTargetT> : std::is_same<CharT, CharTargetT> {}; | ||
| 2207 | |||
| 2208 | template <typename T, typename CharT> | ||
| 2209 | constexpr inline bool is_string_view_of_v = is_string_view_of<T, CharT>::value; | ||
| 2210 | |||
| 2211 | template <typename T> | ||
| 2212 | using is_string_like | ||
| 2213 | = meta::boolean<is_specialization_of_v<T, std::basic_string> || is_specialization_of_v<T, std::basic_string_view> || is_string_literal_array_v<T>>; | ||
| 2214 | |||
| 2215 | template <typename T> | ||
| 2216 | constexpr inline bool is_string_like_v = is_string_like<T>::value; | ||
| 2217 | |||
| 2218 | template <typename T, typename CharT = char> | ||
| 2219 | using is_string_constructible = meta::boolean< | ||
| 2220 | is_string_literal_array_of_v<T, | ||
| 2221 | CharT> || std::is_same_v<T, const CharT*> || std::is_same_v<T, CharT> || is_string_of_v<T, CharT> || std::is_same_v<T, std::initializer_list<CharT>> || is_string_view_of_v<T, CharT>>; | ||
| 2222 | |||
| 2223 | template <typename T, typename CharT = char> | ||
| 2224 | constexpr inline bool is_string_constructible_v = is_string_constructible<T, CharT>::value; | ||
| 2225 | |||
| 2226 | template <typename T> | ||
| 2227 | using is_string_like_or_constructible = meta::boolean<is_string_like_v<T> || is_string_constructible_v<T>>; | ||
| 2228 | |||
| 2229 | template <typename T> | ||
| 2230 | struct is_pair : std::false_type {}; | ||
| 2231 | |||
| 2232 | template <typename T1, typename T2> | ||
| 2233 | struct is_pair<std::pair<T1, T2>> : std::true_type {}; | ||
| 2234 | |||
| 2235 | template <typename T, typename Char> | ||
| 2236 | using is_c_str_of = any<std::is_same<T, const Char*>, std::is_same<T, Char const* const>, std::is_same<T, Char*>, is_string_of<T, Char>, | ||
| 2237 | is_string_literal_array_of<T, Char>>; | ||
| 2238 | |||
| 2239 | template <typename T, typename Char> | ||
| 2240 | constexpr inline bool is_c_str_of_v = is_c_str_of<T, Char>::value; | ||
| 2241 | |||
| 2242 | template <typename T> | ||
| 2243 | using is_c_str = is_c_str_of<T, char>; | ||
| 2244 | |||
| 2245 | template <typename T> | ||
| 2246 | constexpr inline bool is_c_str_v = is_c_str<T>::value; | ||
| 2247 | |||
| 2248 | template <typename T> | ||
| 2249 | struct is_move_only : all<neg<std::is_reference<T>>, neg<std::is_copy_constructible<unqualified_t<T>>>, std::is_move_constructible<unqualified_t<T>>> {}; | ||
| 2250 | |||
| 2251 | template <typename T> | ||
| 2252 | using is_not_move_only = neg<is_move_only<T>>; | ||
| 2253 | |||
| 2254 | namespace meta_detail { | ||
| 2255 | template <typename T> | ||
| 2256 | decltype(auto) force_tuple(T&& x) { | ||
| 2257 | if constexpr (meta::is_specialization_of_v<meta::unqualified_t<T>, std::tuple>) { | ||
| 2258 | return std::forward<T>(x); | ||
| 2259 | } | ||
| 2260 | else { | ||
| 2261 | return std::tuple<T>(std::forward<T>(x)); | ||
| 2262 | } | ||
| 2263 | } | ||
| 2264 | } // namespace meta_detail | ||
| 2265 | |||
| 2266 | template <typename... X> | ||
| 2267 | decltype(auto) tuplefy(X&&... x) { | ||
| 2268 | return std::tuple_cat(meta_detail::force_tuple(std::forward<X>(x))...); | ||
| 2269 | } | ||
| 2270 | |||
| 2271 | template <typename T, typename = void> | ||
| 2272 | struct iterator_tag { | ||
| 2273 | using type = std::input_iterator_tag; | ||
| 2274 | }; | ||
| 2275 | |||
| 2276 | template <typename T> | ||
| 2277 | struct iterator_tag<T, conditional_t<false, typename std::iterator_traits<T>::iterator_category, void>> { | ||
| 2278 | using type = typename std::iterator_traits<T>::iterator_category; | ||
| 2279 | }; | ||
| 2280 | |||
| 2281 | }} // namespace sol::meta | ||
| 2282 | |||
| 2283 | // end of sol/traits.hpp | ||
| 2284 | |||
| 2285 | namespace sol { | ||
| 2286 | namespace detail { | ||
| 2287 | const bool default_safe_function_calls = | ||
| 2288 | #if SOL_IS_ON(SOL_SAFE_FUNCTION_CALLS_I_) | ||
| 2289 | true; | ||
| 2290 | #else | ||
| 2291 | false; | ||
| 2292 | #endif | ||
| 2293 | } // namespace detail | ||
| 2294 | |||
| 2295 | namespace meta { namespace meta_detail { | ||
| 2296 | }} // namespace meta::meta_detail | ||
| 2297 | |||
| 2298 | namespace stack { namespace stack_detail { | ||
| 2299 | using undefined_method_func = void (*)(stack_reference); | ||
| 2300 | |||
| 2301 | template <typename T> | ||
| 2302 | void set_undefined_methods_on(stack_reference); | ||
| 2303 | |||
| 2304 | struct undefined_metatable; | ||
| 2305 | }} // namespace stack::stack_detail | ||
| 2306 | } // namespace sol | ||
| 2307 | |||
| 2308 | #endif // SOL_FORWARD_DETAIL_HPP | ||
| 2309 | // end of sol/forward_detail.hpp | ||
| 2310 | |||
| 2311 | // beginning of sol/bytecode.hpp | ||
| 2312 | |||
| 2313 | // beginning of sol/compatibility.hpp | ||
| 2314 | |||
| 2315 | // beginning of sol/compatibility/lua_version.hpp | ||
| 2316 | |||
| 2317 | #if SOL_IS_ON(SOL_USE_CXX_LUA_I_) | ||
| 2318 | #include <lua.h> | ||
| 2319 | #include <lualib.h> | ||
| 2320 | #include <lauxlib.h> | ||
| 2321 | #elif SOL_IS_ON(SOL_USE_LUA_HPP_I_) | ||
| 2322 | #include <lua.hpp> | ||
| 2323 | #else | ||
| 2324 | extern "C" { | ||
| 2325 | #include <lua.h> | ||
| 2326 | #include <lauxlib.h> | ||
| 2327 | #include <lualib.h> | ||
| 2328 | } | ||
| 2329 | #endif // C++ Mangling for Lua vs. Not | ||
| 2330 | |||
| 2331 | #if defined(SOL_LUAJIT) | ||
| 2332 | #if (SOL_LUAJIT != 0) | ||
| 2333 | #define SOL_USE_LUAJIT_I_ SOL_ON | ||
| 2334 | #else | ||
| 2335 | #define SOL_USE_LUAJIT_I_ SOL_OFF | ||
| 2336 | #endif | ||
| 2337 | #elif defined(LUAJIT_VERSION) | ||
| 2338 | #define SOL_USE_LUAJIT_I_ SOL_OFF | ||
| 2339 | #else | ||
| 2340 | #define SOL_USE_LUAJIT_I_ SOL_DEFAULT_OFF | ||
| 2341 | #endif // luajit | ||
| 2342 | |||
| 2343 | #if SOL_IS_ON(SOL_USE_CXX_LUAJIT_I_) | ||
| 2344 | #include <luajit.h> | ||
| 2345 | #elif SOL_IS_ON(SOL_USE_LUAJIT_I_) | ||
| 2346 | extern "C" { | ||
| 2347 | #include <luajit.h> | ||
| 2348 | } | ||
| 2349 | #endif // C++ LuaJIT ... whatever that means | ||
| 2350 | |||
| 2351 | #if defined(SOL_LUAJIT_VERSION) | ||
| 2352 | #define SOL_LUAJIT_VERSION_I_ SOL_LUAJIT_VERSION | ||
| 2353 | #elif SOL_IS_ON(SOL_USE_LUAJIT_I_) | ||
| 2354 | #define SOL_LUAJIT_VERSION_I_ LUAJIT_VERSION_NUM | ||
| 2355 | #else | ||
| 2356 | #define SOL_LUAJIT_VERSION_I_ 0 | ||
| 2357 | #endif | ||
| 2358 | |||
| 2359 | #if defined(MOONJIT_VERSION) | ||
| 2360 | #define SOL_USE_MOONJIT_I_ SOL_ON | ||
| 2361 | #else | ||
| 2362 | #define SOL_USE_MOONJIT_I_ SOL_OFF | ||
| 2363 | #endif | ||
| 2364 | |||
| 2365 | #if !defined(SOL_LUA_VERSION) | ||
| 2366 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM >= 502 | ||
| 2367 | #define SOL_LUA_VERSION LUA_VERSION_NUM | ||
| 2368 | #elif defined(LUA_VERSION_NUM) && LUA_VERSION_NUM == 501 | ||
| 2369 | #define SOL_LUA_VERSION LUA_VERSION_NUM | ||
| 2370 | #elif !defined(LUA_VERSION_NUM) || !(LUA_VERSION_NUM) | ||
| 2371 | // Definitely 5.0 | ||
| 2372 | #define SOL_LUA_VERSION 500 | ||
| 2373 | #else | ||
| 2374 | // ??? Not sure, assume latest? | ||
| 2375 | #define SOL_LUA_VERSION 504 | ||
| 2376 | #endif // Lua Version 503, 502, 501 || luajit, 500 | ||
| 2377 | #endif // SOL_LUA_VERSION | ||
| 2378 | |||
| 2379 | #if defined(SOL_LUA_VERSION) | ||
| 2380 | #define SOL_LUA_VESION_I_ SOL_LUA_VERSION | ||
| 2381 | #else | ||
| 2382 | #define SOL_LUA_VESION_I_ 504 | ||
| 2383 | #endif | ||
| 2384 | |||
| 2385 | #if defined(SOL_EXCEPTIONS_ALWAYS_UNSAFE) | ||
| 2386 | #if (SOL_EXCEPTIONS_ALWAYS_UNSAFE != 0) | ||
| 2387 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_OFF | ||
| 2388 | #else | ||
| 2389 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_ON | ||
| 2390 | #endif | ||
| 2391 | #elif defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) | ||
| 2392 | #if (SOL_EXCEPTIONS_SAFE_PROPAGATION != 0) | ||
| 2393 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_ON | ||
| 2394 | #else | ||
| 2395 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_OFF | ||
| 2396 | #endif | ||
| 2397 | #elif SOL_LUAJIT_VERSION_I_ >= 20100 | ||
| 2398 | // LuaJIT 2.1.0-beta3 and better have exception support locked in for all platforms (mostly) | ||
| 2399 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_DEFAULT_ON | ||
| 2400 | #elif SOL_LUAJIT_VERSION_I_ >= 20000 | ||
| 2401 | // LuaJIT 2.0.x have exception support only on x64 builds | ||
| 2402 | #if SOL_IS_ON(SOL_PLATFORM_X64_I_) | ||
| 2403 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_DEFAULT_ON | ||
| 2404 | #else | ||
| 2405 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_OFF | ||
| 2406 | #endif | ||
| 2407 | #else | ||
| 2408 | // otherwise, there is no exception safety for | ||
| 2409 | // shoving exceptions through Lua and errors should | ||
| 2410 | // always be serialized | ||
| 2411 | #define SOL_PROPAGATE_EXCEPTIONS_I_ SOL_DEFAULT_OFF | ||
| 2412 | #endif // LuaJIT beta 02.01.00 have better exception handling on all platforms since beta3 | ||
| 2413 | |||
| 2414 | #if defined(SOL_LUAJIT_USE_EXCEPTION_TRAMPOLINE) | ||
| 2415 | #if (SOL_LUAJIT_USE_EXCEPTION_TRAMPOLINE != 0) | ||
| 2416 | #define SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_ SOL_ON | ||
| 2417 | #else | ||
| 2418 | #define SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_ SOL_OFF | ||
| 2419 | #endif | ||
| 2420 | #else | ||
| 2421 | #if SOL_IS_OFF(SOL_PROPAGATE_EXCEPTIONS_I_) && SOL_IS_ON(SOL_USE_LUAJIT_I_) | ||
| 2422 | #define SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_ SOL_ON | ||
| 2423 | #else | ||
| 2424 | #define SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_ SOL_DEFAULT_OFF | ||
| 2425 | #endif | ||
| 2426 | #endif | ||
| 2427 | |||
| 2428 | #if defined(SOL_LUAL_STREAM_HAS_CLOSE_FUNCTION) | ||
| 2429 | #if (SOL_LUAL_STREAM_HAS_CLOSE_FUNCTION != 0) | ||
| 2430 | #define SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_ SOL_ON | ||
| 2431 | #else | ||
| 2432 | #define SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_ SOL_OFF | ||
| 2433 | #endif | ||
| 2434 | #else | ||
| 2435 | #if SOL_IS_OFF(SOL_USE_LUAJIT_I_) && (SOL_LUA_VERSION > 501) | ||
| 2436 | #define SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_ SOL_ON | ||
| 2437 | #else | ||
| 2438 | #define SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_ SOL_DEFAULT_OFF | ||
| 2439 | #endif | ||
| 2440 | #endif | ||
| 2441 | |||
| 2442 | // end of sol/compatibility/lua_version.hpp | ||
| 2443 | |||
| 2444 | #if SOL_IS_ON(SOL_USE_COMPATIBILITY_LAYER_I_) | ||
| 2445 | |||
| 2446 | #if SOL_IS_ON(SOL_USE_CXX_LUA_I_) || SOL_IS_ON(SOL_USE_CXX_LUAJIT_I_) | ||
| 2447 | #ifndef COMPAT53_LUA_CPP | ||
| 2448 | #define COMPAT53_LUA_CPP 1 | ||
| 2449 | #endif // Build Lua Compat layer as C++ | ||
| 2450 | #endif | ||
| 2451 | #ifndef COMPAT53_INCLUDE_SOURCE | ||
| 2452 | #define COMPAT53_INCLUDE_SOURCE 1 | ||
| 2453 | #endif // Build Compat Layer Inline | ||
| 2454 | |||
| 2455 | // beginning of sol/compatibility/compat-5.3.h | ||
| 2456 | |||
| 2457 | #ifndef KEPLER_PROJECT_COMPAT53_H_ | ||
| 2458 | #define KEPLER_PROJECT_COMPAT53_H_ | ||
| 2459 | |||
| 2460 | #include <stddef.h> | ||
| 2461 | #include <limits.h> | ||
| 2462 | #include <string.h> | ||
| 2463 | #if defined(__cplusplus) && !defined(COMPAT53_LUA_CPP) | ||
| 2464 | extern "C" { | ||
| 2465 | #endif | ||
| 2466 | #include <lua.h> | ||
| 2467 | #include <lauxlib.h> | ||
| 2468 | #include <lualib.h> | ||
| 2469 | #if defined(__cplusplus) && !defined(COMPAT53_LUA_CPP) | ||
| 2470 | } | ||
| 2471 | #endif | ||
| 2472 | |||
| 2473 | #ifndef COMPAT53_PREFIX | ||
| 2474 | /* we chose this name because many other lua bindings / libs have | ||
| 2475 | * their own compatibility layer, and that use the compat53 declaration | ||
| 2476 | * frequently, causing all kinds of linker / compiler issues | ||
| 2477 | */ | ||
| 2478 | # define COMPAT53_PREFIX kp_compat53 | ||
| 2479 | #endif // COMPAT53_PREFIX | ||
| 2480 | |||
| 2481 | #ifndef COMPAT53_API | ||
| 2482 | # if defined(COMPAT53_INCLUDE_SOURCE) && COMPAT53_INCLUDE_SOURCE | ||
| 2483 | # if defined(__GNUC__) || defined(__clang__) | ||
| 2484 | # define COMPAT53_API __attribute__((__unused__)) static inline | ||
| 2485 | # else | ||
| 2486 | # define COMPAT53_API static inline | ||
| 2487 | # endif /* Clang/GCC */ | ||
| 2488 | # else /* COMPAT53_INCLUDE_SOURCE */ | ||
| 2489 | /* we are not including source, so everything is extern */ | ||
| 2490 | # define COMPAT53_API extern | ||
| 2491 | # endif /* COMPAT53_INCLUDE_SOURCE */ | ||
| 2492 | #endif /* COMPAT53_PREFIX */ | ||
| 2493 | |||
| 2494 | #define COMPAT53_CONCAT_HELPER(a, b) a##b | ||
| 2495 | #define COMPAT53_CONCAT(a, b) COMPAT53_CONCAT_HELPER(a, b) | ||
| 2496 | |||
| 2497 | /* declarations for Lua 5.1 */ | ||
| 2498 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM == 501 | ||
| 2499 | |||
| 2500 | /* XXX not implemented: | ||
| 2501 | * lua_arith (new operators) | ||
| 2502 | * lua_upvalueid | ||
| 2503 | * lua_upvaluejoin | ||
| 2504 | * lua_version | ||
| 2505 | * lua_yieldk | ||
| 2506 | */ | ||
| 2507 | |||
| 2508 | #ifndef LUA_OK | ||
| 2509 | # define LUA_OK 0 | ||
| 2510 | #endif | ||
| 2511 | #ifndef LUA_OPADD | ||
| 2512 | # define LUA_OPADD 0 | ||
| 2513 | #endif | ||
| 2514 | #ifndef LUA_OPSUB | ||
| 2515 | # define LUA_OPSUB 1 | ||
| 2516 | #endif | ||
| 2517 | #ifndef LUA_OPMUL | ||
| 2518 | # define LUA_OPMUL 2 | ||
| 2519 | #endif | ||
| 2520 | #ifndef LUA_OPDIV | ||
| 2521 | # define LUA_OPDIV 3 | ||
| 2522 | #endif | ||
| 2523 | #ifndef LUA_OPMOD | ||
| 2524 | # define LUA_OPMOD 4 | ||
| 2525 | #endif | ||
| 2526 | #ifndef LUA_OPPOW | ||
| 2527 | # define LUA_OPPOW 5 | ||
| 2528 | #endif | ||
| 2529 | #ifndef LUA_OPUNM | ||
| 2530 | # define LUA_OPUNM 6 | ||
| 2531 | #endif | ||
| 2532 | #ifndef LUA_OPEQ | ||
| 2533 | # define LUA_OPEQ 0 | ||
| 2534 | #endif | ||
| 2535 | #ifndef LUA_OPLT | ||
| 2536 | # define LUA_OPLT 1 | ||
| 2537 | #endif | ||
| 2538 | #ifndef LUA_OPLE | ||
| 2539 | # define LUA_OPLE 2 | ||
| 2540 | #endif | ||
| 2541 | |||
| 2542 | /* LuaJIT/Lua 5.1 does not have the updated | ||
| 2543 | * error codes for thread status/function returns (but some patched versions do) | ||
| 2544 | * define it only if it's not found | ||
| 2545 | */ | ||
| 2546 | #if !defined(LUA_ERRGCMM) | ||
| 2547 | /* Use + 2 because in some versions of Lua (Lua 5.1) | ||
| 2548 | * LUA_ERRFILE is defined as (LUA_ERRERR+1) | ||
| 2549 | * so we need to avoid it (LuaJIT might have something at this | ||
| 2550 | * integer value too) | ||
| 2551 | */ | ||
| 2552 | # define LUA_ERRGCMM (LUA_ERRERR + 2) | ||
| 2553 | #endif /* LUA_ERRGCMM define */ | ||
| 2554 | |||
| 2555 | #if !defined(MOONJIT_VERSION) | ||
| 2556 | typedef size_t lua_Unsigned; | ||
| 2557 | #endif | ||
| 2558 | |||
| 2559 | typedef struct luaL_Buffer_53 { | ||
| 2560 | luaL_Buffer b; /* make incorrect code crash! */ | ||
| 2561 | char *ptr; | ||
| 2562 | size_t nelems; | ||
| 2563 | size_t capacity; | ||
| 2564 | lua_State *L2; | ||
| 2565 | } luaL_Buffer_53; | ||
| 2566 | #define luaL_Buffer luaL_Buffer_53 | ||
| 2567 | |||
| 2568 | /* In PUC-Rio 5.1, userdata is a simple FILE* | ||
| 2569 | * In LuaJIT, it's a struct where the first member is a FILE* | ||
| 2570 | * We can't support the `closef` member | ||
| 2571 | */ | ||
| 2572 | typedef struct luaL_Stream { | ||
| 2573 | FILE *f; | ||
| 2574 | } luaL_Stream; | ||
| 2575 | |||
| 2576 | #define lua_absindex COMPAT53_CONCAT(COMPAT53_PREFIX, _absindex) | ||
| 2577 | COMPAT53_API int lua_absindex(lua_State *L, int i); | ||
| 2578 | |||
| 2579 | #define lua_arith COMPAT53_CONCAT(COMPAT53_PREFIX, _arith) | ||
| 2580 | COMPAT53_API void lua_arith(lua_State *L, int op); | ||
| 2581 | |||
| 2582 | #define lua_compare COMPAT53_CONCAT(COMPAT53_PREFIX, _compare) | ||
| 2583 | COMPAT53_API int lua_compare(lua_State *L, int idx1, int idx2, int op); | ||
| 2584 | |||
| 2585 | #define lua_copy COMPAT53_CONCAT(COMPAT53_PREFIX, _copy) | ||
| 2586 | COMPAT53_API void lua_copy(lua_State *L, int from, int to); | ||
| 2587 | |||
| 2588 | #define lua_getuservalue(L, i) \ | ||
| 2589 | (lua_getfenv((L), (i)), lua_type((L), -1)) | ||
| 2590 | #define lua_setuservalue(L, i) \ | ||
| 2591 | (luaL_checktype((L), -1, LUA_TTABLE), lua_setfenv((L), (i))) | ||
| 2592 | |||
| 2593 | #define lua_len COMPAT53_CONCAT(COMPAT53_PREFIX, _len) | ||
| 2594 | COMPAT53_API void lua_len(lua_State *L, int i); | ||
| 2595 | |||
| 2596 | #define lua_pushstring(L, s) \ | ||
| 2597 | (lua_pushstring((L), (s)), lua_tostring((L), -1)) | ||
| 2598 | |||
| 2599 | #define lua_pushlstring(L, s, len) \ | ||
| 2600 | ((((len) == 0) ? lua_pushlstring((L), "", 0) : lua_pushlstring((L), (s), (len))), lua_tostring((L), -1)) | ||
| 2601 | |||
| 2602 | #ifndef luaL_newlibtable | ||
| 2603 | # define luaL_newlibtable(L, l) \ | ||
| 2604 | (lua_createtable((L), 0, sizeof((l))/sizeof(*(l))-1)) | ||
| 2605 | #endif | ||
| 2606 | #ifndef luaL_newlib | ||
| 2607 | # define luaL_newlib(L, l) \ | ||
| 2608 | (luaL_newlibtable((L), (l)), luaL_register((L), NULL, (l))) | ||
| 2609 | #endif | ||
| 2610 | |||
| 2611 | #ifndef lua_pushglobaltable | ||
| 2612 | # define lua_pushglobaltable(L) \ | ||
| 2613 | lua_pushvalue((L), LUA_GLOBALSINDEX) | ||
| 2614 | #endif | ||
| 2615 | #define lua_rawgetp COMPAT53_CONCAT(COMPAT53_PREFIX, _rawgetp) | ||
| 2616 | COMPAT53_API int lua_rawgetp(lua_State *L, int i, const void *p); | ||
| 2617 | |||
| 2618 | #define lua_rawsetp COMPAT53_CONCAT(COMPAT53_PREFIX, _rawsetp) | ||
| 2619 | COMPAT53_API void lua_rawsetp(lua_State *L, int i, const void *p); | ||
| 2620 | |||
| 2621 | #define lua_rawlen(L, i) lua_objlen((L), (i)) | ||
| 2622 | |||
| 2623 | #define lua_tointeger(L, i) lua_tointegerx((L), (i), NULL) | ||
| 2624 | |||
| 2625 | #define lua_tonumberx COMPAT53_CONCAT(COMPAT53_PREFIX, _tonumberx) | ||
| 2626 | COMPAT53_API lua_Number lua_tonumberx(lua_State *L, int i, int *isnum); | ||
| 2627 | |||
| 2628 | #define luaL_checkversion COMPAT53_CONCAT(COMPAT53_PREFIX, L_checkversion) | ||
| 2629 | COMPAT53_API void luaL_checkversion(lua_State *L); | ||
| 2630 | |||
| 2631 | #define lua_load COMPAT53_CONCAT(COMPAT53_PREFIX, _load_53) | ||
| 2632 | COMPAT53_API int lua_load(lua_State *L, lua_Reader reader, void *data, const char* source, const char* mode); | ||
| 2633 | |||
| 2634 | #define luaL_loadfilex COMPAT53_CONCAT(COMPAT53_PREFIX, L_loadfilex) | ||
| 2635 | COMPAT53_API int luaL_loadfilex(lua_State *L, const char *filename, const char *mode); | ||
| 2636 | |||
| 2637 | #define luaL_loadbufferx COMPAT53_CONCAT(COMPAT53_PREFIX, L_loadbufferx) | ||
| 2638 | COMPAT53_API int luaL_loadbufferx(lua_State *L, const char *buff, size_t sz, const char *name, const char *mode); | ||
| 2639 | |||
| 2640 | #define luaL_checkstack COMPAT53_CONCAT(COMPAT53_PREFIX, L_checkstack_53) | ||
| 2641 | COMPAT53_API void luaL_checkstack(lua_State *L, int sp, const char *msg); | ||
| 2642 | |||
| 2643 | #define luaL_getsubtable COMPAT53_CONCAT(COMPAT53_PREFIX, L_getsubtable) | ||
| 2644 | COMPAT53_API int luaL_getsubtable(lua_State* L, int i, const char *name); | ||
| 2645 | |||
| 2646 | #define luaL_len COMPAT53_CONCAT(COMPAT53_PREFIX, L_len) | ||
| 2647 | COMPAT53_API lua_Integer luaL_len(lua_State *L, int i); | ||
| 2648 | |||
| 2649 | #define luaL_setfuncs COMPAT53_CONCAT(COMPAT53_PREFIX, L_setfuncs) | ||
| 2650 | COMPAT53_API void luaL_setfuncs(lua_State *L, const luaL_Reg *l, int nup); | ||
| 2651 | |||
| 2652 | #define luaL_setmetatable COMPAT53_CONCAT(COMPAT53_PREFIX, L_setmetatable) | ||
| 2653 | COMPAT53_API void luaL_setmetatable(lua_State *L, const char *tname); | ||
| 2654 | |||
| 2655 | #define luaL_testudata COMPAT53_CONCAT(COMPAT53_PREFIX, L_testudata) | ||
| 2656 | COMPAT53_API void *luaL_testudata(lua_State *L, int i, const char *tname); | ||
| 2657 | |||
| 2658 | #define luaL_traceback COMPAT53_CONCAT(COMPAT53_PREFIX, L_traceback) | ||
| 2659 | COMPAT53_API void luaL_traceback(lua_State *L, lua_State *L1, const char *msg, int level); | ||
| 2660 | |||
| 2661 | #define luaL_fileresult COMPAT53_CONCAT(COMPAT53_PREFIX, L_fileresult) | ||
| 2662 | COMPAT53_API int luaL_fileresult(lua_State *L, int stat, const char *fname); | ||
| 2663 | |||
| 2664 | #define luaL_execresult COMPAT53_CONCAT(COMPAT53_PREFIX, L_execresult) | ||
| 2665 | COMPAT53_API int luaL_execresult(lua_State *L, int stat); | ||
| 2666 | |||
| 2667 | #define lua_callk(L, na, nr, ctx, cont) \ | ||
| 2668 | ((void)(ctx), (void)(cont), lua_call((L), (na), (nr))) | ||
| 2669 | #define lua_pcallk(L, na, nr, err, ctx, cont) \ | ||
| 2670 | ((void)(ctx), (void)(cont), lua_pcall((L), (na), (nr), (err))) | ||
| 2671 | |||
| 2672 | #define lua_resume(L, from, nargs) \ | ||
| 2673 | ((void)(from), lua_resume((L), (nargs))) | ||
| 2674 | |||
| 2675 | #define luaL_buffinit COMPAT53_CONCAT(COMPAT53_PREFIX, _buffinit_53) | ||
| 2676 | COMPAT53_API void luaL_buffinit(lua_State *L, luaL_Buffer_53 *B); | ||
| 2677 | |||
| 2678 | #define luaL_prepbuffsize COMPAT53_CONCAT(COMPAT53_PREFIX, _prepbufsize_53) | ||
| 2679 | COMPAT53_API char *luaL_prepbuffsize(luaL_Buffer_53 *B, size_t s); | ||
| 2680 | |||
| 2681 | #define luaL_addlstring COMPAT53_CONCAT(COMPAT53_PREFIX, _addlstring_53) | ||
| 2682 | COMPAT53_API void luaL_addlstring(luaL_Buffer_53 *B, const char *s, size_t l); | ||
| 2683 | |||
| 2684 | #define luaL_addvalue COMPAT53_CONCAT(COMPAT53_PREFIX, _addvalue_53) | ||
| 2685 | COMPAT53_API void luaL_addvalue(luaL_Buffer_53 *B); | ||
| 2686 | |||
| 2687 | #define luaL_pushresult COMPAT53_CONCAT(COMPAT53_PREFIX, _pushresult_53) | ||
| 2688 | COMPAT53_API void luaL_pushresult(luaL_Buffer_53 *B); | ||
| 2689 | |||
| 2690 | #undef luaL_buffinitsize | ||
| 2691 | #define luaL_buffinitsize(L, B, s) \ | ||
| 2692 | (luaL_buffinit((L), (B)), luaL_prepbuffsize((B), (s))) | ||
| 2693 | |||
| 2694 | #undef luaL_prepbuffer | ||
| 2695 | #define luaL_prepbuffer(B) \ | ||
| 2696 | luaL_prepbuffsize((B), LUAL_BUFFERSIZE) | ||
| 2697 | |||
| 2698 | #undef luaL_addchar | ||
| 2699 | #define luaL_addchar(B, c) \ | ||
| 2700 | ((void)((B)->nelems < (B)->capacity || luaL_prepbuffsize((B), 1)), \ | ||
| 2701 | ((B)->ptr[(B)->nelems++] = (c))) | ||
| 2702 | |||
| 2703 | #undef luaL_addsize | ||
| 2704 | #define luaL_addsize(B, s) \ | ||
| 2705 | ((B)->nelems += (s)) | ||
| 2706 | |||
| 2707 | #undef luaL_addstring | ||
| 2708 | #define luaL_addstring(B, s) \ | ||
| 2709 | luaL_addlstring((B), (s), strlen((s))) | ||
| 2710 | |||
| 2711 | #undef luaL_pushresultsize | ||
| 2712 | #define luaL_pushresultsize(B, s) \ | ||
| 2713 | (luaL_addsize((B), (s)), luaL_pushresult((B))) | ||
| 2714 | |||
| 2715 | #if defined(LUA_COMPAT_APIINTCASTS) | ||
| 2716 | #define lua_pushunsigned(L, n) \ | ||
| 2717 | lua_pushinteger((L), (lua_Integer)(n)) | ||
| 2718 | #define lua_tounsignedx(L, i, is) \ | ||
| 2719 | ((lua_Unsigned)lua_tointegerx((L), (i), (is))) | ||
| 2720 | #define lua_tounsigned(L, i) \ | ||
| 2721 | lua_tounsignedx((L), (i), NULL) | ||
| 2722 | #define luaL_checkunsigned(L, a) \ | ||
| 2723 | ((lua_Unsigned)luaL_checkinteger((L), (a))) | ||
| 2724 | #define luaL_optunsigned(L, a, d) \ | ||
| 2725 | ((lua_Unsigned)luaL_optinteger((L), (a), (lua_Integer)(d))) | ||
| 2726 | #endif | ||
| 2727 | |||
| 2728 | #endif /* Lua 5.1 only */ | ||
| 2729 | |||
| 2730 | /* declarations for Lua 5.1 and 5.2 */ | ||
| 2731 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM <= 502 | ||
| 2732 | |||
| 2733 | typedef int lua_KContext; | ||
| 2734 | |||
| 2735 | typedef int(*lua_KFunction)(lua_State *L, int status, lua_KContext ctx); | ||
| 2736 | |||
| 2737 | #define lua_dump(L, w, d, s) \ | ||
| 2738 | ((void)(s), lua_dump((L), (w), (d))) | ||
| 2739 | |||
| 2740 | #define lua_getfield(L, i, k) \ | ||
| 2741 | (lua_getfield((L), (i), (k)), lua_type((L), -1)) | ||
| 2742 | |||
| 2743 | #define lua_gettable(L, i) \ | ||
| 2744 | (lua_gettable((L), (i)), lua_type((L), -1)) | ||
| 2745 | |||
| 2746 | #define lua_geti COMPAT53_CONCAT(COMPAT53_PREFIX, _geti) | ||
| 2747 | COMPAT53_API int lua_geti(lua_State *L, int index, lua_Integer i); | ||
| 2748 | |||
| 2749 | #define lua_isinteger COMPAT53_CONCAT(COMPAT53_PREFIX, _isinteger) | ||
| 2750 | COMPAT53_API int lua_isinteger(lua_State *L, int index); | ||
| 2751 | |||
| 2752 | #define lua_tointegerx COMPAT53_CONCAT(COMPAT53_PREFIX, _tointegerx_53) | ||
| 2753 | COMPAT53_API lua_Integer lua_tointegerx(lua_State *L, int i, int *isnum); | ||
| 2754 | |||
| 2755 | #define lua_numbertointeger(n, p) \ | ||
| 2756 | ((*(p) = (lua_Integer)(n)), 1) | ||
| 2757 | |||
| 2758 | #define lua_rawget(L, i) \ | ||
| 2759 | (lua_rawget((L), (i)), lua_type((L), -1)) | ||
| 2760 | |||
| 2761 | #define lua_rawgeti(L, i, n) \ | ||
| 2762 | (lua_rawgeti((L), (i), (n)), lua_type((L), -1)) | ||
| 2763 | |||
| 2764 | #define lua_rotate COMPAT53_CONCAT(COMPAT53_PREFIX, _rotate) | ||
| 2765 | COMPAT53_API void lua_rotate(lua_State *L, int idx, int n); | ||
| 2766 | |||
| 2767 | #define lua_seti COMPAT53_CONCAT(COMPAT53_PREFIX, _seti) | ||
| 2768 | COMPAT53_API void lua_seti(lua_State *L, int index, lua_Integer i); | ||
| 2769 | |||
| 2770 | #define lua_stringtonumber COMPAT53_CONCAT(COMPAT53_PREFIX, _stringtonumber) | ||
| 2771 | COMPAT53_API size_t lua_stringtonumber(lua_State *L, const char *s); | ||
| 2772 | |||
| 2773 | #define luaL_tolstring COMPAT53_CONCAT(COMPAT53_PREFIX, L_tolstring) | ||
| 2774 | COMPAT53_API const char *luaL_tolstring(lua_State *L, int idx, size_t *len); | ||
| 2775 | |||
| 2776 | #define luaL_getmetafield(L, o, e) \ | ||
| 2777 | (luaL_getmetafield((L), (o), (e)) ? lua_type((L), -1) : LUA_TNIL) | ||
| 2778 | |||
| 2779 | #define luaL_newmetatable(L, tn) \ | ||
| 2780 | (luaL_newmetatable((L), (tn)) ? (lua_pushstring((L), (tn)), lua_setfield((L), -2, "__name"), 1) : 0) | ||
| 2781 | |||
| 2782 | #define luaL_requiref COMPAT53_CONCAT(COMPAT53_PREFIX, L_requiref_53) | ||
| 2783 | COMPAT53_API void luaL_requiref(lua_State *L, const char *modname, | ||
| 2784 | lua_CFunction openf, int glb); | ||
| 2785 | |||
| 2786 | #endif /* Lua 5.1 and Lua 5.2 */ | ||
| 2787 | |||
| 2788 | /* declarations for Lua 5.2 */ | ||
| 2789 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM == 502 | ||
| 2790 | |||
| 2791 | /* XXX not implemented: | ||
| 2792 | * lua_isyieldable | ||
| 2793 | * lua_getextraspace | ||
| 2794 | * lua_arith (new operators) | ||
| 2795 | * lua_pushfstring (new formats) | ||
| 2796 | */ | ||
| 2797 | |||
| 2798 | #define lua_getglobal(L, n) \ | ||
| 2799 | (lua_getglobal((L), (n)), lua_type((L), -1)) | ||
| 2800 | |||
| 2801 | #define lua_getuservalue(L, i) \ | ||
| 2802 | (lua_getuservalue((L), (i)), lua_type((L), -1)) | ||
| 2803 | |||
| 2804 | #define lua_pushlstring(L, s, len) \ | ||
| 2805 | (((len) == 0) ? lua_pushlstring((L), "", 0) : lua_pushlstring((L), (s), (len))) | ||
| 2806 | |||
| 2807 | #define lua_rawgetp(L, i, p) \ | ||
| 2808 | (lua_rawgetp((L), (i), (p)), lua_type((L), -1)) | ||
| 2809 | |||
| 2810 | #define LUA_KFUNCTION(_name) \ | ||
| 2811 | static int (_name)(lua_State *L, int status, lua_KContext ctx); \ | ||
| 2812 | static int (_name ## _52)(lua_State *L) { \ | ||
| 2813 | lua_KContext ctx; \ | ||
| 2814 | int status = lua_getctx(L, &ctx); \ | ||
| 2815 | return (_name)(L, status, ctx); \ | ||
| 2816 | } \ | ||
| 2817 | static int (_name)(lua_State *L, int status, lua_KContext ctx) | ||
| 2818 | |||
| 2819 | #define lua_pcallk(L, na, nr, err, ctx, cont) \ | ||
| 2820 | lua_pcallk((L), (na), (nr), (err), (ctx), cont ## _52) | ||
| 2821 | |||
| 2822 | #define lua_callk(L, na, nr, ctx, cont) \ | ||
| 2823 | lua_callk((L), (na), (nr), (ctx), cont ## _52) | ||
| 2824 | |||
| 2825 | #define lua_yieldk(L, nr, ctx, cont) \ | ||
| 2826 | lua_yieldk((L), (nr), (ctx), cont ## _52) | ||
| 2827 | |||
| 2828 | #ifdef lua_call | ||
| 2829 | # undef lua_call | ||
| 2830 | # define lua_call(L, na, nr) \ | ||
| 2831 | (lua_callk)((L), (na), (nr), 0, NULL) | ||
| 2832 | #endif | ||
| 2833 | |||
| 2834 | #ifdef lua_pcall | ||
| 2835 | # undef lua_pcall | ||
| 2836 | # define lua_pcall(L, na, nr, err) \ | ||
| 2837 | (lua_pcallk)((L), (na), (nr), (err), 0, NULL) | ||
| 2838 | #endif | ||
| 2839 | |||
| 2840 | #ifdef lua_yield | ||
| 2841 | # undef lua_yield | ||
| 2842 | # define lua_yield(L, nr) \ | ||
| 2843 | (lua_yieldk)((L), (nr), 0, NULL) | ||
| 2844 | #endif | ||
| 2845 | |||
| 2846 | #endif /* Lua 5.2 only */ | ||
| 2847 | |||
| 2848 | /* other Lua versions */ | ||
| 2849 | #if !defined(LUA_VERSION_NUM) || LUA_VERSION_NUM < 501 || LUA_VERSION_NUM > 504 | ||
| 2850 | |||
| 2851 | # error "unsupported Lua version (i.e. not Lua 5.1, 5.2, 5.3, or 5.4)" | ||
| 2852 | |||
| 2853 | #endif /* other Lua versions except 5.1, 5.2, 5.3, and 5.4 */ | ||
| 2854 | |||
| 2855 | /* helper macro for defining continuation functions (for every version | ||
| 2856 | * *except* Lua 5.2) */ | ||
| 2857 | #ifndef LUA_KFUNCTION | ||
| 2858 | #define LUA_KFUNCTION(_name) \ | ||
| 2859 | static int (_name)(lua_State *L, int status, lua_KContext ctx) | ||
| 2860 | #endif | ||
| 2861 | |||
| 2862 | #if defined(COMPAT53_INCLUDE_SOURCE) && COMPAT53_INCLUDE_SOURCE == 1 | ||
| 2863 | // beginning of sol/compatibility/compat-5.3.c.h | ||
| 2864 | |||
| 2865 | #include <stddef.h> | ||
| 2866 | #include <stdlib.h> | ||
| 2867 | #include <string.h> | ||
| 2868 | #include <ctype.h> | ||
| 2869 | #include <errno.h> | ||
| 2870 | #include <stdio.h> | ||
| 2871 | |||
| 2872 | /* don't compile it again if it already is included via compat53.h */ | ||
| 2873 | #ifndef KEPLER_PROJECT_COMPAT53_C_ | ||
| 2874 | #define KEPLER_PROJECT_COMPAT53_C_ | ||
| 2875 | |||
| 2876 | /* definitions for Lua 5.1 only */ | ||
| 2877 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM == 501 | ||
| 2878 | |||
| 2879 | #ifndef COMPAT53_FOPEN_NO_LOCK | ||
| 2880 | #if defined(_MSC_VER) | ||
| 2881 | #define COMPAT53_FOPEN_NO_LOCK 1 | ||
| 2882 | #else /* otherwise */ | ||
| 2883 | #define COMPAT53_FOPEN_NO_LOCK 0 | ||
| 2884 | #endif /* VC++ only so far */ | ||
| 2885 | #endif /* No-lock fopen_s usage if possible */ | ||
| 2886 | |||
| 2887 | #if defined(_MSC_VER) && COMPAT53_FOPEN_NO_LOCK | ||
| 2888 | #include <share.h> | ||
| 2889 | #endif /* VC++ _fsopen for share-allowed file read */ | ||
| 2890 | |||
| 2891 | #ifndef COMPAT53_HAVE_STRERROR_R | ||
| 2892 | #if defined(__GLIBC__) || defined(_POSIX_VERSION) || defined(__APPLE__) || (!defined(__MINGW32__) && defined(__GNUC__) && (__GNUC__ < 6)) | ||
| 2893 | #define COMPAT53_HAVE_STRERROR_R 1 | ||
| 2894 | #else /* none of the defines matched: define to 0 */ | ||
| 2895 | #define COMPAT53_HAVE_STRERROR_R 0 | ||
| 2896 | #endif /* have strerror_r of some form */ | ||
| 2897 | #endif /* strerror_r */ | ||
| 2898 | |||
| 2899 | #ifndef COMPAT53_HAVE_STRERROR_S | ||
| 2900 | #if defined(_MSC_VER) || (defined(__STDC_VERSION__) && __STDC_VERSION__ >= 201112L) || (defined(__STDC_LIB_EXT1__) && __STDC_LIB_EXT1__) | ||
| 2901 | #define COMPAT53_HAVE_STRERROR_S 1 | ||
| 2902 | #else /* not VC++ or C11 */ | ||
| 2903 | #define COMPAT53_HAVE_STRERROR_S 0 | ||
| 2904 | #endif /* strerror_s from VC++ or C11 */ | ||
| 2905 | #endif /* strerror_s */ | ||
| 2906 | |||
| 2907 | #ifndef COMPAT53_LUA_FILE_BUFFER_SIZE | ||
| 2908 | #define COMPAT53_LUA_FILE_BUFFER_SIZE 4096 | ||
| 2909 | #endif /* Lua File Buffer Size */ | ||
| 2910 | |||
| 2911 | static char* compat53_strerror(int en, char* buff, size_t sz) { | ||
| 2912 | #if COMPAT53_HAVE_STRERROR_R | ||
| 2913 | /* use strerror_r here, because it's available on these specific platforms */ | ||
| 2914 | if (sz > 0) { | ||
| 2915 | buff[0] = '\0'; | ||
| 2916 | /* we don't care whether the GNU version or the XSI version is used: */ | ||
| 2917 | if (strerror_r(en, buff, sz)) { | ||
| 2918 | /* Yes, we really DO want to ignore the return value! | ||
| 2919 | * GCC makes that extra hard, not even a (void) cast will do. */ | ||
| 2920 | } | ||
| 2921 | if (buff[0] == '\0') { | ||
| 2922 | /* Buffer is unchanged, so we probably have called GNU strerror_r which | ||
| 2923 | * returned a static constant string. Chances are that strerror will | ||
| 2924 | * return the same static constant string and therefore be thread-safe. */ | ||
| 2925 | return strerror(en); | ||
| 2926 | } | ||
| 2927 | } | ||
| 2928 | return buff; /* sz is 0 *or* strerror_r wrote into the buffer */ | ||
| 2929 | #elif COMPAT53_HAVE_STRERROR_S | ||
| 2930 | /* for MSVC and other C11 implementations, use strerror_s since it's | ||
| 2931 | * provided by default by the libraries */ | ||
| 2932 | strerror_s(buff, sz, en); | ||
| 2933 | return buff; | ||
| 2934 | #else | ||
| 2935 | /* fallback, but strerror is not guaranteed to be threadsafe due to modifying | ||
| 2936 | * errno itself and some impls not locking a static buffer for it ... but most | ||
| 2937 | * known systems have threadsafe errno: this might only change if the locale | ||
| 2938 | * is changed out from under someone while this function is being called */ | ||
| 2939 | (void)buff; | ||
| 2940 | (void)sz; | ||
| 2941 | return strerror(en); | ||
| 2942 | #endif | ||
| 2943 | } | ||
| 2944 | |||
| 2945 | COMPAT53_API int lua_absindex(lua_State* L, int i) { | ||
| 2946 | if (i < 0 && i > LUA_REGISTRYINDEX) | ||
| 2947 | i += lua_gettop(L) + 1; | ||
| 2948 | return i; | ||
| 2949 | } | ||
| 2950 | |||
| 2951 | static void compat53_call_lua(lua_State* L, char const code[], size_t len, int nargs, int nret) { | ||
| 2952 | lua_rawgetp(L, LUA_REGISTRYINDEX, (void*)code); | ||
| 2953 | if (lua_type(L, -1) != LUA_TFUNCTION) { | ||
| 2954 | lua_pop(L, 1); | ||
| 2955 | if (luaL_loadbuffer(L, code, len, "=none")) | ||
| 2956 | lua_error(L); | ||
| 2957 | lua_pushvalue(L, -1); | ||
| 2958 | lua_rawsetp(L, LUA_REGISTRYINDEX, (void*)code); | ||
| 2959 | } | ||
| 2960 | lua_insert(L, -nargs - 1); | ||
| 2961 | lua_call(L, nargs, nret); | ||
| 2962 | } | ||
| 2963 | |||
| 2964 | static const char compat53_arith_code[] | ||
| 2965 | = "local op,a,b=...\n" | ||
| 2966 | "if op==0 then return a+b\n" | ||
| 2967 | "elseif op==1 then return a-b\n" | ||
| 2968 | "elseif op==2 then return a*b\n" | ||
| 2969 | "elseif op==3 then return a/b\n" | ||
| 2970 | "elseif op==4 then return a%b\n" | ||
| 2971 | "elseif op==5 then return a^b\n" | ||
| 2972 | "elseif op==6 then return -a\n" | ||
| 2973 | "end\n"; | ||
| 2974 | |||
| 2975 | COMPAT53_API void lua_arith(lua_State* L, int op) { | ||
| 2976 | if (op < LUA_OPADD || op > LUA_OPUNM) | ||
| 2977 | luaL_error(L, "invalid 'op' argument for lua_arith"); | ||
| 2978 | luaL_checkstack(L, 5, "not enough stack slots"); | ||
| 2979 | if (op == LUA_OPUNM) | ||
| 2980 | lua_pushvalue(L, -1); | ||
| 2981 | lua_pushnumber(L, op); | ||
| 2982 | lua_insert(L, -3); | ||
| 2983 | compat53_call_lua(L, compat53_arith_code, sizeof(compat53_arith_code) - 1, 3, 1); | ||
| 2984 | } | ||
| 2985 | |||
| 2986 | static const char compat53_compare_code[] | ||
| 2987 | = "local a,b=...\n" | ||
| 2988 | "return a<=b\n"; | ||
| 2989 | |||
| 2990 | COMPAT53_API int lua_compare(lua_State* L, int idx1, int idx2, int op) { | ||
| 2991 | int result = 0; | ||
| 2992 | switch (op) { | ||
| 2993 | case LUA_OPEQ: | ||
| 2994 | return lua_equal(L, idx1, idx2); | ||
| 2995 | case LUA_OPLT: | ||
| 2996 | return lua_lessthan(L, idx1, idx2); | ||
| 2997 | case LUA_OPLE: | ||
| 2998 | luaL_checkstack(L, 5, "not enough stack slots"); | ||
| 2999 | idx1 = lua_absindex(L, idx1); | ||
| 3000 | idx2 = lua_absindex(L, idx2); | ||
| 3001 | lua_pushvalue(L, idx1); | ||
| 3002 | lua_pushvalue(L, idx2); | ||
| 3003 | compat53_call_lua(L, compat53_compare_code, sizeof(compat53_compare_code) - 1, 2, 1); | ||
| 3004 | result = lua_toboolean(L, -1); | ||
| 3005 | lua_pop(L, 1); | ||
| 3006 | return result; | ||
| 3007 | default: | ||
| 3008 | luaL_error(L, "invalid 'op' argument for lua_compare"); | ||
| 3009 | } | ||
| 3010 | return 0; | ||
| 3011 | } | ||
| 3012 | |||
| 3013 | COMPAT53_API void lua_copy(lua_State* L, int from, int to) { | ||
| 3014 | int abs_to = lua_absindex(L, to); | ||
| 3015 | luaL_checkstack(L, 1, "not enough stack slots"); | ||
| 3016 | lua_pushvalue(L, from); | ||
| 3017 | lua_replace(L, abs_to); | ||
| 3018 | } | ||
| 3019 | |||
| 3020 | COMPAT53_API void lua_len(lua_State* L, int i) { | ||
| 3021 | switch (lua_type(L, i)) { | ||
| 3022 | case LUA_TSTRING: | ||
| 3023 | lua_pushnumber(L, (lua_Number)lua_objlen(L, i)); | ||
| 3024 | break; | ||
| 3025 | case LUA_TTABLE: | ||
| 3026 | if (!luaL_callmeta(L, i, "__len")) | ||
| 3027 | lua_pushnumber(L, (lua_Number)lua_objlen(L, i)); | ||
| 3028 | break; | ||
| 3029 | case LUA_TUSERDATA: | ||
| 3030 | if (luaL_callmeta(L, i, "__len")) | ||
| 3031 | break; | ||
| 3032 | /* FALLTHROUGH */ | ||
| 3033 | default: | ||
| 3034 | luaL_error(L, "attempt to get length of a %s value", lua_typename(L, lua_type(L, i))); | ||
| 3035 | } | ||
| 3036 | } | ||
| 3037 | |||
| 3038 | COMPAT53_API int lua_rawgetp(lua_State* L, int i, const void* p) { | ||
| 3039 | int abs_i = lua_absindex(L, i); | ||
| 3040 | lua_pushlightuserdata(L, (void*)p); | ||
| 3041 | lua_rawget(L, abs_i); | ||
| 3042 | return lua_type(L, -1); | ||
| 3043 | } | ||
| 3044 | |||
| 3045 | COMPAT53_API void lua_rawsetp(lua_State* L, int i, const void* p) { | ||
| 3046 | int abs_i = lua_absindex(L, i); | ||
| 3047 | luaL_checkstack(L, 1, "not enough stack slots"); | ||
| 3048 | lua_pushlightuserdata(L, (void*)p); | ||
| 3049 | lua_insert(L, -2); | ||
| 3050 | lua_rawset(L, abs_i); | ||
| 3051 | } | ||
| 3052 | |||
| 3053 | COMPAT53_API lua_Number lua_tonumberx(lua_State* L, int i, int* isnum) { | ||
| 3054 | lua_Number n = lua_tonumber(L, i); | ||
| 3055 | if (isnum != NULL) { | ||
| 3056 | *isnum = (n != 0 || lua_isnumber(L, i)); | ||
| 3057 | } | ||
| 3058 | return n; | ||
| 3059 | } | ||
| 3060 | |||
| 3061 | COMPAT53_API void luaL_checkversion(lua_State* L) { | ||
| 3062 | (void)L; | ||
| 3063 | } | ||
| 3064 | |||
| 3065 | COMPAT53_API void luaL_checkstack(lua_State* L, int sp, const char* msg) { | ||
| 3066 | if (!lua_checkstack(L, sp + LUA_MINSTACK)) { | ||
| 3067 | if (msg != NULL) | ||
| 3068 | luaL_error(L, "stack overflow (%s)", msg); | ||
| 3069 | else { | ||
| 3070 | lua_pushliteral(L, "stack overflow"); | ||
| 3071 | lua_error(L); | ||
| 3072 | } | ||
| 3073 | } | ||
| 3074 | } | ||
| 3075 | |||
| 3076 | COMPAT53_API int luaL_getsubtable(lua_State* L, int i, const char* name) { | ||
| 3077 | int abs_i = lua_absindex(L, i); | ||
| 3078 | luaL_checkstack(L, 3, "not enough stack slots"); | ||
| 3079 | lua_pushstring(L, name); | ||
| 3080 | lua_gettable(L, abs_i); | ||
| 3081 | if (lua_istable(L, -1)) | ||
| 3082 | return 1; | ||
| 3083 | lua_pop(L, 1); | ||
| 3084 | lua_newtable(L); | ||
| 3085 | lua_pushstring(L, name); | ||
| 3086 | lua_pushvalue(L, -2); | ||
| 3087 | lua_settable(L, abs_i); | ||
| 3088 | return 0; | ||
| 3089 | } | ||
| 3090 | |||
| 3091 | COMPAT53_API lua_Integer luaL_len(lua_State* L, int i) { | ||
| 3092 | lua_Integer res = 0; | ||
| 3093 | int isnum = 0; | ||
| 3094 | luaL_checkstack(L, 1, "not enough stack slots"); | ||
| 3095 | lua_len(L, i); | ||
| 3096 | res = lua_tointegerx(L, -1, &isnum); | ||
| 3097 | lua_pop(L, 1); | ||
| 3098 | if (!isnum) | ||
| 3099 | luaL_error(L, "object length is not an integer"); | ||
| 3100 | return res; | ||
| 3101 | } | ||
| 3102 | |||
| 3103 | COMPAT53_API void luaL_setfuncs(lua_State* L, const luaL_Reg* l, int nup) { | ||
| 3104 | luaL_checkstack(L, nup + 1, "too many upvalues"); | ||
| 3105 | for (; l->name != NULL; l++) { /* fill the table with given functions */ | ||
| 3106 | int i; | ||
| 3107 | lua_pushstring(L, l->name); | ||
| 3108 | for (i = 0; i < nup; i++) /* copy upvalues to the top */ | ||
| 3109 | lua_pushvalue(L, -(nup + 1)); | ||
| 3110 | lua_pushcclosure(L, l->func, nup); /* closure with those upvalues */ | ||
| 3111 | lua_settable(L, -(nup + 3)); /* table must be below the upvalues, the name and the closure */ | ||
| 3112 | } | ||
| 3113 | lua_pop(L, nup); /* remove upvalues */ | ||
| 3114 | } | ||
| 3115 | |||
| 3116 | COMPAT53_API void luaL_setmetatable(lua_State* L, const char* tname) { | ||
| 3117 | luaL_checkstack(L, 1, "not enough stack slots"); | ||
| 3118 | luaL_getmetatable(L, tname); | ||
| 3119 | lua_setmetatable(L, -2); | ||
| 3120 | } | ||
| 3121 | |||
| 3122 | COMPAT53_API void* luaL_testudata(lua_State* L, int i, const char* tname) { | ||
| 3123 | void* p = lua_touserdata(L, i); | ||
| 3124 | luaL_checkstack(L, 2, "not enough stack slots"); | ||
| 3125 | if (p == NULL || !lua_getmetatable(L, i)) | ||
| 3126 | return NULL; | ||
| 3127 | else { | ||
| 3128 | int res = 0; | ||
| 3129 | luaL_getmetatable(L, tname); | ||
| 3130 | res = lua_rawequal(L, -1, -2); | ||
| 3131 | lua_pop(L, 2); | ||
| 3132 | if (!res) | ||
| 3133 | p = NULL; | ||
| 3134 | } | ||
| 3135 | return p; | ||
| 3136 | } | ||
| 3137 | |||
| 3138 | static int compat53_countlevels(lua_State* L) { | ||
| 3139 | lua_Debug ar; | ||
| 3140 | int li = 1, le = 1; | ||
| 3141 | /* find an upper bound */ | ||
| 3142 | while (lua_getstack(L, le, &ar)) { | ||
| 3143 | li = le; | ||
| 3144 | le *= 2; | ||
| 3145 | } | ||
| 3146 | /* do a binary search */ | ||
| 3147 | while (li < le) { | ||
| 3148 | int m = (li + le) / 2; | ||
| 3149 | if (lua_getstack(L, m, &ar)) | ||
| 3150 | li = m + 1; | ||
| 3151 | else | ||
| 3152 | le = m; | ||
| 3153 | } | ||
| 3154 | return le - 1; | ||
| 3155 | } | ||
| 3156 | |||
| 3157 | static int compat53_findfield(lua_State* L, int objidx, int level) { | ||
| 3158 | if (level == 0 || !lua_istable(L, -1)) | ||
| 3159 | return 0; /* not found */ | ||
| 3160 | lua_pushnil(L); /* start 'next' loop */ | ||
| 3161 | while (lua_next(L, -2)) { /* for each pair in table */ | ||
| 3162 | if (lua_type(L, -2) == LUA_TSTRING) { /* ignore non-string keys */ | ||
| 3163 | if (lua_rawequal(L, objidx, -1)) { /* found object? */ | ||
| 3164 | lua_pop(L, 1); /* remove value (but keep name) */ | ||
| 3165 | return 1; | ||
| 3166 | } | ||
| 3167 | else if (compat53_findfield(L, objidx, level - 1)) { /* try recursively */ | ||
| 3168 | lua_remove(L, -2); /* remove table (but keep name) */ | ||
| 3169 | lua_pushliteral(L, "."); | ||
| 3170 | lua_insert(L, -2); /* place '.' between the two names */ | ||
| 3171 | lua_concat(L, 3); | ||
| 3172 | return 1; | ||
| 3173 | } | ||
| 3174 | } | ||
| 3175 | lua_pop(L, 1); /* remove value */ | ||
| 3176 | } | ||
| 3177 | return 0; /* not found */ | ||
| 3178 | } | ||
| 3179 | |||
| 3180 | static int compat53_pushglobalfuncname(lua_State* L, lua_Debug* ar) { | ||
| 3181 | int top = lua_gettop(L); | ||
| 3182 | lua_getinfo(L, "f", ar); /* push function */ | ||
| 3183 | lua_pushvalue(L, LUA_GLOBALSINDEX); | ||
| 3184 | if (compat53_findfield(L, top + 1, 2)) { | ||
| 3185 | lua_copy(L, -1, top + 1); /* move name to proper place */ | ||
| 3186 | lua_pop(L, 2); /* remove pushed values */ | ||
| 3187 | return 1; | ||
| 3188 | } | ||
| 3189 | else { | ||
| 3190 | lua_settop(L, top); /* remove function and global table */ | ||
| 3191 | return 0; | ||
| 3192 | } | ||
| 3193 | } | ||
| 3194 | |||
| 3195 | static void compat53_pushfuncname(lua_State* L, lua_Debug* ar) { | ||
| 3196 | if (*ar->namewhat != '\0') /* is there a name? */ | ||
| 3197 | lua_pushfstring(L, "function " LUA_QS, ar->name); | ||
| 3198 | else if (*ar->what == 'm') /* main? */ | ||
| 3199 | lua_pushliteral(L, "main chunk"); | ||
| 3200 | else if (*ar->what == 'C') { | ||
| 3201 | if (compat53_pushglobalfuncname(L, ar)) { | ||
| 3202 | lua_pushfstring(L, "function " LUA_QS, lua_tostring(L, -1)); | ||
| 3203 | lua_remove(L, -2); /* remove name */ | ||
| 3204 | } | ||
| 3205 | else | ||
| 3206 | lua_pushliteral(L, "?"); | ||
| 3207 | } | ||
| 3208 | else | ||
| 3209 | lua_pushfstring(L, "function <%s:%d>", ar->short_src, ar->linedefined); | ||
| 3210 | } | ||
| 3211 | |||
| 3212 | #define COMPAT53_LEVELS1 12 /* size of the first part of the stack */ | ||
| 3213 | #define COMPAT53_LEVELS2 10 /* size of the second part of the stack */ | ||
| 3214 | |||
| 3215 | COMPAT53_API void luaL_traceback(lua_State* L, lua_State* L1, const char* msg, int level) { | ||
| 3216 | lua_Debug ar; | ||
| 3217 | int top = lua_gettop(L); | ||
| 3218 | int numlevels = compat53_countlevels(L1); | ||
| 3219 | int mark = (numlevels > COMPAT53_LEVELS1 + COMPAT53_LEVELS2) ? COMPAT53_LEVELS1 : 0; | ||
| 3220 | if (msg) | ||
| 3221 | lua_pushfstring(L, "%s\n", msg); | ||
| 3222 | lua_pushliteral(L, "stack traceback:"); | ||
| 3223 | while (lua_getstack(L1, level++, &ar)) { | ||
| 3224 | if (level == mark) { /* too many levels? */ | ||
| 3225 | lua_pushliteral(L, "\n\t..."); /* add a '...' */ | ||
| 3226 | level = numlevels - COMPAT53_LEVELS2; /* and skip to last ones */ | ||
| 3227 | } | ||
| 3228 | else { | ||
| 3229 | lua_getinfo(L1, "Slnt", &ar); | ||
| 3230 | lua_pushfstring(L, "\n\t%s:", ar.short_src); | ||
| 3231 | if (ar.currentline > 0) | ||
| 3232 | lua_pushfstring(L, "%d:", ar.currentline); | ||
| 3233 | lua_pushliteral(L, " in "); | ||
| 3234 | compat53_pushfuncname(L, &ar); | ||
| 3235 | lua_concat(L, lua_gettop(L) - top); | ||
| 3236 | } | ||
| 3237 | } | ||
| 3238 | lua_concat(L, lua_gettop(L) - top); | ||
| 3239 | } | ||
| 3240 | |||
| 3241 | COMPAT53_API int luaL_fileresult(lua_State* L, int stat, const char* fname) { | ||
| 3242 | const char* serr = NULL; | ||
| 3243 | int en = errno; /* calls to Lua API may change this value */ | ||
| 3244 | char buf[512] = { 0 }; | ||
| 3245 | if (stat) { | ||
| 3246 | lua_pushboolean(L, 1); | ||
| 3247 | return 1; | ||
| 3248 | } | ||
| 3249 | else { | ||
| 3250 | lua_pushnil(L); | ||
| 3251 | serr = compat53_strerror(en, buf, sizeof(buf)); | ||
| 3252 | if (fname) | ||
| 3253 | lua_pushfstring(L, "%s: %s", fname, serr); | ||
| 3254 | else | ||
| 3255 | lua_pushstring(L, serr); | ||
| 3256 | lua_pushnumber(L, (lua_Number)en); | ||
| 3257 | return 3; | ||
| 3258 | } | ||
| 3259 | } | ||
| 3260 | |||
| 3261 | static int compat53_checkmode(lua_State* L, const char* mode, const char* modename, int err) { | ||
| 3262 | if (mode && strchr(mode, modename[0]) == NULL) { | ||
| 3263 | lua_pushfstring(L, "attempt to load a %s chunk (mode is '%s')", modename, mode); | ||
| 3264 | return err; | ||
| 3265 | } | ||
| 3266 | return LUA_OK; | ||
| 3267 | } | ||
| 3268 | |||
| 3269 | typedef struct { | ||
| 3270 | lua_Reader reader; | ||
| 3271 | void* ud; | ||
| 3272 | int has_peeked_data; | ||
| 3273 | const char* peeked_data; | ||
| 3274 | size_t peeked_data_size; | ||
| 3275 | } compat53_reader_data; | ||
| 3276 | |||
| 3277 | static const char* compat53_reader(lua_State* L, void* ud, size_t* size) { | ||
| 3278 | compat53_reader_data* data = (compat53_reader_data*)ud; | ||
| 3279 | if (data->has_peeked_data) { | ||
| 3280 | data->has_peeked_data = 0; | ||
| 3281 | *size = data->peeked_data_size; | ||
| 3282 | return data->peeked_data; | ||
| 3283 | } | ||
| 3284 | else | ||
| 3285 | return data->reader(L, data->ud, size); | ||
| 3286 | } | ||
| 3287 | |||
| 3288 | COMPAT53_API int lua_load(lua_State* L, lua_Reader reader, void* data, const char* source, const char* mode) { | ||
| 3289 | int status = LUA_OK; | ||
| 3290 | compat53_reader_data compat53_data = { reader, data, 1, 0, 0 }; | ||
| 3291 | compat53_data.peeked_data = reader(L, data, &(compat53_data.peeked_data_size)); | ||
| 3292 | if (compat53_data.peeked_data && compat53_data.peeked_data_size && compat53_data.peeked_data[0] == LUA_SIGNATURE[0]) /* binary file? */ | ||
| 3293 | status = compat53_checkmode(L, mode, "binary", LUA_ERRSYNTAX); | ||
| 3294 | else | ||
| 3295 | status = compat53_checkmode(L, mode, "text", LUA_ERRSYNTAX); | ||
| 3296 | if (status != LUA_OK) | ||
| 3297 | return status; | ||
| 3298 | /* we need to call the original 5.1 version of lua_load! */ | ||
| 3299 | #undef lua_load | ||
| 3300 | return lua_load(L, compat53_reader, &compat53_data, source); | ||
| 3301 | #define lua_load COMPAT53_CONCAT(COMPAT53_PREFIX, _load_53) | ||
| 3302 | } | ||
| 3303 | |||
| 3304 | typedef struct { | ||
| 3305 | int n; /* number of pre-read characters */ | ||
| 3306 | FILE* f; /* file being read */ | ||
| 3307 | char buff[COMPAT53_LUA_FILE_BUFFER_SIZE]; /* area for reading file */ | ||
| 3308 | } compat53_LoadF; | ||
| 3309 | |||
| 3310 | static const char* compat53_getF(lua_State* L, void* ud, size_t* size) { | ||
| 3311 | compat53_LoadF* lf = (compat53_LoadF*)ud; | ||
| 3312 | (void)L; /* not used */ | ||
| 3313 | if (lf->n > 0) { /* are there pre-read characters to be read? */ | ||
| 3314 | *size = lf->n; /* return them (chars already in buffer) */ | ||
| 3315 | lf->n = 0; /* no more pre-read characters */ | ||
| 3316 | } | ||
| 3317 | else { /* read a block from file */ | ||
| 3318 | /* 'fread' can return > 0 *and* set the EOF flag. If next call to | ||
| 3319 | 'compat53_getF' called 'fread', it might still wait for user input. | ||
| 3320 | The next check avoids this problem. */ | ||
| 3321 | if (feof(lf->f)) | ||
| 3322 | return NULL; | ||
| 3323 | *size = fread(lf->buff, 1, sizeof(lf->buff), lf->f); /* read block */ | ||
| 3324 | } | ||
| 3325 | return lf->buff; | ||
| 3326 | } | ||
| 3327 | |||
| 3328 | static int compat53_errfile(lua_State* L, const char* what, int fnameindex) { | ||
| 3329 | char buf[512] = { 0 }; | ||
| 3330 | const char* serr = compat53_strerror(errno, buf, sizeof(buf)); | ||
| 3331 | const char* filename = lua_tostring(L, fnameindex) + 1; | ||
| 3332 | lua_pushfstring(L, "cannot %s %s: %s", what, filename, serr); | ||
| 3333 | lua_remove(L, fnameindex); | ||
| 3334 | return LUA_ERRFILE; | ||
| 3335 | } | ||
| 3336 | |||
| 3337 | static int compat53_skipBOM(compat53_LoadF* lf) { | ||
| 3338 | const char* p = "\xEF\xBB\xBF"; /* UTF-8 BOM mark */ | ||
| 3339 | int c; | ||
| 3340 | lf->n = 0; | ||
| 3341 | do { | ||
| 3342 | c = getc(lf->f); | ||
| 3343 | if (c == EOF || c != *(const unsigned char*)p++) | ||
| 3344 | return c; | ||
| 3345 | lf->buff[lf->n++] = (char)c; /* to be read by the parser */ | ||
| 3346 | } while (*p != '\0'); | ||
| 3347 | lf->n = 0; /* prefix matched; discard it */ | ||
| 3348 | return getc(lf->f); /* return next character */ | ||
| 3349 | } | ||
| 3350 | |||
| 3351 | /* | ||
| 3352 | ** reads the first character of file 'f' and skips an optional BOM mark | ||
| 3353 | ** in its beginning plus its first line if it starts with '#'. Returns | ||
| 3354 | ** true if it skipped the first line. In any case, '*cp' has the | ||
| 3355 | ** first "valid" character of the file (after the optional BOM and | ||
| 3356 | ** a first-line comment). | ||
| 3357 | */ | ||
| 3358 | static int compat53_skipcomment(compat53_LoadF* lf, int* cp) { | ||
| 3359 | int c = *cp = compat53_skipBOM(lf); | ||
| 3360 | if (c == '#') { /* first line is a comment (Unix exec. file)? */ | ||
| 3361 | do { /* skip first line */ | ||
| 3362 | c = getc(lf->f); | ||
| 3363 | } while (c != EOF && c != '\n'); | ||
| 3364 | *cp = getc(lf->f); /* skip end-of-line, if present */ | ||
| 3365 | return 1; /* there was a comment */ | ||
| 3366 | } | ||
| 3367 | else | ||
| 3368 | return 0; /* no comment */ | ||
| 3369 | } | ||
| 3370 | |||
| 3371 | COMPAT53_API int luaL_loadfilex(lua_State* L, const char* filename, const char* mode) { | ||
| 3372 | compat53_LoadF lf; | ||
| 3373 | int status, readstatus; | ||
| 3374 | int c; | ||
| 3375 | int fnameindex = lua_gettop(L) + 1; /* index of filename on the stack */ | ||
| 3376 | if (filename == NULL) { | ||
| 3377 | lua_pushliteral(L, "=stdin"); | ||
| 3378 | lf.f = stdin; | ||
| 3379 | } | ||
| 3380 | else { | ||
| 3381 | lua_pushfstring(L, "@%s", filename); | ||
| 3382 | #if defined(_MSC_VER) | ||
| 3383 | /* This code is here to stop a deprecation error that stops builds | ||
| 3384 | * if a certain macro is defined. While normally not caring would | ||
| 3385 | * be best, some header-only libraries and builds can't afford to | ||
| 3386 | * dictate this to the user. A quick check shows that fopen_s this | ||
| 3387 | * goes back to VS 2005, and _fsopen goes back to VS 2003 .NET, | ||
| 3388 | * possibly even before that so we don't need to do any version | ||
| 3389 | * number checks, since this has been there since forever. */ | ||
| 3390 | |||
| 3391 | /* TO USER: if you want the behavior of typical fopen_s/fopen, | ||
| 3392 | * which does lock the file on VC++, define the macro used below to 0 */ | ||
| 3393 | #if COMPAT53_FOPEN_NO_LOCK | ||
| 3394 | lf.f = _fsopen(filename, "r", _SH_DENYNO); /* do not lock the file in any way */ | ||
| 3395 | if (lf.f == NULL) | ||
| 3396 | return compat53_errfile(L, "open", fnameindex); | ||
| 3397 | #else /* use default locking version */ | ||
| 3398 | if (fopen_s(&lf.f, filename, "r") != 0) | ||
| 3399 | return compat53_errfile(L, "open", fnameindex); | ||
| 3400 | #endif /* Locking vs. No-locking fopen variants */ | ||
| 3401 | #else | ||
| 3402 | lf.f = fopen(filename, "r"); /* default stdlib doesn't forcefully lock files here */ | ||
| 3403 | if (lf.f == NULL) | ||
| 3404 | return compat53_errfile(L, "open", fnameindex); | ||
| 3405 | #endif | ||
| 3406 | } | ||
| 3407 | if (compat53_skipcomment(&lf, &c)) /* read initial portion */ | ||
| 3408 | lf.buff[lf.n++] = '\n'; /* add line to correct line numbers */ | ||
| 3409 | if (c == LUA_SIGNATURE[0] && filename) { /* binary file? */ | ||
| 3410 | #if defined(_MSC_VER) | ||
| 3411 | if (freopen_s(&lf.f, filename, "rb", lf.f) != 0) | ||
| 3412 | return compat53_errfile(L, "reopen", fnameindex); | ||
| 3413 | #else | ||
| 3414 | lf.f = freopen(filename, "rb", lf.f); /* reopen in binary mode */ | ||
| 3415 | if (lf.f == NULL) | ||
| 3416 | return compat53_errfile(L, "reopen", fnameindex); | ||
| 3417 | #endif | ||
| 3418 | compat53_skipcomment(&lf, &c); /* re-read initial portion */ | ||
| 3419 | } | ||
| 3420 | if (c != EOF) | ||
| 3421 | lf.buff[lf.n++] = (char)c; /* 'c' is the first character of the stream */ | ||
| 3422 | status = lua_load(L, &compat53_getF, &lf, lua_tostring(L, -1), mode); | ||
| 3423 | readstatus = ferror(lf.f); | ||
| 3424 | if (filename) | ||
| 3425 | fclose(lf.f); /* close file (even in case of errors) */ | ||
| 3426 | if (readstatus) { | ||
| 3427 | lua_settop(L, fnameindex); /* ignore results from 'lua_load' */ | ||
| 3428 | return compat53_errfile(L, "read", fnameindex); | ||
| 3429 | } | ||
| 3430 | lua_remove(L, fnameindex); | ||
| 3431 | return status; | ||
| 3432 | } | ||
| 3433 | |||
| 3434 | COMPAT53_API int luaL_loadbufferx(lua_State* L, const char* buff, size_t sz, const char* name, const char* mode) { | ||
| 3435 | int status = LUA_OK; | ||
| 3436 | if (sz > 0 && buff[0] == LUA_SIGNATURE[0]) { | ||
| 3437 | status = compat53_checkmode(L, mode, "binary", LUA_ERRSYNTAX); | ||
| 3438 | } | ||
| 3439 | else { | ||
| 3440 | status = compat53_checkmode(L, mode, "text", LUA_ERRSYNTAX); | ||
| 3441 | } | ||
| 3442 | if (status != LUA_OK) | ||
| 3443 | return status; | ||
| 3444 | return luaL_loadbuffer(L, buff, sz, name); | ||
| 3445 | } | ||
| 3446 | |||
| 3447 | #if !defined(l_inspectstat) \ | ||
| 3448 | && (defined(unix) || defined(__unix) || defined(__unix__) || defined(__TOS_AIX__) || defined(_SYSTYPE_BSD) || (defined(__APPLE__) && defined(__MACH__))) | ||
| 3449 | /* some form of unix; check feature macros in unistd.h for details */ | ||
| 3450 | #include <unistd.h> | ||
| 3451 | /* check posix version; the relevant include files and macros probably | ||
| 3452 | * were available before 2001, but I'm not sure */ | ||
| 3453 | #if defined(_POSIX_VERSION) && _POSIX_VERSION >= 200112L | ||
| 3454 | #include <sys/wait.h> | ||
| 3455 | #define l_inspectstat(stat, what) \ | ||
| 3456 | if (WIFEXITED(stat)) { \ | ||
| 3457 | stat = WEXITSTATUS(stat); \ | ||
| 3458 | } \ | ||
| 3459 | else if (WIFSIGNALED(stat)) { \ | ||
| 3460 | stat = WTERMSIG(stat); \ | ||
| 3461 | what = "signal"; \ | ||
| 3462 | } | ||
| 3463 | #endif | ||
| 3464 | #endif | ||
| 3465 | |||
| 3466 | /* provide default (no-op) version */ | ||
| 3467 | #if !defined(l_inspectstat) | ||
| 3468 | #define l_inspectstat(stat, what) ((void)0) | ||
| 3469 | #endif | ||
| 3470 | |||
| 3471 | COMPAT53_API int luaL_execresult(lua_State* L, int stat) { | ||
| 3472 | const char* what = "exit"; | ||
| 3473 | if (stat == -1) | ||
| 3474 | return luaL_fileresult(L, 0, NULL); | ||
| 3475 | else { | ||
| 3476 | l_inspectstat(stat, what); | ||
| 3477 | if (*what == 'e' && stat == 0) | ||
| 3478 | lua_pushboolean(L, 1); | ||
| 3479 | else | ||
| 3480 | lua_pushnil(L); | ||
| 3481 | lua_pushstring(L, what); | ||
| 3482 | lua_pushinteger(L, stat); | ||
| 3483 | return 3; | ||
| 3484 | } | ||
| 3485 | } | ||
| 3486 | |||
| 3487 | COMPAT53_API void luaL_buffinit(lua_State* L, luaL_Buffer_53* B) { | ||
| 3488 | /* make it crash if used via pointer to a 5.1-style luaL_Buffer */ | ||
| 3489 | B->b.p = NULL; | ||
| 3490 | B->b.L = NULL; | ||
| 3491 | B->b.lvl = 0; | ||
| 3492 | /* reuse the buffer from the 5.1-style luaL_Buffer though! */ | ||
| 3493 | B->ptr = B->b.buffer; | ||
| 3494 | B->capacity = LUAL_BUFFERSIZE; | ||
| 3495 | B->nelems = 0; | ||
| 3496 | B->L2 = L; | ||
| 3497 | } | ||
| 3498 | |||
| 3499 | COMPAT53_API char* luaL_prepbuffsize(luaL_Buffer_53* B, size_t s) { | ||
| 3500 | if (B->capacity - B->nelems < s) { /* needs to grow */ | ||
| 3501 | char* newptr = NULL; | ||
| 3502 | size_t newcap = B->capacity * 2; | ||
| 3503 | if (newcap - B->nelems < s) | ||
| 3504 | newcap = B->nelems + s; | ||
| 3505 | if (newcap < B->capacity) /* overflow */ | ||
| 3506 | luaL_error(B->L2, "buffer too large"); | ||
| 3507 | newptr = (char*)lua_newuserdata(B->L2, newcap); | ||
| 3508 | memcpy(newptr, B->ptr, B->nelems); | ||
| 3509 | if (B->ptr != B->b.buffer) | ||
| 3510 | lua_replace(B->L2, -2); /* remove old buffer */ | ||
| 3511 | B->ptr = newptr; | ||
| 3512 | B->capacity = newcap; | ||
| 3513 | } | ||
| 3514 | return B->ptr + B->nelems; | ||
| 3515 | } | ||
| 3516 | |||
| 3517 | COMPAT53_API void luaL_addlstring(luaL_Buffer_53* B, const char* s, size_t l) { | ||
| 3518 | memcpy(luaL_prepbuffsize(B, l), s, l); | ||
| 3519 | luaL_addsize(B, l); | ||
| 3520 | } | ||
| 3521 | |||
| 3522 | COMPAT53_API void luaL_addvalue(luaL_Buffer_53* B) { | ||
| 3523 | size_t len = 0; | ||
| 3524 | const char* s = lua_tolstring(B->L2, -1, &len); | ||
| 3525 | if (!s) | ||
| 3526 | luaL_error(B->L2, "cannot convert value to string"); | ||
| 3527 | if (B->ptr != B->b.buffer) | ||
| 3528 | lua_insert(B->L2, -2); /* userdata buffer must be at stack top */ | ||
| 3529 | luaL_addlstring(B, s, len); | ||
| 3530 | lua_remove(B->L2, B->ptr != B->b.buffer ? -2 : -1); | ||
| 3531 | } | ||
| 3532 | |||
| 3533 | void luaL_pushresult(luaL_Buffer_53* B) { | ||
| 3534 | lua_pushlstring(B->L2, B->ptr, B->nelems); | ||
| 3535 | if (B->ptr != B->b.buffer) | ||
| 3536 | lua_replace(B->L2, -2); /* remove userdata buffer */ | ||
| 3537 | } | ||
| 3538 | |||
| 3539 | #endif /* Lua 5.1 */ | ||
| 3540 | |||
| 3541 | /* definitions for Lua 5.1 and Lua 5.2 */ | ||
| 3542 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM <= 502 | ||
| 3543 | |||
| 3544 | COMPAT53_API int lua_geti(lua_State* L, int index, lua_Integer i) { | ||
| 3545 | index = lua_absindex(L, index); | ||
| 3546 | lua_pushinteger(L, i); | ||
| 3547 | lua_gettable(L, index); | ||
| 3548 | return lua_type(L, -1); | ||
| 3549 | } | ||
| 3550 | |||
| 3551 | COMPAT53_API int lua_isinteger(lua_State* L, int index) { | ||
| 3552 | if (lua_type(L, index) == LUA_TNUMBER) { | ||
| 3553 | lua_Number n = lua_tonumber(L, index); | ||
| 3554 | lua_Integer i = lua_tointeger(L, index); | ||
| 3555 | if (i == n) | ||
| 3556 | return 1; | ||
| 3557 | } | ||
| 3558 | return 0; | ||
| 3559 | } | ||
| 3560 | |||
| 3561 | COMPAT53_API lua_Integer lua_tointegerx(lua_State* L, int i, int* isnum) { | ||
| 3562 | int ok = 0; | ||
| 3563 | lua_Number n = lua_tonumberx(L, i, &ok); | ||
| 3564 | if (ok) { | ||
| 3565 | if (n == (lua_Integer)n) { | ||
| 3566 | if (isnum) | ||
| 3567 | *isnum = 1; | ||
| 3568 | return (lua_Integer)n; | ||
| 3569 | } | ||
| 3570 | } | ||
| 3571 | if (isnum) | ||
| 3572 | *isnum = 0; | ||
| 3573 | return 0; | ||
| 3574 | } | ||
| 3575 | |||
| 3576 | static void compat53_reverse(lua_State* L, int a, int b) { | ||
| 3577 | for (; a < b; ++a, --b) { | ||
| 3578 | lua_pushvalue(L, a); | ||
| 3579 | lua_pushvalue(L, b); | ||
| 3580 | lua_replace(L, a); | ||
| 3581 | lua_replace(L, b); | ||
| 3582 | } | ||
| 3583 | } | ||
| 3584 | |||
| 3585 | COMPAT53_API void lua_rotate(lua_State* L, int idx, int n) { | ||
| 3586 | int n_elems = 0; | ||
| 3587 | idx = lua_absindex(L, idx); | ||
| 3588 | n_elems = lua_gettop(L) - idx + 1; | ||
| 3589 | if (n < 0) | ||
| 3590 | n += n_elems; | ||
| 3591 | if (n > 0 && n < n_elems) { | ||
| 3592 | luaL_checkstack(L, 2, "not enough stack slots available"); | ||
| 3593 | n = n_elems - n; | ||
| 3594 | compat53_reverse(L, idx, idx + n - 1); | ||
| 3595 | compat53_reverse(L, idx + n, idx + n_elems - 1); | ||
| 3596 | compat53_reverse(L, idx, idx + n_elems - 1); | ||
| 3597 | } | ||
| 3598 | } | ||
| 3599 | |||
| 3600 | COMPAT53_API void lua_seti(lua_State* L, int index, lua_Integer i) { | ||
| 3601 | luaL_checkstack(L, 1, "not enough stack slots available"); | ||
| 3602 | index = lua_absindex(L, index); | ||
| 3603 | lua_pushinteger(L, i); | ||
| 3604 | lua_insert(L, -2); | ||
| 3605 | lua_settable(L, index); | ||
| 3606 | } | ||
| 3607 | |||
| 3608 | #if !defined(lua_str2number) | ||
| 3609 | #define lua_str2number(s, p) strtod((s), (p)) | ||
| 3610 | #endif | ||
| 3611 | |||
| 3612 | COMPAT53_API size_t lua_stringtonumber(lua_State* L, const char* s) { | ||
| 3613 | char* endptr; | ||
| 3614 | lua_Number n = lua_str2number(s, &endptr); | ||
| 3615 | if (endptr != s) { | ||
| 3616 | while (*endptr != '\0' && isspace((unsigned char)*endptr)) | ||
| 3617 | ++endptr; | ||
| 3618 | if (*endptr == '\0') { | ||
| 3619 | lua_pushnumber(L, n); | ||
| 3620 | return endptr - s + 1; | ||
| 3621 | } | ||
| 3622 | } | ||
| 3623 | return 0; | ||
| 3624 | } | ||
| 3625 | |||
| 3626 | COMPAT53_API const char* luaL_tolstring(lua_State* L, int idx, size_t* len) { | ||
| 3627 | if (!luaL_callmeta(L, idx, "__tostring")) { | ||
| 3628 | int t = lua_type(L, idx), tt = 0; | ||
| 3629 | char const* name = NULL; | ||
| 3630 | switch (t) { | ||
| 3631 | case LUA_TNIL: | ||
| 3632 | lua_pushliteral(L, "nil"); | ||
| 3633 | break; | ||
| 3634 | case LUA_TSTRING: | ||
| 3635 | case LUA_TNUMBER: | ||
| 3636 | lua_pushvalue(L, idx); | ||
| 3637 | break; | ||
| 3638 | case LUA_TBOOLEAN: | ||
| 3639 | if (lua_toboolean(L, idx)) | ||
| 3640 | lua_pushliteral(L, "true"); | ||
| 3641 | else | ||
| 3642 | lua_pushliteral(L, "false"); | ||
| 3643 | break; | ||
| 3644 | default: | ||
| 3645 | tt = luaL_getmetafield(L, idx, "__name"); | ||
| 3646 | name = (tt == LUA_TSTRING) ? lua_tostring(L, -1) : lua_typename(L, t); | ||
| 3647 | lua_pushfstring(L, "%s: %p", name, lua_topointer(L, idx)); | ||
| 3648 | if (tt != LUA_TNIL) | ||
| 3649 | lua_replace(L, -2); | ||
| 3650 | break; | ||
| 3651 | } | ||
| 3652 | } | ||
| 3653 | else { | ||
| 3654 | if (!lua_isstring(L, -1)) | ||
| 3655 | luaL_error(L, "'__tostring' must return a string"); | ||
| 3656 | } | ||
| 3657 | return lua_tolstring(L, -1, len); | ||
| 3658 | } | ||
| 3659 | |||
| 3660 | COMPAT53_API void luaL_requiref(lua_State* L, const char* modname, lua_CFunction openf, int glb) { | ||
| 3661 | luaL_checkstack(L, 3, "not enough stack slots available"); | ||
| 3662 | luaL_getsubtable(L, LUA_REGISTRYINDEX, "_LOADED"); | ||
| 3663 | if (lua_getfield(L, -1, modname) == LUA_TNIL) { | ||
| 3664 | lua_pop(L, 1); | ||
| 3665 | lua_pushcfunction(L, openf); | ||
| 3666 | lua_pushstring(L, modname); | ||
| 3667 | lua_call(L, 1, 1); | ||
| 3668 | lua_pushvalue(L, -1); | ||
| 3669 | lua_setfield(L, -3, modname); | ||
| 3670 | } | ||
| 3671 | if (glb) { | ||
| 3672 | lua_pushvalue(L, -1); | ||
| 3673 | lua_setglobal(L, modname); | ||
| 3674 | } | ||
| 3675 | lua_replace(L, -2); | ||
| 3676 | } | ||
| 3677 | |||
| 3678 | #endif /* Lua 5.1 and 5.2 */ | ||
| 3679 | |||
| 3680 | #endif /* KEPLER_PROJECT_COMPAT53_C_ */ | ||
| 3681 | |||
| 3682 | /********************************************************************* | ||
| 3683 | * This file contains parts of Lua 5.2's and Lua 5.3's source code: | ||
| 3684 | * | ||
| 3685 | * Copyright (C) 1994-2014 Lua.org, PUC-Rio. | ||
| 3686 | * | ||
| 3687 | * Permission is hereby granted, free of charge, to any person obtaining | ||
| 3688 | * a copy of this software and associated documentation files (the | ||
| 3689 | * "Software"), to deal in the Software without restriction, including | ||
| 3690 | * without limitation the rights to use, copy, modify, merge, publish, | ||
| 3691 | * distribute, sublicense, and/or sell copies of the Software, and to | ||
| 3692 | * permit persons to whom the Software is furnished to do so, subject to | ||
| 3693 | * the following conditions: | ||
| 3694 | * | ||
| 3695 | * The above copyright notice and this permission notice shall be | ||
| 3696 | * included in all copies or substantial portions of the Software. | ||
| 3697 | * | ||
| 3698 | * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, | ||
| 3699 | * EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF | ||
| 3700 | * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. | ||
| 3701 | * IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY | ||
| 3702 | * CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, | ||
| 3703 | * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE | ||
| 3704 | * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. | ||
| 3705 | *********************************************************************/ | ||
| 3706 | // end of sol/compatibility/compat-5.3.c.h | ||
| 3707 | |||
| 3708 | #endif | ||
| 3709 | |||
| 3710 | #endif /* KEPLER_PROJECT_COMPAT53_H_ */ | ||
| 3711 | |||
| 3712 | // end of sol/compatibility/compat-5.3.h | ||
| 3713 | |||
| 3714 | // beginning of sol/compatibility/compat-5.4.h | ||
| 3715 | |||
| 3716 | #ifndef NOT_KEPLER_PROJECT_COMPAT54_H_ | ||
| 3717 | #define NOT_KEPLER_PROJECT_COMPAT54_H_ | ||
| 3718 | |||
| 3719 | #if defined(__cplusplus) && !defined(COMPAT53_LUA_CPP) | ||
| 3720 | extern "C" { | ||
| 3721 | #endif | ||
| 3722 | #include <lua.h> | ||
| 3723 | #include <lauxlib.h> | ||
| 3724 | #include <lualib.h> | ||
| 3725 | #if defined(__cplusplus) && !defined(COMPAT53_LUA_CPP) | ||
| 3726 | } | ||
| 3727 | #endif | ||
| 3728 | |||
| 3729 | #if defined(LUA_VERSION_NUM) && LUA_VERSION_NUM == 504 | ||
| 3730 | |||
| 3731 | #if !defined(LUA_ERRGCMM) | ||
| 3732 | /* So Lua 5.4 actually removes this, which breaks sol2... | ||
| 3733 | man, this API is quite unstable...! | ||
| 3734 | */ | ||
| 3735 | # define LUA_ERRGCMM (LUA_ERRERR + 2) | ||
| 3736 | #endif /* LUA_ERRGCMM define */ | ||
| 3737 | |||
| 3738 | #endif // Lua 5.4 only | ||
| 3739 | |||
| 3740 | #endif // NOT_KEPLER_PROJECT_COMPAT54_H_// end of sol/compatibility/compat-5.4.h | ||
| 3741 | |||
| 3742 | #endif | ||
| 3743 | |||
| 3744 | // end of sol/compatibility.hpp | ||
| 3745 | |||
| 3746 | #include <vector> | ||
| 3747 | #include <cstdint> | ||
| 3748 | #include <cstddef> | ||
| 3749 | |||
| 3750 | namespace sol { | ||
| 3751 | |||
| 3752 | template <typename Allocator = std::allocator<std::byte>> | ||
| 3753 | class basic_bytecode : private std::vector<std::byte, Allocator> { | ||
| 3754 | private: | ||
| 3755 | using base_t = std::vector<std::byte, Allocator>; | ||
| 3756 | |||
| 3757 | public: | ||
| 3758 | using typename base_t::allocator_type; | ||
| 3759 | using typename base_t::const_iterator; | ||
| 3760 | using typename base_t::const_pointer; | ||
| 3761 | using typename base_t::const_reference; | ||
| 3762 | using typename base_t::const_reverse_iterator; | ||
| 3763 | using typename base_t::difference_type; | ||
| 3764 | using typename base_t::iterator; | ||
| 3765 | using typename base_t::pointer; | ||
| 3766 | using typename base_t::reference; | ||
| 3767 | using typename base_t::reverse_iterator; | ||
| 3768 | using typename base_t::size_type; | ||
| 3769 | using typename base_t::value_type; | ||
| 3770 | |||
| 3771 | using base_t::base_t; | ||
| 3772 | using base_t::operator=; | ||
| 3773 | |||
| 3774 | using base_t::data; | ||
| 3775 | using base_t::empty; | ||
| 3776 | using base_t::max_size; | ||
| 3777 | using base_t::size; | ||
| 3778 | |||
| 3779 | using base_t::at; | ||
| 3780 | using base_t::operator[]; | ||
| 3781 | using base_t::back; | ||
| 3782 | using base_t::front; | ||
| 3783 | |||
| 3784 | using base_t::begin; | ||
| 3785 | using base_t::cbegin; | ||
| 3786 | using base_t::cend; | ||
| 3787 | using base_t::end; | ||
| 3788 | |||
| 3789 | using base_t::crbegin; | ||
| 3790 | using base_t::crend; | ||
| 3791 | using base_t::rbegin; | ||
| 3792 | using base_t::rend; | ||
| 3793 | |||
| 3794 | using base_t::get_allocator; | ||
| 3795 | using base_t::swap; | ||
| 3796 | |||
| 3797 | using base_t::clear; | ||
| 3798 | using base_t::emplace; | ||
| 3799 | using base_t::emplace_back; | ||
| 3800 | using base_t::erase; | ||
| 3801 | using base_t::insert; | ||
| 3802 | using base_t::pop_back; | ||
| 3803 | using base_t::push_back; | ||
| 3804 | using base_t::reserve; | ||
| 3805 | using base_t::resize; | ||
| 3806 | using base_t::shrink_to_fit; | ||
| 3807 | |||
| 3808 | string_view as_string_view() const { | ||
| 3809 | return string_view(reinterpret_cast<const char*>(this->data()), this->size()); | ||
| 3810 | } | ||
| 3811 | }; | ||
| 3812 | |||
| 3813 | template <typename Container> | ||
| 3814 | inline int basic_insert_dump_writer(lua_State*, const void* memory, size_t memory_size, void* userdata) { | ||
| 3815 | using storage_t = Container; | ||
| 3816 | const std::byte* p_code = static_cast<const std::byte*>(memory); | ||
| 3817 | storage_t& bc = *static_cast<storage_t*>(userdata); | ||
| 3818 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 3819 | bc.insert(bc.cend(), p_code, p_code + memory_size); | ||
| 3820 | #else | ||
| 3821 | try { | ||
| 3822 | bc.insert(bc.cend(), p_code, p_code + memory_size); | ||
| 3823 | } | ||
| 3824 | catch (...) { | ||
| 3825 | return -1; | ||
| 3826 | } | ||
| 3827 | #endif | ||
| 3828 | return 0; | ||
| 3829 | } | ||
| 3830 | |||
| 3831 | using bytecode = basic_bytecode<>; | ||
| 3832 | |||
| 3833 | constexpr inline auto bytecode_dump_writer = &basic_insert_dump_writer<bytecode>; | ||
| 3834 | |||
| 3835 | } // namespace sol | ||
| 3836 | |||
| 3837 | // end of sol/bytecode.hpp | ||
| 3838 | |||
| 3839 | // beginning of sol/stack.hpp | ||
| 3840 | |||
| 3841 | // beginning of sol/trampoline.hpp | ||
| 3842 | |||
| 3843 | // beginning of sol/types.hpp | ||
| 3844 | |||
| 3845 | // beginning of sol/error.hpp | ||
| 3846 | |||
| 3847 | #include <stdexcept> | ||
| 3848 | #include <string> | ||
| 3849 | #include <array> | ||
| 3850 | |||
| 3851 | namespace sol { | ||
| 3852 | namespace detail { | ||
| 3853 | struct direct_error_tag {}; | ||
| 3854 | const auto direct_error = direct_error_tag{}; | ||
| 3855 | |||
| 3856 | struct error_result { | ||
| 3857 | int results; | ||
| 3858 | const char* format_string; | ||
| 3859 | std::array<const char*, 4> args_strings; | ||
| 3860 | |||
| 3861 | error_result() : results(0), format_string(nullptr) { | ||
| 3862 | } | ||
| 3863 | |||
| 3864 | error_result(int results) : results(results), format_string(nullptr) { | ||
| 3865 | } | ||
| 3866 | |||
| 3867 | error_result(const char* fmt, const char* msg) : results(0), format_string(fmt) { | ||
| 3868 | args_strings[0] = msg; | ||
| 3869 | } | ||
| 3870 | }; | ||
| 3871 | |||
| 3872 | inline int handle_errors(lua_State* L, const error_result& er) { | ||
| 3873 | if (er.format_string == nullptr) { | ||
| 3874 | return er.results; | ||
| 3875 | } | ||
| 3876 | return luaL_error(L, er.format_string, er.args_strings[0], er.args_strings[1], er.args_strings[2], er.args_strings[3]); | ||
| 3877 | } | ||
| 3878 | } // namespace detail | ||
| 3879 | |||
| 3880 | class error : public std::runtime_error { | ||
| 3881 | private: | ||
| 3882 | // Because VC++ is upsetting, most of the time! | ||
| 3883 | std::string what_reason; | ||
| 3884 | |||
| 3885 | public: | ||
| 3886 | error(const std::string& str) : error(detail::direct_error, "lua: error: " + str) { | ||
| 3887 | } | ||
| 3888 | error(std::string&& str) : error(detail::direct_error, "lua: error: " + std::move(str)) { | ||
| 3889 | } | ||
| 3890 | error(detail::direct_error_tag, const std::string& str) : std::runtime_error(""), what_reason(str) { | ||
| 3891 | } | ||
| 3892 | error(detail::direct_error_tag, std::string&& str) : std::runtime_error(""), what_reason(std::move(str)) { | ||
| 3893 | } | ||
| 3894 | |||
| 3895 | error(const error& e) = default; | ||
| 3896 | error(error&& e) = default; | ||
| 3897 | error& operator=(const error& e) = default; | ||
| 3898 | error& operator=(error&& e) = default; | ||
| 3899 | |||
| 3900 | virtual const char* what() const noexcept override { | ||
| 3901 | return what_reason.c_str(); | ||
| 3902 | } | ||
| 3903 | }; | ||
| 3904 | |||
| 3905 | } // namespace sol | ||
| 3906 | |||
| 3907 | // end of sol/error.hpp | ||
| 3908 | |||
| 3909 | // beginning of sol/optional.hpp | ||
| 3910 | |||
| 3911 | // beginning of sol/in_place.hpp | ||
| 3912 | |||
| 3913 | #include <cstddef> | ||
| 3914 | #include <utility> | ||
| 3915 | |||
| 3916 | namespace sol { | ||
| 3917 | |||
| 3918 | using in_place_t = std::in_place_t; | ||
| 3919 | constexpr std::in_place_t in_place {}; | ||
| 3920 | constexpr std::in_place_t in_place_of {}; | ||
| 3921 | |||
| 3922 | template <typename T> | ||
| 3923 | using in_place_type_t = std::in_place_type_t<T>; | ||
| 3924 | template <typename T> | ||
| 3925 | constexpr std::in_place_type_t<T> in_place_type {}; | ||
| 3926 | |||
| 3927 | template <size_t I> | ||
| 3928 | using in_place_index_t = std::in_place_index_t<I>; | ||
| 3929 | template <size_t I> | ||
| 3930 | constexpr in_place_index_t<I> in_place_index {}; | ||
| 3931 | |||
| 3932 | } // namespace sol | ||
| 3933 | |||
| 3934 | // end of sol/in_place.hpp | ||
| 3935 | |||
| 3936 | #if SOL_IS_ON(SOL_USE_BOOST_I_) | ||
| 3937 | #include <boost/optional.hpp> | ||
| 3938 | #else | ||
| 3939 | // beginning of sol/optional_implementation.hpp | ||
| 3940 | |||
| 3941 | #define SOL_TL_OPTIONAL_VERSION_MAJOR 0 | ||
| 3942 | #define SOL_TL_OPTIONAL_VERSION_MINOR 5 | ||
| 3943 | |||
| 3944 | #include <exception> | ||
| 3945 | #include <functional> | ||
| 3946 | #include <new> | ||
| 3947 | #include <type_traits> | ||
| 3948 | #include <utility> | ||
| 3949 | #include <cstdlib> | ||
| 3950 | #include <optional> | ||
| 3951 | |||
| 3952 | #if (defined(_MSC_VER) && _MSC_VER == 1900) | ||
| 3953 | #define SOL_TL_OPTIONAL_MSVC2015 | ||
| 3954 | #endif | ||
| 3955 | |||
| 3956 | #if (defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ <= 9 && !defined(__clang__)) | ||
| 3957 | #define SOL_TL_OPTIONAL_GCC49 | ||
| 3958 | #endif | ||
| 3959 | |||
| 3960 | #if (defined(__GNUC__) && __GNUC__ == 5 && __GNUC_MINOR__ <= 4 && !defined(__clang__)) | ||
| 3961 | #define SOL_TL_OPTIONAL_GCC54 | ||
| 3962 | #endif | ||
| 3963 | |||
| 3964 | #if (defined(__GNUC__) && __GNUC__ == 5 && __GNUC_MINOR__ <= 5 && !defined(__clang__)) | ||
| 3965 | #define SOL_TL_OPTIONAL_GCC55 | ||
| 3966 | #endif | ||
| 3967 | |||
| 3968 | #if (defined(__GNUC__) && __GNUC__ == 4 && __GNUC_MINOR__ <= 9 && !defined(__clang__)) | ||
| 3969 | #define SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 3970 | |||
| 3971 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) std::has_trivial_copy_constructor<T>::value | ||
| 3972 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_ASSIGNABLE(T) std::has_trivial_copy_assign<T>::value | ||
| 3973 | |||
| 3974 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_DESTRUCTIBLE(T) std::is_trivially_destructible<T>::value | ||
| 3975 | |||
| 3976 | #elif (defined(__GNUC__) && __GNUC__ < 8 && !defined(__clang__)) | ||
| 3977 | #ifndef SOL_TL_GCC_LESS_8_TRIVIALLY_COPY_CONSTRUCTIBLE_MUTEX | ||
| 3978 | #define SOL_TL_GCC_LESS_8_TRIVIALLY_COPY_CONSTRUCTIBLE_MUTEX | ||
| 3979 | namespace sol { namespace detail { | ||
| 3980 | template <class T> | ||
| 3981 | struct is_trivially_copy_constructible : std::is_trivially_copy_constructible<T> {}; | ||
| 3982 | #ifdef _GLIBCXX_VECTOR | ||
| 3983 | template <class T, class A> | ||
| 3984 | struct is_trivially_copy_constructible<std::vector<T, A>> : std::is_trivially_copy_constructible<T> {}; | ||
| 3985 | #endif | ||
| 3986 | }} // namespace sol::detail | ||
| 3987 | #endif | ||
| 3988 | |||
| 3989 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) sol::detail::is_trivially_copy_constructible<T>::value | ||
| 3990 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_ASSIGNABLE(T) std::is_trivially_copy_assignable<T>::value | ||
| 3991 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_DESTRUCTIBLE(T) std::is_trivially_destructible<T>::value | ||
| 3992 | #else | ||
| 3993 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) std::is_trivially_copy_constructible<T>::value | ||
| 3994 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_ASSIGNABLE(T) std::is_trivially_copy_assignable<T>::value | ||
| 3995 | #define SOL_TL_OPTIONAL_IS_TRIVIALLY_DESTRUCTIBLE(T) std::is_trivially_destructible<T>::value | ||
| 3996 | #endif | ||
| 3997 | |||
| 3998 | #if __cplusplus > 201103L | ||
| 3999 | #define SOL_TL_OPTIONAL_CXX14 | ||
| 4000 | #endif | ||
| 4001 | |||
| 4002 | #if (__cplusplus == 201103L || defined(SOL_TL_OPTIONAL_MSVC2015) || defined(SOL_TL_OPTIONAL_GCC49)) | ||
| 4003 | #define SOL_TL_OPTIONAL_11_CONSTEXPR | ||
| 4004 | #else | ||
| 4005 | /// \exclude | ||
| 4006 | #define SOL_TL_OPTIONAL_11_CONSTEXPR constexpr | ||
| 4007 | #endif | ||
| 4008 | |||
| 4009 | namespace sol { | ||
| 4010 | #ifndef SOL_TL_MONOSTATE_INPLACE_MUTEX | ||
| 4011 | #define SOL_TL_MONOSTATE_INPLACE_MUTEX | ||
| 4012 | /// \brief Used to represent an optional with no data; essentially a bool | ||
| 4013 | class monostate {}; | ||
| 4014 | #endif | ||
| 4015 | |||
| 4016 | template <class T> | ||
| 4017 | class optional; | ||
| 4018 | |||
| 4019 | /// \exclude | ||
| 4020 | namespace detail { | ||
| 4021 | #ifndef SOL_TL_TRAITS_MUTEX | ||
| 4022 | #define SOL_TL_TRAITS_MUTEX | ||
| 4023 | // C++14-style aliases for brevity | ||
| 4024 | template <class T> | ||
| 4025 | using remove_const_t = typename std::remove_const<T>::type; | ||
| 4026 | template <class T> | ||
| 4027 | using remove_reference_t = typename std::remove_reference<T>::type; | ||
| 4028 | template <class T> | ||
| 4029 | using decay_t = typename std::decay<T>::type; | ||
| 4030 | template <bool E, class T = void> | ||
| 4031 | using enable_if_t = typename std::enable_if<E, T>::type; | ||
| 4032 | template <bool B, class T, class F> | ||
| 4033 | using conditional_t = typename std::conditional<B, T, F>::type; | ||
| 4034 | |||
| 4035 | // std::conjunction from C++17 | ||
| 4036 | template <class...> | ||
| 4037 | struct conjunction : std::true_type {}; | ||
| 4038 | template <class B> | ||
| 4039 | struct conjunction<B> : B {}; | ||
| 4040 | template <class B, class... Bs> | ||
| 4041 | struct conjunction<B, Bs...> : std::conditional<bool(B::value), conjunction<Bs...>, B>::type {}; | ||
| 4042 | |||
| 4043 | #if defined(_LIBCPP_VERSION) && __cplusplus == 201103L | ||
| 4044 | #define SOL_TL_OPTIONAL_LIBCXX_MEM_FN_WORKAROUND | ||
| 4045 | #endif | ||
| 4046 | |||
| 4047 | #ifdef SOL_TL_OPTIONAL_LIBCXX_MEM_FN_WORKAROUND | ||
| 4048 | template <class T> | ||
| 4049 | struct is_pointer_to_non_const_member_func : std::false_type {}; | ||
| 4050 | template <class T, class Ret, class... Args> | ||
| 4051 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...)> : std::true_type {}; | ||
| 4052 | template <class T, class Ret, class... Args> | ||
| 4053 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...)&> : std::true_type {}; | ||
| 4054 | template <class T, class Ret, class... Args> | ||
| 4055 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...) &&> : std::true_type {}; | ||
| 4056 | template <class T, class Ret, class... Args> | ||
| 4057 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...) volatile> : std::true_type {}; | ||
| 4058 | template <class T, class Ret, class... Args> | ||
| 4059 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...) volatile&> : std::true_type {}; | ||
| 4060 | template <class T, class Ret, class... Args> | ||
| 4061 | struct is_pointer_to_non_const_member_func<Ret (T::*)(Args...) volatile&&> : std::true_type {}; | ||
| 4062 | |||
| 4063 | template <class T> | ||
| 4064 | struct is_const_or_const_ref : std::false_type {}; | ||
| 4065 | template <class T> | ||
| 4066 | struct is_const_or_const_ref<T const&> : std::true_type {}; | ||
| 4067 | template <class T> | ||
| 4068 | struct is_const_or_const_ref<T const> : std::true_type {}; | ||
| 4069 | #endif | ||
| 4070 | |||
| 4071 | // std::invoke from C++17 | ||
| 4072 | // https://stackoverflow.com/questions/38288042/c11-14-invoke-workaround | ||
| 4073 | template <typename Fn, typename... Args, | ||
| 4074 | #ifdef SOL_TL_OPTIONAL_LIBCXX_MEM_FN_WORKAROUND | ||
| 4075 | typename = enable_if_t<!(is_pointer_to_non_const_member_func<Fn>::value && is_const_or_const_ref<Args...>::value)>, | ||
| 4076 | #endif | ||
| 4077 | typename = enable_if_t<std::is_member_pointer<decay_t<Fn>>::value>, int = 0> | ||
| 4078 | constexpr auto invoke(Fn&& f, Args&&... args) noexcept(noexcept(std::mem_fn(f)(std::forward<Args>(args)...))) | ||
| 4079 | -> decltype(std::mem_fn(f)(std::forward<Args>(args)...)) { | ||
| 4080 | return std::mem_fn(f)(std::forward<Args>(args)...); | ||
| 4081 | } | ||
| 4082 | |||
| 4083 | template <typename Fn, typename... Args, typename = enable_if_t<!std::is_member_pointer<decay_t<Fn>>::value>> | ||
| 4084 | constexpr auto invoke(Fn&& f, Args&&... args) noexcept(noexcept(std::forward<Fn>(f)(std::forward<Args>(args)...))) | ||
| 4085 | -> decltype(std::forward<Fn>(f)(std::forward<Args>(args)...)) { | ||
| 4086 | return std::forward<Fn>(f)(std::forward<Args>(args)...); | ||
| 4087 | } | ||
| 4088 | |||
| 4089 | // std::invoke_result from C++17 | ||
| 4090 | template <class F, class, class... Us> | ||
| 4091 | struct invoke_result_impl; | ||
| 4092 | |||
| 4093 | template <class F, class... Us> | ||
| 4094 | struct invoke_result_impl<F, decltype(detail::invoke(std::declval<F>(), std::declval<Us>()...), void()), Us...> { | ||
| 4095 | using type = decltype(detail::invoke(std::declval<F>(), std::declval<Us>()...)); | ||
| 4096 | }; | ||
| 4097 | |||
| 4098 | template <class F, class... Us> | ||
| 4099 | using invoke_result = invoke_result_impl<F, void, Us...>; | ||
| 4100 | |||
| 4101 | template <class F, class... Us> | ||
| 4102 | using invoke_result_t = typename invoke_result<F, Us...>::type; | ||
| 4103 | #endif | ||
| 4104 | |||
| 4105 | // std::void_t from C++17 | ||
| 4106 | template <class...> | ||
| 4107 | struct voider { | ||
| 4108 | using type = void; | ||
| 4109 | }; | ||
| 4110 | template <class... Ts> | ||
| 4111 | using void_t = typename voider<Ts...>::type; | ||
| 4112 | |||
| 4113 | // Trait for checking if a type is a sol::optional | ||
| 4114 | template <class T> | ||
| 4115 | struct is_optional_impl : std::false_type {}; | ||
| 4116 | template <class T> | ||
| 4117 | struct is_optional_impl<optional<T>> : std::true_type {}; | ||
| 4118 | template <class T> | ||
| 4119 | using is_optional = is_optional_impl<decay_t<T>>; | ||
| 4120 | |||
| 4121 | // Change void to sol::monostate | ||
| 4122 | template <class U> | ||
| 4123 | using fixup_void = conditional_t<std::is_void<U>::value, monostate, U>; | ||
| 4124 | |||
| 4125 | template <class F, class U, class = invoke_result_t<F, U>> | ||
| 4126 | using get_map_return = optional<fixup_void<invoke_result_t<F, U>>>; | ||
| 4127 | |||
| 4128 | // Check if invoking F for some Us returns void | ||
| 4129 | template <class F, class = void, class... U> | ||
| 4130 | struct returns_void_impl; | ||
| 4131 | template <class F, class... U> | ||
| 4132 | struct returns_void_impl<F, void_t<invoke_result_t<F, U...>>, U...> : std::is_void<invoke_result_t<F, U...>> {}; | ||
| 4133 | template <class F, class... U> | ||
| 4134 | using returns_void = returns_void_impl<F, void, U...>; | ||
| 4135 | |||
| 4136 | template <class T, class... U> | ||
| 4137 | using enable_if_ret_void = enable_if_t<returns_void<T&&, U...>::value>; | ||
| 4138 | |||
| 4139 | template <class T, class... U> | ||
| 4140 | using disable_if_ret_void = enable_if_t<!returns_void<T&&, U...>::value>; | ||
| 4141 | |||
| 4142 | template <class T, class U> | ||
| 4143 | using enable_forward_value = detail::enable_if_t<std::is_constructible<T, U&&>::value && !std::is_same<detail::decay_t<U>, in_place_t>::value | ||
| 4144 | && !std::is_same<optional<T>, detail::decay_t<U>>::value>; | ||
| 4145 | |||
| 4146 | template <class T, class U, class Other> | ||
| 4147 | using enable_from_other = detail::enable_if_t<std::is_constructible<T, Other>::value && !std::is_constructible<T, optional<U>&>::value | ||
| 4148 | && !std::is_constructible<T, optional<U>&&>::value && !std::is_constructible<T, const optional<U>&>::value | ||
| 4149 | && !std::is_constructible<T, const optional<U>&&>::value && !std::is_convertible<optional<U>&, T>::value | ||
| 4150 | && !std::is_convertible<optional<U>&&, T>::value && !std::is_convertible<const optional<U>&, T>::value | ||
| 4151 | && !std::is_convertible<const optional<U>&&, T>::value>; | ||
| 4152 | |||
| 4153 | template <class T, class U> | ||
| 4154 | using enable_assign_forward = detail::enable_if_t<!std::is_same<optional<T>, detail::decay_t<U>>::value | ||
| 4155 | && !detail::conjunction<std::is_scalar<T>, std::is_same<T, detail::decay_t<U>>>::value && std::is_constructible<T, U>::value | ||
| 4156 | && std::is_assignable<T&, U>::value>; | ||
| 4157 | |||
| 4158 | template <class T, class U, class Other> | ||
| 4159 | using enable_assign_from_other = detail::enable_if_t<std::is_constructible<T, Other>::value && std::is_assignable<T&, Other>::value | ||
| 4160 | && !std::is_constructible<T, optional<U>&>::value && !std::is_constructible<T, optional<U>&&>::value | ||
| 4161 | && !std::is_constructible<T, const optional<U>&>::value && !std::is_constructible<T, const optional<U>&&>::value | ||
| 4162 | && !std::is_convertible<optional<U>&, T>::value && !std::is_convertible<optional<U>&&, T>::value | ||
| 4163 | && !std::is_convertible<const optional<U>&, T>::value && !std::is_convertible<const optional<U>&&, T>::value | ||
| 4164 | && !std::is_assignable<T&, optional<U>&>::value && !std::is_assignable<T&, optional<U>&&>::value | ||
| 4165 | && !std::is_assignable<T&, const optional<U>&>::value && !std::is_assignable<T&, const optional<U>&&>::value>; | ||
| 4166 | |||
| 4167 | #ifdef _MSC_VER | ||
| 4168 | // TODO make a version which works with MSVC | ||
| 4169 | template <class T, class U = T> | ||
| 4170 | struct is_swappable : std::true_type {}; | ||
| 4171 | |||
| 4172 | template <class T, class U = T> | ||
| 4173 | struct is_nothrow_swappable : std::true_type {}; | ||
| 4174 | #else | ||
| 4175 | // https://stackoverflow.com/questions/26744589/what-is-a-proper-way-to-implement-is-swappable-to-test-for-the-swappable-concept | ||
| 4176 | namespace swap_adl_tests { | ||
| 4177 | // if swap ADL finds this then it would call std::swap otherwise (same | ||
| 4178 | // signature) | ||
| 4179 | struct tag {}; | ||
| 4180 | |||
| 4181 | template <class T> | ||
| 4182 | tag swap(T&, T&); | ||
| 4183 | template <class T, std::size_t N> | ||
| 4184 | tag swap(T (&a)[N], T (&b)[N]); | ||
| 4185 | |||
| 4186 | // helper functions to test if an unqualified swap is possible, and if it | ||
| 4187 | // becomes std::swap | ||
| 4188 | template <class, class> | ||
| 4189 | std::false_type can_swap(...) noexcept(false); | ||
| 4190 | template <class T, class U, class = decltype(swap(std::declval<T&>(), std::declval<U&>()))> | ||
| 4191 | std::true_type can_swap(int) noexcept(noexcept(swap(std::declval<T&>(), std::declval<U&>()))); | ||
| 4192 | |||
| 4193 | template <class, class> | ||
| 4194 | std::false_type uses_std(...); | ||
| 4195 | template <class T, class U> | ||
| 4196 | std::is_same<decltype(swap(std::declval<T&>(), std::declval<U&>())), tag> uses_std(int); | ||
| 4197 | |||
| 4198 | template <class T> | ||
| 4199 | struct is_std_swap_noexcept | ||
| 4200 | : std::integral_constant<bool, std::is_nothrow_move_constructible<T>::value && std::is_nothrow_move_assignable<T>::value> {}; | ||
| 4201 | |||
| 4202 | template <class T, std::size_t N> | ||
| 4203 | struct is_std_swap_noexcept<T[N]> : is_std_swap_noexcept<T> {}; | ||
| 4204 | |||
| 4205 | template <class T, class U> | ||
| 4206 | struct is_adl_swap_noexcept : std::integral_constant<bool, noexcept(can_swap<T, U>(0))> {}; | ||
| 4207 | } // namespace swap_adl_tests | ||
| 4208 | |||
| 4209 | template <class T, class U = T> | ||
| 4210 | struct is_swappable : std::integral_constant<bool, | ||
| 4211 | decltype(detail::swap_adl_tests::can_swap<T, U>(0))::value | ||
| 4212 | && (!decltype(detail::swap_adl_tests::uses_std<T, U>(0))::value | ||
| 4213 | || (std::is_move_assignable<T>::value && std::is_move_constructible<T>::value))> {}; | ||
| 4214 | |||
| 4215 | template <class T, std::size_t N> | ||
| 4216 | struct is_swappable<T[N], T[N]> : std::integral_constant<bool, | ||
| 4217 | decltype(detail::swap_adl_tests::can_swap<T[N], T[N]>(0))::value | ||
| 4218 | && (!decltype(detail::swap_adl_tests::uses_std<T[N], T[N]>(0))::value || is_swappable<T, T>::value)> {}; | ||
| 4219 | |||
| 4220 | template <class T, class U = T> | ||
| 4221 | struct is_nothrow_swappable | ||
| 4222 | : std::integral_constant<bool, | ||
| 4223 | is_swappable<T, U>::value | ||
| 4224 | && ((decltype(detail::swap_adl_tests::uses_std<T, U>(0))::value&& detail::swap_adl_tests::is_std_swap_noexcept<T>::value) | ||
| 4225 | || (!decltype(detail::swap_adl_tests::uses_std<T, U>(0))::value&& detail::swap_adl_tests::is_adl_swap_noexcept<T, U>::value))> {}; | ||
| 4226 | #endif | ||
| 4227 | |||
| 4228 | // The storage base manages the actual storage, and correctly propagates | ||
| 4229 | // trivial destruction from T. This case is for when T is not trivially | ||
| 4230 | // destructible. | ||
| 4231 | template <class T, bool = ::std::is_trivially_destructible<T>::value> | ||
| 4232 | struct optional_storage_base { | ||
| 4233 | SOL_TL_OPTIONAL_11_CONSTEXPR optional_storage_base() noexcept : m_dummy(), m_has_value(false) { | ||
| 4234 | } | ||
| 4235 | |||
| 4236 | template <class... U> | ||
| 4237 | SOL_TL_OPTIONAL_11_CONSTEXPR optional_storage_base(in_place_t, U&&... u) : m_value(std::forward<U>(u)...), m_has_value(true) { | ||
| 4238 | } | ||
| 4239 | |||
| 4240 | ~optional_storage_base() { | ||
| 4241 | if (m_has_value) { | ||
| 4242 | m_value.~T(); | ||
| 4243 | m_has_value = false; | ||
| 4244 | } | ||
| 4245 | } | ||
| 4246 | |||
| 4247 | struct dummy {}; | ||
| 4248 | union { | ||
| 4249 | dummy m_dummy; | ||
| 4250 | T m_value; | ||
| 4251 | }; | ||
| 4252 | |||
| 4253 | bool m_has_value; | ||
| 4254 | }; | ||
| 4255 | |||
| 4256 | // This case is for when T is trivially destructible. | ||
| 4257 | template <class T> | ||
| 4258 | struct optional_storage_base<T, true> { | ||
| 4259 | SOL_TL_OPTIONAL_11_CONSTEXPR optional_storage_base() noexcept : m_dummy(), m_has_value(false) { | ||
| 4260 | } | ||
| 4261 | |||
| 4262 | template <class... U> | ||
| 4263 | SOL_TL_OPTIONAL_11_CONSTEXPR optional_storage_base(in_place_t, U&&... u) : m_value(std::forward<U>(u)...), m_has_value(true) { | ||
| 4264 | } | ||
| 4265 | |||
| 4266 | // No destructor, so this class is trivially destructible | ||
| 4267 | |||
| 4268 | struct dummy {}; | ||
| 4269 | union { | ||
| 4270 | dummy m_dummy; | ||
| 4271 | T m_value; | ||
| 4272 | }; | ||
| 4273 | |||
| 4274 | bool m_has_value = false; | ||
| 4275 | }; | ||
| 4276 | |||
| 4277 | // This base class provides some handy member functions which can be used in | ||
| 4278 | // further derived classes | ||
| 4279 | template <class T> | ||
| 4280 | struct optional_operations_base : optional_storage_base<T> { | ||
| 4281 | using optional_storage_base<T>::optional_storage_base; | ||
| 4282 | |||
| 4283 | void hard_reset() noexcept { | ||
| 4284 | get().~T(); | ||
| 4285 | this->m_has_value = false; | ||
| 4286 | } | ||
| 4287 | |||
| 4288 | template <class... Args> | ||
| 4289 | void construct(Args&&... args) noexcept { | ||
| 4290 | new (std::addressof(this->m_value)) T(std::forward<Args>(args)...); | ||
| 4291 | this->m_has_value = true; | ||
| 4292 | } | ||
| 4293 | |||
| 4294 | template <class Opt> | ||
| 4295 | void assign(Opt&& rhs) { | ||
| 4296 | if (this->has_value()) { | ||
| 4297 | if (rhs.has_value()) { | ||
| 4298 | this->m_value = std::forward<Opt>(rhs).get(); | ||
| 4299 | } | ||
| 4300 | else { | ||
| 4301 | this->m_value.~T(); | ||
| 4302 | this->m_has_value = false; | ||
| 4303 | } | ||
| 4304 | } | ||
| 4305 | |||
| 4306 | else if (rhs.has_value()) { | ||
| 4307 | construct(std::forward<Opt>(rhs).get()); | ||
| 4308 | } | ||
| 4309 | } | ||
| 4310 | |||
| 4311 | bool has_value() const { | ||
| 4312 | return this->m_has_value; | ||
| 4313 | } | ||
| 4314 | |||
| 4315 | SOL_TL_OPTIONAL_11_CONSTEXPR T& get() & { | ||
| 4316 | return this->m_value; | ||
| 4317 | } | ||
| 4318 | SOL_TL_OPTIONAL_11_CONSTEXPR const T& get() const& { | ||
| 4319 | return this->m_value; | ||
| 4320 | } | ||
| 4321 | SOL_TL_OPTIONAL_11_CONSTEXPR T&& get() && { | ||
| 4322 | return std::move(this->m_value); | ||
| 4323 | } | ||
| 4324 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4325 | constexpr const T&& get() const&& { | ||
| 4326 | return std::move(this->m_value); | ||
| 4327 | } | ||
| 4328 | #endif | ||
| 4329 | }; | ||
| 4330 | |||
| 4331 | // This class manages conditionally having a trivial copy constructor | ||
| 4332 | // This specialization is for when T is trivially copy constructible | ||
| 4333 | template <class T, bool = SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T)> | ||
| 4334 | struct optional_copy_base : optional_operations_base<T> { | ||
| 4335 | using optional_operations_base<T>::optional_operations_base; | ||
| 4336 | }; | ||
| 4337 | |||
| 4338 | // This specialization is for when T is not trivially copy constructible | ||
| 4339 | template <class T> | ||
| 4340 | struct optional_copy_base<T, false> : optional_operations_base<T> { | ||
| 4341 | using base_t = optional_operations_base<T>; | ||
| 4342 | |||
| 4343 | using base_t::base_t; | ||
| 4344 | |||
| 4345 | optional_copy_base() = default; | ||
| 4346 | optional_copy_base(const optional_copy_base& rhs) : base_t() { | ||
| 4347 | if (rhs.has_value()) { | ||
| 4348 | this->construct(rhs.get()); | ||
| 4349 | } | ||
| 4350 | else { | ||
| 4351 | this->m_has_value = false; | ||
| 4352 | } | ||
| 4353 | } | ||
| 4354 | |||
| 4355 | optional_copy_base(optional_copy_base&& rhs) = default; | ||
| 4356 | optional_copy_base& operator=(const optional_copy_base& rhs) = default; | ||
| 4357 | optional_copy_base& operator=(optional_copy_base&& rhs) = default; | ||
| 4358 | }; | ||
| 4359 | |||
| 4360 | #ifndef SOL_TL_OPTIONAL_GCC49 | ||
| 4361 | template <class T, bool = std::is_trivially_move_constructible<T>::value> | ||
| 4362 | struct optional_move_base : optional_copy_base<T> { | ||
| 4363 | using optional_copy_base<T>::optional_copy_base; | ||
| 4364 | }; | ||
| 4365 | #else | ||
| 4366 | template <class T, bool = false> | ||
| 4367 | struct optional_move_base; | ||
| 4368 | #endif | ||
| 4369 | template <class T> | ||
| 4370 | struct optional_move_base<T, false> : optional_copy_base<T> { | ||
| 4371 | using optional_copy_base<T>::optional_copy_base; | ||
| 4372 | |||
| 4373 | optional_move_base() = default; | ||
| 4374 | optional_move_base(const optional_move_base& rhs) = default; | ||
| 4375 | |||
| 4376 | optional_move_base(optional_move_base&& rhs) noexcept(std::is_nothrow_move_constructible<T>::value) { | ||
| 4377 | if (rhs.has_value()) { | ||
| 4378 | this->construct(std::move(rhs.get())); | ||
| 4379 | } | ||
| 4380 | else { | ||
| 4381 | this->m_has_value = false; | ||
| 4382 | } | ||
| 4383 | } | ||
| 4384 | optional_move_base& operator=(const optional_move_base& rhs) = default; | ||
| 4385 | optional_move_base& operator=(optional_move_base&& rhs) = default; | ||
| 4386 | }; | ||
| 4387 | |||
| 4388 | // This class manages conditionally having a trivial copy assignment operator | ||
| 4389 | template <class T, | ||
| 4390 | bool = SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_ASSIGNABLE(T) && SOL_TL_OPTIONAL_IS_TRIVIALLY_COPY_CONSTRUCTIBLE(T) | ||
| 4391 | && SOL_TL_OPTIONAL_IS_TRIVIALLY_DESTRUCTIBLE(T)> | ||
| 4392 | struct optional_copy_assign_base : optional_move_base<T> { | ||
| 4393 | using optional_move_base<T>::optional_move_base; | ||
| 4394 | }; | ||
| 4395 | |||
| 4396 | template <class T> | ||
| 4397 | struct optional_copy_assign_base<T, false> : optional_move_base<T> { | ||
| 4398 | using optional_move_base<T>::optional_move_base; | ||
| 4399 | |||
| 4400 | optional_copy_assign_base() = default; | ||
| 4401 | optional_copy_assign_base(const optional_copy_assign_base& rhs) = default; | ||
| 4402 | |||
| 4403 | optional_copy_assign_base(optional_copy_assign_base&& rhs) = default; | ||
| 4404 | optional_copy_assign_base& operator=(const optional_copy_assign_base& rhs) { | ||
| 4405 | this->assign(rhs); | ||
| 4406 | return *this; | ||
| 4407 | } | ||
| 4408 | optional_copy_assign_base& operator=(optional_copy_assign_base&& rhs) = default; | ||
| 4409 | }; | ||
| 4410 | |||
| 4411 | #ifndef SOL_TL_OPTIONAL_GCC49 | ||
| 4412 | template <class T, | ||
| 4413 | bool = std::is_trivially_destructible<T>::value&& std::is_trivially_move_constructible<T>::value&& std::is_trivially_move_assignable<T>::value> | ||
| 4414 | struct optional_move_assign_base : optional_copy_assign_base<T> { | ||
| 4415 | using optional_copy_assign_base<T>::optional_copy_assign_base; | ||
| 4416 | }; | ||
| 4417 | #else | ||
| 4418 | template <class T, bool = false> | ||
| 4419 | struct optional_move_assign_base; | ||
| 4420 | #endif | ||
| 4421 | |||
| 4422 | template <class T> | ||
| 4423 | struct optional_move_assign_base<T, false> : optional_copy_assign_base<T> { | ||
| 4424 | using optional_copy_assign_base<T>::optional_copy_assign_base; | ||
| 4425 | |||
| 4426 | optional_move_assign_base() = default; | ||
| 4427 | optional_move_assign_base(const optional_move_assign_base& rhs) = default; | ||
| 4428 | |||
| 4429 | optional_move_assign_base(optional_move_assign_base&& rhs) = default; | ||
| 4430 | |||
| 4431 | optional_move_assign_base& operator=(const optional_move_assign_base& rhs) = default; | ||
| 4432 | |||
| 4433 | optional_move_assign_base& operator=(optional_move_assign_base&& rhs) noexcept( | ||
| 4434 | std::is_nothrow_move_constructible<T>::value&& std::is_nothrow_move_assignable<T>::value) { | ||
| 4435 | this->assign(std::move(rhs)); | ||
| 4436 | return *this; | ||
| 4437 | } | ||
| 4438 | }; | ||
| 4439 | |||
| 4440 | // optional_delete_ctor_base will conditionally delete copy and move | ||
| 4441 | // constructors depending on whether T is copy/move constructible | ||
| 4442 | template <class T, bool EnableCopy = std::is_copy_constructible<T>::value, bool EnableMove = std::is_move_constructible<T>::value> | ||
| 4443 | struct optional_delete_ctor_base { | ||
| 4444 | optional_delete_ctor_base() = default; | ||
| 4445 | optional_delete_ctor_base(const optional_delete_ctor_base&) = default; | ||
| 4446 | optional_delete_ctor_base(optional_delete_ctor_base&&) noexcept = default; | ||
| 4447 | optional_delete_ctor_base& operator=(const optional_delete_ctor_base&) = default; | ||
| 4448 | optional_delete_ctor_base& operator=(optional_delete_ctor_base&&) noexcept = default; | ||
| 4449 | }; | ||
| 4450 | |||
| 4451 | template <class T> | ||
| 4452 | struct optional_delete_ctor_base<T, true, false> { | ||
| 4453 | optional_delete_ctor_base() = default; | ||
| 4454 | optional_delete_ctor_base(const optional_delete_ctor_base&) = default; | ||
| 4455 | optional_delete_ctor_base(optional_delete_ctor_base&&) noexcept = delete; | ||
| 4456 | optional_delete_ctor_base& operator=(const optional_delete_ctor_base&) = default; | ||
| 4457 | optional_delete_ctor_base& operator=(optional_delete_ctor_base&&) noexcept = default; | ||
| 4458 | }; | ||
| 4459 | |||
| 4460 | template <class T> | ||
| 4461 | struct optional_delete_ctor_base<T, false, true> { | ||
| 4462 | optional_delete_ctor_base() = default; | ||
| 4463 | optional_delete_ctor_base(const optional_delete_ctor_base&) = delete; | ||
| 4464 | optional_delete_ctor_base(optional_delete_ctor_base&&) noexcept = default; | ||
| 4465 | optional_delete_ctor_base& operator=(const optional_delete_ctor_base&) = default; | ||
| 4466 | optional_delete_ctor_base& operator=(optional_delete_ctor_base&&) noexcept = default; | ||
| 4467 | }; | ||
| 4468 | |||
| 4469 | template <class T> | ||
| 4470 | struct optional_delete_ctor_base<T, false, false> { | ||
| 4471 | optional_delete_ctor_base() = default; | ||
| 4472 | optional_delete_ctor_base(const optional_delete_ctor_base&) = delete; | ||
| 4473 | optional_delete_ctor_base(optional_delete_ctor_base&&) noexcept = delete; | ||
| 4474 | optional_delete_ctor_base& operator=(const optional_delete_ctor_base&) = default; | ||
| 4475 | optional_delete_ctor_base& operator=(optional_delete_ctor_base&&) noexcept = default; | ||
| 4476 | }; | ||
| 4477 | |||
| 4478 | // optional_delete_assign_base will conditionally delete copy and move | ||
| 4479 | // constructors depending on whether T is copy/move constructible + assignable | ||
| 4480 | template <class T, bool EnableCopy = (std::is_copy_constructible<T>::value && std::is_copy_assignable<T>::value), | ||
| 4481 | bool EnableMove = (std::is_move_constructible<T>::value && std::is_move_assignable<T>::value)> | ||
| 4482 | struct optional_delete_assign_base { | ||
| 4483 | optional_delete_assign_base() = default; | ||
| 4484 | optional_delete_assign_base(const optional_delete_assign_base&) = default; | ||
| 4485 | optional_delete_assign_base(optional_delete_assign_base&&) noexcept = default; | ||
| 4486 | optional_delete_assign_base& operator=(const optional_delete_assign_base&) = default; | ||
| 4487 | optional_delete_assign_base& operator=(optional_delete_assign_base&&) noexcept = default; | ||
| 4488 | }; | ||
| 4489 | |||
| 4490 | template <class T> | ||
| 4491 | struct optional_delete_assign_base<T, true, false> { | ||
| 4492 | optional_delete_assign_base() = default; | ||
| 4493 | optional_delete_assign_base(const optional_delete_assign_base&) = default; | ||
| 4494 | optional_delete_assign_base(optional_delete_assign_base&&) noexcept = default; | ||
| 4495 | optional_delete_assign_base& operator=(const optional_delete_assign_base&) = default; | ||
| 4496 | optional_delete_assign_base& operator=(optional_delete_assign_base&&) noexcept = delete; | ||
| 4497 | }; | ||
| 4498 | |||
| 4499 | template <class T> | ||
| 4500 | struct optional_delete_assign_base<T, false, true> { | ||
| 4501 | optional_delete_assign_base() = default; | ||
| 4502 | optional_delete_assign_base(const optional_delete_assign_base&) = default; | ||
| 4503 | optional_delete_assign_base(optional_delete_assign_base&&) noexcept = default; | ||
| 4504 | optional_delete_assign_base& operator=(const optional_delete_assign_base&) = delete; | ||
| 4505 | optional_delete_assign_base& operator=(optional_delete_assign_base&&) noexcept = default; | ||
| 4506 | }; | ||
| 4507 | |||
| 4508 | template <class T> | ||
| 4509 | struct optional_delete_assign_base<T, false, false> { | ||
| 4510 | optional_delete_assign_base() = default; | ||
| 4511 | optional_delete_assign_base(const optional_delete_assign_base&) = default; | ||
| 4512 | optional_delete_assign_base(optional_delete_assign_base&&) noexcept = default; | ||
| 4513 | optional_delete_assign_base& operator=(const optional_delete_assign_base&) = delete; | ||
| 4514 | optional_delete_assign_base& operator=(optional_delete_assign_base&&) noexcept = delete; | ||
| 4515 | }; | ||
| 4516 | |||
| 4517 | } // namespace detail | ||
| 4518 | |||
| 4519 | /// \brief A tag type to represent an empty optional | ||
| 4520 | using nullopt_t = std::nullopt_t; | ||
| 4521 | |||
| 4522 | /// \brief Represents an empty optional | ||
| 4523 | /// \synopsis static constexpr nullopt_t nullopt; | ||
| 4524 | /// | ||
| 4525 | /// *Examples*: | ||
| 4526 | /// ``` | ||
| 4527 | /// sol::optional<int> a = sol::nullopt; | ||
| 4528 | /// void foo (sol::optional<int>); | ||
| 4529 | /// foo(sol::nullopt); //pass an empty optional | ||
| 4530 | /// ``` | ||
| 4531 | using std::nullopt; | ||
| 4532 | |||
| 4533 | class bad_optional_access : public std::exception { | ||
| 4534 | public: | ||
| 4535 | bad_optional_access() = default; | ||
| 4536 | const char* what() const noexcept { | ||
| 4537 | return "Optional has no value"; | ||
| 4538 | } | ||
| 4539 | }; | ||
| 4540 | |||
| 4541 | /// An optional object is an object that contains the storage for another | ||
| 4542 | /// object and manages the lifetime of this contained object, if any. The | ||
| 4543 | /// contained object may be initialized after the optional object has been | ||
| 4544 | /// initialized, and may be destroyed before the optional object has been | ||
| 4545 | /// destroyed. The initialization state of the contained object is tracked by | ||
| 4546 | /// the optional object. | ||
| 4547 | template <class T> | ||
| 4548 | class optional : private detail::optional_move_assign_base<T>, | ||
| 4549 | private detail::optional_delete_ctor_base<T>, | ||
| 4550 | private detail::optional_delete_assign_base<T> { | ||
| 4551 | using base = detail::optional_move_assign_base<T>; | ||
| 4552 | |||
| 4553 | static_assert(!std::is_same<T, in_place_t>::value, "instantiation of optional with in_place_t is ill-formed"); | ||
| 4554 | static_assert(!std::is_same<detail::decay_t<T>, nullopt_t>::value, "instantiation of optional with nullopt_t is ill-formed"); | ||
| 4555 | |||
| 4556 | public: | ||
| 4557 | #if defined(SOL_TL_OPTIONAL_CXX14) && !defined(SOL_TL_OPTIONAL_GCC49) && !defined(SOL_TL_OPTIONAL_GCC54) && !defined(SOL_TL_OPTIONAL_GCC55) | ||
| 4558 | /// \group and_then | ||
| 4559 | /// Carries out some operation which returns an optional on the stored | ||
| 4560 | /// object if there is one. \requires `std::invoke(std::forward<F>(f), | ||
| 4561 | /// value())` returns a `std::optional<U>` for some `U`. \returns Let `U` be | ||
| 4562 | /// the result of `std::invoke(std::forward<F>(f), value())`. Returns a | ||
| 4563 | /// `std::optional<U>`. The return value is empty if `*this` is empty, | ||
| 4564 | /// otherwise the return value of `std::invoke(std::forward<F>(f), value())` | ||
| 4565 | /// is returned. | ||
| 4566 | /// \group and_then | ||
| 4567 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &; | ||
| 4568 | template <class F> | ||
| 4569 | SOL_TL_OPTIONAL_11_CONSTEXPR auto and_then(F&& f) & { | ||
| 4570 | using result = detail::invoke_result_t<F, T&>; | ||
| 4571 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4572 | |||
| 4573 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 4574 | } | ||
| 4575 | |||
| 4576 | /// \group and_then | ||
| 4577 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &&; | ||
| 4578 | template <class F> | ||
| 4579 | SOL_TL_OPTIONAL_11_CONSTEXPR auto and_then(F&& f) && { | ||
| 4580 | using result = detail::invoke_result_t<F, T&&>; | ||
| 4581 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4582 | |||
| 4583 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : result(nullopt); | ||
| 4584 | } | ||
| 4585 | |||
| 4586 | /// \group and_then | ||
| 4587 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &; | ||
| 4588 | template <class F> | ||
| 4589 | constexpr auto and_then(F&& f) const& { | ||
| 4590 | using result = detail::invoke_result_t<F, const T&>; | ||
| 4591 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4592 | |||
| 4593 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 4594 | } | ||
| 4595 | |||
| 4596 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4597 | /// \group and_then | ||
| 4598 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &&; | ||
| 4599 | template <class F> | ||
| 4600 | constexpr auto and_then(F&& f) const&& { | ||
| 4601 | using result = detail::invoke_result_t<F, const T&&>; | ||
| 4602 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4603 | |||
| 4604 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : result(nullopt); | ||
| 4605 | } | ||
| 4606 | #endif | ||
| 4607 | #else | ||
| 4608 | /// \group and_then | ||
| 4609 | /// Carries out some operation which returns an optional on the stored | ||
| 4610 | /// object if there is one. \requires `std::invoke(std::forward<F>(f), | ||
| 4611 | /// value())` returns a `std::optional<U>` for some `U`. | ||
| 4612 | /// \returns Let `U` be the result of `std::invoke(std::forward<F>(f), | ||
| 4613 | /// value())`. Returns a `std::optional<U>`. The return value is empty if | ||
| 4614 | /// `*this` is empty, otherwise the return value of | ||
| 4615 | /// `std::invoke(std::forward<F>(f), value())` is returned. | ||
| 4616 | /// \group and_then | ||
| 4617 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &; | ||
| 4618 | template <class F> | ||
| 4619 | SOL_TL_OPTIONAL_11_CONSTEXPR detail::invoke_result_t<F, T&> and_then(F&& f) & { | ||
| 4620 | using result = detail::invoke_result_t<F, T&>; | ||
| 4621 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4622 | |||
| 4623 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 4624 | } | ||
| 4625 | |||
| 4626 | /// \group and_then | ||
| 4627 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &&; | ||
| 4628 | template <class F> | ||
| 4629 | SOL_TL_OPTIONAL_11_CONSTEXPR detail::invoke_result_t<F, T&&> and_then(F&& f) && { | ||
| 4630 | using result = detail::invoke_result_t<F, T&&>; | ||
| 4631 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4632 | |||
| 4633 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : result(nullopt); | ||
| 4634 | } | ||
| 4635 | |||
| 4636 | /// \group and_then | ||
| 4637 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &; | ||
| 4638 | template <class F> | ||
| 4639 | constexpr detail::invoke_result_t<F, const T&> and_then(F&& f) const& { | ||
| 4640 | using result = detail::invoke_result_t<F, const T&>; | ||
| 4641 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4642 | |||
| 4643 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 4644 | } | ||
| 4645 | |||
| 4646 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4647 | /// \group and_then | ||
| 4648 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &&; | ||
| 4649 | template <class F> | ||
| 4650 | constexpr detail::invoke_result_t<F, const T&&> and_then(F&& f) const&& { | ||
| 4651 | using result = detail::invoke_result_t<F, const T&&>; | ||
| 4652 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 4653 | |||
| 4654 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : result(nullopt); | ||
| 4655 | } | ||
| 4656 | #endif | ||
| 4657 | #endif | ||
| 4658 | |||
| 4659 | #if defined(SOL_TL_OPTIONAL_CXX14) && !defined(SOL_TL_OPTIONAL_GCC49) && !defined(SOL_TL_OPTIONAL_GCC54) && !defined(SOL_TL_OPTIONAL_GCC55) | ||
| 4660 | /// \brief Carries out some operation on the stored object if there is one. | ||
| 4661 | /// \returns Let `U` be the result of `std::invoke(std::forward<F>(f), | ||
| 4662 | /// value())`. Returns a `std::optional<U>`. The return value is empty if | ||
| 4663 | /// `*this` is empty, otherwise an `optional<U>` is constructed from the | ||
| 4664 | /// return value of `std::invoke(std::forward<F>(f), value())` and is | ||
| 4665 | /// returned. | ||
| 4666 | /// | ||
| 4667 | /// \group map | ||
| 4668 | /// \synopsis template <class F> constexpr auto map(F &&f) &; | ||
| 4669 | template <class F> | ||
| 4670 | SOL_TL_OPTIONAL_11_CONSTEXPR auto map(F&& f) & { | ||
| 4671 | return optional_map_impl(*this, std::forward<F>(f)); | ||
| 4672 | } | ||
| 4673 | |||
| 4674 | /// \group map | ||
| 4675 | /// \synopsis template <class F> constexpr auto map(F &&f) &&; | ||
| 4676 | template <class F> | ||
| 4677 | SOL_TL_OPTIONAL_11_CONSTEXPR auto map(F&& f) && { | ||
| 4678 | return optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 4679 | } | ||
| 4680 | |||
| 4681 | /// \group map | ||
| 4682 | /// \synopsis template <class F> constexpr auto map(F &&f) const&; | ||
| 4683 | template <class F> | ||
| 4684 | constexpr auto map(F&& f) const& { | ||
| 4685 | return optional_map_impl(*this, std::forward<F>(f)); | ||
| 4686 | } | ||
| 4687 | |||
| 4688 | /// \group map | ||
| 4689 | /// \synopsis template <class F> constexpr auto map(F &&f) const&&; | ||
| 4690 | template <class F> | ||
| 4691 | constexpr auto map(F&& f) const&& { | ||
| 4692 | return optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 4693 | } | ||
| 4694 | #else | ||
| 4695 | /// \brief Carries out some operation on the stored object if there is one. | ||
| 4696 | /// \returns Let `U` be the result of `std::invoke(std::forward<F>(f), | ||
| 4697 | /// value())`. Returns a `std::optional<U>`. The return value is empty if | ||
| 4698 | /// `*this` is empty, otherwise an `optional<U>` is constructed from the | ||
| 4699 | /// return value of `std::invoke(std::forward<F>(f), value())` and is | ||
| 4700 | /// returned. | ||
| 4701 | /// | ||
| 4702 | /// \group map | ||
| 4703 | /// \synopsis template <class F> auto map(F &&f) &; | ||
| 4704 | template <class F> | ||
| 4705 | SOL_TL_OPTIONAL_11_CONSTEXPR decltype(optional_map_impl(std::declval<optional&>(), std::declval<F&&>())) map(F&& f) & { | ||
| 4706 | return optional_map_impl(*this, std::forward<F>(f)); | ||
| 4707 | } | ||
| 4708 | |||
| 4709 | /// \group map | ||
| 4710 | /// \synopsis template <class F> auto map(F &&f) &&; | ||
| 4711 | template <class F> | ||
| 4712 | SOL_TL_OPTIONAL_11_CONSTEXPR decltype(optional_map_impl(std::declval<optional&&>(), std::declval<F&&>())) map(F&& f) && { | ||
| 4713 | return optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 4714 | } | ||
| 4715 | |||
| 4716 | /// \group map | ||
| 4717 | /// \synopsis template <class F> auto map(F &&f) const&; | ||
| 4718 | template <class F> | ||
| 4719 | constexpr decltype(optional_map_impl(std::declval<const optional&>(), std::declval<F&&>())) map(F&& f) const& { | ||
| 4720 | return optional_map_impl(*this, std::forward<F>(f)); | ||
| 4721 | } | ||
| 4722 | |||
| 4723 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4724 | /// \group map | ||
| 4725 | /// \synopsis template <class F> auto map(F &&f) const&&; | ||
| 4726 | template <class F> | ||
| 4727 | constexpr decltype(optional_map_impl(std::declval<const optional&&>(), std::declval<F&&>())) map(F&& f) const&& { | ||
| 4728 | return optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 4729 | } | ||
| 4730 | #endif | ||
| 4731 | #endif | ||
| 4732 | |||
| 4733 | /// \brief Calls `f` if the optional is empty | ||
| 4734 | /// \requires `std::invoke_result_t<F>` must be void or convertible to | ||
| 4735 | /// `optional<T>`. | ||
| 4736 | /// \effects If `*this` has a value, returns `*this`. | ||
| 4737 | /// Otherwise, if `f` returns `void`, calls `std::forward<F>(f)` and returns | ||
| 4738 | /// `std::nullopt`. Otherwise, returns `std::forward<F>(f)()`. | ||
| 4739 | /// | ||
| 4740 | /// \group or_else | ||
| 4741 | /// \synopsis template <class F> optional<T> or_else (F &&f) &; | ||
| 4742 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 4743 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) & { | ||
| 4744 | if (has_value()) | ||
| 4745 | return *this; | ||
| 4746 | |||
| 4747 | std::forward<F>(f)(); | ||
| 4748 | return nullopt; | ||
| 4749 | } | ||
| 4750 | |||
| 4751 | /// \exclude | ||
| 4752 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 4753 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) & { | ||
| 4754 | return has_value() ? *this : std::forward<F>(f)(); | ||
| 4755 | } | ||
| 4756 | |||
| 4757 | /// \group or_else | ||
| 4758 | /// \synopsis template <class F> optional<T> or_else (F &&f) &&; | ||
| 4759 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 4760 | optional<T> or_else(F&& f) && { | ||
| 4761 | if (has_value()) | ||
| 4762 | return std::move(*this); | ||
| 4763 | |||
| 4764 | std::forward<F>(f)(); | ||
| 4765 | return nullopt; | ||
| 4766 | } | ||
| 4767 | |||
| 4768 | /// \exclude | ||
| 4769 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 4770 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) && { | ||
| 4771 | return has_value() ? std::move(*this) : std::forward<F>(f)(); | ||
| 4772 | } | ||
| 4773 | |||
| 4774 | /// \group or_else | ||
| 4775 | /// \synopsis template <class F> optional<T> or_else (F &&f) const &; | ||
| 4776 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 4777 | optional<T> or_else(F&& f) const& { | ||
| 4778 | if (has_value()) | ||
| 4779 | return *this; | ||
| 4780 | |||
| 4781 | std::forward<F>(f)(); | ||
| 4782 | return nullopt; | ||
| 4783 | } | ||
| 4784 | |||
| 4785 | /// \exclude | ||
| 4786 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 4787 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) const& { | ||
| 4788 | return has_value() ? *this : std::forward<F>(f)(); | ||
| 4789 | } | ||
| 4790 | |||
| 4791 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4792 | /// \exclude | ||
| 4793 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 4794 | optional<T> or_else(F&& f) const&& { | ||
| 4795 | if (has_value()) | ||
| 4796 | return std::move(*this); | ||
| 4797 | |||
| 4798 | std::forward<F>(f)(); | ||
| 4799 | return nullopt; | ||
| 4800 | } | ||
| 4801 | |||
| 4802 | /// \exclude | ||
| 4803 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 4804 | optional<T> or_else(F&& f) const&& { | ||
| 4805 | return has_value() ? std::move(*this) : std::forward<F>(f)(); | ||
| 4806 | } | ||
| 4807 | #endif | ||
| 4808 | |||
| 4809 | /// \brief Maps the stored value with `f` if there is one, otherwise returns | ||
| 4810 | /// `u`. | ||
| 4811 | /// | ||
| 4812 | /// \details If there is a value stored, then `f` is called with `**this` | ||
| 4813 | /// and the value is returned. Otherwise `u` is returned. | ||
| 4814 | /// | ||
| 4815 | /// \group map_or | ||
| 4816 | template <class F, class U> | ||
| 4817 | U map_or(F&& f, U&& u) & { | ||
| 4818 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u); | ||
| 4819 | } | ||
| 4820 | |||
| 4821 | /// \group map_or | ||
| 4822 | template <class F, class U> | ||
| 4823 | U map_or(F&& f, U&& u) && { | ||
| 4824 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u); | ||
| 4825 | } | ||
| 4826 | |||
| 4827 | /// \group map_or | ||
| 4828 | template <class F, class U> | ||
| 4829 | U map_or(F&& f, U&& u) const& { | ||
| 4830 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u); | ||
| 4831 | } | ||
| 4832 | |||
| 4833 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4834 | /// \group map_or | ||
| 4835 | template <class F, class U> | ||
| 4836 | U map_or(F&& f, U&& u) const&& { | ||
| 4837 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u); | ||
| 4838 | } | ||
| 4839 | #endif | ||
| 4840 | |||
| 4841 | /// \brief Maps the stored value with `f` if there is one, otherwise calls | ||
| 4842 | /// `u` and returns the result. | ||
| 4843 | /// | ||
| 4844 | /// \details If there is a value stored, then `f` is | ||
| 4845 | /// called with `**this` and the value is returned. Otherwise | ||
| 4846 | /// `std::forward<U>(u)()` is returned. | ||
| 4847 | /// | ||
| 4848 | /// \group map_or_else | ||
| 4849 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) &; | ||
| 4850 | template <class F, class U> | ||
| 4851 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) & { | ||
| 4852 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u)(); | ||
| 4853 | } | ||
| 4854 | |||
| 4855 | /// \group map_or_else | ||
| 4856 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 4857 | /// &&; | ||
| 4858 | template <class F, class U> | ||
| 4859 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) && { | ||
| 4860 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u)(); | ||
| 4861 | } | ||
| 4862 | |||
| 4863 | /// \group map_or_else | ||
| 4864 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 4865 | /// const &; | ||
| 4866 | template <class F, class U> | ||
| 4867 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) const& { | ||
| 4868 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u)(); | ||
| 4869 | } | ||
| 4870 | |||
| 4871 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4872 | /// \group map_or_else | ||
| 4873 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 4874 | /// const &&; | ||
| 4875 | template <class F, class U> | ||
| 4876 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) const&& { | ||
| 4877 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u)(); | ||
| 4878 | } | ||
| 4879 | #endif | ||
| 4880 | |||
| 4881 | /// \returns `u` if `*this` has a value, otherwise an empty optional. | ||
| 4882 | template <class U> | ||
| 4883 | constexpr optional<typename std::decay<U>::type> conjunction(U&& u) const { | ||
| 4884 | using result = optional<detail::decay_t<U>>; | ||
| 4885 | return has_value() ? result { u } : result { nullopt }; | ||
| 4886 | } | ||
| 4887 | |||
| 4888 | /// \returns `rhs` if `*this` is empty, otherwise the current value. | ||
| 4889 | /// \group disjunction | ||
| 4890 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(const optional& rhs) & { | ||
| 4891 | return has_value() ? *this : rhs; | ||
| 4892 | } | ||
| 4893 | |||
| 4894 | /// \group disjunction | ||
| 4895 | constexpr optional disjunction(const optional& rhs) const& { | ||
| 4896 | return has_value() ? *this : rhs; | ||
| 4897 | } | ||
| 4898 | |||
| 4899 | /// \group disjunction | ||
| 4900 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(const optional& rhs) && { | ||
| 4901 | return has_value() ? std::move(*this) : rhs; | ||
| 4902 | } | ||
| 4903 | |||
| 4904 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4905 | /// \group disjunction | ||
| 4906 | constexpr optional disjunction(const optional& rhs) const&& { | ||
| 4907 | return has_value() ? std::move(*this) : rhs; | ||
| 4908 | } | ||
| 4909 | #endif | ||
| 4910 | |||
| 4911 | /// \group disjunction | ||
| 4912 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(optional&& rhs) & { | ||
| 4913 | return has_value() ? *this : std::move(rhs); | ||
| 4914 | } | ||
| 4915 | |||
| 4916 | /// \group disjunction | ||
| 4917 | constexpr optional disjunction(optional&& rhs) const& { | ||
| 4918 | return has_value() ? *this : std::move(rhs); | ||
| 4919 | } | ||
| 4920 | |||
| 4921 | /// \group disjunction | ||
| 4922 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(optional&& rhs) && { | ||
| 4923 | return has_value() ? std::move(*this) : std::move(rhs); | ||
| 4924 | } | ||
| 4925 | |||
| 4926 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4927 | /// \group disjunction | ||
| 4928 | constexpr optional disjunction(optional&& rhs) const&& { | ||
| 4929 | return has_value() ? std::move(*this) : std::move(rhs); | ||
| 4930 | } | ||
| 4931 | #endif | ||
| 4932 | |||
| 4933 | /// Takes the value out of the optional, leaving it empty | ||
| 4934 | /// \group take | ||
| 4935 | optional take() & { | ||
| 4936 | optional ret = *this; | ||
| 4937 | reset(); | ||
| 4938 | return ret; | ||
| 4939 | } | ||
| 4940 | |||
| 4941 | /// \group take | ||
| 4942 | optional take() const& { | ||
| 4943 | optional ret = *this; | ||
| 4944 | reset(); | ||
| 4945 | return ret; | ||
| 4946 | } | ||
| 4947 | |||
| 4948 | /// \group take | ||
| 4949 | optional take() && { | ||
| 4950 | optional ret = std::move(*this); | ||
| 4951 | reset(); | ||
| 4952 | return ret; | ||
| 4953 | } | ||
| 4954 | |||
| 4955 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 4956 | /// \group take | ||
| 4957 | optional take() const&& { | ||
| 4958 | optional ret = std::move(*this); | ||
| 4959 | reset(); | ||
| 4960 | return ret; | ||
| 4961 | } | ||
| 4962 | #endif | ||
| 4963 | |||
| 4964 | using value_type = T; | ||
| 4965 | |||
| 4966 | /// Constructs an optional that does not contain a value. | ||
| 4967 | /// \group ctor_empty | ||
| 4968 | constexpr optional() noexcept = default; | ||
| 4969 | |||
| 4970 | /// \group ctor_empty | ||
| 4971 | constexpr optional(nullopt_t) noexcept { | ||
| 4972 | } | ||
| 4973 | |||
| 4974 | /// Copy constructor | ||
| 4975 | /// | ||
| 4976 | /// If `rhs` contains a value, the stored value is direct-initialized with | ||
| 4977 | /// it. Otherwise, the constructed optional is empty. | ||
| 4978 | SOL_TL_OPTIONAL_11_CONSTEXPR optional(const optional& rhs) = default; | ||
| 4979 | |||
| 4980 | /// Move constructor | ||
| 4981 | /// | ||
| 4982 | /// If `rhs` contains a value, the stored value is direct-initialized with | ||
| 4983 | /// it. Otherwise, the constructed optional is empty. | ||
| 4984 | SOL_TL_OPTIONAL_11_CONSTEXPR optional(optional&& rhs) = default; | ||
| 4985 | |||
| 4986 | /// Constructs the stored value in-place using the given arguments. | ||
| 4987 | /// \group in_place | ||
| 4988 | /// \synopsis template <class... Args> constexpr explicit optional(in_place_t, Args&&... args); | ||
| 4989 | template <class... Args> | ||
| 4990 | constexpr explicit optional(detail::enable_if_t<std::is_constructible<T, Args...>::value, in_place_t>, Args&&... args) | ||
| 4991 | : base(in_place, std::forward<Args>(args)...) { | ||
| 4992 | } | ||
| 4993 | |||
| 4994 | /// \group in_place | ||
| 4995 | /// \synopsis template <class U, class... Args>\nconstexpr explicit optional(in_place_t, std::initializer_list<U>&, Args&&... args); | ||
| 4996 | template <class U, class... Args> | ||
| 4997 | SOL_TL_OPTIONAL_11_CONSTEXPR explicit optional(detail::enable_if_t<std::is_constructible<T, std::initializer_list<U>&, Args&&...>::value, in_place_t>, | ||
| 4998 | std::initializer_list<U> il, Args&&... args) { | ||
| 4999 | this->construct(il, std::forward<Args>(args)...); | ||
| 5000 | } | ||
| 5001 | |||
| 5002 | #if 0 // SOL_MODIFICATION | ||
| 5003 | /// Constructs the stored value with `u`. | ||
| 5004 | /// \synopsis template <class U=T> constexpr optional(U &&u); | ||
| 5005 | template <class U = T, detail::enable_if_t<std::is_convertible<U&&, T>::value>* = nullptr, detail::enable_forward_value<T, U>* = nullptr> | ||
| 5006 | constexpr optional(U&& u) : base(in_place, std::forward<U>(u)) { | ||
| 5007 | } | ||
| 5008 | |||
| 5009 | /// \exclude | ||
| 5010 | template <class U = T, detail::enable_if_t<!std::is_convertible<U&&, T>::value>* = nullptr, detail::enable_forward_value<T, U>* = nullptr> | ||
| 5011 | constexpr explicit optional(U&& u) : base(in_place, std::forward<U>(u)) { | ||
| 5012 | } | ||
| 5013 | #else | ||
| 5014 | /// Constructs the stored value with `u`. | ||
| 5015 | /// \synopsis template <class U=T> constexpr optional(U &&u); | ||
| 5016 | constexpr optional(T&& u) : base(in_place, std::move(u)) { | ||
| 5017 | } | ||
| 5018 | |||
| 5019 | /// \exclude | ||
| 5020 | constexpr optional(const T& u) : base(in_place, u) { | ||
| 5021 | } | ||
| 5022 | #endif // sol3 modification | ||
| 5023 | |||
| 5024 | /// Converting copy constructor. | ||
| 5025 | /// \synopsis template <class U> optional(const optional<U> &rhs); | ||
| 5026 | template <class U, detail::enable_from_other<T, U, const U&>* = nullptr, detail::enable_if_t<std::is_convertible<const U&, T>::value>* = nullptr> | ||
| 5027 | optional(const optional<U>& rhs) { | ||
| 5028 | if (rhs.has_value()) { | ||
| 5029 | this->construct(*rhs); | ||
| 5030 | } | ||
| 5031 | } | ||
| 5032 | |||
| 5033 | /// \exclude | ||
| 5034 | template <class U, detail::enable_from_other<T, U, const U&>* = nullptr, detail::enable_if_t<!std::is_convertible<const U&, T>::value>* = nullptr> | ||
| 5035 | explicit optional(const optional<U>& rhs) { | ||
| 5036 | if (rhs.has_value()) { | ||
| 5037 | this->construct(*rhs); | ||
| 5038 | } | ||
| 5039 | } | ||
| 5040 | |||
| 5041 | /// Converting move constructor. | ||
| 5042 | /// \synopsis template <class U> optional(optional<U> &&rhs); | ||
| 5043 | template <class U, detail::enable_from_other<T, U, U&&>* = nullptr, detail::enable_if_t<std::is_convertible<U&&, T>::value>* = nullptr> | ||
| 5044 | optional(optional<U>&& rhs) { | ||
| 5045 | if (rhs.has_value()) { | ||
| 5046 | this->construct(std::move(*rhs)); | ||
| 5047 | } | ||
| 5048 | } | ||
| 5049 | |||
| 5050 | /// \exclude | ||
| 5051 | template <class U, detail::enable_from_other<T, U, U&&>* = nullptr, detail::enable_if_t<!std::is_convertible<U&&, T>::value>* = nullptr> | ||
| 5052 | explicit optional(optional<U>&& rhs) { | ||
| 5053 | this->construct(std::move(*rhs)); | ||
| 5054 | } | ||
| 5055 | |||
| 5056 | /// Destroys the stored value if there is one. | ||
| 5057 | ~optional() = default; | ||
| 5058 | |||
| 5059 | /// Assignment to empty. | ||
| 5060 | /// | ||
| 5061 | /// Destroys the current value if there is one. | ||
| 5062 | optional& operator=(nullopt_t) noexcept { | ||
| 5063 | if (has_value()) { | ||
| 5064 | this->m_value.~T(); | ||
| 5065 | this->m_has_value = false; | ||
| 5066 | } | ||
| 5067 | |||
| 5068 | return *this; | ||
| 5069 | } | ||
| 5070 | |||
| 5071 | /// Copy assignment. | ||
| 5072 | /// | ||
| 5073 | /// Copies the value from `rhs` if there is one. Otherwise resets the stored | ||
| 5074 | /// value in `*this`. | ||
| 5075 | optional& operator=(const optional& rhs) = default; | ||
| 5076 | |||
| 5077 | /// Move assignment. | ||
| 5078 | /// | ||
| 5079 | /// Moves the value from `rhs` if there is one. Otherwise resets the stored | ||
| 5080 | /// value in `*this`. | ||
| 5081 | optional& operator=(optional&& rhs) = default; | ||
| 5082 | |||
| 5083 | /// Assigns the stored value from `u`, destroying the old value if there was | ||
| 5084 | /// one. | ||
| 5085 | /// \synopsis optional &operator=(U &&u); | ||
| 5086 | template <class U = T, detail::enable_assign_forward<T, U>* = nullptr> | ||
| 5087 | optional& operator=(U&& u) { | ||
| 5088 | if (has_value()) { | ||
| 5089 | this->m_value = std::forward<U>(u); | ||
| 5090 | } | ||
| 5091 | else { | ||
| 5092 | this->construct(std::forward<U>(u)); | ||
| 5093 | } | ||
| 5094 | |||
| 5095 | return *this; | ||
| 5096 | } | ||
| 5097 | |||
| 5098 | /// Converting copy assignment operator. | ||
| 5099 | /// | ||
| 5100 | /// Copies the value from `rhs` if there is one. Otherwise resets the stored | ||
| 5101 | /// value in `*this`. | ||
| 5102 | /// \synopsis optional &operator=(const optional<U> & rhs); | ||
| 5103 | template <class U, detail::enable_assign_from_other<T, U, const U&>* = nullptr> | ||
| 5104 | optional& operator=(const optional<U>& rhs) { | ||
| 5105 | if (has_value()) { | ||
| 5106 | if (rhs.has_value()) { | ||
| 5107 | this->m_value = *rhs; | ||
| 5108 | } | ||
| 5109 | else { | ||
| 5110 | this->hard_reset(); | ||
| 5111 | } | ||
| 5112 | } | ||
| 5113 | |||
| 5114 | if (rhs.has_value()) { | ||
| 5115 | this->construct(*rhs); | ||
| 5116 | } | ||
| 5117 | |||
| 5118 | return *this; | ||
| 5119 | } | ||
| 5120 | |||
| 5121 | // TODO check exception guarantee | ||
| 5122 | /// Converting move assignment operator. | ||
| 5123 | /// | ||
| 5124 | /// Moves the value from `rhs` if there is one. Otherwise resets the stored | ||
| 5125 | /// value in `*this`. | ||
| 5126 | /// \synopsis optional &operator=(optional<U> && rhs); | ||
| 5127 | template <class U, detail::enable_assign_from_other<T, U, U>* = nullptr> | ||
| 5128 | optional& operator=(optional<U>&& rhs) { | ||
| 5129 | if (has_value()) { | ||
| 5130 | if (rhs.has_value()) { | ||
| 5131 | this->m_value = std::move(*rhs); | ||
| 5132 | } | ||
| 5133 | else { | ||
| 5134 | this->hard_reset(); | ||
| 5135 | } | ||
| 5136 | } | ||
| 5137 | |||
| 5138 | if (rhs.has_value()) { | ||
| 5139 | this->construct(std::move(*rhs)); | ||
| 5140 | } | ||
| 5141 | |||
| 5142 | return *this; | ||
| 5143 | } | ||
| 5144 | |||
| 5145 | /// Constructs the value in-place, destroying the current one if there is | ||
| 5146 | /// one. | ||
| 5147 | /// \group emplace | ||
| 5148 | template <class... Args> | ||
| 5149 | T& emplace(Args&&... args) { | ||
| 5150 | static_assert(std::is_constructible<T, Args&&...>::value, "T must be constructible with Args"); | ||
| 5151 | |||
| 5152 | *this = nullopt; | ||
| 5153 | this->construct(std::forward<Args>(args)...); | ||
| 5154 | return value(); | ||
| 5155 | } | ||
| 5156 | |||
| 5157 | /// \group emplace | ||
| 5158 | /// \synopsis template <class U, class... Args>\nT& emplace(std::initializer_list<U> il, Args &&... args); | ||
| 5159 | template <class U, class... Args> | ||
| 5160 | detail::enable_if_t<std::is_constructible<T, std::initializer_list<U>&, Args&&...>::value, T&> emplace(std::initializer_list<U> il, Args&&... args) { | ||
| 5161 | *this = nullopt; | ||
| 5162 | this->construct(il, std::forward<Args>(args)...); | ||
| 5163 | return value(); | ||
| 5164 | } | ||
| 5165 | |||
| 5166 | /// Swaps this optional with the other. | ||
| 5167 | /// | ||
| 5168 | /// If neither optionals have a value, nothing happens. | ||
| 5169 | /// If both have a value, the values are swapped. | ||
| 5170 | /// If one has a value, it is moved to the other and the movee is left | ||
| 5171 | /// valueless. | ||
| 5172 | void swap(optional& rhs) noexcept(std::is_nothrow_move_constructible<T>::value&& detail::is_nothrow_swappable<T>::value) { | ||
| 5173 | if (has_value()) { | ||
| 5174 | if (rhs.has_value()) { | ||
| 5175 | using std::swap; | ||
| 5176 | swap(**this, *rhs); | ||
| 5177 | } | ||
| 5178 | else { | ||
| 5179 | new (std::addressof(rhs.m_value)) T(std::move(this->m_value)); | ||
| 5180 | this->m_value.T::~T(); | ||
| 5181 | } | ||
| 5182 | } | ||
| 5183 | else if (rhs.has_value()) { | ||
| 5184 | new (std::addressof(this->m_value)) T(std::move(rhs.m_value)); | ||
| 5185 | rhs.m_value.T::~T(); | ||
| 5186 | } | ||
| 5187 | } | ||
| 5188 | |||
| 5189 | /// \returns a pointer to the stored value | ||
| 5190 | /// \requires a value is stored | ||
| 5191 | /// \group pointer | ||
| 5192 | /// \synopsis constexpr const T *operator->() const; | ||
| 5193 | constexpr const T* operator->() const { | ||
| 5194 | return std::addressof(this->m_value); | ||
| 5195 | } | ||
| 5196 | |||
| 5197 | /// \group pointer | ||
| 5198 | /// \synopsis constexpr T *operator->(); | ||
| 5199 | SOL_TL_OPTIONAL_11_CONSTEXPR T* operator->() { | ||
| 5200 | return std::addressof(this->m_value); | ||
| 5201 | } | ||
| 5202 | |||
| 5203 | /// \returns the stored value | ||
| 5204 | /// \requires a value is stored | ||
| 5205 | /// \group deref | ||
| 5206 | /// \synopsis constexpr T &operator*(); | ||
| 5207 | SOL_TL_OPTIONAL_11_CONSTEXPR T& operator*() & { | ||
| 5208 | return this->m_value; | ||
| 5209 | } | ||
| 5210 | |||
| 5211 | /// \group deref | ||
| 5212 | /// \synopsis constexpr const T &operator*() const; | ||
| 5213 | constexpr const T& operator*() const& { | ||
| 5214 | return this->m_value; | ||
| 5215 | } | ||
| 5216 | |||
| 5217 | /// \exclude | ||
| 5218 | SOL_TL_OPTIONAL_11_CONSTEXPR T&& operator*() && { | ||
| 5219 | return std::move(this->m_value); | ||
| 5220 | } | ||
| 5221 | |||
| 5222 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5223 | /// \exclude | ||
| 5224 | constexpr const T&& operator*() const&& { | ||
| 5225 | return std::move(this->m_value); | ||
| 5226 | } | ||
| 5227 | #endif | ||
| 5228 | |||
| 5229 | /// \returns whether or not the optional has a value | ||
| 5230 | /// \group has_value | ||
| 5231 | constexpr bool has_value() const noexcept { | ||
| 5232 | return this->m_has_value; | ||
| 5233 | } | ||
| 5234 | |||
| 5235 | /// \group has_value | ||
| 5236 | constexpr explicit operator bool() const noexcept { | ||
| 5237 | return this->m_has_value; | ||
| 5238 | } | ||
| 5239 | |||
| 5240 | /// \returns the contained value if there is one, otherwise throws | ||
| 5241 | /// [bad_optional_access] | ||
| 5242 | /// \group value | ||
| 5243 | /// \synopsis constexpr T &value(); | ||
| 5244 | SOL_TL_OPTIONAL_11_CONSTEXPR T& value() & { | ||
| 5245 | if (has_value()) | ||
| 5246 | return this->m_value; | ||
| 5247 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 5248 | std::abort(); | ||
| 5249 | #else | ||
| 5250 | throw bad_optional_access(); | ||
| 5251 | #endif // No exceptions allowed | ||
| 5252 | } | ||
| 5253 | /// \group value | ||
| 5254 | /// \synopsis constexpr const T &value() const; | ||
| 5255 | SOL_TL_OPTIONAL_11_CONSTEXPR const T& value() const& { | ||
| 5256 | if (has_value()) | ||
| 5257 | return this->m_value; | ||
| 5258 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 5259 | std::abort(); | ||
| 5260 | #else | ||
| 5261 | throw bad_optional_access(); | ||
| 5262 | #endif // No exceptions allowed | ||
| 5263 | } | ||
| 5264 | /// \exclude | ||
| 5265 | SOL_TL_OPTIONAL_11_CONSTEXPR T&& value() && { | ||
| 5266 | if (has_value()) | ||
| 5267 | return std::move(this->m_value); | ||
| 5268 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 5269 | std::abort(); | ||
| 5270 | #else | ||
| 5271 | throw bad_optional_access(); | ||
| 5272 | #endif // No exceptions allowed | ||
| 5273 | } | ||
| 5274 | |||
| 5275 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5276 | /// \exclude | ||
| 5277 | SOL_TL_OPTIONAL_11_CONSTEXPR const T&& value() const&& { | ||
| 5278 | if (has_value()) | ||
| 5279 | return std::move(this->m_value); | ||
| 5280 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 5281 | std::abort(); | ||
| 5282 | #else | ||
| 5283 | throw bad_optional_access(); | ||
| 5284 | #endif // No exceptions allowed | ||
| 5285 | } | ||
| 5286 | #endif | ||
| 5287 | |||
| 5288 | /// \returns the stored value if there is one, otherwise returns `u` | ||
| 5289 | /// \group value_or | ||
| 5290 | template <class U> | ||
| 5291 | constexpr T value_or(U&& u) const& { | ||
| 5292 | static_assert(std::is_copy_constructible<T>::value && std::is_convertible<U&&, T>::value, "T must be copy constructible and convertible from U"); | ||
| 5293 | return has_value() ? **this : static_cast<T>(std::forward<U>(u)); | ||
| 5294 | } | ||
| 5295 | |||
| 5296 | /// \group value_or | ||
| 5297 | template <class U> | ||
| 5298 | SOL_TL_OPTIONAL_11_CONSTEXPR T value_or(U&& u) && { | ||
| 5299 | static_assert(std::is_move_constructible<T>::value && std::is_convertible<U&&, T>::value, "T must be move constructible and convertible from U"); | ||
| 5300 | return has_value() ? **this : static_cast<T>(std::forward<U>(u)); | ||
| 5301 | } | ||
| 5302 | |||
| 5303 | /// Destroys the stored value if one exists, making the optional empty | ||
| 5304 | void reset() noexcept { | ||
| 5305 | if (has_value()) { | ||
| 5306 | this->m_value.~T(); | ||
| 5307 | this->m_has_value = false; | ||
| 5308 | } | ||
| 5309 | } | ||
| 5310 | }; // namespace sol | ||
| 5311 | |||
| 5312 | /// \group relop | ||
| 5313 | /// \brief Compares two optional objects | ||
| 5314 | /// \details If both optionals contain a value, they are compared with `T`s | ||
| 5315 | /// relational operators. Otherwise `lhs` and `rhs` are equal only if they are | ||
| 5316 | /// both empty, and `lhs` is less than `rhs` only if `rhs` is empty and `lhs` | ||
| 5317 | /// is not. | ||
| 5318 | template <class T, class U> | ||
| 5319 | inline constexpr bool operator==(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5320 | return lhs.has_value() == rhs.has_value() && (!lhs.has_value() || *lhs == *rhs); | ||
| 5321 | } | ||
| 5322 | /// \group relop | ||
| 5323 | template <class T, class U> | ||
| 5324 | inline constexpr bool operator!=(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5325 | return lhs.has_value() != rhs.has_value() || (lhs.has_value() && *lhs != *rhs); | ||
| 5326 | } | ||
| 5327 | /// \group relop | ||
| 5328 | template <class T, class U> | ||
| 5329 | inline constexpr bool operator<(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5330 | return rhs.has_value() && (!lhs.has_value() || *lhs < *rhs); | ||
| 5331 | } | ||
| 5332 | /// \group relop | ||
| 5333 | template <class T, class U> | ||
| 5334 | inline constexpr bool operator>(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5335 | return lhs.has_value() && (!rhs.has_value() || *lhs > *rhs); | ||
| 5336 | } | ||
| 5337 | /// \group relop | ||
| 5338 | template <class T, class U> | ||
| 5339 | inline constexpr bool operator<=(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5340 | return !lhs.has_value() || (rhs.has_value() && *lhs <= *rhs); | ||
| 5341 | } | ||
| 5342 | /// \group relop | ||
| 5343 | template <class T, class U> | ||
| 5344 | inline constexpr bool operator>=(const optional<T>& lhs, const optional<U>& rhs) { | ||
| 5345 | return !rhs.has_value() || (lhs.has_value() && *lhs >= *rhs); | ||
| 5346 | } | ||
| 5347 | |||
| 5348 | /// \group relop_nullopt | ||
| 5349 | /// \brief Compares an optional to a `nullopt` | ||
| 5350 | /// \details Equivalent to comparing the optional to an empty optional | ||
| 5351 | template <class T> | ||
| 5352 | inline constexpr bool operator==(const optional<T>& lhs, nullopt_t) noexcept { | ||
| 5353 | return !lhs.has_value(); | ||
| 5354 | } | ||
| 5355 | /// \group relop_nullopt | ||
| 5356 | template <class T> | ||
| 5357 | inline constexpr bool operator==(nullopt_t, const optional<T>& rhs) noexcept { | ||
| 5358 | return !rhs.has_value(); | ||
| 5359 | } | ||
| 5360 | /// \group relop_nullopt | ||
| 5361 | template <class T> | ||
| 5362 | inline constexpr bool operator!=(const optional<T>& lhs, nullopt_t) noexcept { | ||
| 5363 | return lhs.has_value(); | ||
| 5364 | } | ||
| 5365 | /// \group relop_nullopt | ||
| 5366 | template <class T> | ||
| 5367 | inline constexpr bool operator!=(nullopt_t, const optional<T>& rhs) noexcept { | ||
| 5368 | return rhs.has_value(); | ||
| 5369 | } | ||
| 5370 | /// \group relop_nullopt | ||
| 5371 | template <class T> | ||
| 5372 | inline constexpr bool operator<(const optional<T>&, nullopt_t) noexcept { | ||
| 5373 | return false; | ||
| 5374 | } | ||
| 5375 | /// \group relop_nullopt | ||
| 5376 | template <class T> | ||
| 5377 | inline constexpr bool operator<(nullopt_t, const optional<T>& rhs) noexcept { | ||
| 5378 | return rhs.has_value(); | ||
| 5379 | } | ||
| 5380 | /// \group relop_nullopt | ||
| 5381 | template <class T> | ||
| 5382 | inline constexpr bool operator<=(const optional<T>& lhs, nullopt_t) noexcept { | ||
| 5383 | return !lhs.has_value(); | ||
| 5384 | } | ||
| 5385 | /// \group relop_nullopt | ||
| 5386 | template <class T> | ||
| 5387 | inline constexpr bool operator<=(nullopt_t, const optional<T>&) noexcept { | ||
| 5388 | return true; | ||
| 5389 | } | ||
| 5390 | /// \group relop_nullopt | ||
| 5391 | template <class T> | ||
| 5392 | inline constexpr bool operator>(const optional<T>& lhs, nullopt_t) noexcept { | ||
| 5393 | return lhs.has_value(); | ||
| 5394 | } | ||
| 5395 | /// \group relop_nullopt | ||
| 5396 | template <class T> | ||
| 5397 | inline constexpr bool operator>(nullopt_t, const optional<T>&) noexcept { | ||
| 5398 | return false; | ||
| 5399 | } | ||
| 5400 | /// \group relop_nullopt | ||
| 5401 | template <class T> | ||
| 5402 | inline constexpr bool operator>=(const optional<T>&, nullopt_t) noexcept { | ||
| 5403 | return true; | ||
| 5404 | } | ||
| 5405 | /// \group relop_nullopt | ||
| 5406 | template <class T> | ||
| 5407 | inline constexpr bool operator>=(nullopt_t, const optional<T>& rhs) noexcept { | ||
| 5408 | return !rhs.has_value(); | ||
| 5409 | } | ||
| 5410 | |||
| 5411 | /// \group relop_t | ||
| 5412 | /// \brief Compares the optional with a value. | ||
| 5413 | /// \details If the optional has a value, it is compared with the other value | ||
| 5414 | /// using `T`s relational operators. Otherwise, the optional is considered | ||
| 5415 | /// less than the value. | ||
| 5416 | template <class T, class U> | ||
| 5417 | inline constexpr bool operator==(const optional<T>& lhs, const U& rhs) { | ||
| 5418 | return lhs.has_value() ? *lhs == rhs : false; | ||
| 5419 | } | ||
| 5420 | /// \group relop_t | ||
| 5421 | template <class T, class U> | ||
| 5422 | inline constexpr bool operator==(const U& lhs, const optional<T>& rhs) { | ||
| 5423 | return rhs.has_value() ? lhs == *rhs : false; | ||
| 5424 | } | ||
| 5425 | /// \group relop_t | ||
| 5426 | template <class T, class U> | ||
| 5427 | inline constexpr bool operator!=(const optional<T>& lhs, const U& rhs) { | ||
| 5428 | return lhs.has_value() ? *lhs != rhs : true; | ||
| 5429 | } | ||
| 5430 | /// \group relop_t | ||
| 5431 | template <class T, class U> | ||
| 5432 | inline constexpr bool operator!=(const U& lhs, const optional<T>& rhs) { | ||
| 5433 | return rhs.has_value() ? lhs != *rhs : true; | ||
| 5434 | } | ||
| 5435 | /// \group relop_t | ||
| 5436 | template <class T, class U> | ||
| 5437 | inline constexpr bool operator<(const optional<T>& lhs, const U& rhs) { | ||
| 5438 | return lhs.has_value() ? *lhs < rhs : true; | ||
| 5439 | } | ||
| 5440 | /// \group relop_t | ||
| 5441 | template <class T, class U> | ||
| 5442 | inline constexpr bool operator<(const U& lhs, const optional<T>& rhs) { | ||
| 5443 | return rhs.has_value() ? lhs < *rhs : false; | ||
| 5444 | } | ||
| 5445 | /// \group relop_t | ||
| 5446 | template <class T, class U> | ||
| 5447 | inline constexpr bool operator<=(const optional<T>& lhs, const U& rhs) { | ||
| 5448 | return lhs.has_value() ? *lhs <= rhs : true; | ||
| 5449 | } | ||
| 5450 | /// \group relop_t | ||
| 5451 | template <class T, class U> | ||
| 5452 | inline constexpr bool operator<=(const U& lhs, const optional<T>& rhs) { | ||
| 5453 | return rhs.has_value() ? lhs <= *rhs : false; | ||
| 5454 | } | ||
| 5455 | /// \group relop_t | ||
| 5456 | template <class T, class U> | ||
| 5457 | inline constexpr bool operator>(const optional<T>& lhs, const U& rhs) { | ||
| 5458 | return lhs.has_value() ? *lhs > rhs : false; | ||
| 5459 | } | ||
| 5460 | /// \group relop_t | ||
| 5461 | template <class T, class U> | ||
| 5462 | inline constexpr bool operator>(const U& lhs, const optional<T>& rhs) { | ||
| 5463 | return rhs.has_value() ? lhs > *rhs : true; | ||
| 5464 | } | ||
| 5465 | /// \group relop_t | ||
| 5466 | template <class T, class U> | ||
| 5467 | inline constexpr bool operator>=(const optional<T>& lhs, const U& rhs) { | ||
| 5468 | return lhs.has_value() ? *lhs >= rhs : false; | ||
| 5469 | } | ||
| 5470 | /// \group relop_t | ||
| 5471 | template <class T, class U> | ||
| 5472 | inline constexpr bool operator>=(const U& lhs, const optional<T>& rhs) { | ||
| 5473 | return rhs.has_value() ? lhs >= *rhs : true; | ||
| 5474 | } | ||
| 5475 | |||
| 5476 | /// \synopsis template <class T>\nvoid swap(optional<T> &lhs, optional<T> &rhs); | ||
| 5477 | template <class T, detail::enable_if_t<std::is_move_constructible<T>::value>* = nullptr, detail::enable_if_t<detail::is_swappable<T>::value>* = nullptr> | ||
| 5478 | void swap(optional<T>& lhs, optional<T>& rhs) noexcept(noexcept(lhs.swap(rhs))) { | ||
| 5479 | return lhs.swap(rhs); | ||
| 5480 | } | ||
| 5481 | |||
| 5482 | namespace detail { | ||
| 5483 | struct i_am_secret {}; | ||
| 5484 | } // namespace detail | ||
| 5485 | |||
| 5486 | template <class T = detail::i_am_secret, class U, class Ret = detail::conditional_t<std::is_same<T, detail::i_am_secret>::value, detail::decay_t<U>, T>> | ||
| 5487 | inline constexpr optional<Ret> make_optional(U&& v) { | ||
| 5488 | return optional<Ret>(std::forward<U>(v)); | ||
| 5489 | } | ||
| 5490 | |||
| 5491 | template <class T, class... Args> | ||
| 5492 | inline constexpr optional<T> make_optional(Args&&... args) { | ||
| 5493 | return optional<T>(in_place, std::forward<Args>(args)...); | ||
| 5494 | } | ||
| 5495 | template <class T, class U, class... Args> | ||
| 5496 | inline constexpr optional<T> make_optional(std::initializer_list<U> il, Args&&... args) { | ||
| 5497 | return optional<T>(in_place, il, std::forward<Args>(args)...); | ||
| 5498 | } | ||
| 5499 | |||
| 5500 | #if __cplusplus >= 201703L | ||
| 5501 | template <class T> | ||
| 5502 | optional(T)->optional<T>; | ||
| 5503 | #endif | ||
| 5504 | |||
| 5505 | /// \exclude | ||
| 5506 | namespace detail { | ||
| 5507 | #ifdef SOL_TL_OPTIONAL_CXX14 | ||
| 5508 | template <class Opt, class F, class Ret = decltype(detail::invoke(std::declval<F>(), *std::declval<Opt>())), | ||
| 5509 | detail::enable_if_t<!std::is_void<Ret>::value>* = nullptr> | ||
| 5510 | constexpr auto optional_map_impl(Opt&& opt, F&& f) { | ||
| 5511 | return opt.has_value() ? detail::invoke(std::forward<F>(f), *std::forward<Opt>(opt)) : optional<Ret>(nullopt); | ||
| 5512 | } | ||
| 5513 | |||
| 5514 | template <class Opt, class F, class Ret = decltype(detail::invoke(std::declval<F>(), *std::declval<Opt>())), | ||
| 5515 | detail::enable_if_t<std::is_void<Ret>::value>* = nullptr> | ||
| 5516 | auto optional_map_impl(Opt&& opt, F&& f) { | ||
| 5517 | if (opt.has_value()) { | ||
| 5518 | detail::invoke(std::forward<F>(f), *std::forward<Opt>(opt)); | ||
| 5519 | return make_optional(monostate {}); | ||
| 5520 | } | ||
| 5521 | |||
| 5522 | return optional<monostate>(nullopt); | ||
| 5523 | } | ||
| 5524 | #else | ||
| 5525 | template <class Opt, class F, class Ret = decltype(detail::invoke(std::declval<F>(), *std::declval<Opt>())), | ||
| 5526 | detail::enable_if_t<!std::is_void<Ret>::value>* = nullptr> | ||
| 5527 | |||
| 5528 | constexpr auto optional_map_impl(Opt&& opt, F&& f) -> optional<Ret> { | ||
| 5529 | return opt.has_value() ? detail::invoke(std::forward<F>(f), *std::forward<Opt>(opt)) : optional<Ret>(nullopt); | ||
| 5530 | } | ||
| 5531 | |||
| 5532 | template <class Opt, class F, class Ret = decltype(detail::invoke(std::declval<F>(), *std::declval<Opt>())), | ||
| 5533 | detail::enable_if_t<std::is_void<Ret>::value>* = nullptr> | ||
| 5534 | |||
| 5535 | auto optional_map_impl(Opt&& opt, F&& f) -> optional<monostate> { | ||
| 5536 | if (opt.has_value()) { | ||
| 5537 | detail::invoke(std::forward<F>(f), *std::forward<Opt>(opt)); | ||
| 5538 | return monostate {}; | ||
| 5539 | } | ||
| 5540 | |||
| 5541 | return nullopt; | ||
| 5542 | } | ||
| 5543 | #endif | ||
| 5544 | } // namespace detail | ||
| 5545 | |||
| 5546 | /// Specialization for when `T` is a reference. `optional<T&>` acts similarly | ||
| 5547 | /// to a `T*`, but provides more operations and shows intent more clearly. | ||
| 5548 | /// | ||
| 5549 | /// *Examples*: | ||
| 5550 | /// | ||
| 5551 | /// ``` | ||
| 5552 | /// int i = 42; | ||
| 5553 | /// sol::optional<int&> o = i; | ||
| 5554 | /// *o == 42; //true | ||
| 5555 | /// i = 12; | ||
| 5556 | /// *o = 12; //true | ||
| 5557 | /// &*o == &i; //true | ||
| 5558 | /// ``` | ||
| 5559 | /// | ||
| 5560 | /// Assignment has rebind semantics rather than assign-through semantics: | ||
| 5561 | /// | ||
| 5562 | /// ``` | ||
| 5563 | /// int j = 8; | ||
| 5564 | /// o = j; | ||
| 5565 | /// | ||
| 5566 | /// &*o == &j; //true | ||
| 5567 | /// ``` | ||
| 5568 | template <class T> | ||
| 5569 | class optional<T&> { | ||
| 5570 | public: | ||
| 5571 | #if defined(SOL_TL_OPTIONAL_CXX14) && !defined(SOL_TL_OPTIONAL_GCC49) && !defined(SOL_TL_OPTIONAL_GCC54) && !defined(SOL_TL_OPTIONAL_GCC55) | ||
| 5572 | /// \group and_then | ||
| 5573 | /// Carries out some operation which returns an optional on the stored | ||
| 5574 | /// object if there is one. \requires `std::invoke(std::forward<F>(f), | ||
| 5575 | /// value())` returns a `std::optional<U>` for some `U`. \returns Let `U` be | ||
| 5576 | /// the result of `std::invoke(std::forward<F>(f), value())`. Returns a | ||
| 5577 | /// `std::optional<U>`. The return value is empty if `*this` is empty, | ||
| 5578 | /// otherwise the return value of `std::invoke(std::forward<F>(f), value())` | ||
| 5579 | /// is returned. | ||
| 5580 | /// \group and_then | ||
| 5581 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &; | ||
| 5582 | template <class F> | ||
| 5583 | SOL_TL_OPTIONAL_11_CONSTEXPR auto and_then(F&& f) & { | ||
| 5584 | using result = detail::invoke_result_t<F, T&>; | ||
| 5585 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5586 | |||
| 5587 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5588 | } | ||
| 5589 | |||
| 5590 | /// \group and_then | ||
| 5591 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &&; | ||
| 5592 | template <class F> | ||
| 5593 | SOL_TL_OPTIONAL_11_CONSTEXPR auto and_then(F&& f) && { | ||
| 5594 | using result = detail::invoke_result_t<F, T&>; | ||
| 5595 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5596 | |||
| 5597 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5598 | } | ||
| 5599 | |||
| 5600 | /// \group and_then | ||
| 5601 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &; | ||
| 5602 | template <class F> | ||
| 5603 | constexpr auto and_then(F&& f) const& { | ||
| 5604 | using result = detail::invoke_result_t<F, const T&>; | ||
| 5605 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5606 | |||
| 5607 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5608 | } | ||
| 5609 | |||
| 5610 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5611 | /// \group and_then | ||
| 5612 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &&; | ||
| 5613 | template <class F> | ||
| 5614 | constexpr auto and_then(F&& f) const&& { | ||
| 5615 | using result = detail::invoke_result_t<F, const T&>; | ||
| 5616 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5617 | |||
| 5618 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5619 | } | ||
| 5620 | #endif | ||
| 5621 | #else | ||
| 5622 | /// \group and_then | ||
| 5623 | /// Carries out some operation which returns an optional on the stored | ||
| 5624 | /// object if there is one. \requires `std::invoke(std::forward<F>(f), | ||
| 5625 | /// value())` returns a `std::optional<U>` for some `U`. \returns Let `U` be | ||
| 5626 | /// the result of `std::invoke(std::forward<F>(f), value())`. Returns a | ||
| 5627 | /// `std::optional<U>`. The return value is empty if `*this` is empty, | ||
| 5628 | /// otherwise the return value of `std::invoke(std::forward<F>(f), value())` | ||
| 5629 | /// is returned. | ||
| 5630 | /// \group and_then | ||
| 5631 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &; | ||
| 5632 | template <class F> | ||
| 5633 | SOL_TL_OPTIONAL_11_CONSTEXPR detail::invoke_result_t<F, T&> and_then(F&& f) & { | ||
| 5634 | using result = detail::invoke_result_t<F, T&>; | ||
| 5635 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5636 | |||
| 5637 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5638 | } | ||
| 5639 | |||
| 5640 | /// \group and_then | ||
| 5641 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) &&; | ||
| 5642 | template <class F> | ||
| 5643 | SOL_TL_OPTIONAL_11_CONSTEXPR detail::invoke_result_t<F, T&> and_then(F&& f) && { | ||
| 5644 | using result = detail::invoke_result_t<F, T&>; | ||
| 5645 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5646 | |||
| 5647 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5648 | } | ||
| 5649 | |||
| 5650 | /// \group and_then | ||
| 5651 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &; | ||
| 5652 | template <class F> | ||
| 5653 | constexpr detail::invoke_result_t<F, const T&> and_then(F&& f) const& { | ||
| 5654 | using result = detail::invoke_result_t<F, const T&>; | ||
| 5655 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5656 | |||
| 5657 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5658 | } | ||
| 5659 | |||
| 5660 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5661 | /// \group and_then | ||
| 5662 | /// \synopsis template <class F>\nconstexpr auto and_then(F &&f) const &&; | ||
| 5663 | template <class F> | ||
| 5664 | constexpr detail::invoke_result_t<F, const T&> and_then(F&& f) const&& { | ||
| 5665 | using result = detail::invoke_result_t<F, const T&>; | ||
| 5666 | static_assert(detail::is_optional<result>::value, "F must return an optional"); | ||
| 5667 | |||
| 5668 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : result(nullopt); | ||
| 5669 | } | ||
| 5670 | #endif | ||
| 5671 | #endif | ||
| 5672 | |||
| 5673 | #if defined(SOL_TL_OPTIONAL_CXX14) && !defined(SOL_TL_OPTIONAL_GCC49) && !defined(SOL_TL_OPTIONAL_GCC54) && !defined(SOL_TL_OPTIONAL_GCC55) | ||
| 5674 | /// \brief Carries out some operation on the stored object if there is one. | ||
| 5675 | /// \returns Let `U` be the result of `std::invoke(std::forward<F>(f), | ||
| 5676 | /// value())`. Returns a `std::optional<U>`. The return value is empty if | ||
| 5677 | /// `*this` is empty, otherwise an `optional<U>` is constructed from the | ||
| 5678 | /// return value of `std::invoke(std::forward<F>(f), value())` and is | ||
| 5679 | /// returned. | ||
| 5680 | /// | ||
| 5681 | /// \group map | ||
| 5682 | /// \synopsis template <class F> constexpr auto map(F &&f) &; | ||
| 5683 | template <class F> | ||
| 5684 | SOL_TL_OPTIONAL_11_CONSTEXPR auto map(F&& f) & { | ||
| 5685 | return detail::optional_map_impl(*this, std::forward<F>(f)); | ||
| 5686 | } | ||
| 5687 | |||
| 5688 | /// \group map | ||
| 5689 | /// \synopsis template <class F> constexpr auto map(F &&f) &&; | ||
| 5690 | template <class F> | ||
| 5691 | SOL_TL_OPTIONAL_11_CONSTEXPR auto map(F&& f) && { | ||
| 5692 | return detail::optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 5693 | } | ||
| 5694 | |||
| 5695 | /// \group map | ||
| 5696 | /// \synopsis template <class F> constexpr auto map(F &&f) const&; | ||
| 5697 | template <class F> | ||
| 5698 | constexpr auto map(F&& f) const& { | ||
| 5699 | return detail::optional_map_impl(*this, std::forward<F>(f)); | ||
| 5700 | } | ||
| 5701 | |||
| 5702 | /// \group map | ||
| 5703 | /// \synopsis template <class F> constexpr auto map(F &&f) const&&; | ||
| 5704 | template <class F> | ||
| 5705 | constexpr auto map(F&& f) const&& { | ||
| 5706 | return detail::optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 5707 | } | ||
| 5708 | #else | ||
| 5709 | /// \brief Carries out some operation on the stored object if there is one. | ||
| 5710 | /// \returns Let `U` be the result of `std::invoke(std::forward<F>(f), | ||
| 5711 | /// value())`. Returns a `std::optional<U>`. The return value is empty if | ||
| 5712 | /// `*this` is empty, otherwise an `optional<U>` is constructed from the | ||
| 5713 | /// return value of `std::invoke(std::forward<F>(f), value())` and is | ||
| 5714 | /// returned. | ||
| 5715 | /// | ||
| 5716 | /// \group map | ||
| 5717 | /// \synopsis template <class F> auto map(F &&f) &; | ||
| 5718 | template <class F> | ||
| 5719 | SOL_TL_OPTIONAL_11_CONSTEXPR decltype(detail::optional_map_impl(std::declval<optional&>(), std::declval<F&&>())) map(F&& f) & { | ||
| 5720 | return detail::optional_map_impl(*this, std::forward<F>(f)); | ||
| 5721 | } | ||
| 5722 | |||
| 5723 | /// \group map | ||
| 5724 | /// \synopsis template <class F> auto map(F &&f) &&; | ||
| 5725 | template <class F> | ||
| 5726 | SOL_TL_OPTIONAL_11_CONSTEXPR decltype(detail::optional_map_impl(std::declval<optional&&>(), std::declval<F&&>())) map(F&& f) && { | ||
| 5727 | return detail::optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 5728 | } | ||
| 5729 | |||
| 5730 | /// \group map | ||
| 5731 | /// \synopsis template <class F> auto map(F &&f) const&; | ||
| 5732 | template <class F> | ||
| 5733 | constexpr decltype(detail::optional_map_impl(std::declval<const optional&>(), std::declval<F&&>())) map(F&& f) const& { | ||
| 5734 | return detail::optional_map_impl(*this, std::forward<F>(f)); | ||
| 5735 | } | ||
| 5736 | |||
| 5737 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5738 | /// \group map | ||
| 5739 | /// \synopsis template <class F> auto map(F &&f) const&&; | ||
| 5740 | template <class F> | ||
| 5741 | constexpr decltype(detail::optional_map_impl(std::declval<const optional&&>(), std::declval<F&&>())) map(F&& f) const&& { | ||
| 5742 | return detail::optional_map_impl(std::move(*this), std::forward<F>(f)); | ||
| 5743 | } | ||
| 5744 | #endif | ||
| 5745 | #endif | ||
| 5746 | |||
| 5747 | /// \brief Calls `f` if the optional is empty | ||
| 5748 | /// \requires `std::invoke_result_t<F>` must be void or convertible to | ||
| 5749 | /// `optional<T>`. \effects If `*this` has a value, returns `*this`. | ||
| 5750 | /// Otherwise, if `f` returns `void`, calls `std::forward<F>(f)` and returns | ||
| 5751 | /// `std::nullopt`. Otherwise, returns `std::forward<F>(f)()`. | ||
| 5752 | /// | ||
| 5753 | /// \group or_else | ||
| 5754 | /// \synopsis template <class F> optional<T> or_else (F &&f) &; | ||
| 5755 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 5756 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) & { | ||
| 5757 | if (has_value()) | ||
| 5758 | return *this; | ||
| 5759 | |||
| 5760 | std::forward<F>(f)(); | ||
| 5761 | return nullopt; | ||
| 5762 | } | ||
| 5763 | |||
| 5764 | /// \exclude | ||
| 5765 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 5766 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) & { | ||
| 5767 | return has_value() ? *this : std::forward<F>(f)(); | ||
| 5768 | } | ||
| 5769 | |||
| 5770 | /// \group or_else | ||
| 5771 | /// \synopsis template <class F> optional<T> or_else (F &&f) &&; | ||
| 5772 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 5773 | optional<T> or_else(F&& f) && { | ||
| 5774 | if (has_value()) | ||
| 5775 | return std::move(*this); | ||
| 5776 | |||
| 5777 | std::forward<F>(f)(); | ||
| 5778 | return nullopt; | ||
| 5779 | } | ||
| 5780 | |||
| 5781 | /// \exclude | ||
| 5782 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 5783 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) && { | ||
| 5784 | return has_value() ? std::move(*this) : std::forward<F>(f)(); | ||
| 5785 | } | ||
| 5786 | |||
| 5787 | /// \group or_else | ||
| 5788 | /// \synopsis template <class F> optional<T> or_else (F &&f) const &; | ||
| 5789 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 5790 | optional<T> or_else(F&& f) const& { | ||
| 5791 | if (has_value()) | ||
| 5792 | return *this; | ||
| 5793 | |||
| 5794 | std::forward<F>(f)(); | ||
| 5795 | return nullopt; | ||
| 5796 | } | ||
| 5797 | |||
| 5798 | /// \exclude | ||
| 5799 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 5800 | optional<T> SOL_TL_OPTIONAL_11_CONSTEXPR or_else(F&& f) const& { | ||
| 5801 | return has_value() ? *this : std::forward<F>(f)(); | ||
| 5802 | } | ||
| 5803 | |||
| 5804 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5805 | /// \exclude | ||
| 5806 | template <class F, detail::enable_if_ret_void<F>* = nullptr> | ||
| 5807 | optional<T> or_else(F&& f) const&& { | ||
| 5808 | if (has_value()) | ||
| 5809 | return std::move(*this); | ||
| 5810 | |||
| 5811 | std::forward<F>(f)(); | ||
| 5812 | return nullopt; | ||
| 5813 | } | ||
| 5814 | |||
| 5815 | /// \exclude | ||
| 5816 | template <class F, detail::disable_if_ret_void<F>* = nullptr> | ||
| 5817 | optional<T> or_else(F&& f) const&& { | ||
| 5818 | return has_value() ? std::move(*this) : std::forward<F>(f)(); | ||
| 5819 | } | ||
| 5820 | #endif | ||
| 5821 | |||
| 5822 | /// \brief Maps the stored value with `f` if there is one, otherwise returns | ||
| 5823 | /// `u`. | ||
| 5824 | /// | ||
| 5825 | /// \details If there is a value stored, then `f` is called with `**this` | ||
| 5826 | /// and the value is returned. Otherwise `u` is returned. | ||
| 5827 | /// | ||
| 5828 | /// \group map_or | ||
| 5829 | template <class F, class U> | ||
| 5830 | U map_or(F&& f, U&& u) & { | ||
| 5831 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u); | ||
| 5832 | } | ||
| 5833 | |||
| 5834 | /// \group map_or | ||
| 5835 | template <class F, class U> | ||
| 5836 | U map_or(F&& f, U&& u) && { | ||
| 5837 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u); | ||
| 5838 | } | ||
| 5839 | |||
| 5840 | /// \group map_or | ||
| 5841 | template <class F, class U> | ||
| 5842 | U map_or(F&& f, U&& u) const& { | ||
| 5843 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u); | ||
| 5844 | } | ||
| 5845 | |||
| 5846 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5847 | /// \group map_or | ||
| 5848 | template <class F, class U> | ||
| 5849 | U map_or(F&& f, U&& u) const&& { | ||
| 5850 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u); | ||
| 5851 | } | ||
| 5852 | #endif | ||
| 5853 | |||
| 5854 | /// \brief Maps the stored value with `f` if there is one, otherwise calls | ||
| 5855 | /// `u` and returns the result. | ||
| 5856 | /// | ||
| 5857 | /// \details If there is a value stored, then `f` is | ||
| 5858 | /// called with `**this` and the value is returned. Otherwise | ||
| 5859 | /// `std::forward<U>(u)()` is returned. | ||
| 5860 | /// | ||
| 5861 | /// \group map_or_else | ||
| 5862 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) &; | ||
| 5863 | template <class F, class U> | ||
| 5864 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) & { | ||
| 5865 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u)(); | ||
| 5866 | } | ||
| 5867 | |||
| 5868 | /// \group map_or_else | ||
| 5869 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 5870 | /// &&; | ||
| 5871 | template <class F, class U> | ||
| 5872 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) && { | ||
| 5873 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u)(); | ||
| 5874 | } | ||
| 5875 | |||
| 5876 | /// \group map_or_else | ||
| 5877 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 5878 | /// const &; | ||
| 5879 | template <class F, class U> | ||
| 5880 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) const& { | ||
| 5881 | return has_value() ? detail::invoke(std::forward<F>(f), **this) : std::forward<U>(u)(); | ||
| 5882 | } | ||
| 5883 | |||
| 5884 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5885 | /// \group map_or_else | ||
| 5886 | /// \synopsis template <class F, class U>\nauto map_or_else(F &&f, U &&u) | ||
| 5887 | /// const &&; | ||
| 5888 | template <class F, class U> | ||
| 5889 | detail::invoke_result_t<U> map_or_else(F&& f, U&& u) const&& { | ||
| 5890 | return has_value() ? detail::invoke(std::forward<F>(f), std::move(**this)) : std::forward<U>(u)(); | ||
| 5891 | } | ||
| 5892 | #endif | ||
| 5893 | |||
| 5894 | /// \returns `u` if `*this` has a value, otherwise an empty optional. | ||
| 5895 | template <class U> | ||
| 5896 | constexpr optional<typename std::decay<U>::type> conjunction(U&& u) const { | ||
| 5897 | using result = optional<detail::decay_t<U>>; | ||
| 5898 | return has_value() ? result { u } : result { nullopt }; | ||
| 5899 | } | ||
| 5900 | |||
| 5901 | /// \returns `rhs` if `*this` is empty, otherwise the current value. | ||
| 5902 | /// \group disjunction | ||
| 5903 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(const optional& rhs) & { | ||
| 5904 | return has_value() ? *this : rhs; | ||
| 5905 | } | ||
| 5906 | |||
| 5907 | /// \group disjunction | ||
| 5908 | constexpr optional disjunction(const optional& rhs) const& { | ||
| 5909 | return has_value() ? *this : rhs; | ||
| 5910 | } | ||
| 5911 | |||
| 5912 | /// \group disjunction | ||
| 5913 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(const optional& rhs) && { | ||
| 5914 | return has_value() ? std::move(*this) : rhs; | ||
| 5915 | } | ||
| 5916 | |||
| 5917 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5918 | /// \group disjunction | ||
| 5919 | constexpr optional disjunction(const optional& rhs) const&& { | ||
| 5920 | return has_value() ? std::move(*this) : rhs; | ||
| 5921 | } | ||
| 5922 | #endif | ||
| 5923 | |||
| 5924 | /// \group disjunction | ||
| 5925 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(optional&& rhs) & { | ||
| 5926 | return has_value() ? *this : std::move(rhs); | ||
| 5927 | } | ||
| 5928 | |||
| 5929 | /// \group disjunction | ||
| 5930 | constexpr optional disjunction(optional&& rhs) const& { | ||
| 5931 | return has_value() ? *this : std::move(rhs); | ||
| 5932 | } | ||
| 5933 | |||
| 5934 | /// \group disjunction | ||
| 5935 | SOL_TL_OPTIONAL_11_CONSTEXPR optional disjunction(optional&& rhs) && { | ||
| 5936 | return has_value() ? std::move(*this) : std::move(rhs); | ||
| 5937 | } | ||
| 5938 | |||
| 5939 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5940 | /// \group disjunction | ||
| 5941 | constexpr optional disjunction(optional&& rhs) const&& { | ||
| 5942 | return has_value() ? std::move(*this) : std::move(rhs); | ||
| 5943 | } | ||
| 5944 | #endif | ||
| 5945 | |||
| 5946 | /// Takes the value out of the optional, leaving it empty | ||
| 5947 | /// \group take | ||
| 5948 | optional take() & { | ||
| 5949 | optional ret = *this; | ||
| 5950 | reset(); | ||
| 5951 | return ret; | ||
| 5952 | } | ||
| 5953 | |||
| 5954 | /// \group take | ||
| 5955 | optional take() const& { | ||
| 5956 | optional ret = *this; | ||
| 5957 | reset(); | ||
| 5958 | return ret; | ||
| 5959 | } | ||
| 5960 | |||
| 5961 | /// \group take | ||
| 5962 | optional take() && { | ||
| 5963 | optional ret = std::move(*this); | ||
| 5964 | reset(); | ||
| 5965 | return ret; | ||
| 5966 | } | ||
| 5967 | |||
| 5968 | #ifndef SOL_TL_OPTIONAL_NO_CONSTRR | ||
| 5969 | /// \group take | ||
| 5970 | optional take() const&& { | ||
| 5971 | optional ret = std::move(*this); | ||
| 5972 | reset(); | ||
| 5973 | return ret; | ||
| 5974 | } | ||
| 5975 | #endif | ||
| 5976 | |||
| 5977 | using value_type = T&; | ||
| 5978 | |||
| 5979 | /// Constructs an optional that does not contain a value. | ||
| 5980 | /// \group ctor_empty | ||
| 5981 | constexpr optional() noexcept : m_value(nullptr) { | ||
| 5982 | } | ||
| 5983 | |||
| 5984 | /// \group ctor_empty | ||
| 5985 | constexpr optional(nullopt_t) noexcept : m_value(nullptr) { | ||
| 5986 | } | ||
| 5987 | |||
| 5988 | /// Copy constructor | ||
| 5989 | /// | ||
| 5990 | /// If `rhs` contains a value, the stored value is direct-initialized with | ||
| 5991 | /// it. Otherwise, the constructed optional is empty. | ||
| 5992 | SOL_TL_OPTIONAL_11_CONSTEXPR optional(const optional& rhs) noexcept = default; | ||
| 5993 | |||
| 5994 | /// Move constructor | ||
| 5995 | /// | ||
| 5996 | /// If `rhs` contains a value, the stored value is direct-initialized with | ||
| 5997 | /// it. Otherwise, the constructed optional is empty. | ||
| 5998 | SOL_TL_OPTIONAL_11_CONSTEXPR optional(optional&& rhs) = default; | ||
| 5999 | |||
| 6000 | /// Constructs the stored value with `u`. | ||
| 6001 | /// \synopsis template <class U=T> constexpr optional(U &&u); | ||
| 6002 | template <class U = T, detail::enable_if_t<!detail::is_optional<detail::decay_t<U>>::value>* = nullptr> | ||
| 6003 | constexpr optional(U&& u) : m_value(std::addressof(u)) { | ||
| 6004 | static_assert(std::is_lvalue_reference<U>::value, "U must be an lvalue"); | ||
| 6005 | } | ||
| 6006 | |||
| 6007 | /// \exclude | ||
| 6008 | template <class U> | ||
| 6009 | constexpr explicit optional(const optional<U>& rhs) : optional(*rhs) { | ||
| 6010 | } | ||
| 6011 | |||
| 6012 | /// No-op | ||
| 6013 | ~optional() = default; | ||
| 6014 | |||
| 6015 | /// Assignment to empty. | ||
| 6016 | /// | ||
| 6017 | /// Destroys the current value if there is one. | ||
| 6018 | optional& operator=(nullopt_t) noexcept { | ||
| 6019 | m_value = nullptr; | ||
| 6020 | return *this; | ||
| 6021 | } | ||
| 6022 | |||
| 6023 | /// Copy assignment. | ||
| 6024 | /// | ||
| 6025 | /// Rebinds this optional to the referee of `rhs` if there is one. Otherwise | ||
| 6026 | /// resets the stored value in `*this`. | ||
| 6027 | optional& operator=(const optional& rhs) = default; | ||
| 6028 | |||
| 6029 | /// Rebinds this optional to `u`. | ||
| 6030 | /// | ||
| 6031 | /// \requires `U` must be an lvalue reference. | ||
| 6032 | /// \synopsis optional &operator=(U &&u); | ||
| 6033 | template <class U = T, detail::enable_if_t<!detail::is_optional<detail::decay_t<U>>::value>* = nullptr> | ||
| 6034 | optional& operator=(U&& u) { | ||
| 6035 | static_assert(std::is_lvalue_reference<U>::value, "U must be an lvalue"); | ||
| 6036 | m_value = std::addressof(u); | ||
| 6037 | return *this; | ||
| 6038 | } | ||
| 6039 | |||
| 6040 | /// Converting copy assignment operator. | ||
| 6041 | /// | ||
| 6042 | /// Rebinds this optional to the referee of `rhs` if there is one. Otherwise | ||
| 6043 | /// resets the stored value in `*this`. | ||
| 6044 | template <class U> | ||
| 6045 | optional& operator=(const optional<U>& rhs) { | ||
| 6046 | m_value = std::addressof(rhs.value()); | ||
| 6047 | return *this; | ||
| 6048 | } | ||
| 6049 | |||
| 6050 | /// Constructs the value in-place, destroying the current one if there is | ||
| 6051 | /// one. | ||
| 6052 | /// | ||
| 6053 | /// \group emplace | ||
| 6054 | template <class... Args> | ||
| 6055 | T& emplace(Args&&... args) noexcept { | ||
| 6056 | static_assert(std::is_constructible<T, Args&&...>::value, "T must be constructible with Args"); | ||
| 6057 | |||
| 6058 | *this = nullopt; | ||
| 6059 | this->construct(std::forward<Args>(args)...); | ||
| 6060 | } | ||
| 6061 | |||
| 6062 | /// Swaps this optional with the other. | ||
| 6063 | /// | ||
| 6064 | /// If neither optionals have a value, nothing happens. | ||
| 6065 | /// If both have a value, the values are swapped. | ||
| 6066 | /// If one has a value, it is moved to the other and the movee is left | ||
| 6067 | /// valueless. | ||
| 6068 | void swap(optional& rhs) noexcept { | ||
| 6069 | std::swap(m_value, rhs.m_value); | ||
| 6070 | } | ||
| 6071 | |||
| 6072 | /// \returns a pointer to the stored value | ||
| 6073 | /// \requires a value is stored | ||
| 6074 | /// \group pointer | ||
| 6075 | /// \synopsis constexpr const T *operator->() const; | ||
| 6076 | constexpr const T* operator->() const { | ||
| 6077 | return m_value; | ||
| 6078 | } | ||
| 6079 | |||
| 6080 | /// \group pointer | ||
| 6081 | /// \synopsis constexpr T *operator->(); | ||
| 6082 | SOL_TL_OPTIONAL_11_CONSTEXPR T* operator->() { | ||
| 6083 | return m_value; | ||
| 6084 | } | ||
| 6085 | |||
| 6086 | /// \returns the stored value | ||
| 6087 | /// \requires a value is stored | ||
| 6088 | /// \group deref | ||
| 6089 | /// \synopsis constexpr T &operator*(); | ||
| 6090 | SOL_TL_OPTIONAL_11_CONSTEXPR T& operator*() { | ||
| 6091 | return *m_value; | ||
| 6092 | } | ||
| 6093 | |||
| 6094 | /// \group deref | ||
| 6095 | /// \synopsis constexpr const T &operator*() const; | ||
| 6096 | constexpr const T& operator*() const { | ||
| 6097 | return *m_value; | ||
| 6098 | } | ||
| 6099 | |||
| 6100 | /// \returns whether or not the optional has a value | ||
| 6101 | /// \group has_value | ||
| 6102 | constexpr bool has_value() const noexcept { | ||
| 6103 | return m_value != nullptr; | ||
| 6104 | } | ||
| 6105 | |||
| 6106 | /// \group has_value | ||
| 6107 | constexpr explicit operator bool() const noexcept { | ||
| 6108 | return m_value != nullptr; | ||
| 6109 | } | ||
| 6110 | |||
| 6111 | /// \returns the contained value if there is one, otherwise throws | ||
| 6112 | /// [bad_optional_access] | ||
| 6113 | /// \group value | ||
| 6114 | /// synopsis constexpr T &value(); | ||
| 6115 | SOL_TL_OPTIONAL_11_CONSTEXPR T& value() { | ||
| 6116 | if (has_value()) | ||
| 6117 | return *m_value; | ||
| 6118 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 6119 | std::abort(); | ||
| 6120 | #else | ||
| 6121 | throw bad_optional_access(); | ||
| 6122 | #endif // No exceptions allowed | ||
| 6123 | } | ||
| 6124 | /// \group value | ||
| 6125 | /// \synopsis constexpr const T &value() const; | ||
| 6126 | SOL_TL_OPTIONAL_11_CONSTEXPR const T& value() const { | ||
| 6127 | if (has_value()) | ||
| 6128 | return *m_value; | ||
| 6129 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 6130 | std::abort(); | ||
| 6131 | #else | ||
| 6132 | throw bad_optional_access(); | ||
| 6133 | #endif // No exceptions allowed | ||
| 6134 | } | ||
| 6135 | |||
| 6136 | /// \returns the stored value if there is one, otherwise returns `u` | ||
| 6137 | /// \group value_or | ||
| 6138 | template <class U> | ||
| 6139 | constexpr T& value_or(U&& u) const { | ||
| 6140 | static_assert(std::is_convertible<U&&, T&>::value, "T must be convertible from U"); | ||
| 6141 | return has_value() ? const_cast<T&>(**this) : static_cast<T&>(std::forward<U>(u)); | ||
| 6142 | } | ||
| 6143 | |||
| 6144 | /// Destroys the stored value if one exists, making the optional empty | ||
| 6145 | void reset() noexcept { | ||
| 6146 | m_value = nullptr; | ||
| 6147 | } | ||
| 6148 | |||
| 6149 | private: | ||
| 6150 | T* m_value; | ||
| 6151 | }; | ||
| 6152 | |||
| 6153 | } // namespace sol | ||
| 6154 | |||
| 6155 | namespace std { | ||
| 6156 | // TODO SFINAE | ||
| 6157 | template <class T> | ||
| 6158 | struct hash<::sol::optional<T>> { | ||
| 6159 | ::std::size_t operator()(const ::sol::optional<T>& o) const { | ||
| 6160 | if (!o.has_value()) | ||
| 6161 | return 0; | ||
| 6162 | |||
| 6163 | return ::std::hash<::sol::detail::remove_const_t<T>>()(*o); | ||
| 6164 | } | ||
| 6165 | }; | ||
| 6166 | } // namespace std | ||
| 6167 | |||
| 6168 | // end of sol/optional_implementation.hpp | ||
| 6169 | |||
| 6170 | #endif // Boost vs. Better optional | ||
| 6171 | |||
| 6172 | #include <optional> | ||
| 6173 | |||
| 6174 | namespace sol { | ||
| 6175 | |||
| 6176 | #if SOL_IS_ON(SOL_USE_BOOST_I_) | ||
| 6177 | template <typename T> | ||
| 6178 | using optional = boost::optional<T>; | ||
| 6179 | using nullopt_t = boost::none_t; | ||
| 6180 | const nullopt_t nullopt = boost::none; | ||
| 6181 | #endif // Boost vs. Better optional | ||
| 6182 | |||
| 6183 | namespace meta { | ||
| 6184 | template <typename T> | ||
| 6185 | using is_optional = any<is_specialization_of<T, optional>, is_specialization_of<T, std::optional>>; | ||
| 6186 | |||
| 6187 | template <typename T> | ||
| 6188 | constexpr inline bool is_optional_v = is_optional<T>::value; | ||
| 6189 | } // namespace meta | ||
| 6190 | |||
| 6191 | namespace detail { | ||
| 6192 | template <typename T> | ||
| 6193 | struct associated_nullopt { | ||
| 6194 | inline static constexpr std::nullopt_t value = std::nullopt; | ||
| 6195 | }; | ||
| 6196 | |||
| 6197 | #if SOL_IS_ON(SOL_USE_BOOST_I_) | ||
| 6198 | template <typename T> | ||
| 6199 | struct associated_nullopt<boost::optional<T>> { | ||
| 6200 | inline static constexpr std::nullopt_t value = boost::nullopt; | ||
| 6201 | }; | ||
| 6202 | #endif // Boost nullopt | ||
| 6203 | |||
| 6204 | template <typename T> | ||
| 6205 | inline constexpr auto associated_nullopt_v = associated_nullopt<T>::value; | ||
| 6206 | } // namespace detail | ||
| 6207 | } // namespace sol | ||
| 6208 | |||
| 6209 | // end of sol/optional.hpp | ||
| 6210 | |||
| 6211 | // beginning of sol/raii.hpp | ||
| 6212 | |||
| 6213 | #include <memory> | ||
| 6214 | |||
| 6215 | namespace sol { | ||
| 6216 | namespace detail { | ||
| 6217 | struct default_construct { | ||
| 6218 | template <typename T, typename... Args> | ||
| 6219 | static void construct(T&& obj, Args&&... args) { | ||
| 6220 | typedef meta::unqualified_t<T> Tu; | ||
| 6221 | std::allocator<Tu> alloc{}; | ||
| 6222 | std::allocator_traits<std::allocator<Tu>>::construct(alloc, std::forward<T>(obj), std::forward<Args>(args)...); | ||
| 6223 | } | ||
| 6224 | |||
| 6225 | template <typename T, typename... Args> | ||
| 6226 | void operator()(T&& obj, Args&&... args) const { | ||
| 6227 | construct(std::forward<T>(obj), std::forward<Args>(args)...); | ||
| 6228 | } | ||
| 6229 | }; | ||
| 6230 | |||
| 6231 | struct default_destruct { | ||
| 6232 | template <typename T> | ||
| 6233 | static void destroy(T&& obj) { | ||
| 6234 | std::allocator<meta::unqualified_t<T>> alloc{}; | ||
| 6235 | alloc.destroy(obj); | ||
| 6236 | } | ||
| 6237 | |||
| 6238 | template <typename T> | ||
| 6239 | void operator()(T&& obj) const { | ||
| 6240 | destroy(std::forward<T>(obj)); | ||
| 6241 | } | ||
| 6242 | }; | ||
| 6243 | |||
| 6244 | struct deleter { | ||
| 6245 | template <typename T> | ||
| 6246 | void operator()(T* p) const { | ||
| 6247 | delete p; | ||
| 6248 | } | ||
| 6249 | }; | ||
| 6250 | |||
| 6251 | struct state_deleter { | ||
| 6252 | void operator()(lua_State* L) const { | ||
| 6253 | lua_close(L); | ||
| 6254 | } | ||
| 6255 | }; | ||
| 6256 | |||
| 6257 | template <typename T, typename Dx, typename... Args> | ||
| 6258 | inline std::unique_ptr<T, Dx> make_unique_deleter(Args&&... args) { | ||
| 6259 | return std::unique_ptr<T, Dx>(new T(std::forward<Args>(args)...)); | ||
| 6260 | } | ||
| 6261 | |||
| 6262 | template <typename Tag, typename T> | ||
| 6263 | struct tagged { | ||
| 6264 | private: | ||
| 6265 | T value_; | ||
| 6266 | |||
| 6267 | public: | ||
| 6268 | template <typename Arg, typename... Args, meta::disable<std::is_same<meta::unqualified_t<Arg>, tagged>> = meta::enabler> | ||
| 6269 | tagged(Arg&& arg, Args&&... args) | ||
| 6270 | : value_(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 6271 | } | ||
| 6272 | |||
| 6273 | T& value() & { | ||
| 6274 | return value_; | ||
| 6275 | } | ||
| 6276 | |||
| 6277 | T const& value() const& { | ||
| 6278 | return value_; | ||
| 6279 | } | ||
| 6280 | |||
| 6281 | T&& value() && { | ||
| 6282 | return std::move(value_); | ||
| 6283 | } | ||
| 6284 | }; | ||
| 6285 | } // namespace detail | ||
| 6286 | |||
| 6287 | template <typename... Args> | ||
| 6288 | struct constructor_list {}; | ||
| 6289 | |||
| 6290 | template <typename... Args> | ||
| 6291 | using constructors = constructor_list<Args...>; | ||
| 6292 | |||
| 6293 | const auto default_constructor = constructors<types<>>{}; | ||
| 6294 | |||
| 6295 | struct no_construction {}; | ||
| 6296 | const auto no_constructor = no_construction{}; | ||
| 6297 | |||
| 6298 | struct call_construction {}; | ||
| 6299 | const auto call_constructor = call_construction{}; | ||
| 6300 | |||
| 6301 | template <typename... Functions> | ||
| 6302 | struct constructor_wrapper { | ||
| 6303 | std::tuple<Functions...> functions; | ||
| 6304 | template <typename Arg, typename... Args, meta::disable<std::is_same<meta::unqualified_t<Arg>, constructor_wrapper>> = meta::enabler> | ||
| 6305 | constructor_wrapper(Arg&& arg, Args&&... args) | ||
| 6306 | : functions(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 6307 | } | ||
| 6308 | }; | ||
| 6309 | |||
| 6310 | template <typename... Functions> | ||
| 6311 | inline auto initializers(Functions&&... functions) { | ||
| 6312 | return constructor_wrapper<std::decay_t<Functions>...>(std::forward<Functions>(functions)...); | ||
| 6313 | } | ||
| 6314 | |||
| 6315 | template <typename... Functions> | ||
| 6316 | struct factory_wrapper { | ||
| 6317 | std::tuple<Functions...> functions; | ||
| 6318 | template <typename Arg, typename... Args, meta::disable<std::is_same<meta::unqualified_t<Arg>, factory_wrapper>> = meta::enabler> | ||
| 6319 | factory_wrapper(Arg&& arg, Args&&... args) | ||
| 6320 | : functions(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 6321 | } | ||
| 6322 | }; | ||
| 6323 | |||
| 6324 | template <typename... Functions> | ||
| 6325 | inline auto factories(Functions&&... functions) { | ||
| 6326 | return factory_wrapper<std::decay_t<Functions>...>(std::forward<Functions>(functions)...); | ||
| 6327 | } | ||
| 6328 | |||
| 6329 | template <typename Function> | ||
| 6330 | struct destructor_wrapper { | ||
| 6331 | Function fx; | ||
| 6332 | destructor_wrapper(Function f) | ||
| 6333 | : fx(std::move(f)) { | ||
| 6334 | } | ||
| 6335 | }; | ||
| 6336 | |||
| 6337 | template <> | ||
| 6338 | struct destructor_wrapper<void> {}; | ||
| 6339 | |||
| 6340 | const destructor_wrapper<void> default_destructor{}; | ||
| 6341 | |||
| 6342 | template <typename Fx> | ||
| 6343 | inline auto destructor(Fx&& fx) { | ||
| 6344 | return destructor_wrapper<std::decay_t<Fx>>(std::forward<Fx>(fx)); | ||
| 6345 | } | ||
| 6346 | |||
| 6347 | } // namespace sol | ||
| 6348 | |||
| 6349 | // end of sol/raii.hpp | ||
| 6350 | |||
| 6351 | // beginning of sol/policies.hpp | ||
| 6352 | |||
| 6353 | #include <array> | ||
| 6354 | |||
| 6355 | namespace sol { | ||
| 6356 | namespace detail { | ||
| 6357 | struct policy_base_tag {}; | ||
| 6358 | } // namespace detail | ||
| 6359 | |||
| 6360 | template <int Target, int... In> | ||
| 6361 | struct static_stack_dependencies : detail::policy_base_tag {}; | ||
| 6362 | typedef static_stack_dependencies<-1, 1> self_dependency; | ||
| 6363 | template <int... In> | ||
| 6364 | struct returns_self_with : detail::policy_base_tag {}; | ||
| 6365 | typedef returns_self_with<> returns_self; | ||
| 6366 | |||
| 6367 | struct stack_dependencies : detail::policy_base_tag { | ||
| 6368 | int target; | ||
| 6369 | std::array<int, 64> stack_indices; | ||
| 6370 | std::size_t len; | ||
| 6371 | |||
| 6372 | template <typename... Args> | ||
| 6373 | stack_dependencies(int stack_target, Args&&... args) : target(stack_target), stack_indices(), len(sizeof...(Args)) { | ||
| 6374 | std::size_t i = 0; | ||
| 6375 | (void)detail::swallow{ int(), (stack_indices[i++] = static_cast<int>(std::forward<Args>(args)), int())... }; | ||
| 6376 | } | ||
| 6377 | |||
| 6378 | int& operator[](std::size_t i) { | ||
| 6379 | return stack_indices[i]; | ||
| 6380 | } | ||
| 6381 | |||
| 6382 | const int& operator[](std::size_t i) const { | ||
| 6383 | return stack_indices[i]; | ||
| 6384 | } | ||
| 6385 | |||
| 6386 | std::size_t size() const { | ||
| 6387 | return len; | ||
| 6388 | } | ||
| 6389 | }; | ||
| 6390 | |||
| 6391 | template <typename F, typename... Policies> | ||
| 6392 | struct policy_wrapper { | ||
| 6393 | typedef std::index_sequence_for<Policies...> indices; | ||
| 6394 | |||
| 6395 | F value; | ||
| 6396 | std::tuple<Policies...> policies; | ||
| 6397 | |||
| 6398 | template <typename Fx, typename... Args, meta::enable<meta::neg<std::is_same<meta::unqualified_t<Fx>, policy_wrapper>>> = meta::enabler> | ||
| 6399 | policy_wrapper(Fx&& fx, Args&&... args) : value(std::forward<Fx>(fx)), policies(std::forward<Args>(args)...) { | ||
| 6400 | } | ||
| 6401 | |||
| 6402 | policy_wrapper(const policy_wrapper&) = default; | ||
| 6403 | policy_wrapper& operator=(const policy_wrapper&) = default; | ||
| 6404 | policy_wrapper(policy_wrapper&&) = default; | ||
| 6405 | policy_wrapper& operator=(policy_wrapper&&) = default; | ||
| 6406 | }; | ||
| 6407 | |||
| 6408 | template <typename F, typename... Args> | ||
| 6409 | auto policies(F&& f, Args&&... args) { | ||
| 6410 | return policy_wrapper<std::decay_t<F>, std::decay_t<Args>...>(std::forward<F>(f), std::forward<Args>(args)...); | ||
| 6411 | } | ||
| 6412 | |||
| 6413 | namespace detail { | ||
| 6414 | template <typename T> | ||
| 6415 | using is_policy = meta::is_specialization_of<T, policy_wrapper>; | ||
| 6416 | |||
| 6417 | template <typename T> | ||
| 6418 | inline constexpr bool is_policy_v = is_policy<T>::value; | ||
| 6419 | } // namespace detail | ||
| 6420 | } // namespace sol | ||
| 6421 | |||
| 6422 | // end of sol/policies.hpp | ||
| 6423 | |||
| 6424 | // beginning of sol/ebco.hpp | ||
| 6425 | |||
| 6426 | #include <type_traits> | ||
| 6427 | #include <utility> | ||
| 6428 | |||
| 6429 | namespace sol { namespace detail { | ||
| 6430 | |||
| 6431 | template <typename T, std::size_t tag = 0, typename = void> | ||
| 6432 | struct ebco { | ||
| 6433 | T value_; | ||
| 6434 | |||
| 6435 | ebco() = default; | ||
| 6436 | ebco(const ebco&) = default; | ||
| 6437 | ebco(ebco&&) = default; | ||
| 6438 | ebco& operator=(const ebco&) = default; | ||
| 6439 | ebco& operator=(ebco&&) = default; | ||
| 6440 | ebco(const T& v) : value_(v){}; | ||
| 6441 | ebco(T&& v) : value_(std::move(v)){}; | ||
| 6442 | ebco& operator=(const T& v) { | ||
| 6443 | value_ = v; | ||
| 6444 | return *this; | ||
| 6445 | } | ||
| 6446 | ebco& operator=(T&& v) { | ||
| 6447 | value_ = std::move(v); | ||
| 6448 | return *this; | ||
| 6449 | }; | ||
| 6450 | template <typename Arg, typename... Args, | ||
| 6451 | typename = std::enable_if_t<!std::is_same_v<std::remove_reference_t<std::remove_cv_t<Arg>>, | ||
| 6452 | ebco> && !std::is_same_v<std::remove_reference_t<std::remove_cv_t<Arg>>, T>>> | ||
| 6453 | ebco(Arg&& arg, Args&&... args) : T(std::forward<Arg>(arg), std::forward<Args>(args)...){} | ||
| 6454 | |||
| 6455 | T& value() & { | ||
| 6456 | return value_; | ||
| 6457 | } | ||
| 6458 | |||
| 6459 | T const& value() const & { | ||
| 6460 | return value_; | ||
| 6461 | } | ||
| 6462 | |||
| 6463 | T&& value() && { | ||
| 6464 | return std::move(value_); | ||
| 6465 | } | ||
| 6466 | }; | ||
| 6467 | |||
| 6468 | template <typename T, std::size_t tag> | ||
| 6469 | struct ebco<T, tag, std::enable_if_t<!std::is_reference_v<T> && std::is_class_v<T> && !std::is_final_v<T>>> : T { | ||
| 6470 | ebco() = default; | ||
| 6471 | ebco(const ebco&) = default; | ||
| 6472 | ebco(ebco&&) = default; | ||
| 6473 | ebco(const T& v) : T(v){}; | ||
| 6474 | ebco(T&& v) : T(std::move(v)){}; | ||
| 6475 | template <typename Arg, typename... Args, | ||
| 6476 | typename = std::enable_if_t<!std::is_same_v<std::remove_reference_t<std::remove_cv_t<Arg>>, | ||
| 6477 | ebco> && !std::is_same_v<std::remove_reference_t<std::remove_cv_t<Arg>>, T>>> | ||
| 6478 | ebco(Arg&& arg, Args&&... args) : T(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 6479 | } | ||
| 6480 | |||
| 6481 | ebco& operator=(const ebco&) = default; | ||
| 6482 | ebco& operator=(ebco&&) = default; | ||
| 6483 | ebco& operator=(const T& v) { | ||
| 6484 | static_cast<T&>(*this) = v; | ||
| 6485 | return *this; | ||
| 6486 | } | ||
| 6487 | ebco& operator=(T&& v) { | ||
| 6488 | static_cast<T&>(*this) = std::move(v); | ||
| 6489 | return *this; | ||
| 6490 | }; | ||
| 6491 | |||
| 6492 | T& value() & { | ||
| 6493 | return static_cast<T&>(*this); | ||
| 6494 | } | ||
| 6495 | |||
| 6496 | T const& value() const & { | ||
| 6497 | return static_cast<T const&>(*this); | ||
| 6498 | } | ||
| 6499 | |||
| 6500 | T&& value() && { | ||
| 6501 | return std::move(static_cast<T&>(*this)); | ||
| 6502 | } | ||
| 6503 | }; | ||
| 6504 | |||
| 6505 | template <typename T, std::size_t tag> | ||
| 6506 | struct ebco<T&, tag> { | ||
| 6507 | T& ref; | ||
| 6508 | |||
| 6509 | ebco() = default; | ||
| 6510 | ebco(const ebco&) = default; | ||
| 6511 | ebco(ebco&&) = default; | ||
| 6512 | ebco(T& v) : ref(v){}; | ||
| 6513 | |||
| 6514 | ebco& operator=(const ebco&) = default; | ||
| 6515 | ebco& operator=(ebco&&) = default; | ||
| 6516 | ebco& operator=(T& v) { | ||
| 6517 | ref = v; | ||
| 6518 | return *this; | ||
| 6519 | } | ||
| 6520 | |||
| 6521 | T& value() const { | ||
| 6522 | return const_cast<ebco<T&, tag>&>(*this).ref; | ||
| 6523 | } | ||
| 6524 | }; | ||
| 6525 | |||
| 6526 | template <typename T, std::size_t tag> | ||
| 6527 | struct ebco<T&&, tag> { | ||
| 6528 | T&& ref; | ||
| 6529 | |||
| 6530 | ebco() = default; | ||
| 6531 | ebco(const ebco&) = default; | ||
| 6532 | ebco(ebco&&) = default; | ||
| 6533 | ebco(T&& v) : ref(v){}; | ||
| 6534 | |||
| 6535 | ebco& operator=(const ebco&) = default; | ||
| 6536 | ebco& operator=(ebco&&) = default; | ||
| 6537 | ebco& operator=(T&& v) { | ||
| 6538 | ref = std::move(v); | ||
| 6539 | return *this; | ||
| 6540 | } | ||
| 6541 | |||
| 6542 | T& value() & { | ||
| 6543 | return ref; | ||
| 6544 | } | ||
| 6545 | |||
| 6546 | const T& value() const & { | ||
| 6547 | return ref; | ||
| 6548 | } | ||
| 6549 | |||
| 6550 | T&& value() && { | ||
| 6551 | return std::move(ref); | ||
| 6552 | } | ||
| 6553 | }; | ||
| 6554 | |||
| 6555 | }} // namespace sol::detail | ||
| 6556 | |||
| 6557 | // end of sol/ebco.hpp | ||
| 6558 | |||
| 6559 | #include <array> | ||
| 6560 | #include <initializer_list> | ||
| 6561 | #include <string> | ||
| 6562 | #include <string_view> | ||
| 6563 | #include <optional> | ||
| 6564 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 6565 | #include <variant> | ||
| 6566 | #endif // variant shenanigans (thanks, Mac OSX) | ||
| 6567 | |||
| 6568 | namespace sol { | ||
| 6569 | namespace detail { | ||
| 6570 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 6571 | typedef int (*lua_CFunction_noexcept)(lua_State* L) noexcept; | ||
| 6572 | #else | ||
| 6573 | typedef int (*lua_CFunction_noexcept)(lua_State* L); | ||
| 6574 | #endif // noexcept function type for lua_CFunction | ||
| 6575 | |||
| 6576 | template <typename T> | ||
| 6577 | struct unique_usertype { }; | ||
| 6578 | |||
| 6579 | template <typename T> | ||
| 6580 | struct implicit_wrapper { | ||
| 6581 | T& item; | ||
| 6582 | implicit_wrapper(T* item) : item(*item) { | ||
| 6583 | } | ||
| 6584 | implicit_wrapper(T& item) : item(item) { | ||
| 6585 | } | ||
| 6586 | operator T&() { | ||
| 6587 | return item; | ||
| 6588 | } | ||
| 6589 | operator T*() { | ||
| 6590 | return std::addressof(item); | ||
| 6591 | } | ||
| 6592 | }; | ||
| 6593 | |||
| 6594 | struct yield_tag_t { }; | ||
| 6595 | const yield_tag_t yield_tag = yield_tag_t {}; | ||
| 6596 | } // namespace detail | ||
| 6597 | |||
| 6598 | struct lua_nil_t { }; | ||
| 6599 | inline constexpr lua_nil_t lua_nil {}; | ||
| 6600 | inline bool operator==(lua_nil_t, lua_nil_t) { | ||
| 6601 | return true; | ||
| 6602 | } | ||
| 6603 | inline bool operator!=(lua_nil_t, lua_nil_t) { | ||
| 6604 | return false; | ||
| 6605 | } | ||
| 6606 | #if SOL_IS_ON(SOL_NIL_I_) | ||
| 6607 | using nil_t = lua_nil_t; | ||
| 6608 | inline constexpr const nil_t& nil = lua_nil; | ||
| 6609 | #endif | ||
| 6610 | |||
| 6611 | namespace detail { | ||
| 6612 | struct non_lua_nil_t { }; | ||
| 6613 | } // namespace detail | ||
| 6614 | |||
| 6615 | struct metatable_key_t { }; | ||
| 6616 | const metatable_key_t metatable_key = {}; | ||
| 6617 | |||
| 6618 | struct env_key_t { }; | ||
| 6619 | const env_key_t env_key = {}; | ||
| 6620 | |||
| 6621 | struct no_metatable_t { }; | ||
| 6622 | const no_metatable_t no_metatable = {}; | ||
| 6623 | |||
| 6624 | template <typename T> | ||
| 6625 | struct yielding_t { | ||
| 6626 | T func; | ||
| 6627 | |||
| 6628 | yielding_t() = default; | ||
| 6629 | yielding_t(const yielding_t&) = default; | ||
| 6630 | yielding_t(yielding_t&&) = default; | ||
| 6631 | yielding_t& operator=(const yielding_t&) = default; | ||
| 6632 | yielding_t& operator=(yielding_t&&) = default; | ||
| 6633 | template <typename Arg, | ||
| 6634 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<Arg>, yielding_t>>, | ||
| 6635 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<Arg>>>> = meta::enabler> | ||
| 6636 | yielding_t(Arg&& arg) : func(std::forward<Arg>(arg)) { | ||
| 6637 | } | ||
| 6638 | template <typename Arg0, typename Arg1, typename... Args> | ||
| 6639 | yielding_t(Arg0&& arg0, Arg1&& arg1, Args&&... args) : func(std::forward<Arg0>(arg0), std::forward<Arg1>(arg1), std::forward<Args>(args)...) { | ||
| 6640 | } | ||
| 6641 | }; | ||
| 6642 | |||
| 6643 | template <typename F> | ||
| 6644 | inline yielding_t<std::decay_t<F>> yielding(F&& f) { | ||
| 6645 | return yielding_t<std::decay_t<F>>(std::forward<F>(f)); | ||
| 6646 | } | ||
| 6647 | |||
| 6648 | typedef std::remove_pointer_t<lua_CFunction> lua_CFunction_ref; | ||
| 6649 | |||
| 6650 | template <typename T> | ||
| 6651 | struct non_null { }; | ||
| 6652 | |||
| 6653 | template <typename... Args> | ||
| 6654 | struct function_sig { }; | ||
| 6655 | |||
| 6656 | struct upvalue_index { | ||
| 6657 | int index; | ||
| 6658 | upvalue_index(int idx) : index(lua_upvalueindex(idx)) { | ||
| 6659 | } | ||
| 6660 | |||
| 6661 | operator int() const { | ||
| 6662 | return index; | ||
| 6663 | } | ||
| 6664 | }; | ||
| 6665 | |||
| 6666 | struct raw_index { | ||
| 6667 | int index; | ||
| 6668 | raw_index(int i) : index(i) { | ||
| 6669 | } | ||
| 6670 | |||
| 6671 | operator int() const { | ||
| 6672 | return index; | ||
| 6673 | } | ||
| 6674 | }; | ||
| 6675 | |||
| 6676 | struct absolute_index { | ||
| 6677 | int index; | ||
| 6678 | absolute_index(lua_State* L, int idx) : index(lua_absindex(L, idx)) { | ||
| 6679 | } | ||
| 6680 | |||
| 6681 | operator int() const { | ||
| 6682 | return index; | ||
| 6683 | } | ||
| 6684 | }; | ||
| 6685 | |||
| 6686 | struct ref_index { | ||
| 6687 | int index; | ||
| 6688 | ref_index(int idx) : index(idx) { | ||
| 6689 | } | ||
| 6690 | |||
| 6691 | operator int() const { | ||
| 6692 | return index; | ||
| 6693 | } | ||
| 6694 | }; | ||
| 6695 | |||
| 6696 | struct stack_count { | ||
| 6697 | int count; | ||
| 6698 | |||
| 6699 | stack_count(int cnt) : count(cnt) { | ||
| 6700 | } | ||
| 6701 | }; | ||
| 6702 | |||
| 6703 | struct lightuserdata_value { | ||
| 6704 | void* value; | ||
| 6705 | lightuserdata_value(void* data) : value(data) { | ||
| 6706 | } | ||
| 6707 | operator void*() const { | ||
| 6708 | return value; | ||
| 6709 | } | ||
| 6710 | }; | ||
| 6711 | |||
| 6712 | struct userdata_value { | ||
| 6713 | void* value; | ||
| 6714 | userdata_value(void* data) : value(data) { | ||
| 6715 | } | ||
| 6716 | operator void*() const { | ||
| 6717 | return value; | ||
| 6718 | } | ||
| 6719 | }; | ||
| 6720 | |||
| 6721 | template <typename L> | ||
| 6722 | struct light { | ||
| 6723 | L* value; | ||
| 6724 | |||
| 6725 | light(L& x) : value(std::addressof(x)) { | ||
| 6726 | } | ||
| 6727 | light(L* x) : value(x) { | ||
| 6728 | } | ||
| 6729 | light(void* x) : value(static_cast<L*>(x)) { | ||
| 6730 | } | ||
| 6731 | operator L*() const { | ||
| 6732 | return value; | ||
| 6733 | } | ||
| 6734 | operator L&() const { | ||
| 6735 | return *value; | ||
| 6736 | } | ||
| 6737 | }; | ||
| 6738 | |||
| 6739 | template <typename T> | ||
| 6740 | auto make_light(T& l) { | ||
| 6741 | typedef meta::unwrapped_t<std::remove_pointer_t<std::remove_pointer_t<T>>> L; | ||
| 6742 | return light<L>(l); | ||
| 6743 | } | ||
| 6744 | |||
| 6745 | template <typename U> | ||
| 6746 | struct user { | ||
| 6747 | U value; | ||
| 6748 | |||
| 6749 | user(U&& x) : value(std::forward<U>(x)) { | ||
| 6750 | } | ||
| 6751 | operator std::add_pointer_t<std::remove_reference_t<U>>() { | ||
| 6752 | return std::addressof(value); | ||
| 6753 | } | ||
| 6754 | operator std::add_lvalue_reference_t<U>() { | ||
| 6755 | return value; | ||
| 6756 | } | ||
| 6757 | operator std::add_const_t<std::add_lvalue_reference_t<U>> &() const { | ||
| 6758 | return value; | ||
| 6759 | } | ||
| 6760 | }; | ||
| 6761 | |||
| 6762 | template <typename T> | ||
| 6763 | auto make_user(T&& u) { | ||
| 6764 | typedef meta::unwrapped_t<meta::unqualified_t<T>> U; | ||
| 6765 | return user<U>(std::forward<T>(u)); | ||
| 6766 | } | ||
| 6767 | |||
| 6768 | template <typename T> | ||
| 6769 | struct metatable_registry_key { | ||
| 6770 | T key; | ||
| 6771 | |||
| 6772 | metatable_registry_key(T key) : key(std::forward<T>(key)) { | ||
| 6773 | } | ||
| 6774 | }; | ||
| 6775 | |||
| 6776 | template <typename T> | ||
| 6777 | auto meta_registry_key(T&& key) { | ||
| 6778 | typedef meta::unqualified_t<T> K; | ||
| 6779 | return metatable_registry_key<K>(std::forward<T>(key)); | ||
| 6780 | } | ||
| 6781 | |||
| 6782 | template <typename... Upvalues> | ||
| 6783 | struct closure { | ||
| 6784 | lua_CFunction c_function; | ||
| 6785 | std::tuple<Upvalues...> upvalues; | ||
| 6786 | closure(lua_CFunction f, Upvalues... targetupvalues) : c_function(f), upvalues(std::forward<Upvalues>(targetupvalues)...) { | ||
| 6787 | } | ||
| 6788 | }; | ||
| 6789 | |||
| 6790 | template <> | ||
| 6791 | struct closure<> { | ||
| 6792 | lua_CFunction c_function; | ||
| 6793 | int upvalues; | ||
| 6794 | closure(lua_CFunction f, int upvalue_count = 0) : c_function(f), upvalues(upvalue_count) { | ||
| 6795 | } | ||
| 6796 | }; | ||
| 6797 | |||
| 6798 | typedef closure<> c_closure; | ||
| 6799 | |||
| 6800 | template <typename... Args> | ||
| 6801 | closure<Args...> make_closure(lua_CFunction f, Args&&... args) { | ||
| 6802 | return closure<Args...>(f, std::forward<Args>(args)...); | ||
| 6803 | } | ||
| 6804 | |||
| 6805 | template <typename Sig, typename... Ps> | ||
| 6806 | struct function_arguments { | ||
| 6807 | std::tuple<Ps...> arguments; | ||
| 6808 | template <typename Arg, typename... Args, meta::disable<std::is_same<meta::unqualified_t<Arg>, function_arguments>> = meta::enabler> | ||
| 6809 | function_arguments(Arg&& arg, Args&&... args) : arguments(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 6810 | } | ||
| 6811 | }; | ||
| 6812 | |||
| 6813 | template <typename Sig = function_sig<>, typename... Args> | ||
| 6814 | auto as_function(Args&&... args) { | ||
| 6815 | return function_arguments<Sig, std::decay_t<Args>...>(std::forward<Args>(args)...); | ||
| 6816 | } | ||
| 6817 | |||
| 6818 | template <typename Sig = function_sig<>, typename... Args> | ||
| 6819 | auto as_function_reference(Args&&... args) { | ||
| 6820 | return function_arguments<Sig, Args...>(std::forward<Args>(args)...); | ||
| 6821 | } | ||
| 6822 | |||
| 6823 | template <typename T> | ||
| 6824 | struct as_table_t { | ||
| 6825 | private: | ||
| 6826 | T value_; | ||
| 6827 | |||
| 6828 | public: | ||
| 6829 | as_table_t() = default; | ||
| 6830 | as_table_t(const as_table_t&) = default; | ||
| 6831 | as_table_t(as_table_t&&) = default; | ||
| 6832 | as_table_t& operator=(const as_table_t&) = default; | ||
| 6833 | as_table_t& operator=(as_table_t&&) = default; | ||
| 6834 | template <typename Arg, | ||
| 6835 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<Arg>, as_table_t>>, | ||
| 6836 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<Arg>>>> = meta::enabler> | ||
| 6837 | as_table_t(Arg&& arg) : value_(std::forward<Arg>(arg)) { | ||
| 6838 | } | ||
| 6839 | template <typename Arg0, typename Arg1, typename... Args> | ||
| 6840 | as_table_t(Arg0&& arg0, Arg1&& arg1, Args&&... args) : value_(std::forward<Arg0>(arg0), std::forward<Arg1>(arg1), std::forward<Args>(args)...) { | ||
| 6841 | } | ||
| 6842 | |||
| 6843 | T& value() & { | ||
| 6844 | return value_; | ||
| 6845 | } | ||
| 6846 | |||
| 6847 | T&& value() && { | ||
| 6848 | return std::move(value_); | ||
| 6849 | } | ||
| 6850 | |||
| 6851 | const T& value() const& { | ||
| 6852 | return value_; | ||
| 6853 | } | ||
| 6854 | |||
| 6855 | operator std::add_lvalue_reference_t<T>() { | ||
| 6856 | return value_; | ||
| 6857 | } | ||
| 6858 | }; | ||
| 6859 | |||
| 6860 | template <typename T> | ||
| 6861 | struct nested { | ||
| 6862 | private: | ||
| 6863 | T value_; | ||
| 6864 | |||
| 6865 | public: | ||
| 6866 | using nested_type = T; | ||
| 6867 | |||
| 6868 | nested() = default; | ||
| 6869 | nested(const nested&) = default; | ||
| 6870 | nested(nested&&) = default; | ||
| 6871 | nested& operator=(const nested&) = default; | ||
| 6872 | nested& operator=(nested&&) = default; | ||
| 6873 | template <typename Arg, | ||
| 6874 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<Arg>, nested>>, | ||
| 6875 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<Arg>>>> = meta::enabler> | ||
| 6876 | nested(Arg&& arg) : value_(std::forward<Arg>(arg)) { | ||
| 6877 | } | ||
| 6878 | template <typename Arg0, typename Arg1, typename... Args> | ||
| 6879 | nested(Arg0&& arg0, Arg1&& arg1, Args&&... args) : value_(std::forward<Arg0>(arg0), std::forward<Arg1>(arg1), std::forward<Args>(args)...) { | ||
| 6880 | } | ||
| 6881 | |||
| 6882 | T& value() & { | ||
| 6883 | return value_; | ||
| 6884 | } | ||
| 6885 | |||
| 6886 | T&& value() && { | ||
| 6887 | return std::move(value_); | ||
| 6888 | } | ||
| 6889 | |||
| 6890 | const T& value() const& { | ||
| 6891 | return value_; | ||
| 6892 | } | ||
| 6893 | |||
| 6894 | operator std::add_lvalue_reference_t<T>() { | ||
| 6895 | return value_; | ||
| 6896 | } | ||
| 6897 | }; | ||
| 6898 | |||
| 6899 | struct nested_tag_t { }; | ||
| 6900 | constexpr inline nested_tag_t nested_tag {}; | ||
| 6901 | |||
| 6902 | template <typename T> | ||
| 6903 | as_table_t<T> as_table_ref(T&& container) { | ||
| 6904 | return as_table_t<T>(std::forward<T>(container)); | ||
| 6905 | } | ||
| 6906 | |||
| 6907 | template <typename T> | ||
| 6908 | as_table_t<meta::unqualified_t<T>> as_table(T&& container) { | ||
| 6909 | return as_table_t<meta::unqualified_t<T>>(std::forward<T>(container)); | ||
| 6910 | } | ||
| 6911 | |||
| 6912 | template <typename T> | ||
| 6913 | nested<T> as_nested_ref(T&& container) { | ||
| 6914 | return nested<T>(std::forward<T>(container)); | ||
| 6915 | } | ||
| 6916 | |||
| 6917 | template <typename T> | ||
| 6918 | nested<meta::unqualified_t<T>> as_nested(T&& container) { | ||
| 6919 | return nested<meta::unqualified_t<T>>(std::forward<T>(container)); | ||
| 6920 | } | ||
| 6921 | |||
| 6922 | template <typename T> | ||
| 6923 | struct as_container_t { | ||
| 6924 | private: | ||
| 6925 | T value_; | ||
| 6926 | |||
| 6927 | public: | ||
| 6928 | using type = T; | ||
| 6929 | |||
| 6930 | as_container_t() = default; | ||
| 6931 | as_container_t(const as_container_t&) = default; | ||
| 6932 | as_container_t(as_container_t&&) = default; | ||
| 6933 | as_container_t& operator=(const as_container_t&) = default; | ||
| 6934 | as_container_t& operator=(as_container_t&&) = default; | ||
| 6935 | template <typename Arg, | ||
| 6936 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<Arg>, as_container_t>>, | ||
| 6937 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<Arg>>>> = meta::enabler> | ||
| 6938 | as_container_t(Arg&& arg) : value_(std::forward<Arg>(arg)) { | ||
| 6939 | } | ||
| 6940 | template <typename Arg0, typename Arg1, typename... Args> | ||
| 6941 | as_container_t(Arg0&& arg0, Arg1&& arg1, Args&&... args) : value_(std::forward<Arg0>(arg0), std::forward<Arg1>(arg1), std::forward<Args>(args)...) { | ||
| 6942 | } | ||
| 6943 | |||
| 6944 | T& value() & { | ||
| 6945 | return value_; | ||
| 6946 | } | ||
| 6947 | |||
| 6948 | T&& value() && { | ||
| 6949 | return std::move(value_); | ||
| 6950 | } | ||
| 6951 | |||
| 6952 | const T& value() const& { | ||
| 6953 | return value_; | ||
| 6954 | } | ||
| 6955 | }; | ||
| 6956 | |||
| 6957 | template <typename T> | ||
| 6958 | struct as_container_t<T&> { | ||
| 6959 | private: | ||
| 6960 | std::reference_wrapper<T> value_; | ||
| 6961 | |||
| 6962 | public: | ||
| 6963 | as_container_t(T& value) : value_(value) { | ||
| 6964 | } | ||
| 6965 | |||
| 6966 | T& value() { | ||
| 6967 | return value_; | ||
| 6968 | } | ||
| 6969 | |||
| 6970 | operator T&() { | ||
| 6971 | return value(); | ||
| 6972 | } | ||
| 6973 | }; | ||
| 6974 | |||
| 6975 | template <typename T> | ||
| 6976 | auto as_container(T&& value) { | ||
| 6977 | return as_container_t<T>(std::forward<T>(value)); | ||
| 6978 | } | ||
| 6979 | |||
| 6980 | template <typename T> | ||
| 6981 | struct push_invoke_t { | ||
| 6982 | private: | ||
| 6983 | T value_; | ||
| 6984 | |||
| 6985 | public: | ||
| 6986 | push_invoke_t() = default; | ||
| 6987 | push_invoke_t(const push_invoke_t&) = default; | ||
| 6988 | push_invoke_t(push_invoke_t&&) = default; | ||
| 6989 | push_invoke_t& operator=(const push_invoke_t&) = default; | ||
| 6990 | push_invoke_t& operator=(push_invoke_t&&) = default; | ||
| 6991 | template <typename Arg, | ||
| 6992 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<Arg>, push_invoke_t>>, | ||
| 6993 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<Arg>>>> = meta::enabler> | ||
| 6994 | push_invoke_t(Arg&& arg) : value_(std::forward<Arg>(arg)) { | ||
| 6995 | } | ||
| 6996 | template <typename Arg0, typename Arg1, typename... Args> | ||
| 6997 | push_invoke_t(Arg0&& arg0, Arg1&& arg1, Args&&... args) : value_(std::forward<Arg0>(arg0), std::forward<Arg1>(arg1), std::forward<Args>(args)...) { | ||
| 6998 | } | ||
| 6999 | |||
| 7000 | T& value() & { | ||
| 7001 | return value_; | ||
| 7002 | } | ||
| 7003 | |||
| 7004 | T&& value() && { | ||
| 7005 | return std::move(value_); | ||
| 7006 | } | ||
| 7007 | |||
| 7008 | const T& value() const& { | ||
| 7009 | return value_; | ||
| 7010 | } | ||
| 7011 | }; | ||
| 7012 | |||
| 7013 | template <typename T> | ||
| 7014 | struct push_invoke_t<T&> { | ||
| 7015 | std::reference_wrapper<T> value_; | ||
| 7016 | |||
| 7017 | push_invoke_t(T& value) : value_(value) { | ||
| 7018 | } | ||
| 7019 | |||
| 7020 | T& value() { | ||
| 7021 | return value_; | ||
| 7022 | } | ||
| 7023 | }; | ||
| 7024 | |||
| 7025 | template <typename Fx> | ||
| 7026 | auto push_invoke(Fx&& fx) { | ||
| 7027 | return push_invoke_t<Fx>(std::forward<Fx>(fx)); | ||
| 7028 | } | ||
| 7029 | |||
| 7030 | struct override_value_t { }; | ||
| 7031 | constexpr inline override_value_t override_value = override_value_t(); | ||
| 7032 | struct update_if_empty_t { }; | ||
| 7033 | constexpr inline update_if_empty_t update_if_empty = update_if_empty_t(); | ||
| 7034 | struct create_if_nil_t { }; | ||
| 7035 | constexpr inline create_if_nil_t create_if_nil = create_if_nil_t(); | ||
| 7036 | |||
| 7037 | namespace detail { | ||
| 7038 | enum insert_mode { none = 0x0, update_if_empty = 0x01, override_value = 0x02, create_if_nil = 0x04 }; | ||
| 7039 | |||
| 7040 | template <typename T, typename...> | ||
| 7041 | using is_insert_mode = std::integral_constant<bool, | ||
| 7042 | std::is_same_v<T, override_value_t> || std::is_same_v<T, update_if_empty_t> || std::is_same_v<T, create_if_nil_t>>; | ||
| 7043 | |||
| 7044 | template <typename T, typename...> | ||
| 7045 | using is_not_insert_mode = meta::neg<is_insert_mode<T>>; | ||
| 7046 | } // namespace detail | ||
| 7047 | |||
| 7048 | struct this_state { | ||
| 7049 | lua_State* L; | ||
| 7050 | |||
| 7051 | this_state(lua_State* Ls) : L(Ls) { | ||
| 7052 | } | ||
| 7053 | |||
| 7054 | operator lua_State*() const noexcept { | ||
| 7055 | return lua_state(); | ||
| 7056 | } | ||
| 7057 | |||
| 7058 | lua_State* operator->() const noexcept { | ||
| 7059 | return lua_state(); | ||
| 7060 | } | ||
| 7061 | |||
| 7062 | lua_State* lua_state() const noexcept { | ||
| 7063 | return L; | ||
| 7064 | } | ||
| 7065 | }; | ||
| 7066 | |||
| 7067 | struct this_main_state { | ||
| 7068 | lua_State* L; | ||
| 7069 | |||
| 7070 | this_main_state(lua_State* Ls) : L(Ls) { | ||
| 7071 | } | ||
| 7072 | |||
| 7073 | operator lua_State*() const noexcept { | ||
| 7074 | return lua_state(); | ||
| 7075 | } | ||
| 7076 | |||
| 7077 | lua_State* operator->() const noexcept { | ||
| 7078 | return lua_state(); | ||
| 7079 | } | ||
| 7080 | |||
| 7081 | lua_State* lua_state() const noexcept { | ||
| 7082 | return L; | ||
| 7083 | } | ||
| 7084 | }; | ||
| 7085 | |||
| 7086 | struct new_table { | ||
| 7087 | int sequence_hint = 0; | ||
| 7088 | int map_hint = 0; | ||
| 7089 | |||
| 7090 | new_table() = default; | ||
| 7091 | new_table(const new_table&) = default; | ||
| 7092 | new_table(new_table&&) = default; | ||
| 7093 | new_table& operator=(const new_table&) = default; | ||
| 7094 | new_table& operator=(new_table&&) = default; | ||
| 7095 | |||
| 7096 | new_table(int sequence_hint, int map_hint = 0) : sequence_hint(sequence_hint), map_hint(map_hint) { | ||
| 7097 | } | ||
| 7098 | }; | ||
| 7099 | |||
| 7100 | const new_table create = {}; | ||
| 7101 | |||
| 7102 | enum class lib : char { | ||
| 7103 | // print, assert, and other base functions | ||
| 7104 | base, | ||
| 7105 | // require and other package functions | ||
| 7106 | package, | ||
| 7107 | // coroutine functions and utilities | ||
| 7108 | coroutine, | ||
| 7109 | // string library | ||
| 7110 | string, | ||
| 7111 | // functionality from the OS | ||
| 7112 | os, | ||
| 7113 | // all things math | ||
| 7114 | math, | ||
| 7115 | // the table manipulator and observer functions | ||
| 7116 | table, | ||
| 7117 | // the debug library | ||
| 7118 | debug, | ||
| 7119 | // the bit library: different based on which you're using | ||
| 7120 | bit32, | ||
| 7121 | // input/output library | ||
| 7122 | io, | ||
| 7123 | // LuaJIT only | ||
| 7124 | ffi, | ||
| 7125 | // LuaJIT only | ||
| 7126 | jit, | ||
| 7127 | // library for handling utf8: new to Lua | ||
| 7128 | utf8, | ||
| 7129 | // do not use | ||
| 7130 | count | ||
| 7131 | }; | ||
| 7132 | |||
| 7133 | enum class call_syntax { dot = 0, colon = 1 }; | ||
| 7134 | |||
| 7135 | enum class load_mode { | ||
| 7136 | any = 0, | ||
| 7137 | text = 1, | ||
| 7138 | binary = 2, | ||
| 7139 | }; | ||
| 7140 | |||
| 7141 | enum class call_status : int { | ||
| 7142 | ok = LUA_OK, | ||
| 7143 | yielded = LUA_YIELD, | ||
| 7144 | runtime = LUA_ERRRUN, | ||
| 7145 | memory = LUA_ERRMEM, | ||
| 7146 | handler = LUA_ERRERR, | ||
| 7147 | gc = LUA_ERRGCMM, | ||
| 7148 | syntax = LUA_ERRSYNTAX, | ||
| 7149 | file = LUA_ERRFILE, | ||
| 7150 | }; | ||
| 7151 | |||
| 7152 | enum class thread_status : int { | ||
| 7153 | ok = LUA_OK, | ||
| 7154 | yielded = LUA_YIELD, | ||
| 7155 | runtime = LUA_ERRRUN, | ||
| 7156 | memory = LUA_ERRMEM, | ||
| 7157 | gc = LUA_ERRGCMM, | ||
| 7158 | handler = LUA_ERRERR, | ||
| 7159 | dead = -1, | ||
| 7160 | }; | ||
| 7161 | |||
| 7162 | enum class load_status : int { | ||
| 7163 | ok = LUA_OK, | ||
| 7164 | syntax = LUA_ERRSYNTAX, | ||
| 7165 | memory = LUA_ERRMEM, | ||
| 7166 | gc = LUA_ERRGCMM, | ||
| 7167 | file = LUA_ERRFILE, | ||
| 7168 | }; | ||
| 7169 | |||
| 7170 | enum class gc_mode : int { | ||
| 7171 | incremental = 0, | ||
| 7172 | generational = 1, | ||
| 7173 | default_value = incremental, | ||
| 7174 | }; | ||
| 7175 | |||
| 7176 | enum class type : int { | ||
| 7177 | none = LUA_TNONE, | ||
| 7178 | lua_nil = LUA_TNIL, | ||
| 7179 | #if SOL_IS_ON(SOL_NIL_I_) | ||
| 7180 | nil = lua_nil, | ||
| 7181 | #endif // Objective C/C++ Keyword that's found in OSX SDK and OBJC -- check for all forms to protect | ||
| 7182 | string = LUA_TSTRING, | ||
| 7183 | number = LUA_TNUMBER, | ||
| 7184 | thread = LUA_TTHREAD, | ||
| 7185 | boolean = LUA_TBOOLEAN, | ||
| 7186 | function = LUA_TFUNCTION, | ||
| 7187 | userdata = LUA_TUSERDATA, | ||
| 7188 | lightuserdata = LUA_TLIGHTUSERDATA, | ||
| 7189 | table = LUA_TTABLE, | ||
| 7190 | poly = -0xFFFF | ||
| 7191 | }; | ||
| 7192 | |||
| 7193 | inline const std::string& to_string(call_status c) { | ||
| 7194 | static const std::array<std::string, 10> names { { "ok", | ||
| 7195 | "yielded", | ||
| 7196 | "runtime", | ||
| 7197 | "memory", | ||
| 7198 | "handler", | ||
| 7199 | "gc", | ||
| 7200 | "syntax", | ||
| 7201 | "file", | ||
| 7202 | "CRITICAL_EXCEPTION_FAILURE", | ||
| 7203 | "CRITICAL_INDETERMINATE_STATE_FAILURE" } }; | ||
| 7204 | switch (c) { | ||
| 7205 | case call_status::ok: | ||
| 7206 | return names[0]; | ||
| 7207 | case call_status::yielded: | ||
| 7208 | return names[1]; | ||
| 7209 | case call_status::runtime: | ||
| 7210 | return names[2]; | ||
| 7211 | case call_status::memory: | ||
| 7212 | return names[3]; | ||
| 7213 | case call_status::handler: | ||
| 7214 | return names[4]; | ||
| 7215 | case call_status::gc: | ||
| 7216 | return names[5]; | ||
| 7217 | case call_status::syntax: | ||
| 7218 | return names[6]; | ||
| 7219 | case call_status::file: | ||
| 7220 | return names[7]; | ||
| 7221 | } | ||
| 7222 | if (static_cast<std::ptrdiff_t>(c) == -1) { | ||
| 7223 | // One of the many cases where a critical exception error has occurred | ||
| 7224 | return names[8]; | ||
| 7225 | } | ||
| 7226 | return names[9]; | ||
| 7227 | } | ||
| 7228 | |||
| 7229 | inline bool is_indeterminate_call_failure(call_status c) { | ||
| 7230 | switch (c) { | ||
| 7231 | case call_status::ok: | ||
| 7232 | case call_status::yielded: | ||
| 7233 | case call_status::runtime: | ||
| 7234 | case call_status::memory: | ||
| 7235 | case call_status::handler: | ||
| 7236 | case call_status::gc: | ||
| 7237 | case call_status::syntax: | ||
| 7238 | case call_status::file: | ||
| 7239 | return false; | ||
| 7240 | } | ||
| 7241 | return true; | ||
| 7242 | } | ||
| 7243 | |||
| 7244 | inline const std::string& to_string(load_status c) { | ||
| 7245 | static const std::array<std::string, 7> names { | ||
| 7246 | { "ok", "memory", "gc", "syntax", "file", "CRITICAL_EXCEPTION_FAILURE", "CRITICAL_INDETERMINATE_STATE_FAILURE" } | ||
| 7247 | }; | ||
| 7248 | switch (c) { | ||
| 7249 | case load_status::ok: | ||
| 7250 | return names[0]; | ||
| 7251 | case load_status::memory: | ||
| 7252 | return names[1]; | ||
| 7253 | case load_status::gc: | ||
| 7254 | return names[2]; | ||
| 7255 | case load_status::syntax: | ||
| 7256 | return names[3]; | ||
| 7257 | case load_status::file: | ||
| 7258 | return names[4]; | ||
| 7259 | } | ||
| 7260 | if (static_cast<int>(c) == -1) { | ||
| 7261 | // One of the many cases where a critical exception error has occurred | ||
| 7262 | return names[5]; | ||
| 7263 | } | ||
| 7264 | return names[6]; | ||
| 7265 | } | ||
| 7266 | |||
| 7267 | inline const std::string& to_string(load_mode c) { | ||
| 7268 | static const std::array<std::string, 3> names { { | ||
| 7269 | "bt", | ||
| 7270 | "t", | ||
| 7271 | "b", | ||
| 7272 | } }; | ||
| 7273 | return names[static_cast<std::size_t>(c)]; | ||
| 7274 | } | ||
| 7275 | |||
| 7276 | enum class meta_function { | ||
| 7277 | construct, | ||
| 7278 | index, | ||
| 7279 | new_index, | ||
| 7280 | mode, | ||
| 7281 | call, | ||
| 7282 | call_function = call, | ||
| 7283 | metatable, | ||
| 7284 | to_string, | ||
| 7285 | length, | ||
| 7286 | unary_minus, | ||
| 7287 | addition, | ||
| 7288 | subtraction, | ||
| 7289 | multiplication, | ||
| 7290 | division, | ||
| 7291 | modulus, | ||
| 7292 | power_of, | ||
| 7293 | involution = power_of, | ||
| 7294 | concatenation, | ||
| 7295 | equal_to, | ||
| 7296 | less_than, | ||
| 7297 | less_than_or_equal_to, | ||
| 7298 | garbage_collect, | ||
| 7299 | floor_division, | ||
| 7300 | bitwise_left_shift, | ||
| 7301 | bitwise_right_shift, | ||
| 7302 | bitwise_not, | ||
| 7303 | bitwise_and, | ||
| 7304 | bitwise_or, | ||
| 7305 | bitwise_xor, | ||
| 7306 | pairs, | ||
| 7307 | ipairs, | ||
| 7308 | next, | ||
| 7309 | type, | ||
| 7310 | type_info, | ||
| 7311 | call_construct, | ||
| 7312 | storage, | ||
| 7313 | gc_names, | ||
| 7314 | static_index, | ||
| 7315 | static_new_index, | ||
| 7316 | }; | ||
| 7317 | |||
| 7318 | typedef meta_function meta_method; | ||
| 7319 | |||
| 7320 | inline const std::array<std::string, 37>& meta_function_names() { | ||
| 7321 | static const std::array<std::string, 37> names = { { "new", | ||
| 7322 | "__index", | ||
| 7323 | "__newindex", | ||
| 7324 | "__mode", | ||
| 7325 | "__call", | ||
| 7326 | "__metatable", | ||
| 7327 | "__tostring", | ||
| 7328 | "__len", | ||
| 7329 | "__unm", | ||
| 7330 | "__add", | ||
| 7331 | "__sub", | ||
| 7332 | "__mul", | ||
| 7333 | "__div", | ||
| 7334 | "__mod", | ||
| 7335 | "__pow", | ||
| 7336 | "__concat", | ||
| 7337 | "__eq", | ||
| 7338 | "__lt", | ||
| 7339 | "__le", | ||
| 7340 | "__gc", | ||
| 7341 | |||
| 7342 | "__idiv", | ||
| 7343 | "__shl", | ||
| 7344 | "__shr", | ||
| 7345 | "__bnot", | ||
| 7346 | "__band", | ||
| 7347 | "__bor", | ||
| 7348 | "__bxor", | ||
| 7349 | |||
| 7350 | "__pairs", | ||
| 7351 | "__ipairs", | ||
| 7352 | "next", | ||
| 7353 | |||
| 7354 | "__type", | ||
| 7355 | "__typeinfo", | ||
| 7356 | "__sol.call_new", | ||
| 7357 | "__sol.storage", | ||
| 7358 | "__sol.gc_names", | ||
| 7359 | "__sol.static_index", | ||
| 7360 | "__sol.static_new_index" } }; | ||
| 7361 | return names; | ||
| 7362 | } | ||
| 7363 | |||
| 7364 | inline const std::string& to_string(meta_function mf) { | ||
| 7365 | return meta_function_names()[static_cast<int>(mf)]; | ||
| 7366 | } | ||
| 7367 | |||
| 7368 | inline type type_of(lua_State* L, int index) { | ||
| 7369 | return static_cast<type>(lua_type(L, index)); | ||
| 7370 | } | ||
| 7371 | |||
| 7372 | inline std::string type_name(lua_State* L, type t) { | ||
| 7373 | return lua_typename(L, static_cast<int>(t)); | ||
| 7374 | } | ||
| 7375 | |||
| 7376 | template <typename T> | ||
| 7377 | struct is_lua_reference | ||
| 7378 | : std::integral_constant<bool, std::is_base_of_v<reference, T> || std::is_base_of_v<main_reference, T> || std::is_base_of_v<stack_reference, T>> { }; | ||
| 7379 | |||
| 7380 | template <typename T> | ||
| 7381 | inline constexpr bool is_lua_reference_v = is_lua_reference<T>::value; | ||
| 7382 | |||
| 7383 | template <typename T> | ||
| 7384 | struct is_lua_reference_or_proxy : std::integral_constant<bool, is_lua_reference_v<T> || meta::is_specialization_of_v<T, table_proxy>> { }; | ||
| 7385 | |||
| 7386 | template <typename T> | ||
| 7387 | inline constexpr bool is_lua_reference_or_proxy_v = is_lua_reference_or_proxy<T>::value; | ||
| 7388 | |||
| 7389 | template <typename T> | ||
| 7390 | struct is_transparent_argument : std::false_type { }; | ||
| 7391 | |||
| 7392 | template <typename T> | ||
| 7393 | constexpr inline bool is_transparent_argument_v = is_transparent_argument<T>::value; | ||
| 7394 | |||
| 7395 | template <> | ||
| 7396 | struct is_transparent_argument<this_state> : std::true_type { }; | ||
| 7397 | template <> | ||
| 7398 | struct is_transparent_argument<this_main_state> : std::true_type { }; | ||
| 7399 | template <> | ||
| 7400 | struct is_transparent_argument<this_environment> : std::true_type { }; | ||
| 7401 | template <> | ||
| 7402 | struct is_transparent_argument<variadic_args> : std::true_type { }; | ||
| 7403 | template <typename T> | ||
| 7404 | struct is_variadic_arguments : std::is_same<T, variadic_args> { }; | ||
| 7405 | |||
| 7406 | template <typename T> | ||
| 7407 | struct is_container | ||
| 7408 | : std::integral_constant<bool, | ||
| 7409 | !std::is_same_v<state_view, | ||
| 7410 | T> && !std::is_same_v<state, T> && !meta::is_initializer_list_v<T> && !meta::is_string_like_v<T> && !meta::is_string_literal_array_v<T> && !is_transparent_argument_v<T> && !is_lua_reference_v<T> && (meta::has_begin_end_v<T> || std::is_array_v<T>)> { | ||
| 7411 | }; | ||
| 7412 | |||
| 7413 | template <typename T> | ||
| 7414 | constexpr inline bool is_container_v = is_container<T>::value; | ||
| 7415 | |||
| 7416 | template <typename T> | ||
| 7417 | struct is_to_stringable : meta::any<meta::supports_to_string_member<meta::unqualified_t<T>>, meta::supports_adl_to_string<meta::unqualified_t<T>>, | ||
| 7418 | meta::supports_op_left_shift<std::ostream, meta::unqualified_t<T>>> { }; | ||
| 7419 | |||
| 7420 | namespace detail { | ||
| 7421 | template <typename T, typename = void> | ||
| 7422 | struct lua_type_of : std::integral_constant<type, type::userdata> { }; | ||
| 7423 | |||
| 7424 | template <typename C, typename T, typename A> | ||
| 7425 | struct lua_type_of<std::basic_string<C, T, A>> : std::integral_constant<type, type::string> { }; | ||
| 7426 | |||
| 7427 | template <typename C, typename T> | ||
| 7428 | struct lua_type_of<basic_string_view<C, T>> : std::integral_constant<type, type::string> { }; | ||
| 7429 | |||
| 7430 | template <std::size_t N> | ||
| 7431 | struct lua_type_of<char[N]> : std::integral_constant<type, type::string> { }; | ||
| 7432 | |||
| 7433 | template <std::size_t N> | ||
| 7434 | struct lua_type_of<wchar_t[N]> : std::integral_constant<type, type::string> { }; | ||
| 7435 | |||
| 7436 | template <std::size_t N> | ||
| 7437 | struct lua_type_of<char16_t[N]> : std::integral_constant<type, type::string> { }; | ||
| 7438 | |||
| 7439 | template <std::size_t N> | ||
| 7440 | struct lua_type_of<char32_t[N]> : std::integral_constant<type, type::string> { }; | ||
| 7441 | |||
| 7442 | template <> | ||
| 7443 | struct lua_type_of<char> : std::integral_constant<type, type::string> { }; | ||
| 7444 | |||
| 7445 | template <> | ||
| 7446 | struct lua_type_of<wchar_t> : std::integral_constant<type, type::string> { }; | ||
| 7447 | |||
| 7448 | template <> | ||
| 7449 | struct lua_type_of<char16_t> : std::integral_constant<type, type::string> { }; | ||
| 7450 | |||
| 7451 | template <> | ||
| 7452 | struct lua_type_of<char32_t> : std::integral_constant<type, type::string> { }; | ||
| 7453 | |||
| 7454 | template <> | ||
| 7455 | struct lua_type_of<const char*> : std::integral_constant<type, type::string> { }; | ||
| 7456 | |||
| 7457 | template <> | ||
| 7458 | struct lua_type_of<const char16_t*> : std::integral_constant<type, type::string> { }; | ||
| 7459 | |||
| 7460 | template <> | ||
| 7461 | struct lua_type_of<const char32_t*> : std::integral_constant<type, type::string> { }; | ||
| 7462 | |||
| 7463 | template <> | ||
| 7464 | struct lua_type_of<bool> : std::integral_constant<type, type::boolean> { }; | ||
| 7465 | |||
| 7466 | template <> | ||
| 7467 | struct lua_type_of<lua_nil_t> : std::integral_constant<type, type::lua_nil> { }; | ||
| 7468 | |||
| 7469 | template <> | ||
| 7470 | struct lua_type_of<nullopt_t> : std::integral_constant<type, type::lua_nil> { }; | ||
| 7471 | |||
| 7472 | template <> | ||
| 7473 | struct lua_type_of<lua_value> : std::integral_constant<type, type::poly> { }; | ||
| 7474 | |||
| 7475 | template <> | ||
| 7476 | struct lua_type_of<detail::non_lua_nil_t> : std::integral_constant<type, type::poly> { }; | ||
| 7477 | |||
| 7478 | template <> | ||
| 7479 | struct lua_type_of<std::nullptr_t> : std::integral_constant<type, type::lua_nil> { }; | ||
| 7480 | |||
| 7481 | template <> | ||
| 7482 | struct lua_type_of<error> : std::integral_constant<type, type::string> { }; | ||
| 7483 | |||
| 7484 | template <bool b, typename Base> | ||
| 7485 | struct lua_type_of<basic_table_core<b, Base>> : std::integral_constant<type, type::table> { }; | ||
| 7486 | |||
| 7487 | template <typename Base> | ||
| 7488 | struct lua_type_of<basic_lua_table<Base>> : std::integral_constant<type, type::table> { }; | ||
| 7489 | |||
| 7490 | template <typename Base> | ||
| 7491 | struct lua_type_of<basic_metatable<Base>> : std::integral_constant<type, type::table> { }; | ||
| 7492 | |||
| 7493 | template <typename T, typename Base> | ||
| 7494 | struct lua_type_of<basic_usertype<T, Base>> : std::integral_constant<type, type::table> { }; | ||
| 7495 | |||
| 7496 | template <> | ||
| 7497 | struct lua_type_of<metatable_key_t> : std::integral_constant<type, type::table> { }; | ||
| 7498 | |||
| 7499 | template <typename B> | ||
| 7500 | struct lua_type_of<basic_environment<B>> : std::integral_constant<type, type::poly> { }; | ||
| 7501 | |||
| 7502 | template <> | ||
| 7503 | struct lua_type_of<env_key_t> : std::integral_constant<type, type::poly> { }; | ||
| 7504 | |||
| 7505 | template <> | ||
| 7506 | struct lua_type_of<new_table> : std::integral_constant<type, type::table> { }; | ||
| 7507 | |||
| 7508 | template <typename T> | ||
| 7509 | struct lua_type_of<as_table_t<T>> : std::integral_constant<type, type::table> { }; | ||
| 7510 | |||
| 7511 | template <typename T> | ||
| 7512 | struct lua_type_of<std::initializer_list<T>> : std::integral_constant<type, type::table> { }; | ||
| 7513 | |||
| 7514 | template <bool b> | ||
| 7515 | struct lua_type_of<basic_reference<b>> : std::integral_constant<type, type::poly> { }; | ||
| 7516 | |||
| 7517 | template <> | ||
| 7518 | struct lua_type_of<stack_reference> : std::integral_constant<type, type::poly> { }; | ||
| 7519 | |||
| 7520 | template <typename Base> | ||
| 7521 | struct lua_type_of<basic_object<Base>> : std::integral_constant<type, type::poly> { }; | ||
| 7522 | |||
| 7523 | template <typename... Args> | ||
| 7524 | struct lua_type_of<std::tuple<Args...>> : std::integral_constant<type, type::poly> { }; | ||
| 7525 | |||
| 7526 | template <typename A, typename B> | ||
| 7527 | struct lua_type_of<std::pair<A, B>> : std::integral_constant<type, type::poly> { }; | ||
| 7528 | |||
| 7529 | template <> | ||
| 7530 | struct lua_type_of<void*> : std::integral_constant<type, type::lightuserdata> { }; | ||
| 7531 | |||
| 7532 | template <> | ||
| 7533 | struct lua_type_of<const void*> : std::integral_constant<type, type::lightuserdata> { }; | ||
| 7534 | |||
| 7535 | template <> | ||
| 7536 | struct lua_type_of<lightuserdata_value> : std::integral_constant<type, type::lightuserdata> { }; | ||
| 7537 | |||
| 7538 | template <> | ||
| 7539 | struct lua_type_of<userdata_value> : std::integral_constant<type, type::userdata> { }; | ||
| 7540 | |||
| 7541 | template <typename T> | ||
| 7542 | struct lua_type_of<light<T>> : std::integral_constant<type, type::lightuserdata> { }; | ||
| 7543 | |||
| 7544 | template <typename T> | ||
| 7545 | struct lua_type_of<user<T>> : std::integral_constant<type, type::userdata> { }; | ||
| 7546 | |||
| 7547 | template <typename Base> | ||
| 7548 | struct lua_type_of<basic_lightuserdata<Base>> : std::integral_constant<type, type::lightuserdata> { }; | ||
| 7549 | |||
| 7550 | template <typename Base> | ||
| 7551 | struct lua_type_of<basic_userdata<Base>> : std::integral_constant<type, type::userdata> { }; | ||
| 7552 | |||
| 7553 | template <> | ||
| 7554 | struct lua_type_of<lua_CFunction> : std::integral_constant<type, type::function> { }; | ||
| 7555 | |||
| 7556 | template <> | ||
| 7557 | struct lua_type_of<std::remove_pointer_t<lua_CFunction>> : std::integral_constant<type, type::function> { }; | ||
| 7558 | |||
| 7559 | template <typename Base, bool aligned> | ||
| 7560 | struct lua_type_of<basic_function<Base, aligned>> : std::integral_constant<type, type::function> { }; | ||
| 7561 | |||
| 7562 | template <typename Base, bool aligned, typename Handler> | ||
| 7563 | struct lua_type_of<basic_protected_function<Base, aligned, Handler>> : std::integral_constant<type, type::function> { }; | ||
| 7564 | |||
| 7565 | template <typename Base> | ||
| 7566 | struct lua_type_of<basic_coroutine<Base>> : std::integral_constant<type, type::function> { }; | ||
| 7567 | |||
| 7568 | template <typename Base> | ||
| 7569 | struct lua_type_of<basic_thread<Base>> : std::integral_constant<type, type::thread> { }; | ||
| 7570 | |||
| 7571 | template <typename Signature> | ||
| 7572 | struct lua_type_of<std::function<Signature>> : std::integral_constant<type, type::function> { }; | ||
| 7573 | |||
| 7574 | template <typename T> | ||
| 7575 | struct lua_type_of<optional<T>> : std::integral_constant<type, type::poly> { }; | ||
| 7576 | |||
| 7577 | template <typename T> | ||
| 7578 | struct lua_type_of<std::optional<T>> : std::integral_constant<type, type::poly> { }; | ||
| 7579 | |||
| 7580 | template <> | ||
| 7581 | struct lua_type_of<variadic_args> : std::integral_constant<type, type::poly> { }; | ||
| 7582 | |||
| 7583 | template <> | ||
| 7584 | struct lua_type_of<variadic_results> : std::integral_constant<type, type::poly> { }; | ||
| 7585 | |||
| 7586 | template <> | ||
| 7587 | struct lua_type_of<stack_count> : std::integral_constant<type, type::poly> { }; | ||
| 7588 | |||
| 7589 | template <> | ||
| 7590 | struct lua_type_of<this_state> : std::integral_constant<type, type::poly> { }; | ||
| 7591 | |||
| 7592 | template <> | ||
| 7593 | struct lua_type_of<this_main_state> : std::integral_constant<type, type::poly> { }; | ||
| 7594 | |||
| 7595 | template <> | ||
| 7596 | struct lua_type_of<this_environment> : std::integral_constant<type, type::poly> { }; | ||
| 7597 | |||
| 7598 | template <> | ||
| 7599 | struct lua_type_of<type> : std::integral_constant<type, type::poly> { }; | ||
| 7600 | |||
| 7601 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 7602 | template <typename T> | ||
| 7603 | struct lua_type_of<T*> : std::integral_constant<type, std::is_function_v<T> ? type::function : type::userdata> { }; | ||
| 7604 | #else | ||
| 7605 | template <typename T> | ||
| 7606 | struct lua_type_of<T*> : std::integral_constant<type, type::userdata> { }; | ||
| 7607 | #endif | ||
| 7608 | |||
| 7609 | template <typename T> | ||
| 7610 | struct lua_type_of<T, std::enable_if_t<std::is_arithmetic_v<T> || std::is_same_v<T, lua_Number> || std::is_same_v<T, lua_Integer>>> | ||
| 7611 | : std::integral_constant<type, type::number> { }; | ||
| 7612 | |||
| 7613 | template <typename T> | ||
| 7614 | struct lua_type_of<T, std::enable_if_t<std::is_function_v<T>>> : std::integral_constant<type, type::function> { }; | ||
| 7615 | |||
| 7616 | template <typename T> | ||
| 7617 | struct lua_type_of<T, std::enable_if_t<std::is_enum_v<T>>> : std::integral_constant<type, type::number> { }; | ||
| 7618 | |||
| 7619 | template <> | ||
| 7620 | struct lua_type_of<meta_function> : std::integral_constant<type, type::string> { }; | ||
| 7621 | |||
| 7622 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 7623 | template <typename... Tn> | ||
| 7624 | struct lua_type_of<std::variant<Tn...>> : std::integral_constant<type, type::poly> { }; | ||
| 7625 | #endif // std::variant deployment sucks on Clang | ||
| 7626 | |||
| 7627 | template <typename T> | ||
| 7628 | struct lua_type_of<nested<T>> : meta::conditional_t<::sol::is_container_v<T>, std::integral_constant<type, type::table>, lua_type_of<T>> { }; | ||
| 7629 | |||
| 7630 | template <typename C, C v, template <typename...> class V, typename... Args> | ||
| 7631 | struct accumulate : std::integral_constant<C, v> { }; | ||
| 7632 | |||
| 7633 | template <typename C, C v, template <typename...> class V, typename T, typename... Args> | ||
| 7634 | struct accumulate<C, v, V, T, Args...> : accumulate<C, v + V<T>::value, V, Args...> { }; | ||
| 7635 | |||
| 7636 | template <typename C, C v, template <typename...> class V, typename List> | ||
| 7637 | struct accumulate_list; | ||
| 7638 | |||
| 7639 | template <typename C, C v, template <typename...> class V, typename... Args> | ||
| 7640 | struct accumulate_list<C, v, V, types<Args...>> : accumulate<C, v, V, Args...> { }; | ||
| 7641 | } // namespace detail | ||
| 7642 | |||
| 7643 | template <typename T> | ||
| 7644 | struct lua_type_of : detail::lua_type_of<T> { | ||
| 7645 | typedef int SOL_INTERNAL_UNSPECIALIZED_MARKER_; | ||
| 7646 | }; | ||
| 7647 | |||
| 7648 | template <typename T> | ||
| 7649 | inline constexpr type lua_type_of_v = lua_type_of<T>::value; | ||
| 7650 | |||
| 7651 | template <typename T> | ||
| 7652 | struct lua_size : std::integral_constant<int, 1> { | ||
| 7653 | typedef int SOL_INTERNAL_UNSPECIALIZED_MARKER_; | ||
| 7654 | }; | ||
| 7655 | |||
| 7656 | template <typename A, typename B> | ||
| 7657 | struct lua_size<std::pair<A, B>> : std::integral_constant<int, lua_size<A>::value + lua_size<B>::value> { }; | ||
| 7658 | |||
| 7659 | template <typename... Args> | ||
| 7660 | struct lua_size<std::tuple<Args...>> : std::integral_constant<int, detail::accumulate<int, 0, lua_size, Args...>::value> { }; | ||
| 7661 | |||
| 7662 | template <typename T> | ||
| 7663 | inline constexpr int lua_size_v = lua_size<T>::value; | ||
| 7664 | |||
| 7665 | namespace detail { | ||
| 7666 | template <typename...> | ||
| 7667 | struct void_ { | ||
| 7668 | typedef void type; | ||
| 7669 | }; | ||
| 7670 | template <typename T, typename = void> | ||
| 7671 | struct has_internal_marker_impl : std::false_type { }; | ||
| 7672 | template <typename T> | ||
| 7673 | struct has_internal_marker_impl<T, typename void_<typename T::SOL_INTERNAL_UNSPECIALIZED_MARKER_>::type> : std::true_type { }; | ||
| 7674 | |||
| 7675 | template <typename T> | ||
| 7676 | using has_internal_marker = has_internal_marker_impl<T>; | ||
| 7677 | |||
| 7678 | template <typename T> | ||
| 7679 | constexpr inline bool has_internal_marker_v = has_internal_marker<T>::value; | ||
| 7680 | } // namespace detail | ||
| 7681 | |||
| 7682 | template <typename T> | ||
| 7683 | struct is_lua_primitive | ||
| 7684 | : std::integral_constant<bool, | ||
| 7685 | type::userdata | ||
| 7686 | != lua_type_of_v< | ||
| 7687 | T> || ((type::userdata == lua_type_of_v<T>)&&detail::has_internal_marker_v<lua_type_of<T>> && !detail::has_internal_marker_v<lua_size<T>>) | ||
| 7688 | || is_lua_reference_or_proxy_v<T> || meta::is_specialization_of_v<T, std::tuple> || meta::is_specialization_of_v<T, std::pair>> { }; | ||
| 7689 | |||
| 7690 | template <typename T> | ||
| 7691 | constexpr inline bool is_lua_primitive_v = is_lua_primitive<T>::value; | ||
| 7692 | |||
| 7693 | template <typename T> | ||
| 7694 | struct is_main_threaded : std::is_base_of<main_reference, T> { }; | ||
| 7695 | |||
| 7696 | template <typename T> | ||
| 7697 | struct is_stack_based : std::is_base_of<stack_reference, T> { }; | ||
| 7698 | template <> | ||
| 7699 | struct is_stack_based<variadic_args> : std::true_type { }; | ||
| 7700 | template <> | ||
| 7701 | struct is_stack_based<unsafe_function_result> : std::true_type { }; | ||
| 7702 | template <> | ||
| 7703 | struct is_stack_based<protected_function_result> : std::true_type { }; | ||
| 7704 | template <> | ||
| 7705 | struct is_stack_based<stack_proxy> : std::true_type { }; | ||
| 7706 | template <> | ||
| 7707 | struct is_stack_based<stack_proxy_base> : std::true_type { }; | ||
| 7708 | template <> | ||
| 7709 | struct is_stack_based<stack_count> : std::true_type { }; | ||
| 7710 | |||
| 7711 | template <typename T> | ||
| 7712 | constexpr inline bool is_stack_based_v = is_stack_based<T>::value; | ||
| 7713 | |||
| 7714 | template <typename T> | ||
| 7715 | struct is_lua_primitive<T*> : std::true_type { }; | ||
| 7716 | template <> | ||
| 7717 | struct is_lua_primitive<unsafe_function_result> : std::true_type { }; | ||
| 7718 | template <> | ||
| 7719 | struct is_lua_primitive<protected_function_result> : std::true_type { }; | ||
| 7720 | template <typename T> | ||
| 7721 | struct is_lua_primitive<std::reference_wrapper<T>> : std::true_type { }; | ||
| 7722 | template <typename T> | ||
| 7723 | struct is_lua_primitive<user<T>> : std::true_type { }; | ||
| 7724 | template <typename T> | ||
| 7725 | struct is_lua_primitive<light<T>> : is_lua_primitive<T*> { }; | ||
| 7726 | template <typename T> | ||
| 7727 | struct is_lua_primitive<optional<T>> : std::true_type { }; | ||
| 7728 | template <typename T> | ||
| 7729 | struct is_lua_primitive<std::optional<T>> : std::true_type { }; | ||
| 7730 | template <typename T> | ||
| 7731 | struct is_lua_primitive<as_table_t<T>> : std::true_type { }; | ||
| 7732 | template <typename T> | ||
| 7733 | struct is_lua_primitive<nested<T>> : std::true_type { }; | ||
| 7734 | template <> | ||
| 7735 | struct is_lua_primitive<userdata_value> : std::true_type { }; | ||
| 7736 | template <> | ||
| 7737 | struct is_lua_primitive<lightuserdata_value> : std::true_type { }; | ||
| 7738 | template <> | ||
| 7739 | struct is_lua_primitive<stack_proxy> : std::true_type { }; | ||
| 7740 | template <> | ||
| 7741 | struct is_lua_primitive<stack_proxy_base> : std::true_type { }; | ||
| 7742 | template <typename T> | ||
| 7743 | struct is_lua_primitive<non_null<T>> : is_lua_primitive<T*> { }; | ||
| 7744 | |||
| 7745 | template <typename T> | ||
| 7746 | struct is_lua_index : std::is_integral<T> { }; | ||
| 7747 | template <> | ||
| 7748 | struct is_lua_index<raw_index> : std::true_type { }; | ||
| 7749 | template <> | ||
| 7750 | struct is_lua_index<absolute_index> : std::true_type { }; | ||
| 7751 | template <> | ||
| 7752 | struct is_lua_index<ref_index> : std::true_type { }; | ||
| 7753 | template <> | ||
| 7754 | struct is_lua_index<upvalue_index> : std::true_type { }; | ||
| 7755 | |||
| 7756 | template <typename Signature> | ||
| 7757 | struct lua_bind_traits : meta::bind_traits<Signature> { | ||
| 7758 | private: | ||
| 7759 | typedef meta::bind_traits<Signature> base_t; | ||
| 7760 | |||
| 7761 | public: | ||
| 7762 | typedef std::integral_constant<bool, meta::count_for<is_variadic_arguments, typename base_t::args_list>::value != 0> runtime_variadics_t; | ||
| 7763 | static const std::size_t true_arity = base_t::arity; | ||
| 7764 | static const std::size_t arity = detail::accumulate_list<std::size_t, 0, lua_size, typename base_t::args_list>::value | ||
| 7765 | - meta::count_for<is_transparent_argument, typename base_t::args_list>::value; | ||
| 7766 | static const std::size_t true_free_arity = base_t::free_arity; | ||
| 7767 | static const std::size_t free_arity = detail::accumulate_list<std::size_t, 0, lua_size, typename base_t::free_args_list>::value | ||
| 7768 | - meta::count_for<is_transparent_argument, typename base_t::args_list>::value; | ||
| 7769 | }; | ||
| 7770 | |||
| 7771 | template <typename T> | ||
| 7772 | struct is_table : std::false_type { }; | ||
| 7773 | template <bool x, typename T> | ||
| 7774 | struct is_table<basic_table_core<x, T>> : std::true_type { }; | ||
| 7775 | template <typename T> | ||
| 7776 | struct is_table<basic_lua_table<T>> : std::true_type { }; | ||
| 7777 | |||
| 7778 | template <typename T> | ||
| 7779 | inline constexpr bool is_table_v = is_table<T>::value; | ||
| 7780 | |||
| 7781 | template <typename T> | ||
| 7782 | struct is_stack_table : std::false_type { }; | ||
| 7783 | template <bool x, typename T> | ||
| 7784 | struct is_stack_table<basic_table_core<x, T>> : std::integral_constant<bool, std::is_base_of_v<stack_reference, T>> { }; | ||
| 7785 | template <typename T> | ||
| 7786 | struct is_stack_table<basic_lua_table<T>> : std::integral_constant<bool, std::is_base_of_v<stack_reference, T>> { }; | ||
| 7787 | |||
| 7788 | template <typename T> | ||
| 7789 | inline constexpr bool is_stack_table_v = is_stack_table<T>::value; | ||
| 7790 | |||
| 7791 | template <typename T> | ||
| 7792 | struct is_function : std::false_type { }; | ||
| 7793 | template <typename T, bool aligned> | ||
| 7794 | struct is_function<basic_function<T, aligned>> : std::true_type { }; | ||
| 7795 | template <typename T, bool aligned, typename Handler> | ||
| 7796 | struct is_function<basic_protected_function<T, aligned, Handler>> : std::true_type { }; | ||
| 7797 | |||
| 7798 | template <typename T> | ||
| 7799 | using is_lightuserdata = meta::is_specialization_of<T, basic_lightuserdata>; | ||
| 7800 | |||
| 7801 | template <typename T> | ||
| 7802 | inline constexpr bool is_lightuserdata_v = is_lightuserdata<T>::value; | ||
| 7803 | |||
| 7804 | template <typename T> | ||
| 7805 | using is_userdata = meta::is_specialization_of<T, basic_userdata>; | ||
| 7806 | |||
| 7807 | template <typename T> | ||
| 7808 | inline constexpr bool is_userdata_v = is_userdata<T>::value; | ||
| 7809 | |||
| 7810 | template <typename T> | ||
| 7811 | using is_environment = std::integral_constant<bool, is_userdata_v<T> || is_table_v<T> || meta::is_specialization_of_v<T, basic_environment>>; | ||
| 7812 | |||
| 7813 | template <typename T> | ||
| 7814 | inline constexpr bool is_environment_v = is_environment<T>::value; | ||
| 7815 | |||
| 7816 | template <typename T> | ||
| 7817 | using is_table_like = std::integral_constant<bool, is_table_v<T> || is_environment_v<T> || is_userdata_v<T>>; | ||
| 7818 | |||
| 7819 | template <typename T> | ||
| 7820 | inline constexpr bool is_table_like_v = is_table_like<T>::value; | ||
| 7821 | |||
| 7822 | template <typename T> | ||
| 7823 | struct is_automagical | ||
| 7824 | : std::integral_constant<bool, | ||
| 7825 | (SOL_IS_ON(SOL_DEFAULT_AUTOMAGICAL_USERTYPES_I_)) | ||
| 7826 | || (std::is_array_v< | ||
| 7827 | meta::unqualified_t<T>> || (!std::is_same_v<meta::unqualified_t<T>, state> && !std::is_same_v<meta::unqualified_t<T>, state_view>))> { | ||
| 7828 | }; | ||
| 7829 | |||
| 7830 | template <typename T> | ||
| 7831 | inline type type_of() { | ||
| 7832 | return lua_type_of<meta::unqualified_t<T>>::value; | ||
| 7833 | } | ||
| 7834 | |||
| 7835 | namespace detail { | ||
| 7836 | template <typename T> | ||
| 7837 | struct is_non_factory_constructor : std::false_type { }; | ||
| 7838 | |||
| 7839 | template <typename... Args> | ||
| 7840 | struct is_non_factory_constructor<constructors<Args...>> : std::true_type { }; | ||
| 7841 | |||
| 7842 | template <typename... Args> | ||
| 7843 | struct is_non_factory_constructor<constructor_wrapper<Args...>> : std::true_type { }; | ||
| 7844 | |||
| 7845 | template <> | ||
| 7846 | struct is_non_factory_constructor<no_construction> : std::true_type { }; | ||
| 7847 | |||
| 7848 | template <typename T> | ||
| 7849 | inline constexpr bool is_non_factory_constructor_v = is_non_factory_constructor<T>::value; | ||
| 7850 | |||
| 7851 | template <typename T> | ||
| 7852 | struct is_constructor : is_non_factory_constructor<T> { }; | ||
| 7853 | |||
| 7854 | template <typename... Args> | ||
| 7855 | struct is_constructor<factory_wrapper<Args...>> : std::true_type { }; | ||
| 7856 | |||
| 7857 | template <typename T> | ||
| 7858 | struct is_constructor<protect_t<T>> : is_constructor<meta::unqualified_t<T>> { }; | ||
| 7859 | |||
| 7860 | template <typename F, typename... Policies> | ||
| 7861 | struct is_constructor<policy_wrapper<F, Policies...>> : is_constructor<meta::unqualified_t<F>> { }; | ||
| 7862 | |||
| 7863 | template <typename T> | ||
| 7864 | inline constexpr bool is_constructor_v = is_constructor<T>::value; | ||
| 7865 | |||
| 7866 | template <typename... Args> | ||
| 7867 | using any_is_constructor = meta::any<is_constructor<meta::unqualified_t<Args>>...>; | ||
| 7868 | |||
| 7869 | template <typename... Args> | ||
| 7870 | inline constexpr bool any_is_constructor_v = any_is_constructor<Args...>::value; | ||
| 7871 | |||
| 7872 | template <typename T> | ||
| 7873 | struct is_destructor : std::false_type { }; | ||
| 7874 | |||
| 7875 | template <typename Fx> | ||
| 7876 | struct is_destructor<destructor_wrapper<Fx>> : std::true_type { }; | ||
| 7877 | |||
| 7878 | template <typename... Args> | ||
| 7879 | using any_is_destructor = meta::any<is_destructor<meta::unqualified_t<Args>>...>; | ||
| 7880 | |||
| 7881 | template <typename... Args> | ||
| 7882 | inline constexpr bool any_is_destructor_v = any_is_destructor<Args...>::value; | ||
| 7883 | } // namespace detail | ||
| 7884 | |||
| 7885 | template <typename T> | ||
| 7886 | using is_lua_c_function = meta::any<std::is_same<lua_CFunction, T>, std::is_same<detail::lua_CFunction_noexcept, T>, std::is_same<lua_CFunction_ref, T>>; | ||
| 7887 | |||
| 7888 | template <typename T> | ||
| 7889 | inline constexpr bool is_lua_c_function_v = is_lua_c_function<T>::value; | ||
| 7890 | |||
| 7891 | struct automagic_enrollments { | ||
| 7892 | bool default_constructor = true; | ||
| 7893 | bool destructor = true; | ||
| 7894 | bool pairs_operator = true; | ||
| 7895 | bool to_string_operator = true; | ||
| 7896 | bool call_operator = true; | ||
| 7897 | bool less_than_operator = true; | ||
| 7898 | bool less_than_or_equal_to_operator = true; | ||
| 7899 | bool length_operator = true; | ||
| 7900 | bool equal_to_operator = true; | ||
| 7901 | }; | ||
| 7902 | |||
| 7903 | } // namespace sol | ||
| 7904 | |||
| 7905 | // end of sol/types.hpp | ||
| 7906 | |||
| 7907 | #include <exception> | ||
| 7908 | #include <cstring> | ||
| 7909 | |||
| 7910 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 7911 | #include <iostream> | ||
| 7912 | #endif | ||
| 7913 | |||
| 7914 | namespace sol { | ||
| 7915 | // must push a single object to be the error object | ||
| 7916 | // NOTE: the VAST MAJORITY of all Lua libraries -- C or otherwise -- expect a string for the type of error | ||
| 7917 | // break this convention at your own risk | ||
| 7918 | using exception_handler_function = int (*)(lua_State*, optional<const std::exception&>, string_view); | ||
| 7919 | |||
| 7920 | namespace detail { | ||
| 7921 | inline const char (&default_exception_handler_name())[11] { | ||
| 7922 | static const char name[11] = "sol.\xE2\x98\xA2\xE2\x98\xA2"; | ||
| 7923 | return name; | ||
| 7924 | } | ||
| 7925 | |||
| 7926 | // must push at least 1 object on the stack | ||
| 7927 | inline int default_exception_handler(lua_State* L, optional<const std::exception&>, string_view what) { | ||
| 7928 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 7929 | std::cerr << "[sol3] An exception occurred: "; | ||
| 7930 | std::cerr.write(what.data(), what.size()); | ||
| 7931 | std::cerr << std::endl; | ||
| 7932 | #endif | ||
| 7933 | lua_pushlstring(L, what.data(), what.size()); | ||
| 7934 | return 1; | ||
| 7935 | } | ||
| 7936 | |||
| 7937 | inline int call_exception_handler(lua_State* L, optional<const std::exception&> maybe_ex, string_view what) { | ||
| 7938 | lua_getglobal(L, default_exception_handler_name()); | ||
| 7939 | type t = static_cast<type>(lua_type(L, -1)); | ||
| 7940 | if (t != type::lightuserdata) { | ||
| 7941 | lua_pop(L, 1); | ||
| 7942 | return default_exception_handler(L, std::move(maybe_ex), std::move(what)); | ||
| 7943 | } | ||
| 7944 | void* vfunc = lua_touserdata(L, -1); | ||
| 7945 | lua_pop(L, 1); | ||
| 7946 | if (vfunc == nullptr) { | ||
| 7947 | return default_exception_handler(L, std::move(maybe_ex), std::move(what)); | ||
| 7948 | } | ||
| 7949 | exception_handler_function exfunc = reinterpret_cast<exception_handler_function>(vfunc); | ||
| 7950 | return exfunc(L, std::move(maybe_ex), std::move(what)); | ||
| 7951 | } | ||
| 7952 | |||
| 7953 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 7954 | template <lua_CFunction f> | ||
| 7955 | int static_trampoline(lua_State* L) noexcept { | ||
| 7956 | return f(L); | ||
| 7957 | } | ||
| 7958 | |||
| 7959 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 7960 | template <lua_CFunction_noexcept f> | ||
| 7961 | int static_trampoline_noexcept(lua_State* L) noexcept { | ||
| 7962 | return f(L); | ||
| 7963 | } | ||
| 7964 | #else | ||
| 7965 | template <lua_CFunction f> | ||
| 7966 | int static_trampoline_noexcept(lua_State* L) noexcept { | ||
| 7967 | return f(L); | ||
| 7968 | } | ||
| 7969 | #endif | ||
| 7970 | |||
| 7971 | template <typename Fx, typename... Args> | ||
| 7972 | int trampoline(lua_State* L, Fx&& f, Args&&... args) noexcept { | ||
| 7973 | return f(L, std::forward<Args>(args)...); | ||
| 7974 | } | ||
| 7975 | |||
| 7976 | inline int c_trampoline(lua_State* L, lua_CFunction f) noexcept { | ||
| 7977 | return trampoline(L, f); | ||
| 7978 | } | ||
| 7979 | #else | ||
| 7980 | |||
| 7981 | inline int lua_cfunction_trampoline(lua_State* L, lua_CFunction f) { | ||
| 7982 | #if SOL_IS_ON(SOL_PROPAGATE_EXCEPTIONS_I_) | ||
| 7983 | return f(L); | ||
| 7984 | |||
| 7985 | #else | ||
| 7986 | try { | ||
| 7987 | return f(L); | ||
| 7988 | } | ||
| 7989 | catch (const char* cs) { | ||
| 7990 | call_exception_handler(L, optional<const std::exception&>(nullopt), string_view(cs)); | ||
| 7991 | } | ||
| 7992 | catch (const std::string& s) { | ||
| 7993 | call_exception_handler(L, optional<const std::exception&>(nullopt), string_view(s.c_str(), s.size())); | ||
| 7994 | } | ||
| 7995 | catch (const std::exception& e) { | ||
| 7996 | call_exception_handler(L, optional<const std::exception&>(e), e.what()); | ||
| 7997 | } | ||
| 7998 | #if SOL_IS_OFF(SOL_USE_LUAJIT_I_) | ||
| 7999 | // LuaJIT cannot have the catchall when the safe propagation is on | ||
| 8000 | // but LuaJIT will swallow all C++ errors | ||
| 8001 | // if we don't at least catch std::exception ones | ||
| 8002 | catch (...) { | ||
| 8003 | call_exception_handler(L, optional<const std::exception&>(nullopt), "caught (...) exception"); | ||
| 8004 | } | ||
| 8005 | #endif // LuaJIT cannot have the catchall, but we must catch std::exceps for it | ||
| 8006 | return lua_error(L); | ||
| 8007 | #endif // Safe exceptions | ||
| 8008 | } | ||
| 8009 | |||
| 8010 | template <lua_CFunction f> | ||
| 8011 | int static_trampoline(lua_State* L) { | ||
| 8012 | return lua_cfunction_trampoline(L, f); | ||
| 8013 | } | ||
| 8014 | |||
| 8015 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 8016 | template <lua_CFunction_noexcept f> | ||
| 8017 | int static_trampoline_noexcept(lua_State* L) noexcept { | ||
| 8018 | return f(L); | ||
| 8019 | } | ||
| 8020 | #else | ||
| 8021 | template <lua_CFunction f> | ||
| 8022 | int static_trampoline_noexcept(lua_State* L) noexcept { | ||
| 8023 | return f(L); | ||
| 8024 | } | ||
| 8025 | #endif | ||
| 8026 | |||
| 8027 | template <typename Fx, typename... Args> | ||
| 8028 | int trampoline(lua_State* L, Fx&& f, Args&&... args) { | ||
| 8029 | if constexpr (meta::bind_traits<meta::unqualified_t<Fx>>::is_noexcept) { | ||
| 8030 | return f(L, std::forward<Args>(args)...); | ||
| 8031 | } | ||
| 8032 | else { | ||
| 8033 | #if SOL_IS_ON(SOL_PROPAGATE_EXCEPTIONS_I_) | ||
| 8034 | return f(L, std::forward<Args>(args)...); | ||
| 8035 | #else | ||
| 8036 | try { | ||
| 8037 | return f(L, std::forward<Args>(args)...); | ||
| 8038 | } | ||
| 8039 | catch (const char* cs) { | ||
| 8040 | call_exception_handler(L, optional<const std::exception&>(nullopt), string_view(cs)); | ||
| 8041 | } | ||
| 8042 | catch (const std::string& s) { | ||
| 8043 | call_exception_handler(L, optional<const std::exception&>(nullopt), string_view(s.c_str(), s.size())); | ||
| 8044 | } | ||
| 8045 | catch (const std::exception& e) { | ||
| 8046 | call_exception_handler(L, optional<const std::exception&>(e), e.what()); | ||
| 8047 | } | ||
| 8048 | #if SOL_IS_OFF(SOL_USE_LUAJIT_I_) | ||
| 8049 | // LuaJIT cannot have the catchall when the safe propagation is on | ||
| 8050 | // but LuaJIT will swallow all C++ errors | ||
| 8051 | // if we don't at least catch std::exception ones | ||
| 8052 | catch (...) { | ||
| 8053 | call_exception_handler(L, optional<const std::exception&>(nullopt), "caught (...) exception"); | ||
| 8054 | } | ||
| 8055 | #endif | ||
| 8056 | return lua_error(L); | ||
| 8057 | #endif | ||
| 8058 | } | ||
| 8059 | } | ||
| 8060 | |||
| 8061 | inline int c_trampoline(lua_State* L, lua_CFunction f) { | ||
| 8062 | return trampoline(L, f); | ||
| 8063 | } | ||
| 8064 | #endif // Exceptions vs. No Exceptions | ||
| 8065 | |||
| 8066 | template <typename F, F fx> | ||
| 8067 | inline int typed_static_trampoline(lua_State* L) { | ||
| 8068 | if constexpr (meta::bind_traits<F>::is_noexcept) { | ||
| 8069 | return static_trampoline_noexcept<fx>(L); | ||
| 8070 | } | ||
| 8071 | else { | ||
| 8072 | return static_trampoline<fx>(L); | ||
| 8073 | } | ||
| 8074 | } | ||
| 8075 | } // namespace detail | ||
| 8076 | |||
| 8077 | inline void set_default_exception_handler(lua_State* L, exception_handler_function exf = &detail::default_exception_handler) { | ||
| 8078 | static_assert(sizeof(void*) >= sizeof(exception_handler_function), | ||
| 8079 | "void* storage is too small to transport the exception handler: please file a bug on the sol2 issue tracker to get this looked at!"); | ||
| 8080 | void* storage; | ||
| 8081 | std::memcpy(&storage, &exf, sizeof(exception_handler_function)); | ||
| 8082 | lua_pushlightuserdata(L, storage); | ||
| 8083 | lua_setglobal(L, detail::default_exception_handler_name()); | ||
| 8084 | } | ||
| 8085 | } // namespace sol | ||
| 8086 | |||
| 8087 | // end of sol/trampoline.hpp | ||
| 8088 | |||
| 8089 | // beginning of sol/stack_core.hpp | ||
| 8090 | |||
| 8091 | // beginning of sol/inheritance.hpp | ||
| 8092 | |||
| 8093 | // beginning of sol/usertype_traits.hpp | ||
| 8094 | |||
| 8095 | // beginning of sol/demangle.hpp | ||
| 8096 | |||
| 8097 | #include <string> | ||
| 8098 | #include <array> | ||
| 8099 | #include <cctype> | ||
| 8100 | #if SOL_IS_ON(SOL_MINGW_CCTYPE_IS_POISONED_I_) | ||
| 8101 | extern "C" { | ||
| 8102 | #include <ctype.h> | ||
| 8103 | } | ||
| 8104 | #endif // MinGW is on some stuff | ||
| 8105 | #include <locale> | ||
| 8106 | |||
| 8107 | namespace sol { namespace detail { | ||
| 8108 | inline constexpr std::array<string_view, 9> removals { { "{anonymous}", | ||
| 8109 | "(anonymous namespace)", | ||
| 8110 | "public:", | ||
| 8111 | "private:", | ||
| 8112 | "protected:", | ||
| 8113 | "struct ", | ||
| 8114 | "class ", | ||
| 8115 | "`anonymous-namespace'", | ||
| 8116 | "`anonymous namespace'" } }; | ||
| 8117 | |||
| 8118 | #if SOL_IS_ON(SOL_COMPILER_GCC_I_) || SOL_IS_ON(SOL_COMPILER_CLANG_I_) | ||
| 8119 | inline std::string ctti_get_type_name_from_sig(std::string name) { | ||
| 8120 | // cardinal sins from MINGW | ||
| 8121 | using namespace std; | ||
| 8122 | std::size_t start = name.find_first_of('['); | ||
| 8123 | start = name.find_first_of('=', start); | ||
| 8124 | std::size_t end = name.find_last_of(']'); | ||
| 8125 | if (end == std::string::npos) | ||
| 8126 | end = name.size(); | ||
| 8127 | if (start == std::string::npos) | ||
| 8128 | start = 0; | ||
| 8129 | if (start < name.size() - 1) | ||
| 8130 | start += 1; | ||
| 8131 | name = name.substr(start, end - start); | ||
| 8132 | start = name.rfind("seperator_mark"); | ||
| 8133 | if (start != std::string::npos) { | ||
| 8134 | name.erase(start - 2, name.length()); | ||
| 8135 | } | ||
| 8136 | while (!name.empty() && isblank(name.front())) | ||
| 8137 | name.erase(name.begin()); | ||
| 8138 | while (!name.empty() && isblank(name.back())) | ||
| 8139 | name.pop_back(); | ||
| 8140 | |||
| 8141 | for (std::size_t r = 0; r < removals.size(); ++r) { | ||
| 8142 | auto found = name.find(removals[r]); | ||
| 8143 | while (found != std::string::npos) { | ||
| 8144 | name.erase(found, removals[r].size()); | ||
| 8145 | found = name.find(removals[r]); | ||
| 8146 | } | ||
| 8147 | } | ||
| 8148 | |||
| 8149 | return name; | ||
| 8150 | } | ||
| 8151 | |||
| 8152 | template <typename T, class seperator_mark = int> | ||
| 8153 | inline std::string ctti_get_type_name() { | ||
| 8154 | return ctti_get_type_name_from_sig(__PRETTY_FUNCTION__); | ||
| 8155 | } | ||
| 8156 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 8157 | inline std::string ctti_get_type_name_from_sig(std::string name) { | ||
| 8158 | std::size_t start = name.find("get_type_name"); | ||
| 8159 | if (start == std::string::npos) | ||
| 8160 | start = 0; | ||
| 8161 | else | ||
| 8162 | start += 13; | ||
| 8163 | if (start < name.size() - 1) | ||
| 8164 | start += 1; | ||
| 8165 | std::size_t end = name.find_last_of('>'); | ||
| 8166 | if (end == std::string::npos) | ||
| 8167 | end = name.size(); | ||
| 8168 | name = name.substr(start, end - start); | ||
| 8169 | if (name.find("struct", 0) == 0) | ||
| 8170 | name.replace(0, 6, "", 0); | ||
| 8171 | if (name.find("class", 0) == 0) | ||
| 8172 | name.replace(0, 5, "", 0); | ||
| 8173 | while (!name.empty() && isblank(name.front())) | ||
| 8174 | name.erase(name.begin()); | ||
| 8175 | while (!name.empty() && isblank(name.back())) | ||
| 8176 | name.pop_back(); | ||
| 8177 | |||
| 8178 | for (std::size_t r = 0; r < removals.size(); ++r) { | ||
| 8179 | auto found = name.find(removals[r]); | ||
| 8180 | while (found != std::string::npos) { | ||
| 8181 | name.erase(found, removals[r].size()); | ||
| 8182 | found = name.find(removals[r]); | ||
| 8183 | } | ||
| 8184 | } | ||
| 8185 | |||
| 8186 | return name; | ||
| 8187 | } | ||
| 8188 | |||
| 8189 | template <typename T> | ||
| 8190 | std::string ctti_get_type_name() { | ||
| 8191 | return ctti_get_type_name_from_sig(__FUNCSIG__); | ||
| 8192 | } | ||
| 8193 | #else | ||
| 8194 | #error Compiler not supported for demangling | ||
| 8195 | #endif // compilers | ||
| 8196 | |||
| 8197 | template <typename T> | ||
| 8198 | std::string demangle_once() { | ||
| 8199 | std::string realname = ctti_get_type_name<T>(); | ||
| 8200 | return realname; | ||
| 8201 | } | ||
| 8202 | |||
| 8203 | inline std::string short_demangle_from_type_name(std::string realname) { | ||
| 8204 | // This isn't the most complete but it'll do for now...? | ||
| 8205 | static const std::array<std::string, 10> ops = { | ||
| 8206 | { "operator<", "operator<<", "operator<<=", "operator<=", "operator>", "operator>>", "operator>>=", "operator>=", "operator->", "operator->*" } | ||
| 8207 | }; | ||
| 8208 | int level = 0; | ||
| 8209 | std::ptrdiff_t idx = 0; | ||
| 8210 | for (idx = static_cast<std::ptrdiff_t>(realname.empty() ? 0 : realname.size() - 1); idx > 0; --idx) { | ||
| 8211 | if (level == 0 && realname[idx] == ':') { | ||
| 8212 | break; | ||
| 8213 | } | ||
| 8214 | bool isleft = realname[idx] == '<'; | ||
| 8215 | bool isright = realname[idx] == '>'; | ||
| 8216 | if (!isleft && !isright) | ||
| 8217 | continue; | ||
| 8218 | bool earlybreak = false; | ||
| 8219 | for (const auto& op : ops) { | ||
| 8220 | std::size_t nisop = realname.rfind(op, idx); | ||
| 8221 | if (nisop == std::string::npos) | ||
| 8222 | continue; | ||
| 8223 | std::size_t nisopidx = idx - op.size() + 1; | ||
| 8224 | if (nisop == nisopidx) { | ||
| 8225 | idx = static_cast<std::ptrdiff_t>(nisopidx); | ||
| 8226 | earlybreak = true; | ||
| 8227 | } | ||
| 8228 | break; | ||
| 8229 | } | ||
| 8230 | if (earlybreak) { | ||
| 8231 | continue; | ||
| 8232 | } | ||
| 8233 | level += isleft ? -1 : 1; | ||
| 8234 | } | ||
| 8235 | if (idx > 0) { | ||
| 8236 | realname.erase(0, realname.length() < static_cast<std::size_t>(idx) ? realname.length() : idx + 1); | ||
| 8237 | } | ||
| 8238 | return realname; | ||
| 8239 | } | ||
| 8240 | |||
| 8241 | template <typename T> | ||
| 8242 | std::string short_demangle_once() { | ||
| 8243 | std::string realname = ctti_get_type_name<T>(); | ||
| 8244 | return short_demangle_from_type_name(realname); | ||
| 8245 | } | ||
| 8246 | |||
| 8247 | template <typename T> | ||
| 8248 | const std::string& demangle() { | ||
| 8249 | static const std::string d = demangle_once<T>(); | ||
| 8250 | return d; | ||
| 8251 | } | ||
| 8252 | |||
| 8253 | template <typename T> | ||
| 8254 | const std::string& short_demangle() { | ||
| 8255 | static const std::string d = short_demangle_once<T>(); | ||
| 8256 | return d; | ||
| 8257 | } | ||
| 8258 | }} // namespace sol::detail | ||
| 8259 | |||
| 8260 | // end of sol/demangle.hpp | ||
| 8261 | |||
| 8262 | namespace sol { | ||
| 8263 | |||
| 8264 | template <typename T> | ||
| 8265 | struct usertype_traits { | ||
| 8266 | static const std::string& name() { | ||
| 8267 | static const std::string& n = detail::short_demangle<T>(); | ||
| 8268 | return n; | ||
| 8269 | } | ||
| 8270 | static const std::string& qualified_name() { | ||
| 8271 | static const std::string& q_n = detail::demangle<T>(); | ||
| 8272 | return q_n; | ||
| 8273 | } | ||
| 8274 | static const std::string& metatable() { | ||
| 8275 | static const std::string m = std::string("sol.").append(detail::demangle<T>()); | ||
| 8276 | return m; | ||
| 8277 | } | ||
| 8278 | static const std::string& user_metatable() { | ||
| 8279 | static const std::string u_m = std::string("sol.").append(detail::demangle<T>()).append(".user"); | ||
| 8280 | return u_m; | ||
| 8281 | } | ||
| 8282 | static const std::string& user_gc_metatable() { | ||
| 8283 | static const std::string u_g_m = std::string("sol.").append(detail::demangle<T>()).append(".user\xE2\x99\xBB"); | ||
| 8284 | return u_g_m; | ||
| 8285 | } | ||
| 8286 | static const std::string& gc_table() { | ||
| 8287 | static const std::string g_t = std::string("sol.").append(detail::demangle<T>()).append(".\xE2\x99\xBB"); | ||
| 8288 | return g_t; | ||
| 8289 | } | ||
| 8290 | }; | ||
| 8291 | |||
| 8292 | } // namespace sol | ||
| 8293 | |||
| 8294 | // end of sol/usertype_traits.hpp | ||
| 8295 | |||
| 8296 | // beginning of sol/unique_usertype_traits.hpp | ||
| 8297 | |||
| 8298 | #include <memory> | ||
| 8299 | |||
| 8300 | namespace sol { | ||
| 8301 | |||
| 8302 | template <typename T> | ||
| 8303 | struct unique_usertype_traits { | ||
| 8304 | typedef T type; | ||
| 8305 | typedef T actual_type; | ||
| 8306 | template <typename X> | ||
| 8307 | using rebind_base = void; | ||
| 8308 | |||
| 8309 | static const bool value = false; | ||
| 8310 | |||
| 8311 | template <typename U> | ||
| 8312 | static bool is_null(U&&) { | ||
| 8313 | return false; | ||
| 8314 | } | ||
| 8315 | |||
| 8316 | template <typename U> | ||
| 8317 | static auto get(U&& value) { | ||
| 8318 | return std::addressof(detail::deref(value)); | ||
| 8319 | } | ||
| 8320 | }; | ||
| 8321 | |||
| 8322 | template <typename T> | ||
| 8323 | struct unique_usertype_traits<std::shared_ptr<T>> { | ||
| 8324 | typedef T type; | ||
| 8325 | typedef std::shared_ptr<T> actual_type; | ||
| 8326 | // rebind is non-void | ||
| 8327 | // if and only if unique usertype | ||
| 8328 | // is cast-capable | ||
| 8329 | template <typename X> | ||
| 8330 | using rebind_base = std::shared_ptr<X>; | ||
| 8331 | |||
| 8332 | static const bool value = true; | ||
| 8333 | |||
| 8334 | static bool is_null(const actual_type& p) { | ||
| 8335 | return p == nullptr; | ||
| 8336 | } | ||
| 8337 | |||
| 8338 | static type* get(const actual_type& p) { | ||
| 8339 | return p.get(); | ||
| 8340 | } | ||
| 8341 | }; | ||
| 8342 | |||
| 8343 | template <typename T, typename D> | ||
| 8344 | struct unique_usertype_traits<std::unique_ptr<T, D>> { | ||
| 8345 | using type = T; | ||
| 8346 | using actual_type = std::unique_ptr<T, D>; | ||
| 8347 | |||
| 8348 | static const bool value = true; | ||
| 8349 | |||
| 8350 | static bool is_null(const actual_type& p) { | ||
| 8351 | return p == nullptr; | ||
| 8352 | } | ||
| 8353 | |||
| 8354 | static type* get(const actual_type& p) { | ||
| 8355 | return p.get(); | ||
| 8356 | } | ||
| 8357 | }; | ||
| 8358 | |||
| 8359 | template <typename T> | ||
| 8360 | struct is_unique_usertype : std::integral_constant<bool, unique_usertype_traits<T>::value> {}; | ||
| 8361 | |||
| 8362 | template <typename T> | ||
| 8363 | inline constexpr bool is_unique_usertype_v = is_unique_usertype<T>::value; | ||
| 8364 | |||
| 8365 | namespace detail { | ||
| 8366 | template <typename T, typename Rebind = void> | ||
| 8367 | using is_base_rebindable_test = typename T::template rebind_base<Rebind>; | ||
| 8368 | } | ||
| 8369 | |||
| 8370 | template <typename T> | ||
| 8371 | using is_base_rebindable = meta::is_detected<detail::is_base_rebindable_test, T>; | ||
| 8372 | |||
| 8373 | template <typename T> | ||
| 8374 | inline constexpr bool is_base_rebindable_v = is_base_rebindable<T>::value; | ||
| 8375 | |||
| 8376 | namespace detail { | ||
| 8377 | template <typename T, typename = void> | ||
| 8378 | struct is_base_rebindable_non_void_sfinae : std::false_type {}; | ||
| 8379 | |||
| 8380 | template <typename T> | ||
| 8381 | struct is_base_rebindable_non_void_sfinae<T, std::enable_if_t<is_base_rebindable_v<T>>> | ||
| 8382 | : std::integral_constant<bool, !std::is_void_v<typename T::template rebind_base<void>>> {}; | ||
| 8383 | } // namespace detail | ||
| 8384 | |||
| 8385 | template <typename T> | ||
| 8386 | using is_base_rebindable_non_void = meta::is_detected<detail::is_base_rebindable_test, T>; | ||
| 8387 | |||
| 8388 | template <typename T> | ||
| 8389 | inline constexpr bool is_base_rebindable_non_void_v = is_base_rebindable_non_void<T>::value; | ||
| 8390 | |||
| 8391 | } // namespace sol | ||
| 8392 | |||
| 8393 | // end of sol/unique_usertype_traits.hpp | ||
| 8394 | |||
| 8395 | namespace sol { | ||
| 8396 | template <typename... Args> | ||
| 8397 | struct base_list {}; | ||
| 8398 | template <typename... Args> | ||
| 8399 | using bases = base_list<Args...>; | ||
| 8400 | |||
| 8401 | typedef bases<> base_classes_tag; | ||
| 8402 | const auto base_classes = base_classes_tag(); | ||
| 8403 | |||
| 8404 | template <typename... Args> | ||
| 8405 | struct is_to_stringable<base_list<Args...>> : std::false_type {}; | ||
| 8406 | |||
| 8407 | namespace detail { | ||
| 8408 | |||
| 8409 | inline decltype(auto) base_class_check_key() { | ||
| 8410 | static const auto& key = "class_check"; | ||
| 8411 | return key; | ||
| 8412 | } | ||
| 8413 | |||
| 8414 | inline decltype(auto) base_class_cast_key() { | ||
| 8415 | static const auto& key = "class_cast"; | ||
| 8416 | return key; | ||
| 8417 | } | ||
| 8418 | |||
| 8419 | inline decltype(auto) base_class_index_propogation_key() { | ||
| 8420 | static const auto& key = u8"\xF0\x9F\x8C\xB2.index"; | ||
| 8421 | return key; | ||
| 8422 | } | ||
| 8423 | |||
| 8424 | inline decltype(auto) base_class_new_index_propogation_key() { | ||
| 8425 | static const auto& key = u8"\xF0\x9F\x8C\xB2.new_index"; | ||
| 8426 | return key; | ||
| 8427 | } | ||
| 8428 | |||
| 8429 | template <typename T> | ||
| 8430 | struct inheritance { | ||
| 8431 | typedef typename base<T>::type bases_t; | ||
| 8432 | |||
| 8433 | static bool type_check_bases(types<>, const string_view&) { | ||
| 8434 | return false; | ||
| 8435 | } | ||
| 8436 | |||
| 8437 | template <typename Base, typename... Args> | ||
| 8438 | static bool type_check_bases(types<Base, Args...>, const string_view& ti) { | ||
| 8439 | return ti == usertype_traits<Base>::qualified_name() || type_check_bases(types<Args...>(), ti); | ||
| 8440 | } | ||
| 8441 | |||
| 8442 | static bool type_check(const string_view& ti) { | ||
| 8443 | return ti == usertype_traits<T>::qualified_name() || type_check_bases(bases_t(), ti); | ||
| 8444 | } | ||
| 8445 | |||
| 8446 | template <typename ...Bases> | ||
| 8447 | static bool type_check_with(const string_view& ti) { | ||
| 8448 | return ti == usertype_traits<T>::qualified_name() || type_check_bases(types<Bases...>(), ti); | ||
| 8449 | } | ||
| 8450 | |||
| 8451 | static void* type_cast_bases(types<>, T*, const string_view&) { | ||
| 8452 | return nullptr; | ||
| 8453 | } | ||
| 8454 | |||
| 8455 | template <typename Base, typename... Args> | ||
| 8456 | static void* type_cast_bases(types<Base, Args...>, T* data, const string_view& ti) { | ||
| 8457 | // Make sure to convert to T first, and then dynamic cast to the proper type | ||
| 8458 | return ti != usertype_traits<Base>::qualified_name() ? type_cast_bases(types<Args...>(), data, ti) : static_cast<void*>(static_cast<Base*>(data)); | ||
| 8459 | } | ||
| 8460 | |||
| 8461 | static void* type_cast(void* voiddata, const string_view& ti) { | ||
| 8462 | T* data = static_cast<T*>(voiddata); | ||
| 8463 | return static_cast<void*>(ti != usertype_traits<T>::qualified_name() ? type_cast_bases(bases_t(), data, ti) : data); | ||
| 8464 | } | ||
| 8465 | |||
| 8466 | template <typename... Bases> | ||
| 8467 | static void* type_cast_with(void* voiddata, const string_view& ti) { | ||
| 8468 | T* data = static_cast<T*>(voiddata); | ||
| 8469 | return static_cast<void*>(ti != usertype_traits<T>::qualified_name() ? type_cast_bases(types<Bases...>(), data, ti) : data); | ||
| 8470 | } | ||
| 8471 | |||
| 8472 | template <typename U> | ||
| 8473 | static bool type_unique_cast_bases(types<>, void*, void*, const string_view&) { | ||
| 8474 | return 0; | ||
| 8475 | } | ||
| 8476 | |||
| 8477 | template <typename U, typename Base, typename... Args> | ||
| 8478 | static int type_unique_cast_bases(types<Base, Args...>, void* source_data, void* target_data, const string_view& ti) { | ||
| 8479 | using uu_traits = unique_usertype_traits<U>; | ||
| 8480 | using base_ptr = typename uu_traits::template rebind_base<Base>; | ||
| 8481 | string_view base_ti = usertype_traits<Base>::qualified_name(); | ||
| 8482 | if (base_ti == ti) { | ||
| 8483 | if (target_data != nullptr) { | ||
| 8484 | U* source = static_cast<U*>(source_data); | ||
| 8485 | base_ptr* target = static_cast<base_ptr*>(target_data); | ||
| 8486 | // perform proper derived -> base conversion | ||
| 8487 | *target = *source; | ||
| 8488 | } | ||
| 8489 | return 2; | ||
| 8490 | } | ||
| 8491 | return type_unique_cast_bases<U>(types<Args...>(), source_data, target_data, ti); | ||
| 8492 | } | ||
| 8493 | |||
| 8494 | template <typename U> | ||
| 8495 | static int type_unique_cast(void* source_data, void* target_data, const string_view& ti, const string_view& rebind_ti) { | ||
| 8496 | typedef unique_usertype_traits<U> uu_traits; | ||
| 8497 | if constexpr (is_base_rebindable_v<uu_traits>) { | ||
| 8498 | typedef typename uu_traits::template rebind_base<void> rebind_t; | ||
| 8499 | typedef meta::conditional_t<std::is_void<rebind_t>::value, types<>, bases_t> cond_bases_t; | ||
| 8500 | string_view this_rebind_ti = usertype_traits<rebind_t>::qualified_name(); | ||
| 8501 | if (rebind_ti != this_rebind_ti) { | ||
| 8502 | // this is not even of the same unique type | ||
| 8503 | return 0; | ||
| 8504 | } | ||
| 8505 | string_view this_ti = usertype_traits<T>::qualified_name(); | ||
| 8506 | if (ti == this_ti) { | ||
| 8507 | // direct match, return 1 | ||
| 8508 | return 1; | ||
| 8509 | } | ||
| 8510 | return type_unique_cast_bases<U>(cond_bases_t(), source_data, target_data, ti); | ||
| 8511 | } | ||
| 8512 | else { | ||
| 8513 | (void)rebind_ti; | ||
| 8514 | string_view this_ti = usertype_traits<T>::qualified_name(); | ||
| 8515 | if (ti == this_ti) { | ||
| 8516 | // direct match, return 1 | ||
| 8517 | return 1; | ||
| 8518 | } | ||
| 8519 | return type_unique_cast_bases<U>(types<>(), source_data, target_data, ti); | ||
| 8520 | } | ||
| 8521 | } | ||
| 8522 | |||
| 8523 | template <typename U, typename... Bases> | ||
| 8524 | static int type_unique_cast_with(void* source_data, void* target_data, const string_view& ti, const string_view& rebind_ti) { | ||
| 8525 | using uc_bases_t = types<Bases...>; | ||
| 8526 | typedef unique_usertype_traits<U> uu_traits; | ||
| 8527 | if constexpr (is_base_rebindable_v<uu_traits>) { | ||
| 8528 | using rebind_t = typename uu_traits::template rebind_base<void>; | ||
| 8529 | using cond_bases_t = meta::conditional_t<std::is_void<rebind_t>::value, types<>, uc_bases_t>; | ||
| 8530 | string_view this_rebind_ti = usertype_traits<rebind_t>::qualified_name(); | ||
| 8531 | if (rebind_ti != this_rebind_ti) { | ||
| 8532 | // this is not even of the same unique type | ||
| 8533 | return 0; | ||
| 8534 | } | ||
| 8535 | string_view this_ti = usertype_traits<T>::qualified_name(); | ||
| 8536 | if (ti == this_ti) { | ||
| 8537 | // direct match, return 1 | ||
| 8538 | return 1; | ||
| 8539 | } | ||
| 8540 | return type_unique_cast_bases<U>(cond_bases_t(), source_data, target_data, ti); | ||
| 8541 | } | ||
| 8542 | else { | ||
| 8543 | (void)rebind_ti; | ||
| 8544 | string_view this_ti = usertype_traits<T>::qualified_name(); | ||
| 8545 | if (ti == this_ti) { | ||
| 8546 | // direct match, return 1 | ||
| 8547 | return 1; | ||
| 8548 | } | ||
| 8549 | return type_unique_cast_bases<U>(types<>(), source_data, target_data, ti); | ||
| 8550 | } | ||
| 8551 | } | ||
| 8552 | }; | ||
| 8553 | |||
| 8554 | using inheritance_check_function = decltype(&inheritance<void>::type_check); | ||
| 8555 | using inheritance_cast_function = decltype(&inheritance<void>::type_cast); | ||
| 8556 | using inheritance_unique_cast_function = decltype(&inheritance<void>::type_unique_cast<void>); | ||
| 8557 | } // namespace detail | ||
| 8558 | } // namespace sol | ||
| 8559 | |||
| 8560 | // end of sol/inheritance.hpp | ||
| 8561 | |||
| 8562 | // beginning of sol/error_handler.hpp | ||
| 8563 | |||
| 8564 | #include <cstdio> | ||
| 8565 | |||
| 8566 | namespace sol { | ||
| 8567 | |||
| 8568 | namespace detail { | ||
| 8569 | constexpr const char* not_a_number = "not a numeric type"; | ||
| 8570 | constexpr const char* not_a_number_or_number_string = "not a numeric type or numeric string"; | ||
| 8571 | constexpr const char* not_a_number_integral = "not a numeric type that fits exactly an integer (number maybe has significant decimals)"; | ||
| 8572 | constexpr const char* not_a_number_or_number_string_integral | ||
| 8573 | = "not a numeric type or a numeric string that fits exactly an integer (e.g. number maybe has significant decimals)"; | ||
| 8574 | |||
| 8575 | constexpr const char* not_enough_stack_space = "not enough space left on Lua stack"; | ||
| 8576 | constexpr const char* not_enough_stack_space_floating = "not enough space left on Lua stack for a floating point number"; | ||
| 8577 | constexpr const char* not_enough_stack_space_integral = "not enough space left on Lua stack for an integral number"; | ||
| 8578 | constexpr const char* not_enough_stack_space_string = "not enough space left on Lua stack for a string"; | ||
| 8579 | constexpr const char* not_enough_stack_space_meta_function_name = "not enough space left on Lua stack for the name of a meta_function"; | ||
| 8580 | constexpr const char* not_enough_stack_space_userdata = "not enough space left on Lua stack to create a sol3 userdata"; | ||
| 8581 | constexpr const char* not_enough_stack_space_generic = "not enough space left on Lua stack to push valuees"; | ||
| 8582 | constexpr const char* not_enough_stack_space_environment = "not enough space left on Lua stack to retrieve environment"; | ||
| 8583 | constexpr const char* protected_function_error = "caught (...) unknown error during protected_function call"; | ||
| 8584 | |||
| 8585 | inline void accumulate_and_mark(const std::string& n, std::string& aux_message, int& marker) { | ||
| 8586 | if (marker > 0) { | ||
| 8587 | aux_message += ", "; | ||
| 8588 | } | ||
| 8589 | aux_message += n; | ||
| 8590 | ++marker; | ||
| 8591 | } | ||
| 8592 | } // namespace detail | ||
| 8593 | |||
| 8594 | inline std::string associated_type_name(lua_State* L, int index, type t) { | ||
| 8595 | switch (t) { | ||
| 8596 | case type::poly: | ||
| 8597 | return "anything"; | ||
| 8598 | case type::userdata: { | ||
| 8599 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 8600 | luaL_checkstack(L, 2, "not enough space to push get the type name"); | ||
| 8601 | #endif // make sure stack doesn't overflow | ||
| 8602 | if (lua_getmetatable(L, index) == 0) { | ||
| 8603 | break; | ||
| 8604 | } | ||
| 8605 | lua_pushlstring(L, "__name", 6); | ||
| 8606 | lua_rawget(L, -2); | ||
| 8607 | size_t sz; | ||
| 8608 | const char* name = lua_tolstring(L, -1, &sz); | ||
| 8609 | std::string tn(name, static_cast<std::string::size_type>(sz)); | ||
| 8610 | lua_pop(L, 2); | ||
| 8611 | return tn; | ||
| 8612 | } | ||
| 8613 | default: | ||
| 8614 | break; | ||
| 8615 | } | ||
| 8616 | return lua_typename(L, static_cast<int>(t)); | ||
| 8617 | } | ||
| 8618 | |||
| 8619 | inline int push_type_panic_string(lua_State* L, int index, type expected, type actual, string_view message, string_view aux_message) noexcept { | ||
| 8620 | const char* err = message.size() == 0 | ||
| 8621 | ? (aux_message.size() == 0 ? "stack index %d, expected %s, received %s" : "stack index %d, expected %s, received %s: %s") | ||
| 8622 | : "stack index %d, expected %s, received %s: %s %s"; | ||
| 8623 | const char* type_name = expected == type::poly ? "anything" : lua_typename(L, static_cast<int>(expected)); | ||
| 8624 | { | ||
| 8625 | std::string actual_name = associated_type_name(L, index, actual); | ||
| 8626 | lua_pushfstring(L, err, index, type_name, actual_name.c_str(), message.data(), aux_message.data()); | ||
| 8627 | } | ||
| 8628 | return 1; | ||
| 8629 | } | ||
| 8630 | |||
| 8631 | inline int type_panic_string(lua_State* L, int index, type expected, type actual, string_view message = "") noexcept(false) { | ||
| 8632 | push_type_panic_string(L, index, expected, actual, message, ""); | ||
| 8633 | return lua_error(L); | ||
| 8634 | } | ||
| 8635 | |||
| 8636 | inline int type_panic_c_str(lua_State* L, int index, type expected, type actual, const char* message = nullptr) noexcept(false) { | ||
| 8637 | push_type_panic_string(L, index, expected, actual, message == nullptr ? "" : message, ""); | ||
| 8638 | return lua_error(L); | ||
| 8639 | } | ||
| 8640 | |||
| 8641 | struct type_panic_t { | ||
| 8642 | int operator()(lua_State* L, int index, type expected, type actual) const noexcept(false) { | ||
| 8643 | return type_panic_c_str(L, index, expected, actual, nullptr); | ||
| 8644 | } | ||
| 8645 | int operator()(lua_State* L, int index, type expected, type actual, string_view message) const noexcept(false) { | ||
| 8646 | return type_panic_c_str(L, index, expected, actual, message.data()); | ||
| 8647 | } | ||
| 8648 | }; | ||
| 8649 | |||
| 8650 | const type_panic_t type_panic = {}; | ||
| 8651 | |||
| 8652 | struct constructor_handler { | ||
| 8653 | int operator()(lua_State* L, int index, type expected, type actual, string_view message) const noexcept(false) { | ||
| 8654 | push_type_panic_string(L, index, expected, actual, message, "(type check failed in constructor)"); | ||
| 8655 | return lua_error(L); | ||
| 8656 | } | ||
| 8657 | }; | ||
| 8658 | |||
| 8659 | template <typename F = void> | ||
| 8660 | struct argument_handler { | ||
| 8661 | int operator()(lua_State* L, int index, type expected, type actual, string_view message) const noexcept(false) { | ||
| 8662 | push_type_panic_string(L, index, expected, actual, message, "(bad argument to variable or function call)"); | ||
| 8663 | return lua_error(L); | ||
| 8664 | } | ||
| 8665 | }; | ||
| 8666 | |||
| 8667 | template <typename R, typename... Args> | ||
| 8668 | struct argument_handler<types<R, Args...>> { | ||
| 8669 | int operator()(lua_State* L, int index, type expected, type actual, string_view message) const noexcept(false) { | ||
| 8670 | { | ||
| 8671 | std::string aux_message = "(bad argument into '"; | ||
| 8672 | aux_message += detail::demangle<R>(); | ||
| 8673 | aux_message += "("; | ||
| 8674 | int marker = 0; | ||
| 8675 | (void)detail::swallow { int(), (detail::accumulate_and_mark(detail::demangle<Args>(), aux_message, marker), int())... }; | ||
| 8676 | aux_message += ")')"; | ||
| 8677 | push_type_panic_string(L, index, expected, actual, message, aux_message); | ||
| 8678 | } | ||
| 8679 | return lua_error(L); | ||
| 8680 | } | ||
| 8681 | }; | ||
| 8682 | |||
| 8683 | // Specify this function as the handler for lua::check if you know there's nothing wrong | ||
| 8684 | inline int no_panic(lua_State*, int, type, type, const char* = nullptr) noexcept { | ||
| 8685 | return 0; | ||
| 8686 | } | ||
| 8687 | |||
| 8688 | inline void type_error(lua_State* L, int expected, int actual) noexcept(false) { | ||
| 8689 | luaL_error(L, "expected %s, received %s", lua_typename(L, expected), lua_typename(L, actual)); | ||
| 8690 | } | ||
| 8691 | |||
| 8692 | inline void type_error(lua_State* L, type expected, type actual) noexcept(false) { | ||
| 8693 | type_error(L, static_cast<int>(expected), static_cast<int>(actual)); | ||
| 8694 | } | ||
| 8695 | |||
| 8696 | inline void type_assert(lua_State* L, int index, type expected, type actual) noexcept(false) { | ||
| 8697 | if (expected != type::poly && expected != actual) { | ||
| 8698 | type_panic_c_str(L, index, expected, actual, nullptr); | ||
| 8699 | } | ||
| 8700 | } | ||
| 8701 | |||
| 8702 | inline void type_assert(lua_State* L, int index, type expected) { | ||
| 8703 | type actual = type_of(L, index); | ||
| 8704 | type_assert(L, index, expected, actual); | ||
| 8705 | } | ||
| 8706 | |||
| 8707 | } // namespace sol | ||
| 8708 | |||
| 8709 | // end of sol/error_handler.hpp | ||
| 8710 | |||
| 8711 | // beginning of sol/reference.hpp | ||
| 8712 | |||
| 8713 | // beginning of sol/stack_reference.hpp | ||
| 8714 | |||
| 8715 | namespace sol { | ||
| 8716 | namespace detail { | ||
| 8717 | inline bool xmovable(lua_State* leftL, lua_State* rightL) { | ||
| 8718 | if (rightL == nullptr || leftL == nullptr || leftL == rightL) { | ||
| 8719 | return false; | ||
| 8720 | } | ||
| 8721 | const void* leftregistry = lua_topointer(leftL, LUA_REGISTRYINDEX); | ||
| 8722 | const void* rightregistry = lua_topointer(rightL, LUA_REGISTRYINDEX); | ||
| 8723 | return leftregistry == rightregistry; | ||
| 8724 | } | ||
| 8725 | } // namespace detail | ||
| 8726 | |||
| 8727 | class stateless_stack_reference { | ||
| 8728 | private: | ||
| 8729 | friend class stack_reference; | ||
| 8730 | |||
| 8731 | int index = 0; | ||
| 8732 | |||
| 8733 | int registry_index() const noexcept { | ||
| 8734 | return LUA_NOREF; | ||
| 8735 | } | ||
| 8736 | |||
| 8737 | public: | ||
| 8738 | stateless_stack_reference() noexcept = default; | ||
| 8739 | stateless_stack_reference(lua_nil_t) noexcept : stateless_stack_reference(){}; | ||
| 8740 | stateless_stack_reference(lua_State* L, int i) noexcept : stateless_stack_reference(absolute_index(L, i)) { | ||
| 8741 | } | ||
| 8742 | stateless_stack_reference(lua_State*, absolute_index i) noexcept : stateless_stack_reference(i) { | ||
| 8743 | } | ||
| 8744 | stateless_stack_reference(lua_State*, raw_index i) noexcept : stateless_stack_reference(i) { | ||
| 8745 | } | ||
| 8746 | stateless_stack_reference(absolute_index i) noexcept : index(i) { | ||
| 8747 | } | ||
| 8748 | stateless_stack_reference(raw_index i) noexcept : index(i) { | ||
| 8749 | } | ||
| 8750 | stateless_stack_reference(lua_State*, ref_index) noexcept = delete; | ||
| 8751 | stateless_stack_reference(ref_index) noexcept = delete; | ||
| 8752 | stateless_stack_reference(const reference&) noexcept = delete; | ||
| 8753 | stateless_stack_reference(const stateless_stack_reference&) noexcept = default; | ||
| 8754 | stateless_stack_reference(stateless_stack_reference&& o) noexcept = default; | ||
| 8755 | stateless_stack_reference& operator=(stateless_stack_reference&&) noexcept = default; | ||
| 8756 | stateless_stack_reference& operator=(const stateless_stack_reference&) noexcept = default; | ||
| 8757 | |||
| 8758 | int push(lua_State* L) const noexcept { | ||
| 8759 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 8760 | luaL_checkstack(L, 1, "not enough Lua stack space to push a single reference value"); | ||
| 8761 | #endif // make sure stack doesn't overflow | ||
| 8762 | lua_pushvalue(L, index); | ||
| 8763 | return 1; | ||
| 8764 | } | ||
| 8765 | |||
| 8766 | void pop(lua_State* L, int n = 1) const noexcept { | ||
| 8767 | lua_pop(L, n); | ||
| 8768 | } | ||
| 8769 | |||
| 8770 | int stack_index() const noexcept { | ||
| 8771 | return index; | ||
| 8772 | } | ||
| 8773 | |||
| 8774 | const void* pointer(lua_State* L) const noexcept { | ||
| 8775 | const void* vp = lua_topointer(L, stack_index()); | ||
| 8776 | return vp; | ||
| 8777 | } | ||
| 8778 | |||
| 8779 | type get_type(lua_State* L) const noexcept { | ||
| 8780 | int result = lua_type(L, index); | ||
| 8781 | return static_cast<type>(result); | ||
| 8782 | } | ||
| 8783 | |||
| 8784 | bool valid(lua_State* L) const noexcept { | ||
| 8785 | type t = get_type(L); | ||
| 8786 | return t != type::lua_nil && t != type::none; | ||
| 8787 | } | ||
| 8788 | |||
| 8789 | void abandon(lua_State* = nullptr) { | ||
| 8790 | index = 0; | ||
| 8791 | } | ||
| 8792 | }; | ||
| 8793 | |||
| 8794 | class stack_reference : public stateless_stack_reference { | ||
| 8795 | private: | ||
| 8796 | lua_State* luastate = nullptr; | ||
| 8797 | |||
| 8798 | public: | ||
| 8799 | stack_reference() noexcept = default; | ||
| 8800 | stack_reference(lua_nil_t) noexcept | ||
| 8801 | : stack_reference() {}; | ||
| 8802 | stack_reference(lua_State* L, lua_nil_t) noexcept : stateless_stack_reference(L, 0), luastate(L) { | ||
| 8803 | } | ||
| 8804 | stack_reference(lua_State* L, int i) noexcept : stateless_stack_reference(L, i), luastate(L) { | ||
| 8805 | } | ||
| 8806 | stack_reference(lua_State* L, absolute_index i) noexcept : stateless_stack_reference(L, i), luastate(L) { | ||
| 8807 | } | ||
| 8808 | stack_reference(lua_State* L, raw_index i) noexcept : stateless_stack_reference(L, i), luastate(L) { | ||
| 8809 | } | ||
| 8810 | stack_reference(lua_State* L, ref_index i) noexcept = delete; | ||
| 8811 | stack_reference(lua_State* L, const reference& r) noexcept = delete; | ||
| 8812 | stack_reference(lua_State* L, const stack_reference& r) noexcept | ||
| 8813 | : luastate(L) { | ||
| 8814 | if (!r.valid()) { | ||
| 8815 | index = 0; | ||
| 8816 | return; | ||
| 8817 | } | ||
| 8818 | int i = r.stack_index(); | ||
| 8819 | if (detail::xmovable(lua_state(), r.lua_state())) { | ||
| 8820 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 8821 | luaL_checkstack(L, 1, "not enough Lua stack space to push a single reference value"); | ||
| 8822 | #endif // make sure stack doesn't overflow | ||
| 8823 | lua_pushvalue(r.lua_state(), r.index); | ||
| 8824 | lua_xmove(r.lua_state(), luastate, 1); | ||
| 8825 | i = absolute_index(luastate, -1); | ||
| 8826 | } | ||
| 8827 | index = i; | ||
| 8828 | } | ||
| 8829 | stack_reference(stack_reference&& o) noexcept = default; | ||
| 8830 | stack_reference& operator=(stack_reference&&) noexcept = default; | ||
| 8831 | stack_reference(const stack_reference&) noexcept = default; | ||
| 8832 | stack_reference& operator=(const stack_reference&) noexcept = default; | ||
| 8833 | |||
| 8834 | int push() const noexcept { | ||
| 8835 | return push(lua_state()); | ||
| 8836 | } | ||
| 8837 | |||
| 8838 | int push(lua_State* Ls) const noexcept { | ||
| 8839 | return stateless_stack_reference::push(Ls); | ||
| 8840 | } | ||
| 8841 | |||
| 8842 | void pop() const noexcept { | ||
| 8843 | pop(lua_state()); | ||
| 8844 | } | ||
| 8845 | |||
| 8846 | void pop(lua_State* Ls, int n = 1) const noexcept { | ||
| 8847 | stateless_stack_reference::pop(Ls, n); | ||
| 8848 | } | ||
| 8849 | |||
| 8850 | const void* pointer() const noexcept { | ||
| 8851 | return stateless_stack_reference::pointer(lua_state()); | ||
| 8852 | } | ||
| 8853 | |||
| 8854 | type get_type() const noexcept { | ||
| 8855 | return stateless_stack_reference::get_type(lua_state()); | ||
| 8856 | } | ||
| 8857 | |||
| 8858 | lua_State* lua_state() const noexcept { | ||
| 8859 | return luastate; | ||
| 8860 | } | ||
| 8861 | |||
| 8862 | bool valid() const noexcept { | ||
| 8863 | return stateless_stack_reference::valid(lua_state()); | ||
| 8864 | } | ||
| 8865 | |||
| 8866 | void abandon () { | ||
| 8867 | stateless_stack_reference::abandon(lua_state()); | ||
| 8868 | } | ||
| 8869 | }; | ||
| 8870 | |||
| 8871 | inline bool operator==(const stack_reference& l, const stack_reference& r) { | ||
| 8872 | return lua_compare(l.lua_state(), l.stack_index(), r.stack_index(), LUA_OPEQ) == 0; | ||
| 8873 | } | ||
| 8874 | |||
| 8875 | inline bool operator!=(const stack_reference& l, const stack_reference& r) { | ||
| 8876 | return !operator==(l, r); | ||
| 8877 | } | ||
| 8878 | |||
| 8879 | inline bool operator==(const stack_reference& lhs, const lua_nil_t&) { | ||
| 8880 | return !lhs.valid(); | ||
| 8881 | } | ||
| 8882 | |||
| 8883 | inline bool operator==(const lua_nil_t&, const stack_reference& rhs) { | ||
| 8884 | return !rhs.valid(); | ||
| 8885 | } | ||
| 8886 | |||
| 8887 | inline bool operator!=(const stack_reference& lhs, const lua_nil_t&) { | ||
| 8888 | return lhs.valid(); | ||
| 8889 | } | ||
| 8890 | |||
| 8891 | inline bool operator!=(const lua_nil_t&, const stack_reference& rhs) { | ||
| 8892 | return rhs.valid(); | ||
| 8893 | } | ||
| 8894 | |||
| 8895 | struct stack_reference_equals { | ||
| 8896 | bool operator()(const lua_nil_t& lhs, const stack_reference& rhs) const { | ||
| 8897 | return lhs == rhs; | ||
| 8898 | } | ||
| 8899 | |||
| 8900 | bool operator()(const stack_reference& lhs, const lua_nil_t& rhs) const { | ||
| 8901 | return lhs == rhs; | ||
| 8902 | } | ||
| 8903 | |||
| 8904 | bool operator()(const stack_reference& lhs, const stack_reference& rhs) const { | ||
| 8905 | return lhs == rhs; | ||
| 8906 | } | ||
| 8907 | }; | ||
| 8908 | |||
| 8909 | struct stack_reference_hash { | ||
| 8910 | typedef stack_reference argument_type; | ||
| 8911 | typedef std::size_t result_type; | ||
| 8912 | |||
| 8913 | result_type operator()(const argument_type& lhs) const { | ||
| 8914 | std::hash<const void*> h; | ||
| 8915 | return h(lhs.pointer()); | ||
| 8916 | } | ||
| 8917 | }; | ||
| 8918 | } // namespace sol | ||
| 8919 | |||
| 8920 | // end of sol/stack_reference.hpp | ||
| 8921 | |||
| 8922 | #include <functional> | ||
| 8923 | |||
| 8924 | namespace sol { | ||
| 8925 | namespace detail { | ||
| 8926 | inline const char (&default_main_thread_name())[9] { | ||
| 8927 | static const char name[9] = "sol.\xF0\x9F\x93\x8C"; | ||
| 8928 | return name; | ||
| 8929 | } | ||
| 8930 | } // namespace detail | ||
| 8931 | |||
| 8932 | namespace stack { | ||
| 8933 | inline void remove(lua_State* L, int rawindex, int count) { | ||
| 8934 | if (count < 1) | ||
| 8935 | return; | ||
| 8936 | int top = lua_gettop(L); | ||
| 8937 | if (top < 1) { | ||
| 8938 | return; | ||
| 8939 | } | ||
| 8940 | if (rawindex == -count || top == rawindex) { | ||
| 8941 | // Slice them right off the top | ||
| 8942 | lua_pop(L, static_cast<int>(count)); | ||
| 8943 | return; | ||
| 8944 | } | ||
| 8945 | |||
| 8946 | // Remove each item one at a time using stack operations | ||
| 8947 | // Probably slower, maybe, haven't benchmarked, | ||
| 8948 | // but necessary | ||
| 8949 | int index = lua_absindex(L, rawindex); | ||
| 8950 | if (index < 0) { | ||
| 8951 | index = lua_gettop(L) + (index + 1); | ||
| 8952 | } | ||
| 8953 | int last = index + count; | ||
| 8954 | for (int i = index; i < last; ++i) { | ||
| 8955 | lua_remove(L, index); | ||
| 8956 | } | ||
| 8957 | } | ||
| 8958 | |||
| 8959 | struct push_popper_at { | ||
| 8960 | lua_State* L; | ||
| 8961 | int index; | ||
| 8962 | int count; | ||
| 8963 | push_popper_at(lua_State* luastate, int index = -1, int count = 1) : L(luastate), index(index), count(count) { | ||
| 8964 | } | ||
| 8965 | ~push_popper_at() { | ||
| 8966 | remove(L, index, count); | ||
| 8967 | } | ||
| 8968 | }; | ||
| 8969 | |||
| 8970 | template <bool top_level> | ||
| 8971 | struct push_popper_n { | ||
| 8972 | lua_State* L; | ||
| 8973 | int t; | ||
| 8974 | push_popper_n(lua_State* luastate, int x) : L(luastate), t(x) { | ||
| 8975 | } | ||
| 8976 | push_popper_n(const push_popper_n&) = delete; | ||
| 8977 | push_popper_n(push_popper_n&&) = default; | ||
| 8978 | push_popper_n& operator=(const push_popper_n&) = delete; | ||
| 8979 | push_popper_n& operator=(push_popper_n&&) = default; | ||
| 8980 | ~push_popper_n() { | ||
| 8981 | lua_pop(L, t); | ||
| 8982 | } | ||
| 8983 | }; | ||
| 8984 | |||
| 8985 | template <> | ||
| 8986 | struct push_popper_n<true> { | ||
| 8987 | push_popper_n(lua_State*, int) { | ||
| 8988 | } | ||
| 8989 | }; | ||
| 8990 | |||
| 8991 | template <bool, typename T, typename = void> | ||
| 8992 | struct push_popper { | ||
| 8993 | using Tu = meta::unqualified_t<T>; | ||
| 8994 | T t; | ||
| 8995 | int idx; | ||
| 8996 | |||
| 8997 | push_popper(T x) : t(x), idx(lua_absindex(t.lua_state(), -t.push())) { | ||
| 8998 | } | ||
| 8999 | |||
| 9000 | int index_of(const Tu&) { | ||
| 9001 | return idx; | ||
| 9002 | } | ||
| 9003 | |||
| 9004 | ~push_popper() { | ||
| 9005 | t.pop(); | ||
| 9006 | } | ||
| 9007 | }; | ||
| 9008 | |||
| 9009 | template <typename T, typename C> | ||
| 9010 | struct push_popper<true, T, C> { | ||
| 9011 | using Tu = meta::unqualified_t<T>; | ||
| 9012 | |||
| 9013 | push_popper(T) { | ||
| 9014 | } | ||
| 9015 | |||
| 9016 | int index_of(const Tu&) { | ||
| 9017 | return -1; | ||
| 9018 | } | ||
| 9019 | |||
| 9020 | ~push_popper() { | ||
| 9021 | } | ||
| 9022 | }; | ||
| 9023 | |||
| 9024 | template <typename T> | ||
| 9025 | struct push_popper<false, T, std::enable_if_t<is_stack_based_v<meta::unqualified_t<T>>>> { | ||
| 9026 | using Tu = meta::unqualified_t<T>; | ||
| 9027 | |||
| 9028 | push_popper(T) { | ||
| 9029 | } | ||
| 9030 | |||
| 9031 | int index_of(const Tu& r) { | ||
| 9032 | return r.stack_index(); | ||
| 9033 | } | ||
| 9034 | |||
| 9035 | ~push_popper() { | ||
| 9036 | } | ||
| 9037 | }; | ||
| 9038 | |||
| 9039 | template <bool top_level = false, typename T> | ||
| 9040 | push_popper<top_level, T> push_pop(T&& x) { | ||
| 9041 | return push_popper<top_level, T>(std::forward<T>(x)); | ||
| 9042 | } | ||
| 9043 | |||
| 9044 | template <typename T> | ||
| 9045 | push_popper_at push_pop_at(T&& x) { | ||
| 9046 | int c = x.push(); | ||
| 9047 | lua_State* L = x.lua_state(); | ||
| 9048 | return push_popper_at(L, lua_absindex(L, -c), c); | ||
| 9049 | } | ||
| 9050 | |||
| 9051 | template <bool top_level = false> | ||
| 9052 | push_popper_n<top_level> pop_n(lua_State* L, int x) { | ||
| 9053 | return push_popper_n<top_level>(L, x); | ||
| 9054 | } | ||
| 9055 | } // namespace stack | ||
| 9056 | |||
| 9057 | inline lua_State* main_thread(lua_State* L, lua_State* backup_if_unsupported = nullptr) { | ||
| 9058 | #if SOL_LUA_VESION_I_ < 502 | ||
| 9059 | if (L == nullptr) | ||
| 9060 | return backup_if_unsupported; | ||
| 9061 | lua_getglobal(L, detail::default_main_thread_name()); | ||
| 9062 | auto pp = stack::pop_n(L, 1); | ||
| 9063 | if (type_of(L, -1) == type::thread) { | ||
| 9064 | return lua_tothread(L, -1); | ||
| 9065 | } | ||
| 9066 | return backup_if_unsupported; | ||
| 9067 | #else | ||
| 9068 | if (L == nullptr) | ||
| 9069 | return backup_if_unsupported; | ||
| 9070 | lua_rawgeti(L, LUA_REGISTRYINDEX, LUA_RIDX_MAINTHREAD); | ||
| 9071 | lua_State* Lmain = lua_tothread(L, -1); | ||
| 9072 | lua_pop(L, 1); | ||
| 9073 | return Lmain; | ||
| 9074 | #endif // Lua 5.2+ has the main thread unqualified_getter | ||
| 9075 | } | ||
| 9076 | |||
| 9077 | namespace detail { | ||
| 9078 | struct global_tag { | ||
| 9079 | } const global_ {}; | ||
| 9080 | struct no_safety_tag { | ||
| 9081 | } const no_safety {}; | ||
| 9082 | |||
| 9083 | template <bool b> | ||
| 9084 | inline lua_State* pick_main_thread(lua_State* L, lua_State* backup_if_unsupported = nullptr) { | ||
| 9085 | (void)L; | ||
| 9086 | (void)backup_if_unsupported; | ||
| 9087 | if (b) { | ||
| 9088 | return main_thread(L, backup_if_unsupported); | ||
| 9089 | } | ||
| 9090 | return L; | ||
| 9091 | } | ||
| 9092 | } // namespace detail | ||
| 9093 | |||
| 9094 | class stateless_reference { | ||
| 9095 | private: | ||
| 9096 | template <bool o_main_only> | ||
| 9097 | friend class basic_reference; | ||
| 9098 | |||
| 9099 | int ref = LUA_NOREF; | ||
| 9100 | |||
| 9101 | int copy(lua_State* L) const noexcept { | ||
| 9102 | if (ref == LUA_NOREF) | ||
| 9103 | return LUA_NOREF; | ||
| 9104 | push(L); | ||
| 9105 | return luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9106 | } | ||
| 9107 | |||
| 9108 | lua_State* copy_assign(lua_State* L, lua_State* rL, const stateless_reference& r) { | ||
| 9109 | if (valid(L)) { | ||
| 9110 | deref(L); | ||
| 9111 | } | ||
| 9112 | ref = r.copy(L); | ||
| 9113 | return rL; | ||
| 9114 | } | ||
| 9115 | |||
| 9116 | lua_State* move_assign(lua_State* L, lua_State* rL, stateless_reference&& r) { | ||
| 9117 | if (valid(L)) { | ||
| 9118 | deref(L); | ||
| 9119 | } | ||
| 9120 | ref = r.ref; | ||
| 9121 | r.ref = LUA_NOREF; | ||
| 9122 | return rL; | ||
| 9123 | } | ||
| 9124 | |||
| 9125 | protected: | ||
| 9126 | int stack_index() const noexcept { | ||
| 9127 | return -1; | ||
| 9128 | } | ||
| 9129 | |||
| 9130 | stateless_reference(lua_State* L, detail::global_tag) noexcept { | ||
| 9131 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 9132 | luaL_checkstack(L, 1, "not enough Lua stack space to push this reference value"); | ||
| 9133 | #endif // make sure stack doesn't overflow | ||
| 9134 | lua_pushglobaltable(L); | ||
| 9135 | ref = luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9136 | } | ||
| 9137 | |||
| 9138 | stateless_reference(int raw_ref_index) noexcept : ref(raw_ref_index) { | ||
| 9139 | } | ||
| 9140 | |||
| 9141 | public: | ||
| 9142 | stateless_reference() noexcept = default; | ||
| 9143 | stateless_reference(lua_nil_t) noexcept : stateless_reference() { | ||
| 9144 | } | ||
| 9145 | stateless_reference(const stack_reference& r) noexcept : stateless_reference(r.lua_state(), r.stack_index()) { | ||
| 9146 | } | ||
| 9147 | stateless_reference(stack_reference&& r) noexcept : stateless_reference(r.lua_state(), r.stack_index()) { | ||
| 9148 | } | ||
| 9149 | stateless_reference(lua_State* L, const stateless_reference& r) noexcept { | ||
| 9150 | if (r.ref == LUA_REFNIL) { | ||
| 9151 | ref = LUA_REFNIL; | ||
| 9152 | return; | ||
| 9153 | } | ||
| 9154 | if (r.ref == LUA_NOREF || L == nullptr) { | ||
| 9155 | ref = LUA_NOREF; | ||
| 9156 | return; | ||
| 9157 | } | ||
| 9158 | ref = r.copy(L); | ||
| 9159 | } | ||
| 9160 | |||
| 9161 | stateless_reference(lua_State* L, stateless_reference&& r) noexcept { | ||
| 9162 | if (r.ref == LUA_REFNIL) { | ||
| 9163 | ref = LUA_REFNIL; | ||
| 9164 | return; | ||
| 9165 | } | ||
| 9166 | if (r.ref == LUA_NOREF || L == nullptr) { | ||
| 9167 | ref = LUA_NOREF; | ||
| 9168 | return; | ||
| 9169 | } | ||
| 9170 | ref = r.ref; | ||
| 9171 | r.ref = LUA_NOREF; | ||
| 9172 | } | ||
| 9173 | |||
| 9174 | stateless_reference(lua_State* L, const stack_reference& r) noexcept { | ||
| 9175 | if (L == nullptr || r.lua_state() == nullptr || r.get_type() == type::none) { | ||
| 9176 | ref = LUA_NOREF; | ||
| 9177 | return; | ||
| 9178 | } | ||
| 9179 | if (r.get_type() == type::lua_nil) { | ||
| 9180 | ref = LUA_REFNIL; | ||
| 9181 | return; | ||
| 9182 | } | ||
| 9183 | if (L != r.lua_state() && !detail::xmovable(L, r.lua_state())) { | ||
| 9184 | return; | ||
| 9185 | } | ||
| 9186 | r.push(L); | ||
| 9187 | ref = luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9188 | } | ||
| 9189 | |||
| 9190 | stateless_reference(lua_State* L, int index = -1) noexcept { | ||
| 9191 | // use L to stick with that state's execution stack | ||
| 9192 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 9193 | luaL_checkstack(L, 1, "not enough Lua stack space to push this reference value"); | ||
| 9194 | #endif // make sure stack doesn't overflow | ||
| 9195 | lua_pushvalue(L, index); | ||
| 9196 | ref = luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9197 | } | ||
| 9198 | stateless_reference(lua_State* L, ref_index index) noexcept { | ||
| 9199 | lua_rawgeti(L, LUA_REGISTRYINDEX, index.index); | ||
| 9200 | ref = luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9201 | } | ||
| 9202 | stateless_reference(lua_State*, lua_nil_t) noexcept { | ||
| 9203 | } | ||
| 9204 | |||
| 9205 | ~stateless_reference() noexcept = default; | ||
| 9206 | |||
| 9207 | stateless_reference(const stateless_reference& o) noexcept = delete; | ||
| 9208 | stateless_reference& operator=(const stateless_reference& r) noexcept = delete; | ||
| 9209 | |||
| 9210 | stateless_reference(stateless_reference&& o) noexcept : ref(o.ref) { | ||
| 9211 | o.ref = LUA_NOREF; | ||
| 9212 | } | ||
| 9213 | |||
| 9214 | stateless_reference& operator=(stateless_reference&& o) noexcept { | ||
| 9215 | ref = o.ref; | ||
| 9216 | o.ref = LUA_NOREF; | ||
| 9217 | return *this; | ||
| 9218 | } | ||
| 9219 | |||
| 9220 | int push(lua_State* L) const noexcept { | ||
| 9221 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 9222 | luaL_checkstack(L, 1, "not enough Lua stack space to push this reference value"); | ||
| 9223 | #endif // make sure stack doesn't overflow | ||
| 9224 | lua_rawgeti(L, LUA_REGISTRYINDEX, ref); | ||
| 9225 | return 1; | ||
| 9226 | } | ||
| 9227 | |||
| 9228 | void pop(lua_State* L, int n = 1) const noexcept { | ||
| 9229 | lua_pop(L, n); | ||
| 9230 | } | ||
| 9231 | |||
| 9232 | int registry_index() const noexcept { | ||
| 9233 | return ref; | ||
| 9234 | } | ||
| 9235 | |||
| 9236 | bool valid(lua_State*) const noexcept { | ||
| 9237 | return !(ref == LUA_NOREF || ref == LUA_REFNIL); | ||
| 9238 | } | ||
| 9239 | |||
| 9240 | const void* pointer(lua_State* L) const noexcept { | ||
| 9241 | int si = push(L); | ||
| 9242 | const void* vp = lua_topointer(L, -si); | ||
| 9243 | lua_pop(L, si); | ||
| 9244 | return vp; | ||
| 9245 | } | ||
| 9246 | |||
| 9247 | type get_type(lua_State* L) const noexcept { | ||
| 9248 | int p = push(L); | ||
| 9249 | int result = lua_type(L, -1); | ||
| 9250 | pop(L, p); | ||
| 9251 | return static_cast<type>(result); | ||
| 9252 | } | ||
| 9253 | |||
| 9254 | void abandon(lua_State* = nullptr) { | ||
| 9255 | ref = LUA_NOREF; | ||
| 9256 | } | ||
| 9257 | |||
| 9258 | void deref(lua_State* L) const noexcept { | ||
| 9259 | luaL_unref(L, LUA_REGISTRYINDEX, ref); | ||
| 9260 | } | ||
| 9261 | }; | ||
| 9262 | |||
| 9263 | template <bool main_only = false> | ||
| 9264 | class basic_reference : public stateless_reference { | ||
| 9265 | private: | ||
| 9266 | template <bool o_main_only> | ||
| 9267 | friend class basic_reference; | ||
| 9268 | lua_State* luastate = nullptr; // non-owning | ||
| 9269 | |||
| 9270 | template <bool r_main_only> | ||
| 9271 | void copy_assign(const basic_reference<r_main_only>& r) { | ||
| 9272 | if (valid()) { | ||
| 9273 | deref(); | ||
| 9274 | } | ||
| 9275 | if (r.ref == LUA_REFNIL) { | ||
| 9276 | luastate = detail::pick_main_thread < main_only && !r_main_only > (r.lua_state(), r.lua_state()); | ||
| 9277 | ref = LUA_REFNIL; | ||
| 9278 | return; | ||
| 9279 | } | ||
| 9280 | if (r.ref == LUA_NOREF) { | ||
| 9281 | luastate = r.luastate; | ||
| 9282 | ref = LUA_NOREF; | ||
| 9283 | return; | ||
| 9284 | } | ||
| 9285 | if (detail::xmovable(lua_state(), r.lua_state())) { | ||
| 9286 | r.push(lua_state()); | ||
| 9287 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9288 | return; | ||
| 9289 | } | ||
| 9290 | luastate = detail::pick_main_thread < main_only && !r_main_only > (r.lua_state(), r.lua_state()); | ||
| 9291 | ref = r.copy(); | ||
| 9292 | } | ||
| 9293 | |||
| 9294 | template <bool r_main_only> | ||
| 9295 | void move_assign(basic_reference<r_main_only>&& r) { | ||
| 9296 | if (valid()) { | ||
| 9297 | deref(); | ||
| 9298 | } | ||
| 9299 | if (r.ref == LUA_REFNIL) { | ||
| 9300 | luastate = detail::pick_main_thread < main_only && !r_main_only > (r.lua_state(), r.lua_state()); | ||
| 9301 | ref = LUA_REFNIL; | ||
| 9302 | return; | ||
| 9303 | } | ||
| 9304 | if (r.ref == LUA_NOREF) { | ||
| 9305 | luastate = r.luastate; | ||
| 9306 | ref = LUA_NOREF; | ||
| 9307 | return; | ||
| 9308 | } | ||
| 9309 | if (detail::xmovable(lua_state(), r.lua_state())) { | ||
| 9310 | r.push(lua_state()); | ||
| 9311 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9312 | return; | ||
| 9313 | } | ||
| 9314 | |||
| 9315 | luastate = detail::pick_main_thread < main_only && !r_main_only > (r.lua_state(), r.lua_state()); | ||
| 9316 | ref = r.ref; | ||
| 9317 | r.ref = LUA_NOREF; | ||
| 9318 | r.luastate = nullptr; | ||
| 9319 | } | ||
| 9320 | |||
| 9321 | protected: | ||
| 9322 | basic_reference(lua_State* L, detail::global_tag) noexcept | ||
| 9323 | : basic_reference(detail::pick_main_thread<main_only>(L, L), detail::global_, detail::global_) { | ||
| 9324 | } | ||
| 9325 | |||
| 9326 | basic_reference(lua_State* L, detail::global_tag, detail::global_tag) noexcept : stateless_reference(L, detail::global_), luastate(L) { | ||
| 9327 | } | ||
| 9328 | |||
| 9329 | basic_reference(lua_State* oL, const basic_reference<!main_only>& o) noexcept : stateless_reference(oL, o), luastate(oL) { | ||
| 9330 | } | ||
| 9331 | |||
| 9332 | void deref() const noexcept { | ||
| 9333 | return stateless_reference::deref(lua_state()); | ||
| 9334 | } | ||
| 9335 | |||
| 9336 | int copy() const noexcept { | ||
| 9337 | return copy(lua_state()); | ||
| 9338 | } | ||
| 9339 | |||
| 9340 | int copy(lua_State* L) const noexcept { | ||
| 9341 | return stateless_reference::copy(L); | ||
| 9342 | } | ||
| 9343 | |||
| 9344 | public: | ||
| 9345 | basic_reference() noexcept = default; | ||
| 9346 | basic_reference(lua_nil_t) noexcept : basic_reference() { | ||
| 9347 | } | ||
| 9348 | basic_reference(const stack_reference& r) noexcept : basic_reference(r.lua_state(), r.stack_index()) { | ||
| 9349 | } | ||
| 9350 | basic_reference(stack_reference&& r) noexcept : basic_reference(r.lua_state(), r.stack_index()) { | ||
| 9351 | } | ||
| 9352 | template <bool r_main_only> | ||
| 9353 | basic_reference(lua_State* L, const basic_reference<r_main_only>& r) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9354 | if (r.ref == LUA_REFNIL) { | ||
| 9355 | ref = LUA_REFNIL; | ||
| 9356 | return; | ||
| 9357 | } | ||
| 9358 | if (r.ref == LUA_NOREF || lua_state() == nullptr) { | ||
| 9359 | ref = LUA_NOREF; | ||
| 9360 | return; | ||
| 9361 | } | ||
| 9362 | if (detail::xmovable(lua_state(), r.lua_state())) { | ||
| 9363 | r.push(lua_state()); | ||
| 9364 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9365 | return; | ||
| 9366 | } | ||
| 9367 | ref = r.copy(); | ||
| 9368 | } | ||
| 9369 | |||
| 9370 | template <bool r_main_only> | ||
| 9371 | basic_reference(lua_State* L, basic_reference<r_main_only>&& r) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9372 | if (r.ref == LUA_REFNIL) { | ||
| 9373 | ref = LUA_REFNIL; | ||
| 9374 | return; | ||
| 9375 | } | ||
| 9376 | if (r.ref == LUA_NOREF || lua_state() == nullptr) { | ||
| 9377 | ref = LUA_NOREF; | ||
| 9378 | return; | ||
| 9379 | } | ||
| 9380 | if (detail::xmovable(lua_state(), r.lua_state())) { | ||
| 9381 | r.push(lua_state()); | ||
| 9382 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9383 | return; | ||
| 9384 | } | ||
| 9385 | ref = r.ref; | ||
| 9386 | r.ref = LUA_NOREF; | ||
| 9387 | r.luastate = nullptr; | ||
| 9388 | } | ||
| 9389 | |||
| 9390 | basic_reference(lua_State* L, const stack_reference& r) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9391 | if (lua_state() == nullptr || r.lua_state() == nullptr || r.get_type() == type::none) { | ||
| 9392 | ref = LUA_NOREF; | ||
| 9393 | return; | ||
| 9394 | } | ||
| 9395 | if (r.get_type() == type::lua_nil) { | ||
| 9396 | ref = LUA_REFNIL; | ||
| 9397 | return; | ||
| 9398 | } | ||
| 9399 | if (lua_state() != r.lua_state() && !detail::xmovable(lua_state(), r.lua_state())) { | ||
| 9400 | return; | ||
| 9401 | } | ||
| 9402 | r.push(lua_state()); | ||
| 9403 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9404 | } | ||
| 9405 | basic_reference(lua_State* L, int index = -1) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9406 | // use L to stick with that state's execution stack | ||
| 9407 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 9408 | luaL_checkstack(L, 1, "not enough Lua stack space to push this reference value"); | ||
| 9409 | #endif // make sure stack doesn't overflow | ||
| 9410 | lua_pushvalue(L, index); | ||
| 9411 | ref = luaL_ref(L, LUA_REGISTRYINDEX); | ||
| 9412 | } | ||
| 9413 | basic_reference(lua_State* L, ref_index index) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9414 | lua_rawgeti(lua_state(), LUA_REGISTRYINDEX, index.index); | ||
| 9415 | ref = luaL_ref(lua_state(), LUA_REGISTRYINDEX); | ||
| 9416 | } | ||
| 9417 | basic_reference(lua_State* L, lua_nil_t) noexcept : luastate(detail::pick_main_thread<main_only>(L, L)) { | ||
| 9418 | } | ||
| 9419 | |||
| 9420 | ~basic_reference() noexcept { | ||
| 9421 | if (lua_state() == nullptr || ref == LUA_NOREF) | ||
| 9422 | return; | ||
| 9423 | deref(); | ||
| 9424 | } | ||
| 9425 | |||
| 9426 | basic_reference(const basic_reference& o) noexcept : stateless_reference(o.copy()), luastate(o.lua_state()) { | ||
| 9427 | } | ||
| 9428 | |||
| 9429 | basic_reference(basic_reference&& o) noexcept : stateless_reference(std::move(o)), luastate(o.lua_state()) { | ||
| 9430 | o.luastate = nullptr; | ||
| 9431 | } | ||
| 9432 | |||
| 9433 | basic_reference(const basic_reference<!main_only>& o) noexcept | ||
| 9434 | : basic_reference(detail::pick_main_thread<main_only>(o.lua_state(), o.lua_state()), o) { | ||
| 9435 | } | ||
| 9436 | |||
| 9437 | basic_reference(basic_reference<!main_only>&& o) noexcept | ||
| 9438 | : stateless_reference(std::move(o)), luastate(detail::pick_main_thread<main_only>(o.lua_state(), o.lua_state())) { | ||
| 9439 | o.luastate = nullptr; | ||
| 9440 | o.ref = LUA_NOREF; | ||
| 9441 | } | ||
| 9442 | |||
| 9443 | basic_reference& operator=(basic_reference&& r) noexcept { | ||
| 9444 | move_assign(std::move(r)); | ||
| 9445 | return *this; | ||
| 9446 | } | ||
| 9447 | |||
| 9448 | basic_reference& operator=(const basic_reference& r) noexcept { | ||
| 9449 | copy_assign(r); | ||
| 9450 | return *this; | ||
| 9451 | } | ||
| 9452 | |||
| 9453 | basic_reference& operator=(basic_reference<!main_only>&& r) noexcept { | ||
| 9454 | move_assign(std::move(r)); | ||
| 9455 | return *this; | ||
| 9456 | } | ||
| 9457 | |||
| 9458 | basic_reference& operator=(const basic_reference<!main_only>& r) noexcept { | ||
| 9459 | copy_assign(r); | ||
| 9460 | return *this; | ||
| 9461 | } | ||
| 9462 | |||
| 9463 | basic_reference& operator=(const lua_nil_t&) noexcept { | ||
| 9464 | if (valid()) { | ||
| 9465 | deref(); | ||
| 9466 | } | ||
| 9467 | luastate = nullptr; | ||
| 9468 | ref = LUA_NOREF; | ||
| 9469 | return *this; | ||
| 9470 | } | ||
| 9471 | |||
| 9472 | template <typename Super> | ||
| 9473 | basic_reference& operator=(proxy_base<Super>&& r); | ||
| 9474 | |||
| 9475 | template <typename Super> | ||
| 9476 | basic_reference& operator=(const proxy_base<Super>& r); | ||
| 9477 | |||
| 9478 | int push() const noexcept { | ||
| 9479 | return push(lua_state()); | ||
| 9480 | } | ||
| 9481 | |||
| 9482 | int push(lua_State* L) const noexcept { | ||
| 9483 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 9484 | luaL_checkstack(L, 1, "not enough Lua stack space to push this reference value"); | ||
| 9485 | #endif // make sure stack doesn't overflow | ||
| 9486 | if (lua_state() == nullptr) { | ||
| 9487 | lua_pushnil(L); | ||
| 9488 | return 1; | ||
| 9489 | } | ||
| 9490 | lua_rawgeti(lua_state(), LUA_REGISTRYINDEX, ref); | ||
| 9491 | if (L != lua_state()) { | ||
| 9492 | lua_xmove(lua_state(), L, 1); | ||
| 9493 | } | ||
| 9494 | return 1; | ||
| 9495 | } | ||
| 9496 | |||
| 9497 | void pop() const noexcept { | ||
| 9498 | pop(lua_state()); | ||
| 9499 | } | ||
| 9500 | |||
| 9501 | void pop(lua_State* L, int n = 1) const noexcept { | ||
| 9502 | stateless_reference::pop(L, n); | ||
| 9503 | } | ||
| 9504 | |||
| 9505 | int registry_index() const noexcept { | ||
| 9506 | return stateless_reference::registry_index(); | ||
| 9507 | } | ||
| 9508 | |||
| 9509 | bool valid() const noexcept { | ||
| 9510 | return stateless_reference::valid(lua_state()); | ||
| 9511 | } | ||
| 9512 | |||
| 9513 | const void* pointer() const noexcept { | ||
| 9514 | return stateless_reference::pointer(lua_state()); | ||
| 9515 | } | ||
| 9516 | |||
| 9517 | explicit operator bool() const noexcept { | ||
| 9518 | return valid(); | ||
| 9519 | } | ||
| 9520 | |||
| 9521 | type get_type() const noexcept { | ||
| 9522 | return stateless_reference::get_type(lua_state()); | ||
| 9523 | } | ||
| 9524 | |||
| 9525 | lua_State* lua_state() const noexcept { | ||
| 9526 | return luastate; | ||
| 9527 | } | ||
| 9528 | }; | ||
| 9529 | |||
| 9530 | template <bool lb, bool rb> | ||
| 9531 | inline bool operator==(const basic_reference<lb>& l, const basic_reference<rb>& r) { | ||
| 9532 | auto ppl = stack::push_pop(l); | ||
| 9533 | auto ppr = stack::push_pop(r); | ||
| 9534 | return lua_compare(l.lua_state(), -1, -2, LUA_OPEQ) == 1; | ||
| 9535 | } | ||
| 9536 | |||
| 9537 | template <bool lb, bool rb> | ||
| 9538 | inline bool operator!=(const basic_reference<lb>& l, const basic_reference<rb>& r) { | ||
| 9539 | return !operator==(l, r); | ||
| 9540 | } | ||
| 9541 | |||
| 9542 | template <bool lb> | ||
| 9543 | inline bool operator==(const basic_reference<lb>& l, const stack_reference& r) { | ||
| 9544 | auto ppl = stack::push_pop(l); | ||
| 9545 | return lua_compare(l.lua_state(), -1, r.stack_index(), LUA_OPEQ) == 1; | ||
| 9546 | } | ||
| 9547 | |||
| 9548 | template <bool lb> | ||
| 9549 | inline bool operator!=(const basic_reference<lb>& l, const stack_reference& r) { | ||
| 9550 | return !operator==(l, r); | ||
| 9551 | } | ||
| 9552 | |||
| 9553 | template <bool rb> | ||
| 9554 | inline bool operator==(const stack_reference& l, const basic_reference<rb>& r) { | ||
| 9555 | auto ppr = stack::push_pop(r); | ||
| 9556 | return lua_compare(l.lua_state(), -1, r.stack_index(), LUA_OPEQ) == 1; | ||
| 9557 | } | ||
| 9558 | |||
| 9559 | template <bool rb> | ||
| 9560 | inline bool operator!=(const stack_reference& l, const basic_reference<rb>& r) { | ||
| 9561 | return !operator==(l, r); | ||
| 9562 | } | ||
| 9563 | |||
| 9564 | template <bool lb> | ||
| 9565 | inline bool operator==(const basic_reference<lb>& lhs, const lua_nil_t&) { | ||
| 9566 | return !lhs.valid(); | ||
| 9567 | } | ||
| 9568 | |||
| 9569 | template <bool rb> | ||
| 9570 | inline bool operator==(const lua_nil_t&, const basic_reference<rb>& rhs) { | ||
| 9571 | return !rhs.valid(); | ||
| 9572 | } | ||
| 9573 | |||
| 9574 | template <bool lb> | ||
| 9575 | inline bool operator!=(const basic_reference<lb>& lhs, const lua_nil_t&) { | ||
| 9576 | return lhs.valid(); | ||
| 9577 | } | ||
| 9578 | |||
| 9579 | template <bool rb> | ||
| 9580 | inline bool operator!=(const lua_nil_t&, const basic_reference<rb>& rhs) { | ||
| 9581 | return rhs.valid(); | ||
| 9582 | } | ||
| 9583 | |||
| 9584 | struct reference_equals : public stack_reference_equals { | ||
| 9585 | template <bool rb> | ||
| 9586 | bool operator()(const lua_nil_t& lhs, const basic_reference<rb>& rhs) const { | ||
| 9587 | return lhs == rhs; | ||
| 9588 | } | ||
| 9589 | |||
| 9590 | template <bool lb> | ||
| 9591 | bool operator()(const basic_reference<lb>& lhs, const lua_nil_t& rhs) const { | ||
| 9592 | return lhs == rhs; | ||
| 9593 | } | ||
| 9594 | |||
| 9595 | template <bool lb, bool rb> | ||
| 9596 | bool operator()(const basic_reference<lb>& lhs, const basic_reference<rb>& rhs) const { | ||
| 9597 | return lhs == rhs; | ||
| 9598 | } | ||
| 9599 | |||
| 9600 | template <bool lb> | ||
| 9601 | bool operator()(const basic_reference<lb>& lhs, const stack_reference& rhs) const { | ||
| 9602 | return lhs == rhs; | ||
| 9603 | } | ||
| 9604 | |||
| 9605 | template <bool rb> | ||
| 9606 | bool operator()(const stack_reference& lhs, const basic_reference<rb>& rhs) const { | ||
| 9607 | return lhs == rhs; | ||
| 9608 | } | ||
| 9609 | }; | ||
| 9610 | |||
| 9611 | struct reference_hash : public stack_reference_hash { | ||
| 9612 | typedef reference argument_type; | ||
| 9613 | typedef std::size_t result_type; | ||
| 9614 | |||
| 9615 | template <bool lb> | ||
| 9616 | result_type operator()(const basic_reference<lb>& lhs) const { | ||
| 9617 | std::hash<const void*> h; | ||
| 9618 | return h(lhs.pointer()); | ||
| 9619 | } | ||
| 9620 | }; | ||
| 9621 | } // namespace sol | ||
| 9622 | |||
| 9623 | // end of sol/reference.hpp | ||
| 9624 | |||
| 9625 | // beginning of sol/tie.hpp | ||
| 9626 | |||
| 9627 | namespace sol { | ||
| 9628 | |||
| 9629 | namespace detail { | ||
| 9630 | template <typename T> | ||
| 9631 | struct is_speshul : std::false_type {}; | ||
| 9632 | } // namespace detail | ||
| 9633 | |||
| 9634 | template <typename T> | ||
| 9635 | struct tie_size : std::tuple_size<T> {}; | ||
| 9636 | |||
| 9637 | template <typename T> | ||
| 9638 | struct is_tieable : std::integral_constant<bool, (::sol::tie_size<T>::value > 0)> {}; | ||
| 9639 | |||
| 9640 | template <typename... Tn> | ||
| 9641 | struct tie_t : public std::tuple<std::add_lvalue_reference_t<Tn>...> { | ||
| 9642 | private: | ||
| 9643 | typedef std::tuple<std::add_lvalue_reference_t<Tn>...> base_t; | ||
| 9644 | |||
| 9645 | template <typename T> | ||
| 9646 | void set(std::false_type, T&& target) { | ||
| 9647 | std::get<0>(*this) = std::forward<T>(target); | ||
| 9648 | } | ||
| 9649 | |||
| 9650 | template <typename T> | ||
| 9651 | void set(std::true_type, T&& target) { | ||
| 9652 | typedef tie_size<meta::unqualified_t<T>> value_size; | ||
| 9653 | typedef tie_size<std::tuple<Tn...>> tie_size; | ||
| 9654 | typedef meta::conditional_t<(value_size::value < tie_size::value), value_size, tie_size> indices_size; | ||
| 9655 | typedef std::make_index_sequence<indices_size::value> indices; | ||
| 9656 | set_extra(detail::is_speshul<meta::unqualified_t<T>>(), indices(), std::forward<T>(target)); | ||
| 9657 | } | ||
| 9658 | |||
| 9659 | template <std::size_t... I, typename T> | ||
| 9660 | void set_extra(std::true_type, std::index_sequence<I...>, T&& target) { | ||
| 9661 | using std::get; | ||
| 9662 | (void)detail::swallow{0, | ||
| 9663 | (get<I>(static_cast<base_t&>(*this)) = get<I>(types<Tn...>(), target), 0)..., 0}; | ||
| 9664 | } | ||
| 9665 | |||
| 9666 | template <std::size_t... I, typename T> | ||
| 9667 | void set_extra(std::false_type, std::index_sequence<I...>, T&& target) { | ||
| 9668 | using std::get; | ||
| 9669 | (void)detail::swallow{0, | ||
| 9670 | (get<I>(static_cast<base_t&>(*this)) = get<I>(target), 0)..., 0}; | ||
| 9671 | } | ||
| 9672 | |||
| 9673 | public: | ||
| 9674 | using base_t::base_t; | ||
| 9675 | |||
| 9676 | template <typename T> | ||
| 9677 | tie_t& operator=(T&& value) { | ||
| 9678 | typedef is_tieable<meta::unqualified_t<T>> tieable; | ||
| 9679 | set(tieable(), std::forward<T>(value)); | ||
| 9680 | return *this; | ||
| 9681 | } | ||
| 9682 | }; | ||
| 9683 | |||
| 9684 | template <typename... Tn> | ||
| 9685 | struct tie_size<tie_t<Tn...>> : std::tuple_size<std::tuple<Tn...>> {}; | ||
| 9686 | |||
| 9687 | namespace adl_barrier_detail { | ||
| 9688 | template <typename... Tn> | ||
| 9689 | inline tie_t<std::remove_reference_t<Tn>...> tie(Tn&&... argn) { | ||
| 9690 | return tie_t<std::remove_reference_t<Tn>...>(std::forward<Tn>(argn)...); | ||
| 9691 | } | ||
| 9692 | } // namespace adl_barrier_detail | ||
| 9693 | |||
| 9694 | using namespace adl_barrier_detail; | ||
| 9695 | |||
| 9696 | } // namespace sol | ||
| 9697 | |||
| 9698 | // end of sol/tie.hpp | ||
| 9699 | |||
| 9700 | // beginning of sol/stack_guard.hpp | ||
| 9701 | |||
| 9702 | #include <functional> | ||
| 9703 | |||
| 9704 | namespace sol { | ||
| 9705 | namespace detail { | ||
| 9706 | inline void stack_fail(int, int) { | ||
| 9707 | #if !(defined(SOL_NO_EXCEPTIONS) && SOL_NO_EXCEPTIONS) | ||
| 9708 | throw error(detail::direct_error, "imbalanced stack after operation finish"); | ||
| 9709 | #else | ||
| 9710 | // Lol, what do you want, an error printout? :3c | ||
| 9711 | // There's no sane default here. The right way would be C-style abort(), and that's not acceptable, so | ||
| 9712 | // hopefully someone will register their own stack_fail thing for the `fx` parameter of stack_guard. | ||
| 9713 | #endif // No Exceptions | ||
| 9714 | } | ||
| 9715 | } // namespace detail | ||
| 9716 | |||
| 9717 | struct stack_guard { | ||
| 9718 | lua_State* L; | ||
| 9719 | int top; | ||
| 9720 | std::function<void(int, int)> on_mismatch; | ||
| 9721 | |||
| 9722 | stack_guard(lua_State* L) : stack_guard(L, lua_gettop(L)) { | ||
| 9723 | } | ||
| 9724 | stack_guard(lua_State* L, int top, std::function<void(int, int)> fx = detail::stack_fail) : L(L), top(top), on_mismatch(std::move(fx)) { | ||
| 9725 | } | ||
| 9726 | bool check_stack(int modification = 0) const { | ||
| 9727 | int bottom = lua_gettop(L) + modification; | ||
| 9728 | if (top == bottom) { | ||
| 9729 | return true; | ||
| 9730 | } | ||
| 9731 | on_mismatch(top, bottom); | ||
| 9732 | return false; | ||
| 9733 | } | ||
| 9734 | ~stack_guard() { | ||
| 9735 | check_stack(); | ||
| 9736 | } | ||
| 9737 | }; | ||
| 9738 | } // namespace sol | ||
| 9739 | |||
| 9740 | // end of sol/stack_guard.hpp | ||
| 9741 | |||
| 9742 | #include <vector> | ||
| 9743 | #include <bitset> | ||
| 9744 | #include <forward_list> | ||
| 9745 | #include <string> | ||
| 9746 | #include <algorithm> | ||
| 9747 | #include <sstream> | ||
| 9748 | #include <optional> | ||
| 9749 | |||
| 9750 | namespace sol { | ||
| 9751 | namespace detail { | ||
| 9752 | struct with_function_tag { }; | ||
| 9753 | struct as_reference_tag { }; | ||
| 9754 | template <typename T> | ||
| 9755 | struct as_pointer_tag { }; | ||
| 9756 | template <typename T> | ||
| 9757 | struct as_value_tag { }; | ||
| 9758 | template <typename T> | ||
| 9759 | struct as_unique_tag { }; | ||
| 9760 | template <typename T> | ||
| 9761 | struct as_table_tag { }; | ||
| 9762 | |||
| 9763 | using lua_reg_table = luaL_Reg[64]; | ||
| 9764 | |||
| 9765 | using unique_destructor = void (*)(void*); | ||
| 9766 | using unique_tag = detail::inheritance_unique_cast_function; | ||
| 9767 | |||
| 9768 | inline void* align(std::size_t alignment, std::size_t size, void*& ptr, std::size_t& space, std::size_t& required_space) { | ||
| 9769 | // this handels arbitrary alignments... | ||
| 9770 | // make this into a power-of-2-only? | ||
| 9771 | // actually can't: this is a C++14-compatible framework, | ||
| 9772 | // power of 2 alignment is C++17 | ||
| 9773 | std::uintptr_t initial = reinterpret_cast<std::uintptr_t>(ptr); | ||
| 9774 | std::uintptr_t offby = static_cast<std::uintptr_t>(initial % alignment); | ||
| 9775 | std::uintptr_t padding = (alignment - offby) % alignment; | ||
| 9776 | required_space += size + padding; | ||
| 9777 | if (space < required_space) { | ||
| 9778 | return nullptr; | ||
| 9779 | } | ||
| 9780 | ptr = static_cast<void*>(static_cast<char*>(ptr) + padding); | ||
| 9781 | space -= padding; | ||
| 9782 | return ptr; | ||
| 9783 | } | ||
| 9784 | |||
| 9785 | inline void* align(std::size_t alignment, std::size_t size, void*& ptr, std::size_t& space) { | ||
| 9786 | std::size_t required_space = 0; | ||
| 9787 | return align(alignment, size, ptr, space, required_space); | ||
| 9788 | } | ||
| 9789 | |||
| 9790 | inline void align_one(std::size_t a, std::size_t s, void*& target_alignment) { | ||
| 9791 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9792 | target_alignment = align(a, s, target_alignment, space); | ||
| 9793 | target_alignment = static_cast<void*>(static_cast<char*>(target_alignment) + s); | ||
| 9794 | } | ||
| 9795 | |||
| 9796 | template <typename... Args> | ||
| 9797 | std::size_t aligned_space_for(void* alignment = nullptr) { | ||
| 9798 | // use temporary storage to prevent strict UB shenanigans | ||
| 9799 | char alignment_shim[(std::max)({ sizeof(Args)... }) + (std::max)({ alignof(Args)... })] {}; | ||
| 9800 | char* start = alignment == nullptr ? static_cast<char*>(alignment) : alignment_shim; | ||
| 9801 | (void)detail::swallow { int {}, (align_one(std::alignment_of_v<Args>, sizeof(Args), alignment), int {})... }; | ||
| 9802 | return static_cast<char*>(alignment) - start; | ||
| 9803 | } | ||
| 9804 | |||
| 9805 | inline void* align_usertype_pointer(void* ptr) { | ||
| 9806 | using use_align = std::integral_constant<bool, | ||
| 9807 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9808 | false | ||
| 9809 | #else | ||
| 9810 | (std::alignment_of<void*>::value > 1) | ||
| 9811 | #endif | ||
| 9812 | >; | ||
| 9813 | if (!use_align::value) { | ||
| 9814 | return ptr; | ||
| 9815 | } | ||
| 9816 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9817 | return align(std::alignment_of<void*>::value, sizeof(void*), ptr, space); | ||
| 9818 | } | ||
| 9819 | |||
| 9820 | template <bool pre_aligned = false, bool pre_shifted = false> | ||
| 9821 | void* align_usertype_unique_destructor(void* ptr) { | ||
| 9822 | using use_align = std::integral_constant<bool, | ||
| 9823 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9824 | false | ||
| 9825 | #else | ||
| 9826 | (std::alignment_of<unique_destructor>::value > 1) | ||
| 9827 | #endif | ||
| 9828 | >; | ||
| 9829 | if (!pre_aligned) { | ||
| 9830 | ptr = align_usertype_pointer(ptr); | ||
| 9831 | } | ||
| 9832 | if (!pre_shifted) { | ||
| 9833 | ptr = static_cast<void*>(static_cast<char*>(ptr) + sizeof(void*)); | ||
| 9834 | } | ||
| 9835 | if (!use_align::value) { | ||
| 9836 | return static_cast<void*>(static_cast<void**>(ptr) + 1); | ||
| 9837 | } | ||
| 9838 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9839 | return align(std::alignment_of<unique_destructor>::value, sizeof(unique_destructor), ptr, space); | ||
| 9840 | } | ||
| 9841 | |||
| 9842 | template <bool pre_aligned = false, bool pre_shifted = false> | ||
| 9843 | void* align_usertype_unique_tag(void* ptr) { | ||
| 9844 | using use_align = std::integral_constant<bool, | ||
| 9845 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9846 | false | ||
| 9847 | #else | ||
| 9848 | (std::alignment_of<unique_tag>::value > 1) | ||
| 9849 | #endif | ||
| 9850 | >; | ||
| 9851 | if (!pre_aligned) { | ||
| 9852 | ptr = align_usertype_unique_destructor(ptr); | ||
| 9853 | } | ||
| 9854 | if (!pre_shifted) { | ||
| 9855 | ptr = static_cast<void*>(static_cast<char*>(ptr) + sizeof(unique_destructor)); | ||
| 9856 | } | ||
| 9857 | if (!use_align::value) { | ||
| 9858 | return ptr; | ||
| 9859 | } | ||
| 9860 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9861 | return align(std::alignment_of<unique_tag>::value, sizeof(unique_tag), ptr, space); | ||
| 9862 | } | ||
| 9863 | |||
| 9864 | template <typename T, bool pre_aligned = false, bool pre_shifted = false> | ||
| 9865 | void* align_usertype_unique(void* ptr) { | ||
| 9866 | typedef std::integral_constant<bool, | ||
| 9867 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9868 | false | ||
| 9869 | #else | ||
| 9870 | (std::alignment_of_v<T> > 1) | ||
| 9871 | #endif | ||
| 9872 | > | ||
| 9873 | use_align; | ||
| 9874 | if (!pre_aligned) { | ||
| 9875 | ptr = align_usertype_unique_tag(ptr); | ||
| 9876 | } | ||
| 9877 | if (!pre_shifted) { | ||
| 9878 | ptr = static_cast<void*>(static_cast<char*>(ptr) + sizeof(unique_tag)); | ||
| 9879 | } | ||
| 9880 | if (!use_align::value) { | ||
| 9881 | return ptr; | ||
| 9882 | } | ||
| 9883 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9884 | return align(std::alignment_of_v<T>, sizeof(T), ptr, space); | ||
| 9885 | } | ||
| 9886 | |||
| 9887 | template <typename T> | ||
| 9888 | void* align_user(void* ptr) { | ||
| 9889 | typedef std::integral_constant<bool, | ||
| 9890 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9891 | false | ||
| 9892 | #else | ||
| 9893 | (std::alignment_of_v<T> > 1) | ||
| 9894 | #endif | ||
| 9895 | > | ||
| 9896 | use_align; | ||
| 9897 | if (!use_align::value) { | ||
| 9898 | return ptr; | ||
| 9899 | } | ||
| 9900 | std::size_t space = (std::numeric_limits<std::size_t>::max)(); | ||
| 9901 | return align(std::alignment_of_v<T>, sizeof(T), ptr, space); | ||
| 9902 | } | ||
| 9903 | |||
| 9904 | template <typename T> | ||
| 9905 | T** usertype_allocate_pointer(lua_State* L) { | ||
| 9906 | typedef std::integral_constant<bool, | ||
| 9907 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 9908 | false | ||
| 9909 | #else | ||
| 9910 | (std::alignment_of<T*>::value > 1) | ||
| 9911 | #endif | ||
| 9912 | > | ||
| 9913 | use_align; | ||
| 9914 | if (!use_align::value) { | ||
| 9915 | T** pointerpointer = static_cast<T**>(lua_newuserdata(L, sizeof(T*))); | ||
| 9916 | return pointerpointer; | ||
| 9917 | } | ||
| 9918 | static const std::size_t initial_size = aligned_space_for<T*>(nullptr); | ||
| 9919 | static const std::size_t misaligned_size = aligned_space_for<T*>(reinterpret_cast<void*>(0x1)); | ||
| 9920 | |||
| 9921 | std::size_t allocated_size = initial_size; | ||
| 9922 | void* unadjusted = lua_newuserdata(L, initial_size); | ||
| 9923 | void* adjusted = align(std::alignment_of<T*>::value, sizeof(T*), unadjusted, allocated_size); | ||
| 9924 | if (adjusted == nullptr) { | ||
| 9925 | lua_pop(L, 1); | ||
| 9926 | // what kind of absolute garbage trash allocator are we dealing with? | ||
| 9927 | // whatever, add some padding in the case of MAXIMAL alignment waste... | ||
| 9928 | allocated_size = misaligned_size; | ||
| 9929 | unadjusted = lua_newuserdata(L, allocated_size); | ||
| 9930 | adjusted = align(std::alignment_of<T*>::value, sizeof(T*), unadjusted, allocated_size); | ||
| 9931 | if (adjusted == nullptr) { | ||
| 9932 | // trash allocator can burn in hell | ||
| 9933 | lua_pop(L, 1); | ||
| 9934 | // luaL_error(L, "if you are the one that wrote this allocator you should feel bad for doing a | ||
| 9935 | // worse job than malloc/realloc and should go read some books, yeah?"); | ||
| 9936 | luaL_error(L, "cannot properly align memory for '%s'", detail::demangle<T*>().data()); | ||
| 9937 | } | ||
| 9938 | } | ||
| 9939 | return static_cast<T**>(adjusted); | ||
| 9940 | } | ||
| 9941 | |||
| 9942 | inline bool attempt_alloc(lua_State* L, std::size_t ptr_align, std::size_t ptr_size, std::size_t value_align, std::size_t value_size, | ||
| 9943 | std::size_t allocated_size, void*& pointer_adjusted, void*& data_adjusted) { | ||
| 9944 | void* adjusted = lua_newuserdata(L, allocated_size); | ||
| 9945 | pointer_adjusted = align(ptr_align, ptr_size, adjusted, allocated_size); | ||
| 9946 | if (pointer_adjusted == nullptr) { | ||
| 9947 | lua_pop(L, 1); | ||
| 9948 | return false; | ||
| 9949 | } | ||
| 9950 | // subtract size of what we're going to allocate there | ||
| 9951 | allocated_size -= ptr_size; | ||
| 9952 | adjusted = static_cast<void*>(static_cast<char*>(pointer_adjusted) + ptr_size); | ||
| 9953 | data_adjusted = align(value_align, value_size, adjusted, allocated_size); | ||
| 9954 | if (data_adjusted == nullptr) { | ||
| 9955 | lua_pop(L, 1); | ||
| 9956 | return false; | ||
| 9957 | } | ||
| 9958 | return true; | ||
| 9959 | } | ||
| 9960 | |||
| 9961 | inline bool attempt_alloc_unique(lua_State* L, std::size_t ptr_align, std::size_t ptr_size, std::size_t real_align, std::size_t real_size, | ||
| 9962 | std::size_t allocated_size, void*& pointer_adjusted, void*& dx_adjusted, void*& id_adjusted, void*& data_adjusted) { | ||
| 9963 | void* adjusted = lua_newuserdata(L, allocated_size); | ||
| 9964 | pointer_adjusted = align(ptr_align, ptr_size, adjusted, allocated_size); | ||
| 9965 | if (pointer_adjusted == nullptr) { | ||
| 9966 | lua_pop(L, 1); | ||
| 9967 | return false; | ||
| 9968 | } | ||
| 9969 | allocated_size -= ptr_size; | ||
| 9970 | |||
| 9971 | adjusted = static_cast<void*>(static_cast<char*>(pointer_adjusted) + ptr_size); | ||
| 9972 | dx_adjusted = align(std::alignment_of_v<unique_destructor>, sizeof(unique_destructor), adjusted, allocated_size); | ||
| 9973 | if (dx_adjusted == nullptr) { | ||
| 9974 | lua_pop(L, 1); | ||
| 9975 | return false; | ||
| 9976 | } | ||
| 9977 | allocated_size -= sizeof(unique_destructor); | ||
| 9978 | |||
| 9979 | adjusted = static_cast<void*>(static_cast<char*>(dx_adjusted) + sizeof(unique_destructor)); | ||
| 9980 | |||
| 9981 | id_adjusted = align(std::alignment_of_v<unique_tag>, sizeof(unique_tag), adjusted, allocated_size); | ||
| 9982 | if (id_adjusted == nullptr) { | ||
| 9983 | lua_pop(L, 1); | ||
| 9984 | return false; | ||
| 9985 | } | ||
| 9986 | allocated_size -= sizeof(unique_tag); | ||
| 9987 | |||
| 9988 | adjusted = static_cast<void*>(static_cast<char*>(id_adjusted) + sizeof(unique_tag)); | ||
| 9989 | data_adjusted = align(real_align, real_size, adjusted, allocated_size); | ||
| 9990 | if (data_adjusted == nullptr) { | ||
| 9991 | lua_pop(L, 1); | ||
| 9992 | return false; | ||
| 9993 | } | ||
| 9994 | return true; | ||
| 9995 | } | ||
| 9996 | |||
| 9997 | template <typename T> | ||
| 9998 | T* usertype_allocate(lua_State* L) { | ||
| 9999 | typedef std::integral_constant<bool, | ||
| 10000 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 10001 | false | ||
| 10002 | #else | ||
| 10003 | (std::alignment_of<T*>::value > 1 || std::alignment_of_v<T> > 1) | ||
| 10004 | #endif | ||
| 10005 | > | ||
| 10006 | use_align; | ||
| 10007 | if (!use_align::value) { | ||
| 10008 | T** pointerpointer = static_cast<T**>(lua_newuserdata(L, sizeof(T*) + sizeof(T))); | ||
| 10009 | T*& pointerreference = *pointerpointer; | ||
| 10010 | T* allocationtarget = reinterpret_cast<T*>(pointerpointer + 1); | ||
| 10011 | pointerreference = allocationtarget; | ||
| 10012 | return allocationtarget; | ||
| 10013 | } | ||
| 10014 | |||
| 10015 | /* the assumption is that `lua_newuserdata` -- unless someone | ||
| 10016 | passes a specific lua_Alloc that gives us bogus, un-aligned pointers | ||
| 10017 | -- uses malloc, which tends to hand out more or less aligned pointers to memory | ||
| 10018 | (most of the time, anyhow) | ||
| 10019 | |||
| 10020 | but it's not guaranteed, so we have to do a post-adjustment check and increase padding | ||
| 10021 | |||
| 10022 | we do this preliminarily with compile-time stuff, to see | ||
| 10023 | if we strike lucky with the allocator and alignment values | ||
| 10024 | |||
| 10025 | otherwise, we have to re-allocate the userdata and | ||
| 10026 | over-allocate some space for additional padding because | ||
| 10027 | compilers are optimized for aligned reads/writes | ||
| 10028 | (and clang will barf UBsan errors on us for not being aligned) | ||
| 10029 | */ | ||
| 10030 | static const std::size_t initial_size = aligned_space_for<T*, T>(nullptr); | ||
| 10031 | static const std::size_t misaligned_size = aligned_space_for<T*, T>(reinterpret_cast<void*>(0x1)); | ||
| 10032 | |||
| 10033 | void* pointer_adjusted; | ||
| 10034 | void* data_adjusted; | ||
| 10035 | bool result | ||
| 10036 | = attempt_alloc(L, std::alignment_of_v<T*>, sizeof(T*), std::alignment_of_v<T>, sizeof(T), initial_size, pointer_adjusted, data_adjusted); | ||
| 10037 | if (!result) { | ||
| 10038 | // we're likely to get something that fails to perform the proper allocation a second time, | ||
| 10039 | // so we use the suggested_new_size bump to help us out here | ||
| 10040 | pointer_adjusted = nullptr; | ||
| 10041 | data_adjusted = nullptr; | ||
| 10042 | result = attempt_alloc( | ||
| 10043 | L, std::alignment_of_v<T*>, sizeof(T*), std::alignment_of_v<T>, sizeof(T), misaligned_size, pointer_adjusted, data_adjusted); | ||
| 10044 | if (!result) { | ||
| 10045 | if (pointer_adjusted == nullptr) { | ||
| 10046 | luaL_error(L, "aligned allocation of userdata block (pointer section) for '%s' failed", detail::demangle<T>().c_str()); | ||
| 10047 | } | ||
| 10048 | else { | ||
| 10049 | luaL_error(L, "aligned allocation of userdata block (data section) for '%s' failed", detail::demangle<T>().c_str()); | ||
| 10050 | } | ||
| 10051 | return nullptr; | ||
| 10052 | } | ||
| 10053 | } | ||
| 10054 | |||
| 10055 | T** pointerpointer = reinterpret_cast<T**>(pointer_adjusted); | ||
| 10056 | T*& pointerreference = *pointerpointer; | ||
| 10057 | T* allocationtarget = reinterpret_cast<T*>(data_adjusted); | ||
| 10058 | pointerreference = allocationtarget; | ||
| 10059 | return allocationtarget; | ||
| 10060 | } | ||
| 10061 | |||
| 10062 | template <typename T, typename Real> | ||
| 10063 | Real* usertype_unique_allocate(lua_State* L, T**& pref, unique_destructor*& dx, unique_tag*& id) { | ||
| 10064 | typedef std::integral_constant<bool, | ||
| 10065 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 10066 | false | ||
| 10067 | #else | ||
| 10068 | (std::alignment_of<T*>::value > 1 || std::alignment_of<unique_tag>::value > 1 || std::alignment_of<unique_destructor>::value > 1 | ||
| 10069 | || std::alignment_of<Real>::value > 1) | ||
| 10070 | #endif | ||
| 10071 | > | ||
| 10072 | use_align; | ||
| 10073 | if (!use_align::value) { | ||
| 10074 | pref = static_cast<T**>(lua_newuserdata(L, sizeof(T*) + sizeof(detail::unique_destructor) + sizeof(unique_tag) + sizeof(Real))); | ||
| 10075 | dx = static_cast<detail::unique_destructor*>(static_cast<void*>(pref + 1)); | ||
| 10076 | id = static_cast<unique_tag*>(static_cast<void*>(dx + 1)); | ||
| 10077 | Real* mem = static_cast<Real*>(static_cast<void*>(id + 1)); | ||
| 10078 | return mem; | ||
| 10079 | } | ||
| 10080 | |||
| 10081 | static const std::size_t initial_size = aligned_space_for<T*, unique_destructor, unique_tag, Real>(nullptr); | ||
| 10082 | static const std::size_t misaligned_size = aligned_space_for<T*, unique_destructor, unique_tag, Real>(reinterpret_cast<void*>(0x1)); | ||
| 10083 | |||
| 10084 | void* pointer_adjusted; | ||
| 10085 | void* dx_adjusted; | ||
| 10086 | void* id_adjusted; | ||
| 10087 | void* data_adjusted; | ||
| 10088 | bool result = attempt_alloc_unique(L, | ||
| 10089 | std::alignment_of_v<T*>, | ||
| 10090 | sizeof(T*), | ||
| 10091 | std::alignment_of_v<Real>, | ||
| 10092 | sizeof(Real), | ||
| 10093 | initial_size, | ||
| 10094 | pointer_adjusted, | ||
| 10095 | dx_adjusted, | ||
| 10096 | id_adjusted, | ||
| 10097 | data_adjusted); | ||
| 10098 | if (!result) { | ||
| 10099 | // we're likely to get something that fails to perform the proper allocation a second time, | ||
| 10100 | // so we use the suggested_new_size bump to help us out here | ||
| 10101 | pointer_adjusted = nullptr; | ||
| 10102 | dx_adjusted = nullptr; | ||
| 10103 | id_adjusted = nullptr; | ||
| 10104 | data_adjusted = nullptr; | ||
| 10105 | result = attempt_alloc_unique(L, | ||
| 10106 | std::alignment_of_v<T*>, | ||
| 10107 | sizeof(T*), | ||
| 10108 | std::alignment_of_v<Real>, | ||
| 10109 | sizeof(Real), | ||
| 10110 | misaligned_size, | ||
| 10111 | pointer_adjusted, | ||
| 10112 | dx_adjusted, | ||
| 10113 | id_adjusted, | ||
| 10114 | data_adjusted); | ||
| 10115 | if (!result) { | ||
| 10116 | if (pointer_adjusted == nullptr) { | ||
| 10117 | luaL_error(L, "aligned allocation of userdata block (pointer section) for '%s' failed", detail::demangle<T>().c_str()); | ||
| 10118 | } | ||
| 10119 | else if (dx_adjusted == nullptr) { | ||
| 10120 | luaL_error(L, "aligned allocation of userdata block (deleter section) for '%s' failed", detail::demangle<T>().c_str()); | ||
| 10121 | } | ||
| 10122 | else { | ||
| 10123 | luaL_error(L, "aligned allocation of userdata block (data section) for '%s' failed", detail::demangle<T>().c_str()); | ||
| 10124 | } | ||
| 10125 | return nullptr; | ||
| 10126 | } | ||
| 10127 | } | ||
| 10128 | |||
| 10129 | pref = static_cast<T**>(pointer_adjusted); | ||
| 10130 | dx = static_cast<detail::unique_destructor*>(dx_adjusted); | ||
| 10131 | id = static_cast<unique_tag*>(id_adjusted); | ||
| 10132 | Real* mem = static_cast<Real*>(data_adjusted); | ||
| 10133 | return mem; | ||
| 10134 | } | ||
| 10135 | |||
| 10136 | template <typename T> | ||
| 10137 | T* user_allocate(lua_State* L) { | ||
| 10138 | typedef std::integral_constant<bool, | ||
| 10139 | #if SOL_IS_OFF(SOL_ALIGN_MEMORY_I_) | ||
| 10140 | false | ||
| 10141 | #else | ||
| 10142 | (std::alignment_of_v<T> > 1) | ||
| 10143 | #endif | ||
| 10144 | > | ||
| 10145 | use_align; | ||
| 10146 | if (!use_align::value) { | ||
| 10147 | T* pointer = static_cast<T*>(lua_newuserdata(L, sizeof(T))); | ||
| 10148 | return pointer; | ||
| 10149 | } | ||
| 10150 | |||
| 10151 | static const std::size_t initial_size = aligned_space_for<T>(nullptr); | ||
| 10152 | static const std::size_t misaligned_size = aligned_space_for<T>(reinterpret_cast<void*>(0x1)); | ||
| 10153 | |||
| 10154 | std::size_t allocated_size = initial_size; | ||
| 10155 | void* unadjusted = lua_newuserdata(L, allocated_size); | ||
| 10156 | void* adjusted = align(std::alignment_of_v<T>, sizeof(T), unadjusted, allocated_size); | ||
| 10157 | if (adjusted == nullptr) { | ||
| 10158 | lua_pop(L, 1); | ||
| 10159 | // try again, add extra space for alignment padding | ||
| 10160 | allocated_size = misaligned_size; | ||
| 10161 | unadjusted = lua_newuserdata(L, allocated_size); | ||
| 10162 | adjusted = align(std::alignment_of_v<T>, sizeof(T), unadjusted, allocated_size); | ||
| 10163 | if (adjusted == nullptr) { | ||
| 10164 | lua_pop(L, 1); | ||
| 10165 | luaL_error(L, "cannot properly align memory for '%s'", detail::demangle<T>().data()); | ||
| 10166 | } | ||
| 10167 | } | ||
| 10168 | return static_cast<T*>(adjusted); | ||
| 10169 | } | ||
| 10170 | |||
| 10171 | template <typename T> | ||
| 10172 | int usertype_alloc_destruct(lua_State* L) { | ||
| 10173 | void* memory = lua_touserdata(L, 1); | ||
| 10174 | memory = align_usertype_pointer(memory); | ||
| 10175 | T** pdata = static_cast<T**>(memory); | ||
| 10176 | T* data = *pdata; | ||
| 10177 | std::allocator<T> alloc {}; | ||
| 10178 | std::allocator_traits<std::allocator<T>>::destroy(alloc, data); | ||
| 10179 | return 0; | ||
| 10180 | } | ||
| 10181 | |||
| 10182 | template <typename T> | ||
| 10183 | int unique_destruct(lua_State* L) { | ||
| 10184 | void* memory = lua_touserdata(L, 1); | ||
| 10185 | memory = align_usertype_unique_destructor(memory); | ||
| 10186 | unique_destructor& dx = *static_cast<unique_destructor*>(memory); | ||
| 10187 | memory = align_usertype_unique_tag<true>(memory); | ||
| 10188 | (dx)(memory); | ||
| 10189 | return 0; | ||
| 10190 | } | ||
| 10191 | |||
| 10192 | template <typename T> | ||
| 10193 | int user_alloc_destruct(lua_State* L) { | ||
| 10194 | void* memory = lua_touserdata(L, 1); | ||
| 10195 | memory = align_user<T>(memory); | ||
| 10196 | T* data = static_cast<T*>(memory); | ||
| 10197 | std::allocator<T> alloc; | ||
| 10198 | std::allocator_traits<std::allocator<T>>::destroy(alloc, data); | ||
| 10199 | return 0; | ||
| 10200 | } | ||
| 10201 | |||
| 10202 | template <typename T, typename Real> | ||
| 10203 | void usertype_unique_alloc_destroy(void* memory) { | ||
| 10204 | memory = align_usertype_unique<Real, true>(memory); | ||
| 10205 | Real* target = static_cast<Real*>(memory); | ||
| 10206 | std::allocator<Real> alloc; | ||
| 10207 | std::allocator_traits<std::allocator<Real>>::destroy(alloc, target); | ||
| 10208 | } | ||
| 10209 | |||
| 10210 | template <typename T> | ||
| 10211 | int cannot_destruct(lua_State* L) { | ||
| 10212 | return luaL_error(L, | ||
| 10213 | "cannot call the destructor for '%s': it is either hidden (protected/private) or removed with '= " | ||
| 10214 | "delete' and thusly this type is being destroyed without properly destructing, invoking undefined " | ||
| 10215 | "behavior: please bind a usertype and specify a custom destructor to define the behavior properly", | ||
| 10216 | detail::demangle<T>().data()); | ||
| 10217 | } | ||
| 10218 | |||
| 10219 | template <typename T> | ||
| 10220 | void reserve(T&, std::size_t) { | ||
| 10221 | } | ||
| 10222 | |||
| 10223 | template <typename T, typename Al> | ||
| 10224 | void reserve(std::vector<T, Al>& vec, std::size_t hint) { | ||
| 10225 | vec.reserve(hint); | ||
| 10226 | } | ||
| 10227 | |||
| 10228 | template <typename T, typename Tr, typename Al> | ||
| 10229 | void reserve(std::basic_string<T, Tr, Al>& str, std::size_t hint) { | ||
| 10230 | str.reserve(hint); | ||
| 10231 | } | ||
| 10232 | |||
| 10233 | inline bool property_always_true(meta_function) { | ||
| 10234 | return true; | ||
| 10235 | } | ||
| 10236 | |||
| 10237 | struct properties_enrollment_allowed { | ||
| 10238 | int& times_through; | ||
| 10239 | std::bitset<64>& properties; | ||
| 10240 | automagic_enrollments& enrollments; | ||
| 10241 | |||
| 10242 | properties_enrollment_allowed(int& times, std::bitset<64>& props, automagic_enrollments& enroll) | ||
| 10243 | : times_through(times), properties(props), enrollments(enroll) { | ||
| 10244 | } | ||
| 10245 | |||
| 10246 | bool operator()(meta_function mf) const { | ||
| 10247 | bool p = properties[static_cast<int>(mf)]; | ||
| 10248 | if (times_through > 0) { | ||
| 10249 | return p; | ||
| 10250 | } | ||
| 10251 | switch (mf) { | ||
| 10252 | case meta_function::length: | ||
| 10253 | return enrollments.length_operator && !p; | ||
| 10254 | case meta_function::pairs: | ||
| 10255 | return enrollments.pairs_operator && !p; | ||
| 10256 | case meta_function::call: | ||
| 10257 | return enrollments.call_operator && !p; | ||
| 10258 | case meta_function::less_than: | ||
| 10259 | return enrollments.less_than_operator && !p; | ||
| 10260 | case meta_function::less_than_or_equal_to: | ||
| 10261 | return enrollments.less_than_or_equal_to_operator && !p; | ||
| 10262 | case meta_function::equal_to: | ||
| 10263 | return enrollments.equal_to_operator && !p; | ||
| 10264 | default: | ||
| 10265 | break; | ||
| 10266 | } | ||
| 10267 | return !p; | ||
| 10268 | } | ||
| 10269 | }; | ||
| 10270 | |||
| 10271 | struct indexed_insert { | ||
| 10272 | lua_reg_table& l; | ||
| 10273 | int& index; | ||
| 10274 | |||
| 10275 | indexed_insert(lua_reg_table& cont, int& idx) : l(cont), index(idx) { | ||
| 10276 | } | ||
| 10277 | void operator()(meta_function mf, lua_CFunction f) { | ||
| 10278 | l[index] = luaL_Reg { to_string(mf).c_str(), f }; | ||
| 10279 | ++index; | ||
| 10280 | } | ||
| 10281 | }; | ||
| 10282 | } // namespace detail | ||
| 10283 | |||
| 10284 | namespace stack { | ||
| 10285 | |||
| 10286 | template <typename T, bool global = false, bool raw = false, typename = void> | ||
| 10287 | struct field_getter; | ||
| 10288 | template <typename T, typename P, bool global = false, bool raw = false, typename = void> | ||
| 10289 | struct probe_field_getter; | ||
| 10290 | |||
| 10291 | template <typename T, bool global = false, bool raw = false, typename = void> | ||
| 10292 | struct field_setter; | ||
| 10293 | |||
| 10294 | template <typename T, typename = void> | ||
| 10295 | struct unqualified_getter; | ||
| 10296 | template <typename T, typename = void> | ||
| 10297 | struct qualified_getter; | ||
| 10298 | |||
| 10299 | template <typename T, typename = void> | ||
| 10300 | struct qualified_interop_getter; | ||
| 10301 | template <typename T, typename = void> | ||
| 10302 | struct unqualified_interop_getter; | ||
| 10303 | |||
| 10304 | template <typename T, typename = void> | ||
| 10305 | struct popper; | ||
| 10306 | |||
| 10307 | template <typename T, typename = void> | ||
| 10308 | struct unqualified_pusher; | ||
| 10309 | |||
| 10310 | template <typename T, type t, typename = void> | ||
| 10311 | struct unqualified_checker; | ||
| 10312 | template <typename T, type t, typename = void> | ||
| 10313 | struct qualified_checker; | ||
| 10314 | |||
| 10315 | template <typename T, typename = void> | ||
| 10316 | struct unqualified_check_getter; | ||
| 10317 | template <typename T, typename = void> | ||
| 10318 | struct qualified_check_getter; | ||
| 10319 | |||
| 10320 | struct probe { | ||
| 10321 | bool success; | ||
| 10322 | int levels; | ||
| 10323 | |||
| 10324 | probe(bool s, int l) : success(s), levels(l) { | ||
| 10325 | } | ||
| 10326 | |||
| 10327 | operator bool() const { | ||
| 10328 | return success; | ||
| 10329 | }; | ||
| 10330 | }; | ||
| 10331 | |||
| 10332 | struct record { | ||
| 10333 | int last; | ||
| 10334 | int used; | ||
| 10335 | |||
| 10336 | record() noexcept : last(), used() { | ||
| 10337 | } | ||
| 10338 | void use(int count) noexcept { | ||
| 10339 | last = count; | ||
| 10340 | used += count; | ||
| 10341 | } | ||
| 10342 | }; | ||
| 10343 | |||
| 10344 | namespace stack_detail { | ||
| 10345 | template <typename Function> | ||
| 10346 | Function* get_function_pointer(lua_State*, int, record&) noexcept; | ||
| 10347 | template <typename Function, typename Handler> | ||
| 10348 | bool check_function_pointer(lua_State* L, int index, Handler&& handler, record& tracking) noexcept; | ||
| 10349 | } // namespace stack_detail | ||
| 10350 | |||
| 10351 | } // namespace stack | ||
| 10352 | |||
| 10353 | namespace meta { namespace meta_detail { | ||
| 10354 | |||
| 10355 | template <typename T> | ||
| 10356 | using adl_sol_lua_get_test_t = decltype(sol_lua_get(types<T>(), static_cast<lua_State*>(nullptr), -1, std::declval<stack::record&>())); | ||
| 10357 | |||
| 10358 | template <typename T> | ||
| 10359 | using adl_sol_lua_interop_get_test_t | ||
| 10360 | = decltype(sol_lua_interop_get(types<T>(), static_cast<lua_State*>(nullptr), -1, static_cast<void*>(nullptr), std::declval<stack::record&>())); | ||
| 10361 | |||
| 10362 | template <typename T> | ||
| 10363 | using adl_sol_lua_check_test_t = decltype(sol_lua_check(types<T>(), static_cast<lua_State*>(nullptr), -1, no_panic, std::declval<stack::record&>())); | ||
| 10364 | |||
| 10365 | template <typename T> | ||
| 10366 | using adl_sol_lua_interop_check_test_t | ||
| 10367 | = decltype(sol_lua_interop_check(types<T>(), static_cast<lua_State*>(nullptr), -1, type::none, no_panic, std::declval<stack::record&>())); | ||
| 10368 | |||
| 10369 | template <typename T> | ||
| 10370 | using adl_sol_lua_check_get_test_t | ||
| 10371 | = decltype(sol_lua_check_get(types<T>(), static_cast<lua_State*>(nullptr), -1, no_panic, std::declval<stack::record&>())); | ||
| 10372 | |||
| 10373 | template <typename... Args> | ||
| 10374 | using adl_sol_lua_push_test_t = decltype(sol_lua_push(static_cast<lua_State*>(nullptr), std::declval<Args>()...)); | ||
| 10375 | |||
| 10376 | template <typename T, typename... Args> | ||
| 10377 | using adl_sol_lua_push_exact_test_t = decltype(sol_lua_push(types<T>(), static_cast<lua_State*>(nullptr), std::declval<Args>()...)); | ||
| 10378 | |||
| 10379 | template <typename T> | ||
| 10380 | inline constexpr bool is_adl_sol_lua_get_v = meta::is_detected_v<adl_sol_lua_get_test_t, T>; | ||
| 10381 | |||
| 10382 | template <typename T> | ||
| 10383 | inline constexpr bool is_adl_sol_lua_interop_get_v = meta::is_detected_v<adl_sol_lua_interop_get_test_t, T>; | ||
| 10384 | |||
| 10385 | template <typename T> | ||
| 10386 | inline constexpr bool is_adl_sol_lua_check_v = meta::is_detected_v<adl_sol_lua_check_test_t, T>; | ||
| 10387 | |||
| 10388 | template <typename T> | ||
| 10389 | inline constexpr bool is_adl_sol_lua_interop_check_v = meta::is_detected_v<adl_sol_lua_interop_check_test_t, T>; | ||
| 10390 | |||
| 10391 | template <typename T> | ||
| 10392 | inline constexpr bool is_adl_sol_lua_check_get_v = meta::is_detected_v<adl_sol_lua_check_get_test_t, T>; | ||
| 10393 | |||
| 10394 | template <typename... Args> | ||
| 10395 | inline constexpr bool is_adl_sol_lua_push_v = meta::is_detected_v<adl_sol_lua_push_test_t, Args...>; | ||
| 10396 | |||
| 10397 | template <typename T, typename... Args> | ||
| 10398 | inline constexpr bool is_adl_sol_lua_push_exact_v = meta::is_detected_v<adl_sol_lua_push_exact_test_t, T, Args...>; | ||
| 10399 | }} // namespace meta::meta_detail | ||
| 10400 | |||
| 10401 | namespace stack { | ||
| 10402 | namespace stack_detail { | ||
| 10403 | constexpr const char* not_enough_stack_space = "not enough space left on Lua stack"; | ||
| 10404 | constexpr const char* not_enough_stack_space_floating = "not enough space left on Lua stack for a floating point number"; | ||
| 10405 | constexpr const char* not_enough_stack_space_integral = "not enough space left on Lua stack for an integral number"; | ||
| 10406 | constexpr const char* not_enough_stack_space_string = "not enough space left on Lua stack for a string"; | ||
| 10407 | constexpr const char* not_enough_stack_space_meta_function_name = "not enough space left on Lua stack for the name of a meta_function"; | ||
| 10408 | constexpr const char* not_enough_stack_space_userdata = "not enough space left on Lua stack to create a sol3 userdata"; | ||
| 10409 | constexpr const char* not_enough_stack_space_generic = "not enough space left on Lua stack to push valuees"; | ||
| 10410 | constexpr const char* not_enough_stack_space_environment = "not enough space left on Lua stack to retrieve environment"; | ||
| 10411 | |||
| 10412 | template <typename T> | ||
| 10413 | struct strip { | ||
| 10414 | typedef T type; | ||
| 10415 | }; | ||
| 10416 | template <typename T> | ||
| 10417 | struct strip<std::reference_wrapper<T>> { | ||
| 10418 | typedef T& type; | ||
| 10419 | }; | ||
| 10420 | template <typename T> | ||
| 10421 | struct strip<user<T>> { | ||
| 10422 | typedef T& type; | ||
| 10423 | }; | ||
| 10424 | template <typename T> | ||
| 10425 | struct strip<non_null<T>> { | ||
| 10426 | typedef T type; | ||
| 10427 | }; | ||
| 10428 | template <typename T> | ||
| 10429 | using strip_t = typename strip<T>::type; | ||
| 10430 | |||
| 10431 | template <typename C> | ||
| 10432 | static int get_size_hint(C& c) { | ||
| 10433 | return static_cast<int>(c.size()); | ||
| 10434 | } | ||
| 10435 | |||
| 10436 | template <typename V, typename Al> | ||
| 10437 | static int get_size_hint(const std::forward_list<V, Al>&) { | ||
| 10438 | // forward_list makes me sad | ||
| 10439 | return static_cast<int>(32); | ||
| 10440 | } | ||
| 10441 | |||
| 10442 | template <typename T> | ||
| 10443 | decltype(auto) unchecked_unqualified_get(lua_State* L, int index, record& tracking) { | ||
| 10444 | using Tu = meta::unqualified_t<T>; | ||
| 10445 | if constexpr (meta::meta_detail::is_adl_sol_lua_get_v<Tu>) { | ||
| 10446 | return sol_lua_get(types<Tu>(), L, index, tracking); | ||
| 10447 | } | ||
| 10448 | else { | ||
| 10449 | unqualified_getter<Tu> g {}; | ||
| 10450 | (void)g; | ||
| 10451 | return g.get(L, index, tracking); | ||
| 10452 | } | ||
| 10453 | } | ||
| 10454 | |||
| 10455 | template <typename T> | ||
| 10456 | decltype(auto) unchecked_get(lua_State* L, int index, record& tracking) { | ||
| 10457 | if constexpr (meta::meta_detail::is_adl_sol_lua_get_v<T>) { | ||
| 10458 | return sol_lua_get(types<T>(), L, index, tracking); | ||
| 10459 | } | ||
| 10460 | else { | ||
| 10461 | qualified_getter<T> g {}; | ||
| 10462 | (void)g; | ||
| 10463 | return g.get(L, index, tracking); | ||
| 10464 | } | ||
| 10465 | } | ||
| 10466 | |||
| 10467 | template <typename T> | ||
| 10468 | decltype(auto) unqualified_interop_get(lua_State* L, int index, void* unadjusted_pointer, record& tracking) { | ||
| 10469 | using Tu = meta::unqualified_t<T>; | ||
| 10470 | if constexpr (meta::meta_detail::is_adl_sol_lua_interop_get_v<Tu>) { | ||
| 10471 | return sol_lua_interop_get(types<Tu>(), L, index, unadjusted_pointer, tracking); | ||
| 10472 | } | ||
| 10473 | else { | ||
| 10474 | (void)L; | ||
| 10475 | (void)index; | ||
| 10476 | (void)unadjusted_pointer; | ||
| 10477 | (void)tracking; | ||
| 10478 | using Ti = stack_detail::strip_t<Tu>; | ||
| 10479 | return std::pair<bool, Ti*> { false, nullptr }; | ||
| 10480 | } | ||
| 10481 | } | ||
| 10482 | |||
| 10483 | template <typename T> | ||
| 10484 | decltype(auto) interop_get(lua_State* L, int index, void* unadjusted_pointer, record& tracking) { | ||
| 10485 | if constexpr (meta::meta_detail::is_adl_sol_lua_interop_get_v<T>) { | ||
| 10486 | return sol_lua_interop_get(types<T>(), L, index, unadjusted_pointer, tracking); | ||
| 10487 | } | ||
| 10488 | else { | ||
| 10489 | return unqualified_interop_get<T>(L, index, unadjusted_pointer, tracking); | ||
| 10490 | } | ||
| 10491 | } | ||
| 10492 | |||
| 10493 | template <typename T, typename Handler> | ||
| 10494 | bool unqualified_interop_check(lua_State* L, int index, type index_type, Handler&& handler, record& tracking) { | ||
| 10495 | using Tu = meta::unqualified_t<T>; | ||
| 10496 | if constexpr (meta::meta_detail::is_adl_sol_lua_interop_check_v<Tu>) { | ||
| 10497 | return sol_lua_interop_check(types<Tu>(), L, index, index_type, std::forward<Handler>(handler), tracking); | ||
| 10498 | } | ||
| 10499 | else { | ||
| 10500 | (void)L; | ||
| 10501 | (void)index; | ||
| 10502 | (void)index_type; | ||
| 10503 | (void)handler; | ||
| 10504 | (void)tracking; | ||
| 10505 | return false; | ||
| 10506 | } | ||
| 10507 | } | ||
| 10508 | |||
| 10509 | template <typename T, typename Handler> | ||
| 10510 | bool interop_check(lua_State* L, int index, type index_type, Handler&& handler, record& tracking) { | ||
| 10511 | if constexpr (meta::meta_detail::is_adl_sol_lua_interop_check_v<T>) { | ||
| 10512 | return sol_lua_interop_check(types<T>(), L, index, index_type, std::forward<Handler>(handler), tracking); | ||
| 10513 | } | ||
| 10514 | else { | ||
| 10515 | return unqualified_interop_check<T>(L, index, index_type, std::forward<Handler>(handler), tracking); | ||
| 10516 | } | ||
| 10517 | } | ||
| 10518 | |||
| 10519 | using undefined_method_func = void (*)(stack_reference); | ||
| 10520 | |||
| 10521 | struct undefined_metatable { | ||
| 10522 | lua_State* L; | ||
| 10523 | const char* key; | ||
| 10524 | undefined_method_func on_new_table; | ||
| 10525 | |||
| 10526 | undefined_metatable(lua_State* l, const char* k, undefined_method_func umf) : L(l), key(k), on_new_table(umf) { | ||
| 10527 | } | ||
| 10528 | |||
| 10529 | void operator()() const { | ||
| 10530 | if (luaL_newmetatable(L, key) == 1) { | ||
| 10531 | on_new_table(stack_reference(L, -1)); | ||
| 10532 | } | ||
| 10533 | lua_setmetatable(L, -2); | ||
| 10534 | } | ||
| 10535 | }; | ||
| 10536 | } // namespace stack_detail | ||
| 10537 | |||
| 10538 | inline bool maybe_indexable(lua_State* L, int index = -1) { | ||
| 10539 | type t = type_of(L, index); | ||
| 10540 | return t == type::userdata || t == type::table; | ||
| 10541 | } | ||
| 10542 | |||
| 10543 | inline int top(lua_State* L) { | ||
| 10544 | return lua_gettop(L); | ||
| 10545 | } | ||
| 10546 | |||
| 10547 | inline bool is_main_thread(lua_State* L) { | ||
| 10548 | int ismainthread = lua_pushthread(L); | ||
| 10549 | lua_pop(L, 1); | ||
| 10550 | return ismainthread == 1; | ||
| 10551 | } | ||
| 10552 | |||
| 10553 | inline void coroutine_create_guard(lua_State* L) { | ||
| 10554 | if (is_main_thread(L)) { | ||
| 10555 | return; | ||
| 10556 | } | ||
| 10557 | int stacksize = lua_gettop(L); | ||
| 10558 | if (stacksize < 1) { | ||
| 10559 | return; | ||
| 10560 | } | ||
| 10561 | if (type_of(L, 1) != type::function) { | ||
| 10562 | return; | ||
| 10563 | } | ||
| 10564 | // well now we're screwed... | ||
| 10565 | // we can clean the stack and pray it doesn't destroy anything? | ||
| 10566 | lua_pop(L, stacksize); | ||
| 10567 | } | ||
| 10568 | |||
| 10569 | inline void clear(lua_State* L, int table_index) { | ||
| 10570 | lua_pushnil(L); | ||
| 10571 | while (lua_next(L, table_index) != 0) { | ||
| 10572 | // remove value | ||
| 10573 | lua_pop(L, 1); | ||
| 10574 | // duplicate key to protect form rawset | ||
| 10575 | lua_pushvalue(L, -1); | ||
| 10576 | // push new value | ||
| 10577 | lua_pushnil(L); | ||
| 10578 | // table_index%[key] = nil | ||
| 10579 | lua_rawset(L, table_index); | ||
| 10580 | } | ||
| 10581 | } | ||
| 10582 | |||
| 10583 | inline void clear(reference& r) { | ||
| 10584 | auto pp = push_pop<false>(r); | ||
| 10585 | int stack_index = pp.index_of(r); | ||
| 10586 | clear(r.lua_state(), stack_index); | ||
| 10587 | } | ||
| 10588 | |||
| 10589 | inline void clear(stack_reference& r) { | ||
| 10590 | clear(r.lua_state(), r.stack_index()); | ||
| 10591 | } | ||
| 10592 | |||
| 10593 | template <typename T, typename... Args> | ||
| 10594 | int push(lua_State* L, T&& t, Args&&... args) { | ||
| 10595 | using Tu = meta::unqualified_t<T>; | ||
| 10596 | if constexpr (meta::meta_detail::is_adl_sol_lua_push_exact_v<T, T, Args...>) { | ||
| 10597 | return sol_lua_push(types<T>(), L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10598 | } | ||
| 10599 | else if constexpr (meta::meta_detail::is_adl_sol_lua_push_exact_v<Tu, T, Args...>) { | ||
| 10600 | return sol_lua_push(types<Tu>(), L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10601 | } | ||
| 10602 | else if constexpr (meta::meta_detail::is_adl_sol_lua_push_v<T, Args...>) { | ||
| 10603 | return sol_lua_push(L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10604 | } | ||
| 10605 | else { | ||
| 10606 | unqualified_pusher<Tu> p {}; | ||
| 10607 | (void)p; | ||
| 10608 | return p.push(L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10609 | } | ||
| 10610 | } | ||
| 10611 | |||
| 10612 | // overload allows to use a pusher of a specific type, but pass in any kind of args | ||
| 10613 | template <typename T, typename Arg, typename... Args, typename = std::enable_if_t<!std::is_same<T, Arg>::value>> | ||
| 10614 | int push(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 10615 | using Tu = meta::unqualified_t<T>; | ||
| 10616 | if constexpr (meta::meta_detail::is_adl_sol_lua_push_exact_v<T, Arg, Args...>) { | ||
| 10617 | return sol_lua_push(types<T>(), L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10618 | } | ||
| 10619 | else if constexpr (meta::meta_detail::is_adl_sol_lua_push_exact_v<Tu, Arg, Args...>) { | ||
| 10620 | return sol_lua_push(types<Tu>(), L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10621 | } | ||
| 10622 | else if constexpr (meta::meta_detail::is_adl_sol_lua_push_v<Arg, Args...>) { | ||
| 10623 | return sol_lua_push(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10624 | } | ||
| 10625 | else { | ||
| 10626 | unqualified_pusher<Tu> p {}; | ||
| 10627 | (void)p; | ||
| 10628 | return p.push(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10629 | } | ||
| 10630 | } | ||
| 10631 | |||
| 10632 | template <typename T, typename... Args> | ||
| 10633 | int push_userdata(lua_State* L, T&& t, Args&&... args) { | ||
| 10634 | using U = meta::unqualified_t<T>; | ||
| 10635 | using Tr = meta::conditional_t<std::is_pointer_v<U>, | ||
| 10636 | detail::as_pointer_tag<std::remove_pointer_t<U>>, | ||
| 10637 | meta::conditional_t<is_unique_usertype_v<U>, detail::as_unique_tag<U>, detail::as_value_tag<U>>>; | ||
| 10638 | return stack::push<Tr>(L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10639 | } | ||
| 10640 | |||
| 10641 | template <typename T, typename Arg, typename... Args> | ||
| 10642 | int push_userdata(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 10643 | using U = meta::unqualified_t<T>; | ||
| 10644 | using Tr = meta::conditional_t<std::is_pointer_v<U>, | ||
| 10645 | detail::as_pointer_tag<std::remove_pointer_t<U>>, | ||
| 10646 | meta::conditional_t<is_unique_usertype_v<U>, detail::as_unique_tag<U>, detail::as_value_tag<U>>>; | ||
| 10647 | return stack::push<Tr>(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10648 | } | ||
| 10649 | |||
| 10650 | namespace stack_detail { | ||
| 10651 | |||
| 10652 | template <typename T, typename Arg, typename... Args> | ||
| 10653 | int push_reference(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 10654 | using use_reference_tag = meta::all<std::is_lvalue_reference<T>, | ||
| 10655 | meta::neg<std::is_const<std::remove_reference_t<T>>>, | ||
| 10656 | meta::neg<is_lua_primitive<meta::unqualified_t<T>>>, | ||
| 10657 | meta::neg<is_unique_usertype<meta::unqualified_t<T>>>>; | ||
| 10658 | using Tr = meta::conditional_t<use_reference_tag::value, detail::as_reference_tag, meta::unqualified_t<T>>; | ||
| 10659 | return stack::push<Tr>(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10660 | } | ||
| 10661 | |||
| 10662 | } // namespace stack_detail | ||
| 10663 | |||
| 10664 | template <typename T, typename... Args> | ||
| 10665 | int push_reference(lua_State* L, T&& t, Args&&... args) { | ||
| 10666 | return stack_detail::push_reference<T>(L, std::forward<T>(t), std::forward<Args>(args)...); | ||
| 10667 | } | ||
| 10668 | |||
| 10669 | template <typename T, typename Arg, typename... Args> | ||
| 10670 | int push_reference(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 10671 | return stack_detail::push_reference<T>(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 10672 | } | ||
| 10673 | |||
| 10674 | inline int multi_push(lua_State*) { | ||
| 10675 | // do nothing | ||
| 10676 | return 0; | ||
| 10677 | } | ||
| 10678 | |||
| 10679 | template <typename T, typename... Args> | ||
| 10680 | int multi_push(lua_State* L, T&& t, Args&&... args) { | ||
| 10681 | int pushcount = push(L, std::forward<T>(t)); | ||
| 10682 | void(detail::swallow { (pushcount += stack::push(L, std::forward<Args>(args)), 0)... }); | ||
| 10683 | return pushcount; | ||
| 10684 | } | ||
| 10685 | |||
| 10686 | inline int multi_push_reference(lua_State*) { | ||
| 10687 | // do nothing | ||
| 10688 | return 0; | ||
| 10689 | } | ||
| 10690 | |||
| 10691 | template <typename T, typename... Args> | ||
| 10692 | int multi_push_reference(lua_State* L, T&& t, Args&&... args) { | ||
| 10693 | int pushcount = push_reference(L, std::forward<T>(t)); | ||
| 10694 | void(detail::swallow { (pushcount += stack::push_reference(L, std::forward<Args>(args)), 0)... }); | ||
| 10695 | return pushcount; | ||
| 10696 | } | ||
| 10697 | |||
| 10698 | template <typename T, typename Handler> | ||
| 10699 | bool unqualified_check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10700 | using Tu = meta::unqualified_t<T>; | ||
| 10701 | if constexpr (meta::meta_detail::is_adl_sol_lua_check_v<Tu>) { | ||
| 10702 | return sol_lua_check(types<Tu>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 10703 | } | ||
| 10704 | else { | ||
| 10705 | unqualified_checker<Tu, lua_type_of_v<Tu>> c; | ||
| 10706 | // VC++ has a bad warning here: shut it up | ||
| 10707 | (void)c; | ||
| 10708 | return c.check(L, index, std::forward<Handler>(handler), tracking); | ||
| 10709 | } | ||
| 10710 | } | ||
| 10711 | |||
| 10712 | template <typename T, typename Handler> | ||
| 10713 | bool unqualified_check(lua_State* L, int index, Handler&& handler) { | ||
| 10714 | record tracking {}; | ||
| 10715 | return unqualified_check<T>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10716 | } | ||
| 10717 | |||
| 10718 | template <typename T> | ||
| 10719 | bool unqualified_check(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10720 | auto handler = no_panic; | ||
| 10721 | return unqualified_check<T>(L, index, handler); | ||
| 10722 | } | ||
| 10723 | |||
| 10724 | template <typename T, typename Handler> | ||
| 10725 | bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10726 | if constexpr (meta::meta_detail::is_adl_sol_lua_check_v<T>) { | ||
| 10727 | return sol_lua_check(types<T>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 10728 | } | ||
| 10729 | else { | ||
| 10730 | using Tu = meta::unqualified_t<T>; | ||
| 10731 | qualified_checker<T, lua_type_of_v<Tu>> c; | ||
| 10732 | // VC++ has a bad warning here: shut it up | ||
| 10733 | (void)c; | ||
| 10734 | return c.check(L, index, std::forward<Handler>(handler), tracking); | ||
| 10735 | } | ||
| 10736 | } | ||
| 10737 | |||
| 10738 | template <typename T, typename Handler> | ||
| 10739 | bool check(lua_State* L, int index, Handler&& handler) { | ||
| 10740 | record tracking {}; | ||
| 10741 | return check<T>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10742 | } | ||
| 10743 | |||
| 10744 | template <typename T> | ||
| 10745 | bool check(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10746 | auto handler = no_panic; | ||
| 10747 | return check<T>(L, index, handler); | ||
| 10748 | } | ||
| 10749 | |||
| 10750 | template <typename T, typename Handler> | ||
| 10751 | bool check_usertype(lua_State* L, int index, type, Handler&& handler, record& tracking) { | ||
| 10752 | using Tu = meta::unqualified_t<T>; | ||
| 10753 | using detail_t = meta::conditional_t<std::is_pointer_v<T>, detail::as_pointer_tag<Tu>, detail::as_value_tag<Tu>>; | ||
| 10754 | return check<detail_t>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10755 | } | ||
| 10756 | |||
| 10757 | template <typename T, typename Handler> | ||
| 10758 | bool check_usertype(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10759 | using Tu = meta::unqualified_t<T>; | ||
| 10760 | using detail_t = meta::conditional_t<std::is_pointer_v<T>, detail::as_pointer_tag<Tu>, detail::as_value_tag<Tu>>; | ||
| 10761 | return check<detail_t>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10762 | } | ||
| 10763 | |||
| 10764 | template <typename T, typename Handler> | ||
| 10765 | bool check_usertype(lua_State* L, int index, Handler&& handler) { | ||
| 10766 | record tracking {}; | ||
| 10767 | return check_usertype<T>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10768 | } | ||
| 10769 | |||
| 10770 | template <typename T> | ||
| 10771 | bool check_usertype(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10772 | auto handler = no_panic; | ||
| 10773 | return check_usertype<T>(L, index, handler); | ||
| 10774 | } | ||
| 10775 | |||
| 10776 | template <typename T, typename Handler> | ||
| 10777 | decltype(auto) unqualified_check_get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10778 | using Tu = meta::unqualified_t<T>; | ||
| 10779 | if constexpr (meta::meta_detail::is_adl_sol_lua_check_get_v<T>) { | ||
| 10780 | return sol_lua_check_get(types<T>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 10781 | } | ||
| 10782 | else if constexpr (meta::meta_detail::is_adl_sol_lua_check_get_v<Tu>) { | ||
| 10783 | return sol_lua_check_get(types<Tu>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 10784 | } | ||
| 10785 | else { | ||
| 10786 | unqualified_check_getter<Tu> cg {}; | ||
| 10787 | (void)cg; | ||
| 10788 | return cg.get(L, index, std::forward<Handler>(handler), tracking); | ||
| 10789 | } | ||
| 10790 | } | ||
| 10791 | |||
| 10792 | template <typename T, typename Handler> | ||
| 10793 | decltype(auto) unqualified_check_get(lua_State* L, int index, Handler&& handler) { | ||
| 10794 | record tracking {}; | ||
| 10795 | return unqualified_check_get<T>(L, index, handler, tracking); | ||
| 10796 | } | ||
| 10797 | |||
| 10798 | template <typename T> | ||
| 10799 | decltype(auto) unqualified_check_get(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10800 | auto handler = no_panic; | ||
| 10801 | return unqualified_check_get<T>(L, index, handler); | ||
| 10802 | } | ||
| 10803 | |||
| 10804 | template <typename T, typename Handler> | ||
| 10805 | decltype(auto) check_get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10806 | if constexpr (meta::meta_detail::is_adl_sol_lua_check_get_v<T>) { | ||
| 10807 | return sol_lua_check_get(types<T>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 10808 | } | ||
| 10809 | else { | ||
| 10810 | qualified_check_getter<T> cg {}; | ||
| 10811 | (void)cg; | ||
| 10812 | return cg.get(L, index, std::forward<Handler>(handler), tracking); | ||
| 10813 | } | ||
| 10814 | } | ||
| 10815 | |||
| 10816 | template <typename T, typename Handler> | ||
| 10817 | decltype(auto) check_get(lua_State* L, int index, Handler&& handler) { | ||
| 10818 | record tracking {}; | ||
| 10819 | return check_get<T>(L, index, handler, tracking); | ||
| 10820 | } | ||
| 10821 | |||
| 10822 | template <typename T> | ||
| 10823 | decltype(auto) check_get(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10824 | auto handler = no_panic; | ||
| 10825 | return check_get<T>(L, index, handler); | ||
| 10826 | } | ||
| 10827 | |||
| 10828 | namespace stack_detail { | ||
| 10829 | |||
| 10830 | template <typename Handler> | ||
| 10831 | bool check_types(lua_State*, int, Handler&&, record&) { | ||
| 10832 | return true; | ||
| 10833 | } | ||
| 10834 | |||
| 10835 | template <typename T, typename... Args, typename Handler> | ||
| 10836 | bool check_types(lua_State* L, int firstargument, Handler&& handler, record& tracking) { | ||
| 10837 | if (!stack::check<T>(L, firstargument + tracking.used, handler, tracking)) | ||
| 10838 | return false; | ||
| 10839 | return check_types<Args...>(L, firstargument, std::forward<Handler>(handler), tracking); | ||
| 10840 | } | ||
| 10841 | |||
| 10842 | template <typename... Args, typename Handler> | ||
| 10843 | bool check_types(types<Args...>, lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10844 | return check_types<Args...>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10845 | } | ||
| 10846 | |||
| 10847 | } // namespace stack_detail | ||
| 10848 | |||
| 10849 | template <typename... Args, typename Handler> | ||
| 10850 | bool multi_check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 10851 | return stack_detail::check_types<Args...>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10852 | } | ||
| 10853 | |||
| 10854 | template <typename... Args, typename Handler> | ||
| 10855 | bool multi_check(lua_State* L, int index, Handler&& handler) { | ||
| 10856 | record tracking {}; | ||
| 10857 | return multi_check<Args...>(L, index, std::forward<Handler>(handler), tracking); | ||
| 10858 | } | ||
| 10859 | |||
| 10860 | template <typename... Args> | ||
| 10861 | bool multi_check(lua_State* L, int index) { | ||
| 10862 | return multi_check<Args...>(L, index); | ||
| 10863 | } | ||
| 10864 | |||
| 10865 | template <typename T> | ||
| 10866 | auto unqualified_get(lua_State* L, int index, record& tracking) -> decltype(stack_detail::unchecked_unqualified_get<T>(L, index, tracking)) { | ||
| 10867 | #if SOL_IS_ON(SOL_SAFE_GETTER_I_) | ||
| 10868 | static constexpr bool is_op = meta::is_optional_v<T>; | ||
| 10869 | if constexpr (is_op) { | ||
| 10870 | return stack_detail::unchecked_unqualified_get<T>(L, index, tracking); | ||
| 10871 | } | ||
| 10872 | else { | ||
| 10873 | if (is_lua_reference<T>::value) { | ||
| 10874 | return stack_detail::unchecked_unqualified_get<T>(L, index, tracking); | ||
| 10875 | } | ||
| 10876 | auto op = unqualified_check_get<T>(L, index, type_panic_c_str, tracking); | ||
| 10877 | return *std::move(op); | ||
| 10878 | } | ||
| 10879 | #else | ||
| 10880 | return stack_detail::unchecked_unqualified_get<T>(L, index, tracking); | ||
| 10881 | #endif | ||
| 10882 | } | ||
| 10883 | |||
| 10884 | template <typename T> | ||
| 10885 | decltype(auto) unqualified_get(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10886 | record tracking {}; | ||
| 10887 | return unqualified_get<T>(L, index, tracking); | ||
| 10888 | } | ||
| 10889 | |||
| 10890 | template <typename T> | ||
| 10891 | auto get(lua_State* L, int index, record& tracking) -> decltype(stack_detail::unchecked_get<T>(L, index, tracking)) { | ||
| 10892 | #if SOL_IS_ON(SOL_SAFE_GETTER_I_) | ||
| 10893 | static constexpr bool is_op = meta::is_optional_v<T>; | ||
| 10894 | if constexpr (is_op) { | ||
| 10895 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 10896 | } | ||
| 10897 | else { | ||
| 10898 | if (is_lua_reference<T>::value) { | ||
| 10899 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 10900 | } | ||
| 10901 | auto op = check_get<T>(L, index, type_panic_c_str, tracking); | ||
| 10902 | return *std::move(op); | ||
| 10903 | } | ||
| 10904 | #else | ||
| 10905 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 10906 | #endif | ||
| 10907 | } | ||
| 10908 | |||
| 10909 | template <typename T> | ||
| 10910 | decltype(auto) get(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10911 | record tracking {}; | ||
| 10912 | return get<T>(L, index, tracking); | ||
| 10913 | } | ||
| 10914 | |||
| 10915 | template <typename T> | ||
| 10916 | decltype(auto) get_usertype(lua_State* L, int index, record& tracking) { | ||
| 10917 | using UT = meta::conditional_t<std::is_pointer<T>::value, detail::as_pointer_tag<std::remove_pointer_t<T>>, detail::as_value_tag<T>>; | ||
| 10918 | return get<UT>(L, index, tracking); | ||
| 10919 | } | ||
| 10920 | |||
| 10921 | template <typename T> | ||
| 10922 | decltype(auto) get_usertype(lua_State* L, int index = -lua_size<meta::unqualified_t<T>>::value) { | ||
| 10923 | record tracking {}; | ||
| 10924 | return get_usertype<T>(L, index, tracking); | ||
| 10925 | } | ||
| 10926 | |||
| 10927 | template <typename T> | ||
| 10928 | decltype(auto) pop(lua_State* L) { | ||
| 10929 | return popper<meta::unqualified_t<T>> {}.pop(L); | ||
| 10930 | } | ||
| 10931 | |||
| 10932 | template <bool global = false, bool raw = false, typename Key> | ||
| 10933 | void get_field(lua_State* L, Key&& key) { | ||
| 10934 | field_getter<meta::unqualified_t<Key>, global, raw> {}.get(L, std::forward<Key>(key)); | ||
| 10935 | } | ||
| 10936 | |||
| 10937 | template <bool global = false, bool raw = false, typename Key> | ||
| 10938 | void get_field(lua_State* L, Key&& key, int tableindex) { | ||
| 10939 | field_getter<meta::unqualified_t<Key>, global, raw> {}.get(L, std::forward<Key>(key), tableindex); | ||
| 10940 | } | ||
| 10941 | |||
| 10942 | template <bool global = false, typename Key> | ||
| 10943 | void raw_get_field(lua_State* L, Key&& key) { | ||
| 10944 | get_field<global, true>(L, std::forward<Key>(key)); | ||
| 10945 | } | ||
| 10946 | |||
| 10947 | template <bool global = false, typename Key> | ||
| 10948 | void raw_get_field(lua_State* L, Key&& key, int tableindex) { | ||
| 10949 | get_field<global, true>(L, std::forward<Key>(key), tableindex); | ||
| 10950 | } | ||
| 10951 | |||
| 10952 | template <bool global = false, bool raw = false, typename C = detail::non_lua_nil_t, typename Key> | ||
| 10953 | probe probe_get_field(lua_State* L, Key&& key) { | ||
| 10954 | return probe_field_getter<meta::unqualified_t<Key>, C, global, raw> {}.get(L, std::forward<Key>(key)); | ||
| 10955 | } | ||
| 10956 | |||
| 10957 | template <bool global = false, bool raw = false, typename C = detail::non_lua_nil_t, typename Key> | ||
| 10958 | probe probe_get_field(lua_State* L, Key&& key, int tableindex) { | ||
| 10959 | return probe_field_getter<meta::unqualified_t<Key>, C, global, raw> {}.get(L, std::forward<Key>(key), tableindex); | ||
| 10960 | } | ||
| 10961 | |||
| 10962 | template <bool global = false, typename C = detail::non_lua_nil_t, typename Key> | ||
| 10963 | probe probe_raw_get_field(lua_State* L, Key&& key) { | ||
| 10964 | return probe_get_field<global, true, C>(L, std::forward<Key>(key)); | ||
| 10965 | } | ||
| 10966 | |||
| 10967 | template <bool global = false, typename C = detail::non_lua_nil_t, typename Key> | ||
| 10968 | probe probe_raw_get_field(lua_State* L, Key&& key, int tableindex) { | ||
| 10969 | return probe_get_field<global, true, C>(L, std::forward<Key>(key), tableindex); | ||
| 10970 | } | ||
| 10971 | |||
| 10972 | template <bool global = false, bool raw = false, typename Key, typename Value> | ||
| 10973 | void set_field(lua_State* L, Key&& key, Value&& value) { | ||
| 10974 | field_setter<meta::unqualified_t<Key>, global, raw> {}.set(L, std::forward<Key>(key), std::forward<Value>(value)); | ||
| 10975 | } | ||
| 10976 | |||
| 10977 | template <bool global = false, bool raw = false, typename Key, typename Value> | ||
| 10978 | void set_field(lua_State* L, Key&& key, Value&& value, int tableindex) { | ||
| 10979 | field_setter<meta::unqualified_t<Key>, global, raw> {}.set(L, std::forward<Key>(key), std::forward<Value>(value), tableindex); | ||
| 10980 | } | ||
| 10981 | |||
| 10982 | template <bool global = false, typename Key, typename Value> | ||
| 10983 | void raw_set_field(lua_State* L, Key&& key, Value&& value) { | ||
| 10984 | set_field<global, true>(L, std::forward<Key>(key), std::forward<Value>(value)); | ||
| 10985 | } | ||
| 10986 | |||
| 10987 | template <bool global = false, typename Key, typename Value> | ||
| 10988 | void raw_set_field(lua_State* L, Key&& key, Value&& value, int tableindex) { | ||
| 10989 | set_field<global, true>(L, std::forward<Key>(key), std::forward<Value>(value), tableindex); | ||
| 10990 | } | ||
| 10991 | |||
| 10992 | template <typename T, typename F> | ||
| 10993 | void modify_unique_usertype_as(const stack_reference& obj, F&& f) { | ||
| 10994 | using u_traits = unique_usertype_traits<T>; | ||
| 10995 | void* raw = lua_touserdata(obj.lua_state(), obj.stack_index()); | ||
| 10996 | void* ptr_memory = detail::align_usertype_pointer(raw); | ||
| 10997 | void* uu_memory = detail::align_usertype_unique<T>(raw); | ||
| 10998 | T& uu = *static_cast<T*>(uu_memory); | ||
| 10999 | f(uu); | ||
| 11000 | *static_cast<void**>(ptr_memory) = static_cast<void*>(u_traits::get(uu)); | ||
| 11001 | } | ||
| 11002 | |||
| 11003 | template <typename F> | ||
| 11004 | void modify_unique_usertype(const stack_reference& obj, F&& f) { | ||
| 11005 | using bt = meta::bind_traits<meta::unqualified_t<F>>; | ||
| 11006 | using T = typename bt::template arg_at<0>; | ||
| 11007 | using Tu = meta::unqualified_t<T>; | ||
| 11008 | modify_unique_usertype_as<Tu>(obj, std::forward<F>(f)); | ||
| 11009 | } | ||
| 11010 | |||
| 11011 | } // namespace stack | ||
| 11012 | |||
| 11013 | namespace detail { | ||
| 11014 | |||
| 11015 | template <typename T> | ||
| 11016 | lua_CFunction make_destructor(std::true_type) { | ||
| 11017 | if constexpr (is_unique_usertype_v<T>) { | ||
| 11018 | return &unique_destruct<T>; | ||
| 11019 | } | ||
| 11020 | else if constexpr (!std::is_pointer_v<T>) { | ||
| 11021 | return &usertype_alloc_destruct<T>; | ||
| 11022 | } | ||
| 11023 | else { | ||
| 11024 | return &cannot_destruct<T>; | ||
| 11025 | } | ||
| 11026 | } | ||
| 11027 | |||
| 11028 | template <typename T> | ||
| 11029 | lua_CFunction make_destructor(std::false_type) { | ||
| 11030 | return &cannot_destruct<T>; | ||
| 11031 | } | ||
| 11032 | |||
| 11033 | template <typename T> | ||
| 11034 | lua_CFunction make_destructor() { | ||
| 11035 | return make_destructor<T>(std::is_destructible<T>()); | ||
| 11036 | } | ||
| 11037 | |||
| 11038 | struct no_comp { | ||
| 11039 | template <typename A, typename B> | ||
| 11040 | bool operator()(A&&, B&&) const { | ||
| 11041 | return false; | ||
| 11042 | } | ||
| 11043 | }; | ||
| 11044 | |||
| 11045 | template <typename T> | ||
| 11046 | int is_check(lua_State* L) { | ||
| 11047 | return stack::push(L, stack::check<T>(L, 1, &no_panic)); | ||
| 11048 | } | ||
| 11049 | |||
| 11050 | template <typename T> | ||
| 11051 | int member_default_to_string(std::true_type, lua_State* L) { | ||
| 11052 | decltype(auto) ts = stack::get<T>(L, 1).to_string(); | ||
| 11053 | return stack::push(L, std::forward<decltype(ts)>(ts)); | ||
| 11054 | } | ||
| 11055 | |||
| 11056 | template <typename T> | ||
| 11057 | int member_default_to_string(std::false_type, lua_State* L) { | ||
| 11058 | return luaL_error(L, | ||
| 11059 | "cannot perform to_string on '%s': no 'to_string' overload in namespace, 'to_string' member " | ||
| 11060 | "function, or operator<<(ostream&, ...) present", | ||
| 11061 | detail::demangle<T>().data()); | ||
| 11062 | } | ||
| 11063 | |||
| 11064 | template <typename T> | ||
| 11065 | int adl_default_to_string(std::true_type, lua_State* L) { | ||
| 11066 | using namespace std; | ||
| 11067 | decltype(auto) ts = to_string(stack::get<T>(L, 1)); | ||
| 11068 | return stack::push(L, std::forward<decltype(ts)>(ts)); | ||
| 11069 | } | ||
| 11070 | |||
| 11071 | template <typename T> | ||
| 11072 | int adl_default_to_string(std::false_type, lua_State* L) { | ||
| 11073 | return member_default_to_string<T>(meta::supports_to_string_member<T>(), L); | ||
| 11074 | } | ||
| 11075 | |||
| 11076 | template <typename T> | ||
| 11077 | int oss_default_to_string(std::true_type, lua_State* L) { | ||
| 11078 | std::ostringstream oss; | ||
| 11079 | oss << stack::unqualified_get<T>(L, 1); | ||
| 11080 | return stack::push(L, oss.str()); | ||
| 11081 | } | ||
| 11082 | |||
| 11083 | template <typename T> | ||
| 11084 | int oss_default_to_string(std::false_type, lua_State* L) { | ||
| 11085 | return adl_default_to_string<T>(meta::supports_adl_to_string<T>(), L); | ||
| 11086 | } | ||
| 11087 | |||
| 11088 | template <typename T> | ||
| 11089 | int default_to_string(lua_State* L) { | ||
| 11090 | return oss_default_to_string<T>(meta::supports_op_left_shift<std::ostream, T>(), L); | ||
| 11091 | } | ||
| 11092 | |||
| 11093 | template <typename T> | ||
| 11094 | int default_size(lua_State* L) { | ||
| 11095 | decltype(auto) self = stack::unqualified_get<T>(L, 1); | ||
| 11096 | return stack::push(L, self.size()); | ||
| 11097 | } | ||
| 11098 | |||
| 11099 | template <typename T, typename Op> | ||
| 11100 | int comparsion_operator_wrap(lua_State* L) { | ||
| 11101 | if constexpr (std::is_void_v<T>) { | ||
| 11102 | return stack::push(L, false); | ||
| 11103 | } | ||
| 11104 | else { | ||
| 11105 | auto maybel = stack::unqualified_check_get<T>(L, 1); | ||
| 11106 | if (!maybel) { | ||
| 11107 | return stack::push(L, false); | ||
| 11108 | } | ||
| 11109 | auto mayber = stack::unqualified_check_get<T>(L, 2); | ||
| 11110 | if (!mayber) { | ||
| 11111 | return stack::push(L, false); | ||
| 11112 | } | ||
| 11113 | decltype(auto) l = *maybel; | ||
| 11114 | decltype(auto) r = *mayber; | ||
| 11115 | if constexpr (std::is_same_v<no_comp, Op>) { | ||
| 11116 | std::equal_to<> op; | ||
| 11117 | return stack::push(L, op(detail::ptr(l), detail::ptr(r))); | ||
| 11118 | } | ||
| 11119 | else { | ||
| 11120 | if constexpr (std::is_same_v<std::equal_to<>, Op> // clang-format hack | ||
| 11121 | || std::is_same_v<std::less_equal<>, Op> // | ||
| 11122 | || std::is_same_v<std::less_equal<>, Op>) { // | ||
| 11123 | if (detail::ptr(l) == detail::ptr(r)) { | ||
| 11124 | return stack::push(L, true); | ||
| 11125 | } | ||
| 11126 | } | ||
| 11127 | Op op; | ||
| 11128 | return stack::push(L, op(detail::deref(l), detail::deref(r))); | ||
| 11129 | } | ||
| 11130 | } | ||
| 11131 | } | ||
| 11132 | |||
| 11133 | template <typename T, typename IFx, typename Fx> | ||
| 11134 | void insert_default_registrations(IFx&& ifx, Fx&& fx); | ||
| 11135 | |||
| 11136 | template <typename T, bool, bool> | ||
| 11137 | struct get_is_primitive : is_lua_primitive<T> { }; | ||
| 11138 | |||
| 11139 | template <typename T> | ||
| 11140 | struct get_is_primitive<T, true, false> | ||
| 11141 | : meta::neg<std::is_reference<decltype(sol_lua_get(types<T>(), nullptr, -1, std::declval<stack::record&>()))>> { }; | ||
| 11142 | |||
| 11143 | template <typename T> | ||
| 11144 | struct get_is_primitive<T, false, true> | ||
| 11145 | : meta::neg<std::is_reference<decltype(sol_lua_get(types<meta::unqualified_t<T>>(), nullptr, -1, std::declval<stack::record&>()))>> { }; | ||
| 11146 | |||
| 11147 | template <typename T> | ||
| 11148 | struct get_is_primitive<T, true, true> : get_is_primitive<T, true, false> { }; | ||
| 11149 | |||
| 11150 | } // namespace detail | ||
| 11151 | |||
| 11152 | template <typename T> | ||
| 11153 | struct is_proxy_primitive | ||
| 11154 | : detail::get_is_primitive<T, meta::meta_detail::is_adl_sol_lua_get_v<T>, meta::meta_detail::is_adl_sol_lua_get_v<meta::unqualified_t<T>>> { }; | ||
| 11155 | |||
| 11156 | } // namespace sol | ||
| 11157 | |||
| 11158 | // end of sol/stack_core.hpp | ||
| 11159 | |||
| 11160 | // beginning of sol/stack_check.hpp | ||
| 11161 | |||
| 11162 | // beginning of sol/stack_check_unqualified.hpp | ||
| 11163 | |||
| 11164 | #include <memory> | ||
| 11165 | #include <functional> | ||
| 11166 | #include <utility> | ||
| 11167 | #include <cmath> | ||
| 11168 | #include <optional> | ||
| 11169 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 11170 | #include <variant> | ||
| 11171 | #endif // variant shenanigans | ||
| 11172 | |||
| 11173 | namespace sol { namespace stack { | ||
| 11174 | namespace stack_detail { | ||
| 11175 | inline bool impl_check_metatable(lua_State* L, int index, const std::string& metakey, bool poptable) { | ||
| 11176 | luaL_getmetatable(L, &metakey[0]); | ||
| 11177 | const type expectedmetatabletype = static_cast<type>(lua_type(L, -1)); | ||
| 11178 | if (expectedmetatabletype != type::lua_nil) { | ||
| 11179 | if (lua_rawequal(L, -1, index) == 1) { | ||
| 11180 | lua_pop(L, 1 + static_cast<int>(poptable)); | ||
| 11181 | return true; | ||
| 11182 | } | ||
| 11183 | } | ||
| 11184 | lua_pop(L, 1); | ||
| 11185 | return false; | ||
| 11186 | } | ||
| 11187 | |||
| 11188 | template <typename T, bool poptable = true> | ||
| 11189 | inline bool check_metatable(lua_State* L, int index = -2) { | ||
| 11190 | return impl_check_metatable(L, index, usertype_traits<T>::metatable(), poptable); | ||
| 11191 | } | ||
| 11192 | |||
| 11193 | template <type expected, int (*check_func)(lua_State*, int)> | ||
| 11194 | struct basic_check { | ||
| 11195 | template <typename Handler> | ||
| 11196 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11197 | tracking.use(1); | ||
| 11198 | bool success = check_func(L, index) == 1; | ||
| 11199 | if (!success) { | ||
| 11200 | // expected type, actual type | ||
| 11201 | handler(L, index, expected, type_of(L, index), ""); | ||
| 11202 | } | ||
| 11203 | return success; | ||
| 11204 | } | ||
| 11205 | }; | ||
| 11206 | } // namespace stack_detail | ||
| 11207 | |||
| 11208 | template <typename T, typename> | ||
| 11209 | struct unqualified_interop_checker { | ||
| 11210 | template <typename Handler> | ||
| 11211 | static bool check(lua_State*, int, type, Handler&&, record&) { | ||
| 11212 | return false; | ||
| 11213 | } | ||
| 11214 | }; | ||
| 11215 | |||
| 11216 | template <typename T, typename> | ||
| 11217 | struct qualified_interop_checker { | ||
| 11218 | template <typename Handler> | ||
| 11219 | static bool check(lua_State* L, int index, type index_type, Handler&& handler, record& tracking) { | ||
| 11220 | return stack_detail::unqualified_interop_check<T>(L, index, index_type, std::forward<Handler>(handler), tracking); | ||
| 11221 | } | ||
| 11222 | }; | ||
| 11223 | |||
| 11224 | template <typename T, type expected, typename> | ||
| 11225 | struct unqualified_checker { | ||
| 11226 | template <typename Handler> | ||
| 11227 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11228 | if constexpr (std::is_same_v<T, bool>) { | ||
| 11229 | tracking.use(1); | ||
| 11230 | bool success = lua_isboolean(L, index) == 1; | ||
| 11231 | if (!success) { | ||
| 11232 | // expected type, actual type | ||
| 11233 | handler(L, index, expected, type_of(L, index), ""); | ||
| 11234 | } | ||
| 11235 | return success; | ||
| 11236 | } | ||
| 11237 | else if constexpr (meta::any_same_v<T, char /* , char8_t*/, char16_t, char32_t>) { | ||
| 11238 | return stack::check<std::basic_string<T>>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11239 | } | ||
| 11240 | else if constexpr (std::is_integral_v<T> || std::is_same_v<T, lua_Integer>) { | ||
| 11241 | tracking.use(1); | ||
| 11242 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 11243 | // Lua 5.3 and greater checks for numeric precision | ||
| 11244 | #if SOL_IS_ON(SOL_STRINGS_ARE_NUMBERS_I_) | ||
| 11245 | // imprecise, sloppy conversions | ||
| 11246 | int isnum = 0; | ||
| 11247 | lua_tointegerx(L, index, &isnum); | ||
| 11248 | const bool success = isnum != 0; | ||
| 11249 | if (!success) { | ||
| 11250 | // expected type, actual type | ||
| 11251 | handler(L, index, type::number, type_of(L, index), detail::not_a_number_or_number_string_integral); | ||
| 11252 | } | ||
| 11253 | #elif SOL_IS_ON(SOL_NUMBER_PRECISION_CHECKS_I_) | ||
| 11254 | // this check is precise, do not convert | ||
| 11255 | if (lua_isinteger(L, index) == 1) { | ||
| 11256 | return true; | ||
| 11257 | } | ||
| 11258 | const bool success = false; | ||
| 11259 | if (!success) { | ||
| 11260 | // expected type, actual type | ||
| 11261 | handler(L, index, type::number, type_of(L, index), detail::not_a_number_integral); | ||
| 11262 | } | ||
| 11263 | #else | ||
| 11264 | // Numerics are neither safe nor string-convertible | ||
| 11265 | type t = type_of(L, index); | ||
| 11266 | const bool success = t == type::number; | ||
| 11267 | #endif | ||
| 11268 | if (!success) { | ||
| 11269 | // expected type, actual type | ||
| 11270 | handler(L, index, type::number, type_of(L, index), detail::not_a_number); | ||
| 11271 | } | ||
| 11272 | return success; | ||
| 11273 | #else | ||
| 11274 | // Lua 5.2 and below checks | ||
| 11275 | #if SOL_IS_OFF(SOL_STRINGS_ARE_NUMBERS_I_) | ||
| 11276 | // must pre-check, because it will convert | ||
| 11277 | type t = type_of(L, index); | ||
| 11278 | if (t != type::number) { | ||
| 11279 | // expected type, actual type | ||
| 11280 | handler(L, index, type::number, t, detail::not_a_number); | ||
| 11281 | return false; | ||
| 11282 | } | ||
| 11283 | #endif // Do not allow strings to be numbers | ||
| 11284 | |||
| 11285 | #if SOL_IS_ON(SOL_NUMBER_PRECISION_CHECKS_I_) | ||
| 11286 | int isnum = 0; | ||
| 11287 | const lua_Number v = lua_tonumberx(L, index, &isnum); | ||
| 11288 | const bool success = isnum != 0 && static_cast<lua_Number>(llround(v)) == v; | ||
| 11289 | #else | ||
| 11290 | const bool success = true; | ||
| 11291 | #endif // Safe numerics and number precision checking | ||
| 11292 | if (!success) { | ||
| 11293 | // Use defines to provide a better error message! | ||
| 11294 | #if SOL_IS_ON(SOL_STRINGS_ARE_NUMBERS_I_) | ||
| 11295 | handler(L, index, type::number, type_of(L, index), detail::not_a_number_or_number_string); | ||
| 11296 | #elif SOL_IS_ON(SOL_NUMBER_PRECISION_CHECKS_I_) | ||
| 11297 | handler(L, index, type::number, t, detail::not_a_number_or_number_string); | ||
| 11298 | #else | ||
| 11299 | handler(L, index, type::number, t, detail::not_a_number); | ||
| 11300 | #endif | ||
| 11301 | } | ||
| 11302 | return success; | ||
| 11303 | #endif | ||
| 11304 | } | ||
| 11305 | else if constexpr (std::is_floating_point_v<T> || std::is_same_v<T, lua_Number>) { | ||
| 11306 | tracking.use(1); | ||
| 11307 | #if SOL_IS_ON(SOL_STRINGS_ARE_NUMBERS_I_) | ||
| 11308 | bool success = lua_isnumber(L, index) == 1; | ||
| 11309 | if (!success) { | ||
| 11310 | // expected type, actual type | ||
| 11311 | handler(L, index, type::number, type_of(L, index), detail::not_a_number_or_number_string); | ||
| 11312 | } | ||
| 11313 | return success; | ||
| 11314 | #else | ||
| 11315 | type t = type_of(L, index); | ||
| 11316 | bool success = t == type::number; | ||
| 11317 | if (!success) { | ||
| 11318 | // expected type, actual type | ||
| 11319 | handler(L, index, type::number, t, detail::not_a_number); | ||
| 11320 | } | ||
| 11321 | return success; | ||
| 11322 | #endif // Strings are Numbers | ||
| 11323 | } | ||
| 11324 | else if constexpr (meta::any_same_v<T, type, this_state, this_main_state, this_environment, variadic_args>) { | ||
| 11325 | (void)L; | ||
| 11326 | (void)index; | ||
| 11327 | (void)handler; | ||
| 11328 | tracking.use(0); | ||
| 11329 | return true; | ||
| 11330 | } | ||
| 11331 | else if constexpr (is_unique_usertype_v<T>) { | ||
| 11332 | using proper_T = typename unique_usertype_traits<T>::type; | ||
| 11333 | const type indextype = type_of(L, index); | ||
| 11334 | tracking.use(1); | ||
| 11335 | if (indextype != type::userdata) { | ||
| 11336 | handler(L, index, type::userdata, indextype, "value is not a userdata"); | ||
| 11337 | return false; | ||
| 11338 | } | ||
| 11339 | if (lua_getmetatable(L, index) == 0) { | ||
| 11340 | return true; | ||
| 11341 | } | ||
| 11342 | int metatableindex = lua_gettop(L); | ||
| 11343 | if (stack_detail::check_metatable<detail::unique_usertype<proper_T>>(L, metatableindex)) { | ||
| 11344 | void* memory = lua_touserdata(L, index); | ||
| 11345 | memory = detail::align_usertype_unique_destructor(memory); | ||
| 11346 | detail::unique_destructor& pdx = *static_cast<detail::unique_destructor*>(memory); | ||
| 11347 | bool success = &detail::usertype_unique_alloc_destroy<proper_T, T> == pdx; | ||
| 11348 | if (!success) { | ||
| 11349 | memory = detail::align_usertype_unique_tag<true>(memory); | ||
| 11350 | #if 0 | ||
| 11351 | // New version | ||
| 11352 | #else | ||
| 11353 | const char*& name_tag = *static_cast<const char**>(memory); | ||
| 11354 | success = usertype_traits<T>::qualified_name() == name_tag; | ||
| 11355 | #endif | ||
| 11356 | if (!success) { | ||
| 11357 | handler(L, index, type::userdata, indextype, "value is a userdata but is not the correct unique usertype"); | ||
| 11358 | } | ||
| 11359 | } | ||
| 11360 | return success; | ||
| 11361 | } | ||
| 11362 | lua_pop(L, 1); | ||
| 11363 | handler(L, index, type::userdata, indextype, "unrecognized userdata (not pushed by sol?)"); | ||
| 11364 | return false; | ||
| 11365 | } | ||
| 11366 | else if constexpr (meta::any_same_v<T, lua_nil_t, std::nullopt_t, nullopt_t>) { | ||
| 11367 | bool success = lua_isnil(L, index); | ||
| 11368 | if (success) { | ||
| 11369 | tracking.use(1); | ||
| 11370 | return success; | ||
| 11371 | } | ||
| 11372 | tracking.use(0); | ||
| 11373 | success = lua_isnone(L, index); | ||
| 11374 | if (!success) { | ||
| 11375 | // expected type, actual type | ||
| 11376 | handler(L, index, expected, type_of(L, index), ""); | ||
| 11377 | } | ||
| 11378 | return success; | ||
| 11379 | } | ||
| 11380 | else if constexpr (std::is_same_v<T, env_key_t>) { | ||
| 11381 | tracking.use(1); | ||
| 11382 | type t = type_of(L, index); | ||
| 11383 | if (t == type::table || t == type::none || t == type::lua_nil || t == type::userdata) { | ||
| 11384 | return true; | ||
| 11385 | } | ||
| 11386 | handler(L, index, type::table, t, "value cannot not have a valid environment"); | ||
| 11387 | return true; | ||
| 11388 | } | ||
| 11389 | else if constexpr (std::is_same_v<T, detail::non_lua_nil_t>) { | ||
| 11390 | return !stack::unqualified_check<lua_nil_t>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11391 | } | ||
| 11392 | else if constexpr (meta::is_specialization_of_v<T, basic_lua_table>) { | ||
| 11393 | tracking.use(1); | ||
| 11394 | type t = type_of(L, index); | ||
| 11395 | if (t != type::table) { | ||
| 11396 | handler(L, index, type::table, t, "value is not a table"); | ||
| 11397 | return false; | ||
| 11398 | } | ||
| 11399 | return true; | ||
| 11400 | } | ||
| 11401 | else if constexpr (meta::is_specialization_of_v<T, basic_bytecode>) { | ||
| 11402 | tracking.use(1); | ||
| 11403 | type t = type_of(L, index); | ||
| 11404 | if (t != type::function) { | ||
| 11405 | handler(L, index, type::function, t, "value is not a function that can be dumped"); | ||
| 11406 | return false; | ||
| 11407 | } | ||
| 11408 | return true; | ||
| 11409 | } | ||
| 11410 | else if constexpr (meta::is_specialization_of_v<T, basic_environment>) { | ||
| 11411 | tracking.use(1); | ||
| 11412 | if (lua_getmetatable(L, index) == 0) { | ||
| 11413 | return true; | ||
| 11414 | } | ||
| 11415 | type t = type_of(L, -1); | ||
| 11416 | if (t == type::table || t == type::none || t == type::lua_nil) { | ||
| 11417 | lua_pop(L, 1); | ||
| 11418 | return true; | ||
| 11419 | } | ||
| 11420 | if (t != type::userdata) { | ||
| 11421 | lua_pop(L, 1); | ||
| 11422 | handler(L, index, type::table, t, "value does not have a valid metatable"); | ||
| 11423 | return false; | ||
| 11424 | } | ||
| 11425 | return true; | ||
| 11426 | } | ||
| 11427 | else if constexpr (std::is_same_v<T, metatable_key_t>) { | ||
| 11428 | tracking.use(1); | ||
| 11429 | if (lua_getmetatable(L, index) == 0) { | ||
| 11430 | return true; | ||
| 11431 | } | ||
| 11432 | type t = type_of(L, -1); | ||
| 11433 | if (t == type::table || t == type::none || t == type::lua_nil) { | ||
| 11434 | lua_pop(L, 1); | ||
| 11435 | return true; | ||
| 11436 | } | ||
| 11437 | if (t != type::userdata) { | ||
| 11438 | lua_pop(L, 1); | ||
| 11439 | handler(L, index, expected, t, "value does not have a valid metatable"); | ||
| 11440 | return false; | ||
| 11441 | } | ||
| 11442 | return true; | ||
| 11443 | } | ||
| 11444 | else if constexpr (std::is_same_v<T, luaL_Stream*> || std::is_same_v<T, luaL_Stream>) { | ||
| 11445 | if (lua_getmetatable(L, index) == 0) { | ||
| 11446 | type t = type_of(L, index); | ||
| 11447 | handler(L, index, expected, t, "value is not a valid luaL_Stream (has no metatable/is not a valid value)"); | ||
| 11448 | return false; | ||
| 11449 | } | ||
| 11450 | luaL_getmetatable(L, LUA_FILEHANDLE); | ||
| 11451 | if (type_of(L, index) != type::table) { | ||
| 11452 | type t = type_of(L, index); | ||
| 11453 | lua_pop(L, 1); | ||
| 11454 | handler(L, | ||
| 11455 | index, | ||
| 11456 | expected, | ||
| 11457 | t, | ||
| 11458 | "value is not a valid luaL_Stream (there is no metatable for luaL_Stream -- did you forget to " | ||
| 11459 | "my_lua_state.open_libraries(sol::lib::state) or equivalent?)"); | ||
| 11460 | return false; | ||
| 11461 | } | ||
| 11462 | int is_stream_table = lua_compare(L, -1, -2, LUA_OPEQ); | ||
| 11463 | lua_pop(L, 2); | ||
| 11464 | if (is_stream_table == 0) { | ||
| 11465 | type t = type_of(L, index); | ||
| 11466 | handler(L, index, expected, t, "value is not a valid luaL_Stream (incorrect metatable)"); | ||
| 11467 | return false; | ||
| 11468 | } | ||
| 11469 | return true; | ||
| 11470 | } | ||
| 11471 | else if constexpr (meta::is_optional_v<T>) { | ||
| 11472 | using ValueType = typename T::value_type; | ||
| 11473 | (void)handler; | ||
| 11474 | type t = type_of(L, index); | ||
| 11475 | if (t == type::none) { | ||
| 11476 | tracking.use(0); | ||
| 11477 | return true; | ||
| 11478 | } | ||
| 11479 | if (t == type::lua_nil) { | ||
| 11480 | tracking.use(1); | ||
| 11481 | return true; | ||
| 11482 | } | ||
| 11483 | return stack::unqualified_check<ValueType>(L, index, no_panic, tracking); | ||
| 11484 | } | ||
| 11485 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 11486 | else if constexpr (std::is_function_v<T> || (std::is_pointer_v<T> && std::is_function_v<std::remove_pointer_t<T>>)) { | ||
| 11487 | return stack_detail::check_function_pointer<std::remove_pointer_t<T>>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11488 | } | ||
| 11489 | #endif | ||
| 11490 | else if constexpr (expected == type::userdata) { | ||
| 11491 | if constexpr (meta::any_same_v<T, userdata_value> || meta::is_specialization_of_v<T, basic_userdata>) { | ||
| 11492 | tracking.use(1); | ||
| 11493 | type t = type_of(L, index); | ||
| 11494 | bool success = t == type::userdata; | ||
| 11495 | if (!success) { | ||
| 11496 | // expected type, actual type | ||
| 11497 | handler(L, index, type::userdata, t, ""); | ||
| 11498 | } | ||
| 11499 | return success; | ||
| 11500 | } | ||
| 11501 | else if constexpr (meta::is_specialization_of_v<T, user>) { | ||
| 11502 | unqualified_checker<lightuserdata_value, type::userdata> c; | ||
| 11503 | (void)c; | ||
| 11504 | return c.check(L, index, std::forward<Handler>(handler), tracking); | ||
| 11505 | } | ||
| 11506 | else { | ||
| 11507 | if constexpr (std::is_pointer_v<T>) { | ||
| 11508 | return check_usertype<T>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11509 | } | ||
| 11510 | else if constexpr (meta::is_specialization_of_v<T, std::reference_wrapper>) { | ||
| 11511 | using T_internal = typename T::type; | ||
| 11512 | return stack::check<T_internal>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11513 | } | ||
| 11514 | else { | ||
| 11515 | return check_usertype<T>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11516 | } | ||
| 11517 | } | ||
| 11518 | } | ||
| 11519 | else if constexpr (expected == type::poly) { | ||
| 11520 | tracking.use(1); | ||
| 11521 | bool success = is_lua_reference_v<T> || !lua_isnone(L, index); | ||
| 11522 | if (!success) { | ||
| 11523 | // expected type, actual type | ||
| 11524 | handler(L, index, type::poly, type_of(L, index), ""); | ||
| 11525 | } | ||
| 11526 | return success; | ||
| 11527 | } | ||
| 11528 | else if constexpr (expected == type::lightuserdata) { | ||
| 11529 | tracking.use(1); | ||
| 11530 | type t = type_of(L, index); | ||
| 11531 | bool success = t == type::userdata || t == type::lightuserdata; | ||
| 11532 | if (!success) { | ||
| 11533 | // expected type, actual type | ||
| 11534 | handler(L, index, type::lightuserdata, t, ""); | ||
| 11535 | } | ||
| 11536 | return success; | ||
| 11537 | } | ||
| 11538 | else if constexpr (expected == type::function) { | ||
| 11539 | if constexpr (meta::any_same_v<T, lua_CFunction, std::remove_pointer_t<lua_CFunction>, c_closure>) { | ||
| 11540 | tracking.use(1); | ||
| 11541 | bool success = lua_iscfunction(L, index) == 1; | ||
| 11542 | if (!success) { | ||
| 11543 | // expected type, actual type | ||
| 11544 | handler(L, index, expected, type_of(L, index), ""); | ||
| 11545 | } | ||
| 11546 | return success; | ||
| 11547 | } | ||
| 11548 | else { | ||
| 11549 | tracking.use(1); | ||
| 11550 | type t = type_of(L, index); | ||
| 11551 | if (t == type::lua_nil || t == type::none || t == type::function) { | ||
| 11552 | // allow for lua_nil to be returned | ||
| 11553 | return true; | ||
| 11554 | } | ||
| 11555 | if (t != type::userdata && t != type::table) { | ||
| 11556 | handler(L, index, type::function, t, "must be a function or table or a userdata"); | ||
| 11557 | return false; | ||
| 11558 | } | ||
| 11559 | // Do advanced check for call-style userdata? | ||
| 11560 | static const auto& callkey = to_string(meta_function::call); | ||
| 11561 | if (lua_getmetatable(L, index) == 0) { | ||
| 11562 | // No metatable, no __call key possible | ||
| 11563 | handler(L, index, type::function, t, "value is not a function and does not have overriden metatable"); | ||
| 11564 | return false; | ||
| 11565 | } | ||
| 11566 | if (lua_isnoneornil(L, -1)) { | ||
| 11567 | lua_pop(L, 1); | ||
| 11568 | handler(L, index, type::function, t, "value is not a function and does not have valid metatable"); | ||
| 11569 | return false; | ||
| 11570 | } | ||
| 11571 | lua_getfield(L, -1, &callkey[0]); | ||
| 11572 | if (lua_isnoneornil(L, -1)) { | ||
| 11573 | lua_pop(L, 2); | ||
| 11574 | handler(L, index, type::function, t, "value's metatable does not have __call overridden in metatable, cannot call this type"); | ||
| 11575 | return false; | ||
| 11576 | } | ||
| 11577 | // has call, is definitely a function | ||
| 11578 | lua_pop(L, 2); | ||
| 11579 | return true; | ||
| 11580 | } | ||
| 11581 | } | ||
| 11582 | else if constexpr (expected == type::table) { | ||
| 11583 | tracking.use(1); | ||
| 11584 | type t = type_of(L, index); | ||
| 11585 | if (t == type::table) { | ||
| 11586 | return true; | ||
| 11587 | } | ||
| 11588 | if (t != type::userdata) { | ||
| 11589 | handler(L, index, type::table, t, "value is not a table or a userdata that can behave like one"); | ||
| 11590 | return false; | ||
| 11591 | } | ||
| 11592 | return true; | ||
| 11593 | } | ||
| 11594 | else { | ||
| 11595 | tracking.use(1); | ||
| 11596 | const type indextype = type_of(L, index); | ||
| 11597 | bool success = expected == indextype; | ||
| 11598 | if (!success) { | ||
| 11599 | // expected type, actual type, message | ||
| 11600 | handler(L, index, expected, indextype, ""); | ||
| 11601 | } | ||
| 11602 | return success; | ||
| 11603 | } | ||
| 11604 | } | ||
| 11605 | }; | ||
| 11606 | |||
| 11607 | template <typename T> | ||
| 11608 | struct unqualified_checker<non_null<T>, type::userdata> : unqualified_checker<T, lua_type_of_v<T>> { }; | ||
| 11609 | |||
| 11610 | template <typename T> | ||
| 11611 | struct unqualified_checker<detail::as_value_tag<T>, type::userdata> { | ||
| 11612 | template <typename Handler> | ||
| 11613 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11614 | const type indextype = type_of(L, index); | ||
| 11615 | return check(types<T>(), L, index, indextype, std::forward<Handler>(handler), tracking); | ||
| 11616 | } | ||
| 11617 | |||
| 11618 | template <typename U, typename Handler> | ||
| 11619 | static bool check(types<U>, lua_State* L, int index, type indextype, Handler&& handler, record& tracking) { | ||
| 11620 | if constexpr ( | ||
| 11621 | std::is_same_v<T, | ||
| 11622 | lightuserdata_value> || std::is_same_v<T, userdata_value> || std::is_same_v<T, userdata> || std::is_same_v<T, lightuserdata>) { | ||
| 11623 | tracking.use(1); | ||
| 11624 | if (indextype != type::userdata) { | ||
| 11625 | handler(L, index, type::userdata, indextype, "value is not a valid userdata"); | ||
| 11626 | return false; | ||
| 11627 | } | ||
| 11628 | return true; | ||
| 11629 | } | ||
| 11630 | else { | ||
| 11631 | #if SOL_IS_ON(SOL_USE_INTEROP_I_) | ||
| 11632 | if (stack_detail::interop_check<U>(L, index, indextype, handler, tracking)) { | ||
| 11633 | return true; | ||
| 11634 | } | ||
| 11635 | #endif // interop extensibility | ||
| 11636 | tracking.use(1); | ||
| 11637 | if (indextype != type::userdata) { | ||
| 11638 | handler(L, index, type::userdata, indextype, "value is not a valid userdata"); | ||
| 11639 | return false; | ||
| 11640 | } | ||
| 11641 | if (lua_getmetatable(L, index) == 0) { | ||
| 11642 | return true; | ||
| 11643 | } | ||
| 11644 | int metatableindex = lua_gettop(L); | ||
| 11645 | if (stack_detail::check_metatable<U>(L, metatableindex)) | ||
| 11646 | return true; | ||
| 11647 | if (stack_detail::check_metatable<U*>(L, metatableindex)) | ||
| 11648 | return true; | ||
| 11649 | if (stack_detail::check_metatable<detail::unique_usertype<U>>(L, metatableindex)) | ||
| 11650 | return true; | ||
| 11651 | if (stack_detail::check_metatable<as_container_t<U>>(L, metatableindex)) | ||
| 11652 | return true; | ||
| 11653 | bool success = false; | ||
| 11654 | bool has_derived = derive<T>::value || weak_derive<T>::value; | ||
| 11655 | if (has_derived) { | ||
| 11656 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 11657 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 11658 | #endif // make sure stack doesn't overflow | ||
| 11659 | auto pn = stack::pop_n(L, 1); | ||
| 11660 | lua_pushstring(L, &detail::base_class_check_key()[0]); | ||
| 11661 | lua_rawget(L, metatableindex); | ||
| 11662 | if (type_of(L, -1) != type::lua_nil) { | ||
| 11663 | void* basecastdata = lua_touserdata(L, -1); | ||
| 11664 | detail::inheritance_check_function ic = reinterpret_cast<detail::inheritance_check_function>(basecastdata); | ||
| 11665 | success = ic(usertype_traits<T>::qualified_name()); | ||
| 11666 | } | ||
| 11667 | } | ||
| 11668 | lua_pop(L, 1); | ||
| 11669 | if (!success) { | ||
| 11670 | handler(L, index, type::userdata, indextype, "value at this index does not properly reflect the desired type"); | ||
| 11671 | return false; | ||
| 11672 | } | ||
| 11673 | return true; | ||
| 11674 | } | ||
| 11675 | } | ||
| 11676 | }; | ||
| 11677 | |||
| 11678 | template <typename T> | ||
| 11679 | struct unqualified_checker<detail::as_pointer_tag<T>, type::userdata> { | ||
| 11680 | template <typename Handler> | ||
| 11681 | static bool check(lua_State* L, int index, type indextype, Handler&& handler, record& tracking) { | ||
| 11682 | if (indextype == type::lua_nil) { | ||
| 11683 | tracking.use(1); | ||
| 11684 | return true; | ||
| 11685 | } | ||
| 11686 | return check_usertype<std::remove_pointer_t<T>>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11687 | } | ||
| 11688 | |||
| 11689 | template <typename Handler> | ||
| 11690 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11691 | const type indextype = type_of(L, index); | ||
| 11692 | return check(L, index, indextype, std::forward<Handler>(handler), tracking); | ||
| 11693 | } | ||
| 11694 | }; | ||
| 11695 | |||
| 11696 | template <typename... Args> | ||
| 11697 | struct unqualified_checker<std::tuple<Args...>, type::poly> { | ||
| 11698 | template <typename Handler> | ||
| 11699 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11700 | return stack::multi_check<Args...>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11701 | } | ||
| 11702 | }; | ||
| 11703 | |||
| 11704 | template <typename A, typename B> | ||
| 11705 | struct unqualified_checker<std::pair<A, B>, type::poly> { | ||
| 11706 | template <typename Handler> | ||
| 11707 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11708 | return stack::multi_check<A, B>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11709 | } | ||
| 11710 | }; | ||
| 11711 | |||
| 11712 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 11713 | |||
| 11714 | template <typename... Tn> | ||
| 11715 | struct unqualified_checker<std::variant<Tn...>, type::poly> { | ||
| 11716 | typedef std::variant<Tn...> V; | ||
| 11717 | typedef std::variant_size<V> V_size; | ||
| 11718 | typedef std::integral_constant<bool, V_size::value == 0> V_is_empty; | ||
| 11719 | |||
| 11720 | template <typename Handler> | ||
| 11721 | static bool is_one(std::integral_constant<std::size_t, 0>, lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11722 | if constexpr (V_is_empty::value) { | ||
| 11723 | if (lua_isnone(L, index)) { | ||
| 11724 | return true; | ||
| 11725 | } | ||
| 11726 | } | ||
| 11727 | tracking.use(1); | ||
| 11728 | handler(L, index, type::poly, type_of(L, index), "value does not fit any type present in the variant"); | ||
| 11729 | return false; | ||
| 11730 | } | ||
| 11731 | |||
| 11732 | template <std::size_t I, typename Handler> | ||
| 11733 | static bool is_one(std::integral_constant<std::size_t, I>, lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11734 | typedef std::variant_alternative_t<I - 1, V> T; | ||
| 11735 | record temp_tracking = tracking; | ||
| 11736 | if (stack::check<T>(L, index, no_panic, temp_tracking)) { | ||
| 11737 | tracking = temp_tracking; | ||
| 11738 | return true; | ||
| 11739 | } | ||
| 11740 | return is_one(std::integral_constant<std::size_t, I - 1>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 11741 | } | ||
| 11742 | |||
| 11743 | template <typename Handler> | ||
| 11744 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11745 | return is_one(std::integral_constant<std::size_t, V_size::value>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 11746 | } | ||
| 11747 | }; | ||
| 11748 | |||
| 11749 | #endif // variant shenanigans | ||
| 11750 | |||
| 11751 | }} // namespace sol::stack | ||
| 11752 | |||
| 11753 | // end of sol/stack_check_unqualified.hpp | ||
| 11754 | |||
| 11755 | // beginning of sol/stack_check_qualified.hpp | ||
| 11756 | |||
| 11757 | namespace sol { | ||
| 11758 | namespace stack { | ||
| 11759 | |||
| 11760 | template <typename X, type expected, typename> | ||
| 11761 | struct qualified_checker { | ||
| 11762 | template <typename Handler> | ||
| 11763 | static bool check(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 11764 | if constexpr (!std::is_reference_v<X> && is_unique_usertype_v<X>) { | ||
| 11765 | using u_traits = unique_usertype_traits<meta::unqualified_t<X>>; | ||
| 11766 | using T = typename u_traits::type; | ||
| 11767 | if constexpr (is_base_rebindable_non_void_v<u_traits>) { | ||
| 11768 | using rebind_t = typename u_traits::template rebind_base<void>; | ||
| 11769 | // we have a unique pointer type that can be | ||
| 11770 | // rebound to a base/derived type | ||
| 11771 | const type indextype = type_of(L, index); | ||
| 11772 | tracking.use(1); | ||
| 11773 | if (indextype != type::userdata) { | ||
| 11774 | handler(L, index, type::userdata, indextype, "value is not a userdata"); | ||
| 11775 | return false; | ||
| 11776 | } | ||
| 11777 | void* memory = lua_touserdata(L, index); | ||
| 11778 | memory = detail::align_usertype_unique_destructor(memory); | ||
| 11779 | detail::unique_destructor& pdx = *static_cast<detail::unique_destructor*>(memory); | ||
| 11780 | if (&detail::usertype_unique_alloc_destroy<T, X> == pdx) { | ||
| 11781 | return true; | ||
| 11782 | } | ||
| 11783 | if constexpr (derive<T>::value) { | ||
| 11784 | memory = detail::align_usertype_unique_tag<true, false>(memory); | ||
| 11785 | detail::unique_tag& ic = *reinterpret_cast<detail::unique_tag*>(memory); | ||
| 11786 | string_view ti = usertype_traits<T>::qualified_name(); | ||
| 11787 | string_view rebind_ti = usertype_traits<rebind_t>::qualified_name(); | ||
| 11788 | if (ic(nullptr, nullptr, ti, rebind_ti) != 0) { | ||
| 11789 | return true; | ||
| 11790 | } | ||
| 11791 | } | ||
| 11792 | handler(L, index, type::userdata, indextype, "value is a userdata but is not the correct unique usertype"); | ||
| 11793 | return false; | ||
| 11794 | } | ||
| 11795 | else { | ||
| 11796 | return stack::unqualified_check<X>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11797 | } | ||
| 11798 | } | ||
| 11799 | else if constexpr (!std::is_reference_v<X> && is_container_v<X>) { | ||
| 11800 | if (type_of(L, index) == type::userdata) { | ||
| 11801 | return stack::unqualified_check<X>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11802 | } | ||
| 11803 | else { | ||
| 11804 | return stack::unqualified_check<nested<X>>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11805 | } | ||
| 11806 | } | ||
| 11807 | else if constexpr (!std::is_reference_v<X> && meta::is_specialization_of_v<X, nested>) { | ||
| 11808 | using NestedX = typename meta::unqualified_t<X>::nested_type; | ||
| 11809 | return stack::check<NestedX>(L, index, ::std::forward<Handler>(handler), tracking); | ||
| 11810 | } | ||
| 11811 | else { | ||
| 11812 | return stack::unqualified_check<X>(L, index, std::forward<Handler>(handler), tracking); | ||
| 11813 | } | ||
| 11814 | } | ||
| 11815 | }; | ||
| 11816 | } | ||
| 11817 | } // namespace sol::stack | ||
| 11818 | |||
| 11819 | // end of sol/stack_check_qualified.hpp | ||
| 11820 | |||
| 11821 | // end of sol/stack_check.hpp | ||
| 11822 | |||
| 11823 | // beginning of sol/stack_get.hpp | ||
| 11824 | |||
| 11825 | // beginning of sol/stack_get_unqualified.hpp | ||
| 11826 | |||
| 11827 | // beginning of sol/overload.hpp | ||
| 11828 | |||
| 11829 | #include <utility> | ||
| 11830 | |||
| 11831 | namespace sol { | ||
| 11832 | template <typename... Functions> | ||
| 11833 | struct overload_set { | ||
| 11834 | std::tuple<Functions...> functions; | ||
| 11835 | template <typename Arg, typename... Args, meta::disable<std::is_same<overload_set, meta::unqualified_t<Arg>>> = meta::enabler> | ||
| 11836 | overload_set(Arg&& arg, Args&&... args) | ||
| 11837 | : functions(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 11838 | } | ||
| 11839 | overload_set(const overload_set&) = default; | ||
| 11840 | overload_set(overload_set&&) = default; | ||
| 11841 | overload_set& operator=(const overload_set&) = default; | ||
| 11842 | overload_set& operator=(overload_set&&) = default; | ||
| 11843 | }; | ||
| 11844 | |||
| 11845 | template <typename... Args> | ||
| 11846 | decltype(auto) overload(Args&&... args) { | ||
| 11847 | return overload_set<std::decay_t<Args>...>(std::forward<Args>(args)...); | ||
| 11848 | } | ||
| 11849 | } // namespace sol | ||
| 11850 | |||
| 11851 | // end of sol/overload.hpp | ||
| 11852 | |||
| 11853 | // beginning of sol/unicode.hpp | ||
| 11854 | |||
| 11855 | #include <array> | ||
| 11856 | #include <cstring> | ||
| 11857 | |||
| 11858 | namespace sol { | ||
| 11859 | // Everything here was lifted pretty much straight out of | ||
| 11860 | // ogonek, because fuck figuring it out= | ||
| 11861 | namespace unicode { | ||
| 11862 | enum class error_code { | ||
| 11863 | ok = 0, | ||
| 11864 | invalid_code_point, | ||
| 11865 | invalid_code_unit, | ||
| 11866 | invalid_leading_surrogate, | ||
| 11867 | invalid_trailing_surrogate, | ||
| 11868 | sequence_too_short, | ||
| 11869 | overlong_sequence, | ||
| 11870 | }; | ||
| 11871 | |||
| 11872 | inline const string_view& to_string(error_code ec) { | ||
| 11873 | static const string_view storage[7] = { | ||
| 11874 | "ok", | ||
| 11875 | "invalid code points", | ||
| 11876 | "invalid code unit", | ||
| 11877 | "invalid leading surrogate", | ||
| 11878 | "invalid trailing surrogate", | ||
| 11879 | "sequence too short", | ||
| 11880 | "overlong sequence" | ||
| 11881 | }; | ||
| 11882 | return storage[static_cast<std::size_t>(ec)]; | ||
| 11883 | } | ||
| 11884 | |||
| 11885 | template <typename It> | ||
| 11886 | struct decoded_result { | ||
| 11887 | error_code error; | ||
| 11888 | char32_t codepoint; | ||
| 11889 | It next; | ||
| 11890 | }; | ||
| 11891 | |||
| 11892 | template <typename C> | ||
| 11893 | struct encoded_result { | ||
| 11894 | error_code error; | ||
| 11895 | std::size_t code_units_size; | ||
| 11896 | std::array<C, 4> code_units; | ||
| 11897 | }; | ||
| 11898 | |||
| 11899 | struct unicode_detail { | ||
| 11900 | // codepoint related | ||
| 11901 | static constexpr char32_t last_code_point = 0x10FFFF; | ||
| 11902 | |||
| 11903 | static constexpr char32_t first_lead_surrogate = 0xD800; | ||
| 11904 | static constexpr char32_t last_lead_surrogate = 0xDBFF; | ||
| 11905 | |||
| 11906 | static constexpr char32_t first_trail_surrogate = 0xDC00; | ||
| 11907 | static constexpr char32_t last_trail_surrogate = 0xDFFF; | ||
| 11908 | |||
| 11909 | static constexpr char32_t first_surrogate = first_lead_surrogate; | ||
| 11910 | static constexpr char32_t last_surrogate = last_trail_surrogate; | ||
| 11911 | |||
| 11912 | static constexpr bool is_lead_surrogate(char32_t u) { | ||
| 11913 | return u >= first_lead_surrogate && u <= last_lead_surrogate; | ||
| 11914 | } | ||
| 11915 | static constexpr bool is_trail_surrogate(char32_t u) { | ||
| 11916 | return u >= first_trail_surrogate && u <= last_trail_surrogate; | ||
| 11917 | } | ||
| 11918 | static constexpr bool is_surrogate(char32_t u) { | ||
| 11919 | return u >= first_surrogate && u <= last_surrogate; | ||
| 11920 | } | ||
| 11921 | |||
| 11922 | // utf8 related | ||
| 11923 | static constexpr auto last_1byte_value = 0x7Fu; | ||
| 11924 | static constexpr auto last_2byte_value = 0x7FFu; | ||
| 11925 | static constexpr auto last_3byte_value = 0xFFFFu; | ||
| 11926 | |||
| 11927 | static constexpr auto start_2byte_mask = 0x80u; | ||
| 11928 | static constexpr auto start_3byte_mask = 0xE0u; | ||
| 11929 | static constexpr auto start_4byte_mask = 0xF0u; | ||
| 11930 | |||
| 11931 | static constexpr auto continuation_mask = 0xC0u; | ||
| 11932 | static constexpr auto continuation_signature = 0x80u; | ||
| 11933 | |||
| 11934 | static constexpr bool is_invalid(unsigned char b) { | ||
| 11935 | return b == 0xC0 || b == 0xC1 || b > 0xF4; | ||
| 11936 | } | ||
| 11937 | |||
| 11938 | static constexpr bool is_continuation(unsigned char b) { | ||
| 11939 | return (b & unicode_detail::continuation_mask) == unicode_detail::continuation_signature; | ||
| 11940 | } | ||
| 11941 | |||
| 11942 | static constexpr bool is_overlong(char32_t u, std::size_t bytes) { | ||
| 11943 | return u <= unicode_detail::last_1byte_value || (u <= unicode_detail::last_2byte_value && bytes > 2) | ||
| 11944 | || (u <= unicode_detail::last_3byte_value && bytes > 3); | ||
| 11945 | } | ||
| 11946 | |||
| 11947 | static constexpr int sequence_length(unsigned char b) { | ||
| 11948 | return (b & start_2byte_mask) == 0 ? 1 | ||
| 11949 | : (b & start_3byte_mask) != start_3byte_mask ? 2 | ||
| 11950 | : (b & start_4byte_mask) != start_4byte_mask ? 3 | ||
| 11951 | : 4; | ||
| 11952 | } | ||
| 11953 | |||
| 11954 | static constexpr char32_t decode(unsigned char b0, unsigned char b1) { | ||
| 11955 | return ((b0 & 0x1F) << 6) | (b1 & 0x3F); | ||
| 11956 | } | ||
| 11957 | static constexpr char32_t decode(unsigned char b0, unsigned char b1, unsigned char b2) { | ||
| 11958 | return ((b0 & 0x0F) << 12) | ((b1 & 0x3F) << 6) | (b2 & 0x3F); | ||
| 11959 | } | ||
| 11960 | static constexpr char32_t decode(unsigned char b0, unsigned char b1, unsigned char b2, unsigned char b3) { | ||
| 11961 | return ((b0 & 0x07) << 18) | ((b1 & 0x3F) << 12) | ((b2 & 0x3F) << 6) | (b3 & 0x3F); | ||
| 11962 | } | ||
| 11963 | |||
| 11964 | // utf16 related | ||
| 11965 | static constexpr char32_t last_bmp_value = 0xFFFF; | ||
| 11966 | static constexpr char32_t normalizing_value = 0x10000; | ||
| 11967 | static constexpr int lead_surrogate_bitmask = 0xFFC00; | ||
| 11968 | static constexpr int trail_surrogate_bitmask = 0x3FF; | ||
| 11969 | static constexpr int lead_shifted_bits = 10; | ||
| 11970 | static constexpr char32_t replacement = 0xFFFD; | ||
| 11971 | |||
| 11972 | static char32_t combine_surrogates(char16_t lead, char16_t trail) { | ||
| 11973 | auto hi = lead - first_lead_surrogate; | ||
| 11974 | auto lo = trail - first_trail_surrogate; | ||
| 11975 | return normalizing_value + ((hi << lead_shifted_bits) | lo); | ||
| 11976 | } | ||
| 11977 | }; | ||
| 11978 | |||
| 11979 | inline encoded_result<char> code_point_to_utf8(char32_t codepoint) { | ||
| 11980 | encoded_result<char> er; | ||
| 11981 | er.error = error_code::ok; | ||
| 11982 | if (codepoint <= unicode_detail::last_1byte_value) { | ||
| 11983 | er.code_units_size = 1; | ||
| 11984 | er.code_units = std::array<char, 4>{ { static_cast<char>(codepoint) } }; | ||
| 11985 | } | ||
| 11986 | else if (codepoint <= unicode_detail::last_2byte_value) { | ||
| 11987 | er.code_units_size = 2; | ||
| 11988 | er.code_units = std::array<char, 4>{{ | ||
| 11989 | static_cast<char>(0xC0 | ((codepoint & 0x7C0) >> 6)), | ||
| 11990 | static_cast<char>(0x80 | (codepoint & 0x3F)), | ||
| 11991 | }}; | ||
| 11992 | } | ||
| 11993 | else if (codepoint <= unicode_detail::last_3byte_value) { | ||
| 11994 | er.code_units_size = 3; | ||
| 11995 | er.code_units = std::array<char, 4>{{ | ||
| 11996 | static_cast<char>(0xE0 | ((codepoint & 0xF000) >> 12)), | ||
| 11997 | static_cast<char>(0x80 | ((codepoint & 0xFC0) >> 6)), | ||
| 11998 | static_cast<char>(0x80 | (codepoint & 0x3F)), | ||
| 11999 | }}; | ||
| 12000 | } | ||
| 12001 | else { | ||
| 12002 | er.code_units_size = 4; | ||
| 12003 | er.code_units = std::array<char, 4>{ { | ||
| 12004 | static_cast<char>(0xF0 | ((codepoint & 0x1C0000) >> 18)), | ||
| 12005 | static_cast<char>(0x80 | ((codepoint & 0x3F000) >> 12)), | ||
| 12006 | static_cast<char>(0x80 | ((codepoint & 0xFC0) >> 6)), | ||
| 12007 | static_cast<char>(0x80 | (codepoint & 0x3F)), | ||
| 12008 | } }; | ||
| 12009 | } | ||
| 12010 | return er; | ||
| 12011 | } | ||
| 12012 | |||
| 12013 | inline encoded_result<char16_t> code_point_to_utf16(char32_t codepoint) { | ||
| 12014 | encoded_result<char16_t> er; | ||
| 12015 | |||
| 12016 | if (codepoint <= unicode_detail::last_bmp_value) { | ||
| 12017 | er.code_units_size = 1; | ||
| 12018 | er.code_units = std::array<char16_t, 4>{ { static_cast<char16_t>(codepoint) } }; | ||
| 12019 | er.error = error_code::ok; | ||
| 12020 | } | ||
| 12021 | else { | ||
| 12022 | auto normal = codepoint - unicode_detail::normalizing_value; | ||
| 12023 | auto lead = unicode_detail::first_lead_surrogate + ((normal & unicode_detail::lead_surrogate_bitmask) >> unicode_detail::lead_shifted_bits); | ||
| 12024 | auto trail = unicode_detail::first_trail_surrogate + (normal & unicode_detail::trail_surrogate_bitmask); | ||
| 12025 | er.code_units = std::array<char16_t, 4>{ { | ||
| 12026 | static_cast<char16_t>(lead), | ||
| 12027 | static_cast<char16_t>(trail) | ||
| 12028 | } }; | ||
| 12029 | er.code_units_size = 2; | ||
| 12030 | er.error = error_code::ok; | ||
| 12031 | } | ||
| 12032 | return er; | ||
| 12033 | } | ||
| 12034 | |||
| 12035 | inline encoded_result<char32_t> code_point_to_utf32(char32_t codepoint) { | ||
| 12036 | encoded_result<char32_t> er; | ||
| 12037 | er.code_units_size = 1; | ||
| 12038 | er.code_units[0] = codepoint; | ||
| 12039 | er.error = error_code::ok; | ||
| 12040 | return er; | ||
| 12041 | } | ||
| 12042 | |||
| 12043 | template <typename It> | ||
| 12044 | inline decoded_result<It> utf8_to_code_point(It it, It last) { | ||
| 12045 | decoded_result<It> dr; | ||
| 12046 | if (it == last) { | ||
| 12047 | dr.next = it; | ||
| 12048 | dr.error = error_code::sequence_too_short; | ||
| 12049 | return dr; | ||
| 12050 | } | ||
| 12051 | |||
| 12052 | unsigned char b0 = *it; | ||
| 12053 | std::size_t length = unicode_detail::sequence_length(b0); | ||
| 12054 | |||
| 12055 | if (length == 1) { | ||
| 12056 | dr.codepoint = static_cast<char32_t>(b0); | ||
| 12057 | dr.error = error_code::ok; | ||
| 12058 | ++it; | ||
| 12059 | dr.next = it; | ||
| 12060 | return dr; | ||
| 12061 | } | ||
| 12062 | |||
| 12063 | if (unicode_detail::is_invalid(b0) || unicode_detail::is_continuation(b0)) { | ||
| 12064 | dr.error = error_code::invalid_code_unit; | ||
| 12065 | dr.next = it; | ||
| 12066 | return dr; | ||
| 12067 | } | ||
| 12068 | |||
| 12069 | ++it; | ||
| 12070 | std::array<unsigned char, 4> b; | ||
| 12071 | b[0] = b0; | ||
| 12072 | for (std::size_t i = 1; i < length; ++i) { | ||
| 12073 | b[i] = *it; | ||
| 12074 | if (!unicode_detail::is_continuation(b[i])) { | ||
| 12075 | dr.error = error_code::invalid_code_unit; | ||
| 12076 | dr.next = it; | ||
| 12077 | return dr; | ||
| 12078 | } | ||
| 12079 | ++it; | ||
| 12080 | } | ||
| 12081 | |||
| 12082 | char32_t decoded; | ||
| 12083 | switch (length) { | ||
| 12084 | case 2: | ||
| 12085 | decoded = unicode_detail::decode(b[0], b[1]); | ||
| 12086 | break; | ||
| 12087 | case 3: | ||
| 12088 | decoded = unicode_detail::decode(b[0], b[1], b[2]); | ||
| 12089 | break; | ||
| 12090 | default: | ||
| 12091 | decoded = unicode_detail::decode(b[0], b[1], b[2], b[3]); | ||
| 12092 | break; | ||
| 12093 | } | ||
| 12094 | |||
| 12095 | if (unicode_detail::is_overlong(decoded, length)) { | ||
| 12096 | dr.error = error_code::overlong_sequence; | ||
| 12097 | return dr; | ||
| 12098 | } | ||
| 12099 | if (unicode_detail::is_surrogate(decoded) || decoded > unicode_detail::last_code_point) { | ||
| 12100 | dr.error = error_code::invalid_code_point; | ||
| 12101 | return dr; | ||
| 12102 | } | ||
| 12103 | |||
| 12104 | // then everything is fine | ||
| 12105 | dr.codepoint = decoded; | ||
| 12106 | dr.error = error_code::ok; | ||
| 12107 | dr.next = it; | ||
| 12108 | return dr; | ||
| 12109 | } | ||
| 12110 | |||
| 12111 | template <typename It> | ||
| 12112 | inline decoded_result<It> utf16_to_code_point(It it, It last) { | ||
| 12113 | decoded_result<It> dr; | ||
| 12114 | if (it == last) { | ||
| 12115 | dr.next = it; | ||
| 12116 | dr.error = error_code::sequence_too_short; | ||
| 12117 | return dr; | ||
| 12118 | } | ||
| 12119 | |||
| 12120 | char16_t lead = static_cast<char16_t>(*it); | ||
| 12121 | |||
| 12122 | if (!unicode_detail::is_surrogate(lead)) { | ||
| 12123 | ++it; | ||
| 12124 | dr.codepoint = static_cast<char32_t>(lead); | ||
| 12125 | dr.next = it; | ||
| 12126 | dr.error = error_code::ok; | ||
| 12127 | return dr; | ||
| 12128 | } | ||
| 12129 | if (!unicode_detail::is_lead_surrogate(lead)) { | ||
| 12130 | dr.error = error_code::invalid_leading_surrogate; | ||
| 12131 | dr.next = it; | ||
| 12132 | return dr; | ||
| 12133 | } | ||
| 12134 | |||
| 12135 | ++it; | ||
| 12136 | auto trail = *it; | ||
| 12137 | if (!unicode_detail::is_trail_surrogate(trail)) { | ||
| 12138 | dr.error = error_code::invalid_trailing_surrogate; | ||
| 12139 | dr.next = it; | ||
| 12140 | return dr; | ||
| 12141 | } | ||
| 12142 | |||
| 12143 | dr.codepoint = unicode_detail::combine_surrogates(lead, trail); | ||
| 12144 | dr.next = ++it; | ||
| 12145 | dr.error = error_code::ok; | ||
| 12146 | return dr; | ||
| 12147 | } | ||
| 12148 | |||
| 12149 | template <typename It> | ||
| 12150 | inline decoded_result<It> utf32_to_code_point(It it, It last) { | ||
| 12151 | decoded_result<It> dr; | ||
| 12152 | if (it == last) { | ||
| 12153 | dr.next = it; | ||
| 12154 | dr.error = error_code::sequence_too_short; | ||
| 12155 | return dr; | ||
| 12156 | } | ||
| 12157 | dr.codepoint = static_cast<char32_t>(*it); | ||
| 12158 | dr.next = ++it; | ||
| 12159 | dr.error = error_code::ok; | ||
| 12160 | return dr; | ||
| 12161 | } | ||
| 12162 | } | ||
| 12163 | } | ||
| 12164 | // end of sol/unicode.hpp | ||
| 12165 | |||
| 12166 | #include <memory> | ||
| 12167 | #include <functional> | ||
| 12168 | #include <utility> | ||
| 12169 | #include <cstdlib> | ||
| 12170 | #include <cmath> | ||
| 12171 | #include <string_view> | ||
| 12172 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 12173 | #include <variant> | ||
| 12174 | #endif // Apple clang screwed up | ||
| 12175 | |||
| 12176 | namespace sol { namespace stack { | ||
| 12177 | |||
| 12178 | namespace stack_detail { | ||
| 12179 | template <typename Ch> | ||
| 12180 | struct count_code_units_utf { | ||
| 12181 | std::size_t needed_size; | ||
| 12182 | |||
| 12183 | count_code_units_utf() : needed_size(0) { | ||
| 12184 | } | ||
| 12185 | |||
| 12186 | void operator()(const unicode::encoded_result<Ch> er) { | ||
| 12187 | needed_size += er.code_units_size; | ||
| 12188 | } | ||
| 12189 | }; | ||
| 12190 | |||
| 12191 | template <typename Ch, typename ErCh> | ||
| 12192 | struct copy_code_units_utf { | ||
| 12193 | Ch* target_; | ||
| 12194 | |||
| 12195 | copy_code_units_utf(Ch* target) : target_(target) { | ||
| 12196 | } | ||
| 12197 | |||
| 12198 | void operator()(const unicode::encoded_result<ErCh> er) { | ||
| 12199 | std::memcpy(target_, er.code_units.data(), er.code_units_size * sizeof(ErCh)); | ||
| 12200 | target_ += er.code_units_size; | ||
| 12201 | } | ||
| 12202 | }; | ||
| 12203 | |||
| 12204 | template <typename Ch, typename F> | ||
| 12205 | inline void convert(const char* strb, const char* stre, F&& f) { | ||
| 12206 | char32_t cp = 0; | ||
| 12207 | for (const char* strtarget = strb; strtarget < stre;) { | ||
| 12208 | auto dr = unicode::utf8_to_code_point(strtarget, stre); | ||
| 12209 | if (dr.error != unicode::error_code::ok) { | ||
| 12210 | cp = unicode::unicode_detail::replacement; | ||
| 12211 | ++strtarget; | ||
| 12212 | } | ||
| 12213 | else { | ||
| 12214 | cp = dr.codepoint; | ||
| 12215 | strtarget = dr.next; | ||
| 12216 | } | ||
| 12217 | if constexpr (std::is_same_v<Ch, char32_t>) { | ||
| 12218 | auto er = unicode::code_point_to_utf32(cp); | ||
| 12219 | f(er); | ||
| 12220 | } | ||
| 12221 | else { | ||
| 12222 | auto er = unicode::code_point_to_utf16(cp); | ||
| 12223 | f(er); | ||
| 12224 | } | ||
| 12225 | } | ||
| 12226 | } | ||
| 12227 | |||
| 12228 | template <typename BaseCh, typename S> | ||
| 12229 | inline S get_into(lua_State* L, int index, record& tracking) { | ||
| 12230 | using Ch = typename S::value_type; | ||
| 12231 | tracking.use(1); | ||
| 12232 | size_t len; | ||
| 12233 | auto utf8p = lua_tolstring(L, index, &len); | ||
| 12234 | if (len < 1) | ||
| 12235 | return S(); | ||
| 12236 | const char* strb = utf8p; | ||
| 12237 | const char* stre = utf8p + len; | ||
| 12238 | stack_detail::count_code_units_utf<BaseCh> count_units; | ||
| 12239 | convert<BaseCh>(strb, stre, count_units); | ||
| 12240 | S r(count_units.needed_size, static_cast<Ch>(0)); | ||
| 12241 | r.resize(count_units.needed_size); | ||
| 12242 | Ch* target = &r[0]; | ||
| 12243 | stack_detail::copy_code_units_utf<Ch, BaseCh> copy_units(target); | ||
| 12244 | convert<BaseCh>(strb, stre, copy_units); | ||
| 12245 | return r; | ||
| 12246 | } | ||
| 12247 | } // namespace stack_detail | ||
| 12248 | |||
| 12249 | template <typename T, typename> | ||
| 12250 | struct unqualified_getter { | ||
| 12251 | static decltype(auto) get(lua_State* L, int index, record& tracking) { | ||
| 12252 | if constexpr (std::is_same_v<T, bool>) { | ||
| 12253 | tracking.use(1); | ||
| 12254 | return lua_toboolean(L, index) != 0; | ||
| 12255 | } | ||
| 12256 | else if constexpr (std::is_enum_v<T>) { | ||
| 12257 | tracking.use(1); | ||
| 12258 | return static_cast<T>(lua_tointegerx(L, index, nullptr)); | ||
| 12259 | } | ||
| 12260 | else if constexpr (std::is_integral_v<T> || std::is_same_v<T, lua_Integer>) { | ||
| 12261 | tracking.use(1); | ||
| 12262 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 12263 | if (lua_isinteger(L, index) != 0) { | ||
| 12264 | return static_cast<T>(lua_tointeger(L, index)); | ||
| 12265 | } | ||
| 12266 | #endif | ||
| 12267 | return static_cast<T>(llround(lua_tonumber(L, index))); | ||
| 12268 | } | ||
| 12269 | else if constexpr (std::is_floating_point_v<T> || std::is_same_v<T, lua_Number>) { | ||
| 12270 | tracking.use(1); | ||
| 12271 | return static_cast<T>(lua_tonumber(L, index)); | ||
| 12272 | } | ||
| 12273 | else if constexpr (is_lua_reference_v<T>) { | ||
| 12274 | tracking.use(1); | ||
| 12275 | return T(L, index); | ||
| 12276 | } | ||
| 12277 | else if constexpr (is_unique_usertype_v<T>) { | ||
| 12278 | using Real = typename unique_usertype_traits<T>::actual_type; | ||
| 12279 | |||
| 12280 | tracking.use(1); | ||
| 12281 | void* memory = lua_touserdata(L, index); | ||
| 12282 | memory = detail::align_usertype_unique<Real>(memory); | ||
| 12283 | Real* mem = static_cast<Real*>(memory); | ||
| 12284 | return *mem; | ||
| 12285 | } | ||
| 12286 | else if constexpr (meta::is_optional_v<T>) { | ||
| 12287 | using ValueType = typename T::value_type; | ||
| 12288 | return unqualified_check_getter<ValueType>::template get_using<T>(L, index, no_panic, tracking); | ||
| 12289 | } | ||
| 12290 | else if constexpr (std::is_same_v<T, luaL_Stream*>) { | ||
| 12291 | luaL_Stream* pstream = static_cast<luaL_Stream*>(lua_touserdata(L, index)); | ||
| 12292 | return pstream; | ||
| 12293 | } | ||
| 12294 | else if constexpr (std::is_same_v<T, luaL_Stream>) { | ||
| 12295 | luaL_Stream* pstream = static_cast<luaL_Stream*>(lua_touserdata(L, index)); | ||
| 12296 | return *pstream; | ||
| 12297 | } | ||
| 12298 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 12299 | else if constexpr (std::is_function_v<T> || (std::is_pointer_v<T> && std::is_function_v<std::remove_pointer_t<T>>)) { | ||
| 12300 | return stack_detail::get_function_pointer<std::remove_pointer_t<T>>(L, index, tracking); | ||
| 12301 | } | ||
| 12302 | #endif | ||
| 12303 | else { | ||
| 12304 | return stack_detail::unchecked_unqualified_get<detail::as_value_tag<T>>(L, index, tracking); | ||
| 12305 | } | ||
| 12306 | } | ||
| 12307 | }; | ||
| 12308 | |||
| 12309 | template <typename X, typename> | ||
| 12310 | struct qualified_getter { | ||
| 12311 | static decltype(auto) get(lua_State* L, int index, record& tracking) { | ||
| 12312 | using Tu = meta::unqualified_t<X>; | ||
| 12313 | static constexpr bool is_userdata_of_some_kind | ||
| 12314 | = !std::is_reference_v< | ||
| 12315 | X> && is_container_v<Tu> && std::is_default_constructible_v<Tu> && !is_lua_primitive_v<Tu> && !is_transparent_argument_v<Tu>; | ||
| 12316 | if constexpr (is_userdata_of_some_kind) { | ||
| 12317 | if (type_of(L, index) == type::userdata) { | ||
| 12318 | return static_cast<Tu>(stack_detail::unchecked_unqualified_get<Tu>(L, index, tracking)); | ||
| 12319 | } | ||
| 12320 | else { | ||
| 12321 | return stack_detail::unchecked_unqualified_get<sol::nested<Tu>>(L, index, tracking); | ||
| 12322 | } | ||
| 12323 | } | ||
| 12324 | else if constexpr (!std::is_reference_v<X> && is_unique_usertype_v<Tu> && !is_base_rebindable_non_void_v<unique_usertype_traits<Tu>>) { | ||
| 12325 | using u_traits = unique_usertype_traits<Tu>; | ||
| 12326 | using T = typename u_traits::type; | ||
| 12327 | using Real = typename u_traits::actual_type; | ||
| 12328 | tracking.use(1); | ||
| 12329 | void* memory = lua_touserdata(L, index); | ||
| 12330 | memory = detail::align_usertype_unique_destructor(memory); | ||
| 12331 | detail::unique_destructor& pdx = *static_cast<detail::unique_destructor*>(memory); | ||
| 12332 | if (&detail::usertype_unique_alloc_destroy<T, X> == pdx) { | ||
| 12333 | memory = detail::align_usertype_unique_tag<true, false>(memory); | ||
| 12334 | memory = detail::align_usertype_unique<Real, true, false>(memory); | ||
| 12335 | Real* mem = static_cast<Real*>(memory); | ||
| 12336 | return static_cast<Real>(*mem); | ||
| 12337 | } | ||
| 12338 | Real r(nullptr); | ||
| 12339 | if constexpr (!derive<T>::value) { | ||
| 12340 | // TODO: abort / terminate, maybe only in debug modes? | ||
| 12341 | return static_cast<Real>(std::move(r)); | ||
| 12342 | } | ||
| 12343 | else { | ||
| 12344 | memory = detail::align_usertype_unique_tag<true, false>(memory); | ||
| 12345 | detail::unique_tag& ic = *reinterpret_cast<detail::unique_tag*>(memory); | ||
| 12346 | memory = detail::align_usertype_unique<Real, true, false>(memory); | ||
| 12347 | string_view ti = usertype_traits<T>::qualified_name(); | ||
| 12348 | int cast_operation; | ||
| 12349 | if constexpr (is_base_rebindable_v<u_traits>) { | ||
| 12350 | using rebind_t = typename u_traits::template rebind_base<void>; | ||
| 12351 | string_view rebind_ti = usertype_traits<rebind_t>::qualified_name(); | ||
| 12352 | cast_operation = ic(memory, &r, ti, rebind_ti); | ||
| 12353 | } | ||
| 12354 | else { | ||
| 12355 | string_view rebind_ti(""); | ||
| 12356 | cast_operation = ic(memory, &r, ti, rebind_ti); | ||
| 12357 | } | ||
| 12358 | switch (cast_operation) { | ||
| 12359 | case 1: { | ||
| 12360 | // it's a perfect match, | ||
| 12361 | // alias memory directly | ||
| 12362 | Real* mem = static_cast<Real*>(memory); | ||
| 12363 | return static_cast<Real>(*mem); | ||
| 12364 | } | ||
| 12365 | case 2: | ||
| 12366 | // it's a base match, return the | ||
| 12367 | // aliased creation | ||
| 12368 | return static_cast<Real>(std::move(r)); | ||
| 12369 | default: | ||
| 12370 | // uh oh.. | ||
| 12371 | break; | ||
| 12372 | } | ||
| 12373 | // TODO: abort / terminate, maybe only in debug modes? | ||
| 12374 | return static_cast<Real>(r); | ||
| 12375 | } | ||
| 12376 | } | ||
| 12377 | else { | ||
| 12378 | return stack_detail::unchecked_unqualified_get<Tu>(L, index, tracking); | ||
| 12379 | } | ||
| 12380 | } | ||
| 12381 | }; | ||
| 12382 | |||
| 12383 | template <typename T> | ||
| 12384 | struct unqualified_getter<as_table_t<T>> { | ||
| 12385 | using Tu = meta::unqualified_t<T>; | ||
| 12386 | |||
| 12387 | template <typename V> | ||
| 12388 | static void push_back_at_end(std::true_type, types<V>, lua_State* L, T& cont, std::size_t) { | ||
| 12389 | cont.push_back(stack::get<V>(L, -lua_size<V>::value)); | ||
| 12390 | } | ||
| 12391 | |||
| 12392 | template <typename V> | ||
| 12393 | static void push_back_at_end(std::false_type, types<V> t, lua_State* L, T& cont, std::size_t idx) { | ||
| 12394 | insert_at_end(meta::has_insert<Tu>(), t, L, cont, idx); | ||
| 12395 | } | ||
| 12396 | |||
| 12397 | template <typename V> | ||
| 12398 | static void insert_at_end(std::true_type, types<V>, lua_State* L, T& cont, std::size_t) { | ||
| 12399 | using std::cend; | ||
| 12400 | cont.insert(cend(cont), stack::get<V>(L, -lua_size<V>::value)); | ||
| 12401 | } | ||
| 12402 | |||
| 12403 | template <typename V> | ||
| 12404 | static void insert_at_end(std::false_type, types<V>, lua_State* L, T& cont, std::size_t idx) { | ||
| 12405 | cont[idx] = stack::get<V>(L, -lua_size<V>::value); | ||
| 12406 | } | ||
| 12407 | |||
| 12408 | static bool max_size_check(std::false_type, T&, std::size_t) { | ||
| 12409 | return false; | ||
| 12410 | } | ||
| 12411 | |||
| 12412 | static bool max_size_check(std::true_type, T& cont, std::size_t idx) { | ||
| 12413 | return idx >= cont.max_size(); | ||
| 12414 | } | ||
| 12415 | |||
| 12416 | static T get(lua_State* L, int relindex, record& tracking) { | ||
| 12417 | return get(meta::is_associative<Tu>(), L, relindex, tracking); | ||
| 12418 | } | ||
| 12419 | |||
| 12420 | static T get(std::false_type, lua_State* L, int relindex, record& tracking) { | ||
| 12421 | typedef typename Tu::value_type V; | ||
| 12422 | return get(types<V>(), L, relindex, tracking); | ||
| 12423 | } | ||
| 12424 | |||
| 12425 | template <typename V> | ||
| 12426 | static T get(types<V> t, lua_State* L, int relindex, record& tracking) { | ||
| 12427 | tracking.use(1); | ||
| 12428 | |||
| 12429 | // the W4 flag is really great, | ||
| 12430 | // so great that it can tell my for loops (twice nested) | ||
| 12431 | // below never actually terminate | ||
| 12432 | // without hitting where the gotos have infested | ||
| 12433 | |||
| 12434 | // so now I would get the error W4XXX unreachable | ||
| 12435 | // me that the return cont at the end of this function | ||
| 12436 | // which is fair until other compilers complain | ||
| 12437 | // that there isn't a return and that based on | ||
| 12438 | // SOME MAGICAL FORCE | ||
| 12439 | // control flow falls off the end of a non-void function | ||
| 12440 | // so it needs to be there for the compilers that are | ||
| 12441 | // too flimsy to analyze the basic blocks... | ||
| 12442 | // (I'm sure I should file a bug but those compilers are already | ||
| 12443 | // in the wild; it doesn't matter if I fix them, | ||
| 12444 | // someone else is still going to get some old-ass compiler | ||
| 12445 | // and then bother me about the unclean build for the 30th | ||
| 12446 | // time) | ||
| 12447 | |||
| 12448 | // "Why not an IIFE?" | ||
| 12449 | // Because additional lambdas / functions which serve as | ||
| 12450 | // capture-all-and-then-invoke bloat binary sizes | ||
| 12451 | // by an actually detectable amount | ||
| 12452 | // (one user uses sol2 pretty heavily and 22 MB of binary size | ||
| 12453 | // was saved by reducing reliance on lambdas in templates) | ||
| 12454 | |||
| 12455 | // This would really be solved by having break N; | ||
| 12456 | // be a real, proper thing... | ||
| 12457 | // but instead, we have to use labels and gotos | ||
| 12458 | // and earn the universal vitriol of the dogmatic | ||
| 12459 | // programming community | ||
| 12460 | |||
| 12461 | // all in all: W4 is great!~ | ||
| 12462 | |||
| 12463 | int index = lua_absindex(L, relindex); | ||
| 12464 | T cont; | ||
| 12465 | std::size_t idx = 0; | ||
| 12466 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 12467 | // This method is HIGHLY performant over regular table iteration | ||
| 12468 | // thanks to the Lua API changes in 5.3 | ||
| 12469 | // Questionable in 5.4 | ||
| 12470 | for (lua_Integer i = 0;; i += lua_size<V>::value) { | ||
| 12471 | if (max_size_check(meta::has_max_size<Tu>(), cont, idx)) { | ||
| 12472 | // see above comment | ||
| 12473 | goto done; | ||
| 12474 | } | ||
| 12475 | bool isnil = false; | ||
| 12476 | for (int vi = 0; vi < lua_size<V>::value; ++vi) { | ||
| 12477 | #if defined(LUA_NILINTABLE) && LUA_NILINTABLE && SOL_LUA_VESION_I_ >= 600 | ||
| 12478 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 12479 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 12480 | #endif // make sure stack doesn't overflow | ||
| 12481 | lua_pushinteger(L, static_cast<lua_Integer>(i + vi)); | ||
| 12482 | if (lua_keyin(L, index) == 0) { | ||
| 12483 | // it's time to stop | ||
| 12484 | isnil = true; | ||
| 12485 | } | ||
| 12486 | else { | ||
| 12487 | // we have a key, have to get the value | ||
| 12488 | lua_geti(L, index, i + vi); | ||
| 12489 | } | ||
| 12490 | #else | ||
| 12491 | type vt = static_cast<type>(lua_geti(L, index, i + vi)); | ||
| 12492 | isnil = vt == type::none || vt == type::lua_nil; | ||
| 12493 | #endif | ||
| 12494 | if (isnil) { | ||
| 12495 | if (i == 0) { | ||
| 12496 | break; | ||
| 12497 | } | ||
| 12498 | #if defined(LUA_NILINTABLE) && LUA_NILINTABLE && SOL_LUA_VESION_I_ >= 600 | ||
| 12499 | lua_pop(L, vi); | ||
| 12500 | #else | ||
| 12501 | lua_pop(L, (vi + 1)); | ||
| 12502 | #endif | ||
| 12503 | // see above comment | ||
| 12504 | goto done; | ||
| 12505 | } | ||
| 12506 | } | ||
| 12507 | if (isnil) { | ||
| 12508 | #if defined(LUA_NILINTABLE) && LUA_NILINTABLE && SOL_LUA_VESION_I_ >= 600 | ||
| 12509 | #else | ||
| 12510 | lua_pop(L, lua_size<V>::value); | ||
| 12511 | #endif | ||
| 12512 | continue; | ||
| 12513 | } | ||
| 12514 | |||
| 12515 | push_back_at_end(meta::has_push_back<Tu>(), t, L, cont, idx); | ||
| 12516 | ++idx; | ||
| 12517 | lua_pop(L, lua_size<V>::value); | ||
| 12518 | } | ||
| 12519 | #else | ||
| 12520 | // Zzzz slower but necessary thanks to the lower version API and missing functions qq | ||
| 12521 | for (lua_Integer i = 0;; i += lua_size<V>::value, lua_pop(L, lua_size<V>::value)) { | ||
| 12522 | if (idx >= cont.max_size()) { | ||
| 12523 | // see above comment | ||
| 12524 | goto done; | ||
| 12525 | } | ||
| 12526 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 12527 | luaL_checkstack(L, 2, detail::not_enough_stack_space_generic); | ||
| 12528 | #endif // make sure stack doesn't overflow | ||
| 12529 | bool isnil = false; | ||
| 12530 | for (int vi = 0; vi < lua_size<V>::value; ++vi) { | ||
| 12531 | lua_pushinteger(L, i); | ||
| 12532 | lua_gettable(L, index); | ||
| 12533 | type vt = type_of(L, -1); | ||
| 12534 | isnil = vt == type::lua_nil; | ||
| 12535 | if (isnil) { | ||
| 12536 | if (i == 0) { | ||
| 12537 | break; | ||
| 12538 | } | ||
| 12539 | lua_pop(L, (vi + 1)); | ||
| 12540 | // see above comment | ||
| 12541 | goto done; | ||
| 12542 | } | ||
| 12543 | } | ||
| 12544 | if (isnil) | ||
| 12545 | continue; | ||
| 12546 | push_back_at_end(meta::has_push_back<Tu>(), t, L, cont, idx); | ||
| 12547 | ++idx; | ||
| 12548 | } | ||
| 12549 | #endif | ||
| 12550 | done: | ||
| 12551 | return cont; | ||
| 12552 | } | ||
| 12553 | |||
| 12554 | static T get(std::true_type, lua_State* L, int index, record& tracking) { | ||
| 12555 | typedef typename Tu::value_type P; | ||
| 12556 | typedef typename P::first_type K; | ||
| 12557 | typedef typename P::second_type V; | ||
| 12558 | return get(types<K, V>(), L, index, tracking); | ||
| 12559 | } | ||
| 12560 | |||
| 12561 | template <typename K, typename V> | ||
| 12562 | static T get(types<K, V>, lua_State* L, int relindex, record& tracking) { | ||
| 12563 | tracking.use(1); | ||
| 12564 | |||
| 12565 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 12566 | luaL_checkstack(L, 3, detail::not_enough_stack_space_generic); | ||
| 12567 | #endif // make sure stack doesn't overflow | ||
| 12568 | |||
| 12569 | T associative; | ||
| 12570 | int index = lua_absindex(L, relindex); | ||
| 12571 | lua_pushnil(L); | ||
| 12572 | while (lua_next(L, index) != 0) { | ||
| 12573 | decltype(auto) key = stack::check_get<K>(L, -2); | ||
| 12574 | if (!key) { | ||
| 12575 | lua_pop(L, 1); | ||
| 12576 | continue; | ||
| 12577 | } | ||
| 12578 | associative.emplace(std::forward<decltype(*key)>(*key), stack::get<V>(L, -1)); | ||
| 12579 | lua_pop(L, 1); | ||
| 12580 | } | ||
| 12581 | return associative; | ||
| 12582 | } | ||
| 12583 | }; | ||
| 12584 | |||
| 12585 | template <typename T, typename Al> | ||
| 12586 | struct unqualified_getter<as_table_t<std::forward_list<T, Al>>> { | ||
| 12587 | typedef std::forward_list<T, Al> C; | ||
| 12588 | |||
| 12589 | static C get(lua_State* L, int relindex, record& tracking) { | ||
| 12590 | return get(meta::has_key_value_pair<C>(), L, relindex, tracking); | ||
| 12591 | } | ||
| 12592 | |||
| 12593 | static C get(std::true_type, lua_State* L, int index, record& tracking) { | ||
| 12594 | typedef typename T::value_type P; | ||
| 12595 | typedef typename P::first_type K; | ||
| 12596 | typedef typename P::second_type V; | ||
| 12597 | return get(types<K, V>(), L, index, tracking); | ||
| 12598 | } | ||
| 12599 | |||
| 12600 | static C get(std::false_type, lua_State* L, int relindex, record& tracking) { | ||
| 12601 | typedef typename C::value_type V; | ||
| 12602 | return get(types<V>(), L, relindex, tracking); | ||
| 12603 | } | ||
| 12604 | |||
| 12605 | template <typename V> | ||
| 12606 | static C get(types<V>, lua_State* L, int relindex, record& tracking) { | ||
| 12607 | tracking.use(1); | ||
| 12608 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 12609 | luaL_checkstack(L, 3, detail::not_enough_stack_space_generic); | ||
| 12610 | #endif // make sure stack doesn't overflow | ||
| 12611 | |||
| 12612 | int index = lua_absindex(L, relindex); | ||
| 12613 | C cont; | ||
| 12614 | auto at = cont.cbefore_begin(); | ||
| 12615 | std::size_t idx = 0; | ||
| 12616 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 12617 | // This method is HIGHLY performant over regular table iteration thanks to the Lua API changes in 5.3 | ||
| 12618 | for (lua_Integer i = 0;; i += lua_size<V>::value, lua_pop(L, lua_size<V>::value)) { | ||
| 12619 | if (idx >= cont.max_size()) { | ||
| 12620 | goto done; | ||
| 12621 | } | ||
| 12622 | bool isnil = false; | ||
| 12623 | for (int vi = 0; vi < lua_size<V>::value; ++vi) { | ||
| 12624 | type t = static_cast<type>(lua_geti(L, index, i + vi)); | ||
| 12625 | isnil = t == type::lua_nil; | ||
| 12626 | if (isnil) { | ||
| 12627 | if (i == 0) { | ||
| 12628 | break; | ||
| 12629 | } | ||
| 12630 | lua_pop(L, (vi + 1)); | ||
| 12631 | goto done; | ||
| 12632 | } | ||
| 12633 | } | ||
| 12634 | if (isnil) | ||
| 12635 | continue; | ||
| 12636 | at = cont.insert_after(at, stack::get<V>(L, -lua_size<V>::value)); | ||
| 12637 | ++idx; | ||
| 12638 | } | ||
| 12639 | #else | ||
| 12640 | // Zzzz slower but necessary thanks to the lower version API and missing functions qq | ||
| 12641 | for (lua_Integer i = 0;; i += lua_size<V>::value, lua_pop(L, lua_size<V>::value)) { | ||
| 12642 | if (idx >= cont.max_size()) { | ||
| 12643 | goto done; | ||
| 12644 | } | ||
| 12645 | bool isnil = false; | ||
| 12646 | for (int vi = 0; vi < lua_size<V>::value; ++vi) { | ||
| 12647 | lua_pushinteger(L, i); | ||
| 12648 | lua_gettable(L, index); | ||
| 12649 | type t = type_of(L, -1); | ||
| 12650 | isnil = t == type::lua_nil; | ||
| 12651 | if (isnil) { | ||
| 12652 | if (i == 0) { | ||
| 12653 | break; | ||
| 12654 | } | ||
| 12655 | lua_pop(L, (vi + 1)); | ||
| 12656 | goto done; | ||
| 12657 | } | ||
| 12658 | } | ||
| 12659 | if (isnil) | ||
| 12660 | continue; | ||
| 12661 | at = cont.insert_after(at, stack::get<V>(L, -lua_size<V>::value)); | ||
| 12662 | ++idx; | ||
| 12663 | } | ||
| 12664 | #endif | ||
| 12665 | done: | ||
| 12666 | return cont; | ||
| 12667 | } | ||
| 12668 | |||
| 12669 | template <typename K, typename V> | ||
| 12670 | static C get(types<K, V>, lua_State* L, int relindex, record& tracking) { | ||
| 12671 | tracking.use(1); | ||
| 12672 | |||
| 12673 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 12674 | luaL_checkstack(L, 3, detail::not_enough_stack_space_generic); | ||
| 12675 | #endif // make sure stack doesn't overflow | ||
| 12676 | |||
| 12677 | C associative; | ||
| 12678 | auto at = associative.cbefore_begin(); | ||
| 12679 | int index = lua_absindex(L, relindex); | ||
| 12680 | lua_pushnil(L); | ||
| 12681 | while (lua_next(L, index) != 0) { | ||
| 12682 | decltype(auto) key = stack::check_get<K>(L, -2); | ||
| 12683 | if (!key) { | ||
| 12684 | lua_pop(L, 1); | ||
| 12685 | continue; | ||
| 12686 | } | ||
| 12687 | at = associative.emplace_after(at, std::forward<decltype(*key)>(*key), stack::get<V>(L, -1)); | ||
| 12688 | lua_pop(L, 1); | ||
| 12689 | } | ||
| 12690 | return associative; | ||
| 12691 | } | ||
| 12692 | }; | ||
| 12693 | |||
| 12694 | template <typename T> | ||
| 12695 | struct unqualified_getter<nested<T>> { | ||
| 12696 | static T get(lua_State* L, int index, record& tracking) { | ||
| 12697 | using Tu = meta::unqualified_t<T>; | ||
| 12698 | if constexpr (is_container_v<Tu>) { | ||
| 12699 | if constexpr (meta::is_associative<Tu>::value) { | ||
| 12700 | typedef typename T::value_type P; | ||
| 12701 | typedef typename P::first_type K; | ||
| 12702 | typedef typename P::second_type V; | ||
| 12703 | unqualified_getter<as_table_t<T>> g; | ||
| 12704 | // VC++ has a bad warning here: shut it up | ||
| 12705 | (void)g; | ||
| 12706 | return g.get(types<K, nested<V>>(), L, index, tracking); | ||
| 12707 | } | ||
| 12708 | else { | ||
| 12709 | typedef typename T::value_type V; | ||
| 12710 | unqualified_getter<as_table_t<T>> g; | ||
| 12711 | // VC++ has a bad warning here: shut it up | ||
| 12712 | (void)g; | ||
| 12713 | return g.get(types<nested<V>>(), L, index, tracking); | ||
| 12714 | } | ||
| 12715 | } | ||
| 12716 | else { | ||
| 12717 | unqualified_getter<Tu> g; | ||
| 12718 | // VC++ has a bad warning here: shut it up | ||
| 12719 | (void)g; | ||
| 12720 | return g.get(L, index, tracking); | ||
| 12721 | } | ||
| 12722 | } | ||
| 12723 | }; | ||
| 12724 | |||
| 12725 | template <typename T> | ||
| 12726 | struct unqualified_getter<as_container_t<T>> { | ||
| 12727 | static decltype(auto) get(lua_State* L, int index, record& tracking) { | ||
| 12728 | return stack::unqualified_get<T>(L, index, tracking); | ||
| 12729 | } | ||
| 12730 | }; | ||
| 12731 | |||
| 12732 | template <typename T> | ||
| 12733 | struct unqualified_getter<as_container_t<T>*> { | ||
| 12734 | static decltype(auto) get(lua_State* L, int index, record& tracking) { | ||
| 12735 | return stack::unqualified_get<T*>(L, index, tracking); | ||
| 12736 | } | ||
| 12737 | }; | ||
| 12738 | |||
| 12739 | template <> | ||
| 12740 | struct unqualified_getter<userdata_value> { | ||
| 12741 | static userdata_value get(lua_State* L, int index, record& tracking) { | ||
| 12742 | tracking.use(1); | ||
| 12743 | return userdata_value(lua_touserdata(L, index)); | ||
| 12744 | } | ||
| 12745 | }; | ||
| 12746 | |||
| 12747 | template <> | ||
| 12748 | struct unqualified_getter<lightuserdata_value> { | ||
| 12749 | static lightuserdata_value get(lua_State* L, int index, record& tracking) { | ||
| 12750 | tracking.use(1); | ||
| 12751 | return lightuserdata_value(lua_touserdata(L, index)); | ||
| 12752 | } | ||
| 12753 | }; | ||
| 12754 | |||
| 12755 | template <typename T> | ||
| 12756 | struct unqualified_getter<light<T>> { | ||
| 12757 | static light<T> get(lua_State* L, int index, record& tracking) { | ||
| 12758 | tracking.use(1); | ||
| 12759 | void* memory = lua_touserdata(L, index); | ||
| 12760 | return light<T>(static_cast<T*>(memory)); | ||
| 12761 | } | ||
| 12762 | }; | ||
| 12763 | |||
| 12764 | template <typename T> | ||
| 12765 | struct unqualified_getter<user<T>> { | ||
| 12766 | static std::add_lvalue_reference_t<T> get(lua_State* L, int index, record& tracking) { | ||
| 12767 | tracking.use(1); | ||
| 12768 | void* memory = lua_touserdata(L, index); | ||
| 12769 | memory = detail::align_user<T>(memory); | ||
| 12770 | return *static_cast<std::remove_reference_t<T>*>(memory); | ||
| 12771 | } | ||
| 12772 | }; | ||
| 12773 | |||
| 12774 | template <typename T> | ||
| 12775 | struct unqualified_getter<user<T*>> { | ||
| 12776 | static T* get(lua_State* L, int index, record& tracking) { | ||
| 12777 | tracking.use(1); | ||
| 12778 | void* memory = lua_touserdata(L, index); | ||
| 12779 | memory = detail::align_user<T*>(memory); | ||
| 12780 | return static_cast<T*>(memory); | ||
| 12781 | } | ||
| 12782 | }; | ||
| 12783 | |||
| 12784 | template <> | ||
| 12785 | struct unqualified_getter<type> { | ||
| 12786 | static type get(lua_State* L, int index, record& tracking) { | ||
| 12787 | tracking.use(1); | ||
| 12788 | return static_cast<type>(lua_type(L, index)); | ||
| 12789 | } | ||
| 12790 | }; | ||
| 12791 | |||
| 12792 | template <> | ||
| 12793 | struct unqualified_getter<std::string> { | ||
| 12794 | static std::string get(lua_State* L, int index, record& tracking) { | ||
| 12795 | tracking.use(1); | ||
| 12796 | std::size_t len; | ||
| 12797 | auto str = lua_tolstring(L, index, &len); | ||
| 12798 | return std::string(str, len); | ||
| 12799 | } | ||
| 12800 | }; | ||
| 12801 | |||
| 12802 | template <> | ||
| 12803 | struct unqualified_getter<const char*> { | ||
| 12804 | static const char* get(lua_State* L, int index, record& tracking) { | ||
| 12805 | tracking.use(1); | ||
| 12806 | size_t sz; | ||
| 12807 | return lua_tolstring(L, index, &sz); | ||
| 12808 | } | ||
| 12809 | }; | ||
| 12810 | |||
| 12811 | template <> | ||
| 12812 | struct unqualified_getter<char> { | ||
| 12813 | static char get(lua_State* L, int index, record& tracking) { | ||
| 12814 | tracking.use(1); | ||
| 12815 | size_t len; | ||
| 12816 | auto str = lua_tolstring(L, index, &len); | ||
| 12817 | return len > 0 ? str[0] : '\0'; | ||
| 12818 | } | ||
| 12819 | }; | ||
| 12820 | |||
| 12821 | template <typename Traits> | ||
| 12822 | struct unqualified_getter<basic_string_view<char, Traits>> { | ||
| 12823 | static string_view get(lua_State* L, int index, record& tracking) { | ||
| 12824 | tracking.use(1); | ||
| 12825 | size_t sz; | ||
| 12826 | const char* str = lua_tolstring(L, index, &sz); | ||
| 12827 | return basic_string_view<char, Traits>(str, sz); | ||
| 12828 | } | ||
| 12829 | }; | ||
| 12830 | |||
| 12831 | template <typename Traits, typename Al> | ||
| 12832 | struct unqualified_getter<std::basic_string<wchar_t, Traits, Al>> { | ||
| 12833 | using S = std::basic_string<wchar_t, Traits, Al>; | ||
| 12834 | static S get(lua_State* L, int index, record& tracking) { | ||
| 12835 | using Ch = meta::conditional_t<sizeof(wchar_t) == 2, char16_t, char32_t>; | ||
| 12836 | return stack_detail::get_into<Ch, S>(L, index, tracking); | ||
| 12837 | } | ||
| 12838 | }; | ||
| 12839 | |||
| 12840 | template <typename Traits, typename Al> | ||
| 12841 | struct unqualified_getter<std::basic_string<char16_t, Traits, Al>> { | ||
| 12842 | static std::basic_string<char16_t, Traits, Al> get(lua_State* L, int index, record& tracking) { | ||
| 12843 | return stack_detail::get_into<char16_t, std::basic_string<char16_t, Traits, Al>>(L, index, tracking); | ||
| 12844 | } | ||
| 12845 | }; | ||
| 12846 | |||
| 12847 | template <typename Traits, typename Al> | ||
| 12848 | struct unqualified_getter<std::basic_string<char32_t, Traits, Al>> { | ||
| 12849 | static std::basic_string<char32_t, Traits, Al> get(lua_State* L, int index, record& tracking) { | ||
| 12850 | return stack_detail::get_into<char32_t, std::basic_string<char32_t, Traits, Al>>(L, index, tracking); | ||
| 12851 | } | ||
| 12852 | }; | ||
| 12853 | |||
| 12854 | template <> | ||
| 12855 | struct unqualified_getter<char16_t> { | ||
| 12856 | static char16_t get(lua_State* L, int index, record& tracking) { | ||
| 12857 | string_view utf8 = stack::get<string_view>(L, index, tracking); | ||
| 12858 | const char* strb = utf8.data(); | ||
| 12859 | const char* stre = utf8.data() + utf8.size(); | ||
| 12860 | char32_t cp = 0; | ||
| 12861 | auto dr = unicode::utf8_to_code_point(strb, stre); | ||
| 12862 | if (dr.error != unicode::error_code::ok) { | ||
| 12863 | cp = unicode::unicode_detail::replacement; | ||
| 12864 | } | ||
| 12865 | else { | ||
| 12866 | cp = dr.codepoint; | ||
| 12867 | } | ||
| 12868 | auto er = unicode::code_point_to_utf16(cp); | ||
| 12869 | return er.code_units[0]; | ||
| 12870 | } | ||
| 12871 | }; | ||
| 12872 | |||
| 12873 | template <> | ||
| 12874 | struct unqualified_getter<char32_t> { | ||
| 12875 | static char32_t get(lua_State* L, int index, record& tracking) { | ||
| 12876 | string_view utf8 = stack::get<string_view>(L, index, tracking); | ||
| 12877 | const char* strb = utf8.data(); | ||
| 12878 | const char* stre = utf8.data() + utf8.size(); | ||
| 12879 | char32_t cp = 0; | ||
| 12880 | auto dr = unicode::utf8_to_code_point(strb, stre); | ||
| 12881 | if (dr.error != unicode::error_code::ok) { | ||
| 12882 | cp = unicode::unicode_detail::replacement; | ||
| 12883 | } | ||
| 12884 | else { | ||
| 12885 | cp = dr.codepoint; | ||
| 12886 | } | ||
| 12887 | auto er = unicode::code_point_to_utf32(cp); | ||
| 12888 | return er.code_units[0]; | ||
| 12889 | } | ||
| 12890 | }; | ||
| 12891 | |||
| 12892 | template <> | ||
| 12893 | struct unqualified_getter<wchar_t> { | ||
| 12894 | static wchar_t get(lua_State* L, int index, record& tracking) { | ||
| 12895 | typedef meta::conditional_t<sizeof(wchar_t) == 2, char16_t, char32_t> Ch; | ||
| 12896 | unqualified_getter<Ch> g; | ||
| 12897 | (void)g; | ||
| 12898 | auto c = g.get(L, index, tracking); | ||
| 12899 | return static_cast<wchar_t>(c); | ||
| 12900 | } | ||
| 12901 | }; | ||
| 12902 | |||
| 12903 | template <> | ||
| 12904 | struct unqualified_getter<meta_function> { | ||
| 12905 | static meta_function get(lua_State* L, int index, record& tracking) { | ||
| 12906 | tracking.use(1); | ||
| 12907 | const char* name = unqualified_getter<const char*> {}.get(L, index, tracking); | ||
| 12908 | const auto& mfnames = meta_function_names(); | ||
| 12909 | for (std::size_t i = 0; i < mfnames.size(); ++i) | ||
| 12910 | if (mfnames[i] == name) | ||
| 12911 | return static_cast<meta_function>(i); | ||
| 12912 | return meta_function::construct; | ||
| 12913 | } | ||
| 12914 | }; | ||
| 12915 | |||
| 12916 | template <> | ||
| 12917 | struct unqualified_getter<lua_nil_t> { | ||
| 12918 | static lua_nil_t get(lua_State*, int, record& tracking) { | ||
| 12919 | tracking.use(1); | ||
| 12920 | return lua_nil; | ||
| 12921 | } | ||
| 12922 | }; | ||
| 12923 | |||
| 12924 | template <> | ||
| 12925 | struct unqualified_getter<std::nullptr_t> { | ||
| 12926 | static std::nullptr_t get(lua_State*, int, record& tracking) { | ||
| 12927 | tracking.use(1); | ||
| 12928 | return nullptr; | ||
| 12929 | } | ||
| 12930 | }; | ||
| 12931 | |||
| 12932 | template <> | ||
| 12933 | struct unqualified_getter<nullopt_t> { | ||
| 12934 | static nullopt_t get(lua_State*, int, record& tracking) { | ||
| 12935 | tracking.use(1); | ||
| 12936 | return nullopt; | ||
| 12937 | } | ||
| 12938 | }; | ||
| 12939 | |||
| 12940 | template <> | ||
| 12941 | struct unqualified_getter<this_state> { | ||
| 12942 | static this_state get(lua_State* L, int, record& tracking) { | ||
| 12943 | tracking.use(0); | ||
| 12944 | return this_state(L); | ||
| 12945 | } | ||
| 12946 | }; | ||
| 12947 | |||
| 12948 | template <> | ||
| 12949 | struct unqualified_getter<this_main_state> { | ||
| 12950 | static this_main_state get(lua_State* L, int, record& tracking) { | ||
| 12951 | tracking.use(0); | ||
| 12952 | return this_main_state(main_thread(L, L)); | ||
| 12953 | } | ||
| 12954 | }; | ||
| 12955 | |||
| 12956 | template <> | ||
| 12957 | struct unqualified_getter<lua_CFunction> { | ||
| 12958 | static lua_CFunction get(lua_State* L, int index, record& tracking) { | ||
| 12959 | tracking.use(1); | ||
| 12960 | return lua_tocfunction(L, index); | ||
| 12961 | } | ||
| 12962 | }; | ||
| 12963 | |||
| 12964 | template <> | ||
| 12965 | struct unqualified_getter<c_closure> { | ||
| 12966 | static c_closure get(lua_State* L, int index, record& tracking) { | ||
| 12967 | tracking.use(1); | ||
| 12968 | return c_closure(lua_tocfunction(L, index), -1); | ||
| 12969 | } | ||
| 12970 | }; | ||
| 12971 | |||
| 12972 | template <> | ||
| 12973 | struct unqualified_getter<error> { | ||
| 12974 | static error get(lua_State* L, int index, record& tracking) { | ||
| 12975 | tracking.use(1); | ||
| 12976 | size_t sz = 0; | ||
| 12977 | const char* err = lua_tolstring(L, index, &sz); | ||
| 12978 | if (err == nullptr) { | ||
| 12979 | return error(detail::direct_error, ""); | ||
| 12980 | } | ||
| 12981 | return error(detail::direct_error, std::string(err, sz)); | ||
| 12982 | } | ||
| 12983 | }; | ||
| 12984 | |||
| 12985 | template <> | ||
| 12986 | struct unqualified_getter<void*> { | ||
| 12987 | static void* get(lua_State* L, int index, record& tracking) { | ||
| 12988 | tracking.use(1); | ||
| 12989 | return lua_touserdata(L, index); | ||
| 12990 | } | ||
| 12991 | }; | ||
| 12992 | |||
| 12993 | template <> | ||
| 12994 | struct unqualified_getter<const void*> { | ||
| 12995 | static const void* get(lua_State* L, int index, record& tracking) { | ||
| 12996 | tracking.use(1); | ||
| 12997 | return lua_touserdata(L, index); | ||
| 12998 | } | ||
| 12999 | }; | ||
| 13000 | |||
| 13001 | template <typename T> | ||
| 13002 | struct unqualified_getter<detail::as_value_tag<T>> { | ||
| 13003 | static T* get_no_lua_nil(lua_State* L, int index, record& tracking) { | ||
| 13004 | void* memory = lua_touserdata(L, index); | ||
| 13005 | #if SOL_IS_ON(SOL_USE_INTEROP_I_) | ||
| 13006 | auto ugr = stack_detail::interop_get<T>(L, index, memory, tracking); | ||
| 13007 | if (ugr.first) { | ||
| 13008 | return ugr.second; | ||
| 13009 | } | ||
| 13010 | #endif // interop extensibility | ||
| 13011 | tracking.use(1); | ||
| 13012 | void* rawdata = detail::align_usertype_pointer(memory); | ||
| 13013 | void** pudata = static_cast<void**>(rawdata); | ||
| 13014 | void* udata = *pudata; | ||
| 13015 | return get_no_lua_nil_from(L, udata, index, tracking); | ||
| 13016 | } | ||
| 13017 | |||
| 13018 | static T* get_no_lua_nil_from(lua_State* L, void* udata, int index, record&) { | ||
| 13019 | bool has_derived = derive<T>::value || weak_derive<T>::value; | ||
| 13020 | if (has_derived) { | ||
| 13021 | if (lua_getmetatable(L, index) == 1) { | ||
| 13022 | lua_getfield(L, -1, &detail::base_class_cast_key()[0]); | ||
| 13023 | if (type_of(L, -1) != type::lua_nil) { | ||
| 13024 | void* basecastdata = lua_touserdata(L, -1); | ||
| 13025 | detail::inheritance_cast_function ic = reinterpret_cast<detail::inheritance_cast_function>(basecastdata); | ||
| 13026 | // use the casting function to properly adjust the pointer for the desired T | ||
| 13027 | udata = ic(udata, usertype_traits<T>::qualified_name()); | ||
| 13028 | } | ||
| 13029 | lua_pop(L, 2); | ||
| 13030 | } | ||
| 13031 | } | ||
| 13032 | T* obj = static_cast<T*>(udata); | ||
| 13033 | return obj; | ||
| 13034 | } | ||
| 13035 | |||
| 13036 | static T& get(lua_State* L, int index, record& tracking) { | ||
| 13037 | return *get_no_lua_nil(L, index, tracking); | ||
| 13038 | } | ||
| 13039 | }; | ||
| 13040 | |||
| 13041 | template <typename T> | ||
| 13042 | struct unqualified_getter<detail::as_pointer_tag<T>> { | ||
| 13043 | static T* get(lua_State* L, int index, record& tracking) { | ||
| 13044 | type t = type_of(L, index); | ||
| 13045 | if (t == type::lua_nil) { | ||
| 13046 | tracking.use(1); | ||
| 13047 | return nullptr; | ||
| 13048 | } | ||
| 13049 | unqualified_getter<detail::as_value_tag<T>> g; | ||
| 13050 | // Avoid VC++ warning | ||
| 13051 | (void)g; | ||
| 13052 | return g.get_no_lua_nil(L, index, tracking); | ||
| 13053 | } | ||
| 13054 | }; | ||
| 13055 | |||
| 13056 | template <typename T> | ||
| 13057 | struct unqualified_getter<non_null<T*>> { | ||
| 13058 | static T* get(lua_State* L, int index, record& tracking) { | ||
| 13059 | unqualified_getter<detail::as_value_tag<T>> g; | ||
| 13060 | // Avoid VC++ warning | ||
| 13061 | (void)g; | ||
| 13062 | return g.get_no_lua_nil(L, index, tracking); | ||
| 13063 | } | ||
| 13064 | }; | ||
| 13065 | |||
| 13066 | template <typename T> | ||
| 13067 | struct unqualified_getter<T&> { | ||
| 13068 | static T& get(lua_State* L, int index, record& tracking) { | ||
| 13069 | unqualified_getter<detail::as_value_tag<T>> g; | ||
| 13070 | // Avoid VC++ warning | ||
| 13071 | (void)g; | ||
| 13072 | return g.get(L, index, tracking); | ||
| 13073 | } | ||
| 13074 | }; | ||
| 13075 | |||
| 13076 | template <typename T> | ||
| 13077 | struct unqualified_getter<std::reference_wrapper<T>> { | ||
| 13078 | static T& get(lua_State* L, int index, record& tracking) { | ||
| 13079 | unqualified_getter<T&> g; | ||
| 13080 | // Avoid VC++ warning | ||
| 13081 | (void)g; | ||
| 13082 | return g.get(L, index, tracking); | ||
| 13083 | } | ||
| 13084 | }; | ||
| 13085 | |||
| 13086 | template <typename T> | ||
| 13087 | struct unqualified_getter<T*> { | ||
| 13088 | static T* get(lua_State* L, int index, record& tracking) { | ||
| 13089 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 13090 | if constexpr (std::is_function_v<T>) { | ||
| 13091 | return stack_detail::get_function_pointer<T>(L, index, tracking); | ||
| 13092 | } | ||
| 13093 | else { | ||
| 13094 | unqualified_getter<detail::as_pointer_tag<T>> g; | ||
| 13095 | // Avoid VC++ warning | ||
| 13096 | (void)g; | ||
| 13097 | return g.get(L, index, tracking); | ||
| 13098 | } | ||
| 13099 | #else | ||
| 13100 | unqualified_getter<detail::as_pointer_tag<T>> g; | ||
| 13101 | // Avoid VC++ warning | ||
| 13102 | (void)g; | ||
| 13103 | return g.get(L, index, tracking); | ||
| 13104 | #endif | ||
| 13105 | } | ||
| 13106 | }; | ||
| 13107 | |||
| 13108 | template <typename... Tn> | ||
| 13109 | struct unqualified_getter<std::tuple<Tn...>> { | ||
| 13110 | typedef std::tuple<decltype(stack::get<Tn>(nullptr, 0))...> R; | ||
| 13111 | |||
| 13112 | template <typename... Args> | ||
| 13113 | static R apply(std::index_sequence<>, lua_State*, int, record&, Args&&... args) { | ||
| 13114 | // Fuck you too, VC++ | ||
| 13115 | return R { std::forward<Args>(args)... }; | ||
| 13116 | } | ||
| 13117 | |||
| 13118 | template <std::size_t I, std::size_t... Ix, typename... Args> | ||
| 13119 | static R apply(std::index_sequence<I, Ix...>, lua_State* L, int index, record& tracking, Args&&... args) { | ||
| 13120 | // Fuck you too, VC++ | ||
| 13121 | typedef std::tuple_element_t<I, std::tuple<Tn...>> T; | ||
| 13122 | return apply(std::index_sequence<Ix...>(), L, index, tracking, std::forward<Args>(args)..., stack::get<T>(L, index + tracking.used, tracking)); | ||
| 13123 | } | ||
| 13124 | |||
| 13125 | static R get(lua_State* L, int index, record& tracking) { | ||
| 13126 | return apply(std::make_index_sequence<sizeof...(Tn)>(), L, index, tracking); | ||
| 13127 | } | ||
| 13128 | }; | ||
| 13129 | |||
| 13130 | template <typename A, typename B> | ||
| 13131 | struct unqualified_getter<std::pair<A, B>> { | ||
| 13132 | static decltype(auto) get(lua_State* L, int index, record& tracking) { | ||
| 13133 | return std::pair<decltype(stack::get<A>(L, index)), decltype(stack::get<B>(L, index))> { stack::get<A>(L, index, tracking), | ||
| 13134 | stack::get<B>(L, index + tracking.used, tracking) }; | ||
| 13135 | } | ||
| 13136 | }; | ||
| 13137 | |||
| 13138 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 13139 | |||
| 13140 | template <typename... Tn> | ||
| 13141 | struct unqualified_getter<std::variant<Tn...>> { | ||
| 13142 | using V = std::variant<Tn...>; | ||
| 13143 | |||
| 13144 | static V get_one(std::integral_constant<std::size_t, std::variant_size_v<V>>, lua_State* L, int index, record& tracking) { | ||
| 13145 | (void)L; | ||
| 13146 | (void)index; | ||
| 13147 | (void)tracking; | ||
| 13148 | if constexpr (std::variant_size_v<V> == 0) { | ||
| 13149 | return V(); | ||
| 13150 | } | ||
| 13151 | else { | ||
| 13152 | // using T = std::variant_alternative_t<0, V>; | ||
| 13153 | std::abort(); | ||
| 13154 | // return V(std::in_place_index<0>, stack::get<T>(L, index, tracking)); | ||
| 13155 | } | ||
| 13156 | } | ||
| 13157 | |||
| 13158 | template <std::size_t I> | ||
| 13159 | static V get_one(std::integral_constant<std::size_t, I>, lua_State* L, int index, record& tracking) { | ||
| 13160 | typedef std::variant_alternative_t<I, V> T; | ||
| 13161 | record temp_tracking = tracking; | ||
| 13162 | if (stack::check<T>(L, index, no_panic, temp_tracking)) { | ||
| 13163 | tracking = temp_tracking; | ||
| 13164 | return V(std::in_place_index<I>, stack::get<T>(L, index)); | ||
| 13165 | } | ||
| 13166 | return get_one(std::integral_constant<std::size_t, I + 1>(), L, index, tracking); | ||
| 13167 | } | ||
| 13168 | |||
| 13169 | static V get(lua_State* L, int index, record& tracking) { | ||
| 13170 | return get_one(std::integral_constant<std::size_t, 0>(), L, index, tracking); | ||
| 13171 | } | ||
| 13172 | }; | ||
| 13173 | #endif // variant | ||
| 13174 | |||
| 13175 | }} // namespace sol::stack | ||
| 13176 | |||
| 13177 | // end of sol/stack_get_unqualified.hpp | ||
| 13178 | |||
| 13179 | // beginning of sol/stack_get_qualified.hpp | ||
| 13180 | |||
| 13181 | namespace sol { | ||
| 13182 | namespace stack { | ||
| 13183 | |||
| 13184 | // There are no more enable_ifs that can be used here, | ||
| 13185 | // so this is just for posterity, I guess? | ||
| 13186 | // maybe I'll fill this file in later. | ||
| 13187 | |||
| 13188 | } | ||
| 13189 | } // namespace sol::stack | ||
| 13190 | |||
| 13191 | // end of sol/stack_get_qualified.hpp | ||
| 13192 | |||
| 13193 | // end of sol/stack_get.hpp | ||
| 13194 | |||
| 13195 | // beginning of sol/stack_check_get.hpp | ||
| 13196 | |||
| 13197 | // beginning of sol/stack_check_get_unqualified.hpp | ||
| 13198 | |||
| 13199 | #include <cstdlib> | ||
| 13200 | #include <cmath> | ||
| 13201 | #include <optional> | ||
| 13202 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 13203 | #include <variant> | ||
| 13204 | #endif // variant shenanigans (thanks, Mac OSX) | ||
| 13205 | |||
| 13206 | namespace sol { namespace stack { | ||
| 13207 | template <typename T, typename> | ||
| 13208 | struct unqualified_check_getter { | ||
| 13209 | typedef decltype(stack_detail::unchecked_unqualified_get<T>(nullptr, -1, std::declval<record&>())) R; | ||
| 13210 | |||
| 13211 | template <typename Optional, typename Handler> | ||
| 13212 | static Optional get_using(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13213 | if constexpr (!meta::meta_detail::is_adl_sol_lua_check_v<T> && !meta::meta_detail::is_adl_sol_lua_get_v<T>) { | ||
| 13214 | if constexpr (is_lua_reference_v<T>) { | ||
| 13215 | // actually check if it's none here, otherwise | ||
| 13216 | // we'll have a none object inside an optional! | ||
| 13217 | bool success = lua_isnoneornil(L, index) == 0 && stack::check<T>(L, index, no_panic); | ||
| 13218 | if (!success) { | ||
| 13219 | // expected type, actual type | ||
| 13220 | tracking.use(static_cast<int>(success)); | ||
| 13221 | handler(L, index, type::poly, type_of(L, index), ""); | ||
| 13222 | return detail::associated_nullopt_v<Optional>; | ||
| 13223 | } | ||
| 13224 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 13225 | } | ||
| 13226 | else if constexpr ((std::is_integral_v<T> || std::is_same_v<T, lua_Integer>)&&!std::is_same_v<T, bool>) { | ||
| 13227 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 13228 | if (lua_isinteger(L, index) != 0) { | ||
| 13229 | tracking.use(1); | ||
| 13230 | return static_cast<T>(lua_tointeger(L, index)); | ||
| 13231 | } | ||
| 13232 | #endif | ||
| 13233 | int isnum = 0; | ||
| 13234 | const lua_Number value = lua_tonumberx(L, index, &isnum); | ||
| 13235 | if (isnum != 0) { | ||
| 13236 | #if SOL_IS_ON(SOL_NUMBER_PRECISION_CHECKS_I_) | ||
| 13237 | const auto integer_value = llround(value); | ||
| 13238 | if (static_cast<lua_Number>(integer_value) == value) { | ||
| 13239 | tracking.use(1); | ||
| 13240 | return static_cast<T>(integer_value); | ||
| 13241 | } | ||
| 13242 | #else | ||
| 13243 | tracking.use(1); | ||
| 13244 | return static_cast<T>(value); | ||
| 13245 | #endif | ||
| 13246 | } | ||
| 13247 | const type t = type_of(L, index); | ||
| 13248 | tracking.use(static_cast<int>(t != type::none)); | ||
| 13249 | handler(L, index, type::number, t, "not an integer"); | ||
| 13250 | return detail::associated_nullopt_v<Optional>; | ||
| 13251 | } | ||
| 13252 | else if constexpr (std::is_floating_point_v<T> || std::is_same_v<T, lua_Number>) { | ||
| 13253 | int isnum = 0; | ||
| 13254 | lua_Number value = lua_tonumberx(L, index, &isnum); | ||
| 13255 | if (isnum == 0) { | ||
| 13256 | type t = type_of(L, index); | ||
| 13257 | tracking.use(static_cast<int>(t != type::none)); | ||
| 13258 | handler(L, index, type::number, t, "not a valid floating point number"); | ||
| 13259 | return detail::associated_nullopt_v<Optional>; | ||
| 13260 | } | ||
| 13261 | tracking.use(1); | ||
| 13262 | return static_cast<T>(value); | ||
| 13263 | } | ||
| 13264 | else if constexpr (std::is_enum_v<T> && !meta::any_same_v<T, meta_function, type>) { | ||
| 13265 | int isnum = 0; | ||
| 13266 | lua_Integer value = lua_tointegerx(L, index, &isnum); | ||
| 13267 | if (isnum == 0) { | ||
| 13268 | type t = type_of(L, index); | ||
| 13269 | tracking.use(static_cast<int>(t != type::none)); | ||
| 13270 | handler(L, index, type::number, t, "not a valid enumeration value"); | ||
| 13271 | return detail::associated_nullopt_v<Optional>; | ||
| 13272 | } | ||
| 13273 | tracking.use(1); | ||
| 13274 | return static_cast<T>(value); | ||
| 13275 | } | ||
| 13276 | else { | ||
| 13277 | if (!unqualified_check<T>(L, index, std::forward<Handler>(handler))) { | ||
| 13278 | tracking.use(static_cast<int>(!lua_isnone(L, index))); | ||
| 13279 | return detail::associated_nullopt_v<Optional>; | ||
| 13280 | } | ||
| 13281 | return stack_detail::unchecked_unqualified_get<T>(L, index, tracking); | ||
| 13282 | } | ||
| 13283 | } | ||
| 13284 | else { | ||
| 13285 | if (!unqualified_check<T>(L, index, std::forward<Handler>(handler))) { | ||
| 13286 | tracking.use(static_cast<int>(!lua_isnone(L, index))); | ||
| 13287 | return detail::associated_nullopt_v<Optional>; | ||
| 13288 | } | ||
| 13289 | return stack_detail::unchecked_unqualified_get<T>(L, index, tracking); | ||
| 13290 | } | ||
| 13291 | } | ||
| 13292 | |||
| 13293 | template <typename Handler> | ||
| 13294 | static optional<R> get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13295 | return get_using<optional<R>>(L, index, std::forward<Handler>(handler), tracking); | ||
| 13296 | } | ||
| 13297 | }; | ||
| 13298 | |||
| 13299 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 13300 | template <typename... Tn, typename C> | ||
| 13301 | struct unqualified_check_getter<std::variant<Tn...>, C> { | ||
| 13302 | typedef std::variant<Tn...> V; | ||
| 13303 | typedef std::variant_size<V> V_size; | ||
| 13304 | typedef std::integral_constant<bool, V_size::value == 0> V_is_empty; | ||
| 13305 | |||
| 13306 | template <typename Handler> | ||
| 13307 | static optional<V> get_empty(std::true_type, lua_State*, int, Handler&&, record&) { | ||
| 13308 | return nullopt; | ||
| 13309 | } | ||
| 13310 | |||
| 13311 | template <typename Handler> | ||
| 13312 | static optional<V> get_empty(std::false_type, lua_State* L, int index, Handler&& handler, record&) { | ||
| 13313 | // This should never be reached... | ||
| 13314 | // please check your code and understand what you did to bring yourself here | ||
| 13315 | // maybe file a bug report, or 5 | ||
| 13316 | handler( | ||
| 13317 | L, index, type::poly, type_of(L, index), "this variant code should never be reached: if it has, you have done something so terribly wrong"); | ||
| 13318 | return nullopt; | ||
| 13319 | } | ||
| 13320 | |||
| 13321 | template <typename Handler> | ||
| 13322 | static optional<V> get_one(std::integral_constant<std::size_t, 0>, lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13323 | return get_empty(V_is_empty(), L, index, std::forward<Handler>(handler), tracking); | ||
| 13324 | } | ||
| 13325 | |||
| 13326 | template <std::size_t I, typename Handler> | ||
| 13327 | static optional<V> get_one(std::integral_constant<std::size_t, I>, lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13328 | typedef std::variant_alternative_t<I - 1, V> T; | ||
| 13329 | if (stack::check<T>(L, index, no_panic, tracking)) { | ||
| 13330 | return V(std::in_place_index<I - 1>, stack::get<T>(L, index)); | ||
| 13331 | } | ||
| 13332 | return get_one(std::integral_constant<std::size_t, I - 1>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 13333 | } | ||
| 13334 | |||
| 13335 | template <typename Handler> | ||
| 13336 | static optional<V> get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13337 | return get_one(std::integral_constant<std::size_t, V_size::value>(), L, index, std::forward<Handler>(handler), tracking); | ||
| 13338 | } | ||
| 13339 | }; | ||
| 13340 | #endif // standard variant | ||
| 13341 | }} // namespace sol::stack | ||
| 13342 | |||
| 13343 | // end of sol/stack_check_get_unqualified.hpp | ||
| 13344 | |||
| 13345 | // beginning of sol/stack_check_get_qualified.hpp | ||
| 13346 | |||
| 13347 | namespace sol { namespace stack { | ||
| 13348 | template <typename T, typename C> | ||
| 13349 | struct qualified_check_getter { | ||
| 13350 | typedef decltype(stack_detail::unchecked_get<T>(nullptr, -1, std::declval<record&>())) R; | ||
| 13351 | |||
| 13352 | template <typename Handler> | ||
| 13353 | static optional<R> get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 13354 | if constexpr (is_lua_reference_v<T>) { | ||
| 13355 | // actually check if it's none here, otherwise | ||
| 13356 | // we'll have a none object inside an optional! | ||
| 13357 | bool success = lua_isnoneornil(L, index) == 0 && stack::check<T>(L, index, no_panic); | ||
| 13358 | if (!success) { | ||
| 13359 | // expected type, actual type | ||
| 13360 | tracking.use(static_cast<int>(success)); | ||
| 13361 | handler(L, index, type::poly, type_of(L, index), ""); | ||
| 13362 | return nullopt; | ||
| 13363 | } | ||
| 13364 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 13365 | } | ||
| 13366 | else { | ||
| 13367 | if (!check<T>(L, index, std::forward<Handler>(handler))) { | ||
| 13368 | tracking.use(static_cast<int>(!lua_isnone(L, index))); | ||
| 13369 | return nullopt; | ||
| 13370 | } | ||
| 13371 | return stack_detail::unchecked_get<T>(L, index, tracking); | ||
| 13372 | } | ||
| 13373 | } | ||
| 13374 | }; | ||
| 13375 | |||
| 13376 | template <typename T> | ||
| 13377 | struct qualified_getter<T, std::enable_if_t<meta::is_optional_v<T>>> { | ||
| 13378 | static T get(lua_State* L, int index, record& tracking) { | ||
| 13379 | using ValueType = typename meta::unqualified_t<T>::value_type; | ||
| 13380 | if constexpr (is_lua_reference_v<ValueType>) { | ||
| 13381 | // actually check if it's none here, otherwise | ||
| 13382 | // we'll have a none object inside an optional! | ||
| 13383 | bool success = lua_isnoneornil(L, index) == 0 && stack::check<ValueType>(L, index, no_panic); | ||
| 13384 | if (!success) { | ||
| 13385 | // expected type, actual type | ||
| 13386 | tracking.use(static_cast<int>(success)); | ||
| 13387 | return {}; | ||
| 13388 | } | ||
| 13389 | return stack_detail::unchecked_get<ValueType>(L, index, tracking); | ||
| 13390 | } | ||
| 13391 | else { | ||
| 13392 | if (!check<ValueType>(L, index, &no_panic)) { | ||
| 13393 | tracking.use(static_cast<int>(!lua_isnone(L, index))); | ||
| 13394 | return {}; | ||
| 13395 | } | ||
| 13396 | return stack_detail::unchecked_get<ValueType>(L, index, tracking); | ||
| 13397 | } | ||
| 13398 | } | ||
| 13399 | }; | ||
| 13400 | |||
| 13401 | }} // namespace sol::stack | ||
| 13402 | |||
| 13403 | // end of sol/stack_check_get_qualified.hpp | ||
| 13404 | |||
| 13405 | // end of sol/stack_check_get.hpp | ||
| 13406 | |||
| 13407 | // beginning of sol/stack_push.hpp | ||
| 13408 | |||
| 13409 | #include <memory> | ||
| 13410 | #include <type_traits> | ||
| 13411 | #include <cassert> | ||
| 13412 | #include <limits> | ||
| 13413 | #include <cmath> | ||
| 13414 | #include <string_view> | ||
| 13415 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 13416 | #include <variant> | ||
| 13417 | #endif // Can use variant | ||
| 13418 | |||
| 13419 | namespace sol { namespace stack { | ||
| 13420 | namespace stack_detail { | ||
| 13421 | template <typename T> | ||
| 13422 | inline bool integer_value_fits(const T& value) { | ||
| 13423 | if constexpr (sizeof(T) < sizeof(lua_Integer) || (std::is_signed_v<T> && sizeof(T) == sizeof(lua_Integer))) { | ||
| 13424 | (void)value; | ||
| 13425 | return true; | ||
| 13426 | } | ||
| 13427 | else { | ||
| 13428 | auto u_min = static_cast<std::intmax_t>((std::numeric_limits<lua_Integer>::min)()); | ||
| 13429 | auto u_max = static_cast<std::uintmax_t>((std::numeric_limits<lua_Integer>::max)()); | ||
| 13430 | auto t_min = static_cast<std::intmax_t>((std::numeric_limits<T>::min)()); | ||
| 13431 | auto t_max = static_cast<std::uintmax_t>((std::numeric_limits<T>::max)()); | ||
| 13432 | return (u_min <= t_min || value >= static_cast<T>(u_min)) && (u_max >= t_max || value <= static_cast<T>(u_max)); | ||
| 13433 | } | ||
| 13434 | } | ||
| 13435 | |||
| 13436 | template <typename T> | ||
| 13437 | int msvc_is_ass_with_if_constexpr_push_enum(std::true_type, lua_State* L, const T& value) { | ||
| 13438 | if constexpr (meta::any_same_v<std::underlying_type_t<T>, char /*, char8_t*/, char16_t, char32_t>) { | ||
| 13439 | if constexpr (std::is_signed_v<T>) { | ||
| 13440 | return stack::push(L, static_cast<std::int_least32_t>(value)); | ||
| 13441 | } | ||
| 13442 | else { | ||
| 13443 | return stack::push(L, static_cast<std::uint_least32_t>(value)); | ||
| 13444 | } | ||
| 13445 | } | ||
| 13446 | else { | ||
| 13447 | return stack::push(L, static_cast<std::underlying_type_t<T>>(value)); | ||
| 13448 | } | ||
| 13449 | } | ||
| 13450 | |||
| 13451 | template <typename T> | ||
| 13452 | int msvc_is_ass_with_if_constexpr_push_enum(std::false_type, lua_State*, const T&) { | ||
| 13453 | return 0; | ||
| 13454 | } | ||
| 13455 | } // namespace stack_detail | ||
| 13456 | |||
| 13457 | inline int push_environment_of(lua_State* L, int index = -1) { | ||
| 13458 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13459 | luaL_checkstack(L, 1, detail::not_enough_stack_space_environment); | ||
| 13460 | #endif // make sure stack doesn't overflow | ||
| 13461 | #if SOL_LUA_VESION_I_ < 502 | ||
| 13462 | // Use lua_getfenv | ||
| 13463 | lua_getfenv(L, index); | ||
| 13464 | #else | ||
| 13465 | // Use upvalues as explained in Lua 5.2 and beyond's manual | ||
| 13466 | if (lua_getupvalue(L, index, 1) == nullptr) { | ||
| 13467 | push(L, lua_nil); | ||
| 13468 | return 1; | ||
| 13469 | } | ||
| 13470 | #endif | ||
| 13471 | return 1; | ||
| 13472 | } | ||
| 13473 | |||
| 13474 | template <typename T> | ||
| 13475 | int push_environment_of(const T& target) { | ||
| 13476 | target.push(); | ||
| 13477 | return push_environment_of(target.lua_state(), -1) + 1; | ||
| 13478 | } | ||
| 13479 | |||
| 13480 | template <typename T> | ||
| 13481 | struct unqualified_pusher<detail::as_value_tag<T>> { | ||
| 13482 | template <typename F, typename... Args> | ||
| 13483 | static int push_fx(lua_State* L, F&& f, Args&&... args) { | ||
| 13484 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13485 | luaL_checkstack(L, 1, detail::not_enough_stack_space_userdata); | ||
| 13486 | #endif // make sure stack doesn't overflow | ||
| 13487 | // Basically, we store all user-data like this: | ||
| 13488 | // If it's a movable/copyable value (no std::ref(x)), then we store the pointer to the new | ||
| 13489 | // data in the first sizeof(T*) bytes, and then however many bytes it takes to | ||
| 13490 | // do the actual object. Things that are std::ref or plain T* are stored as | ||
| 13491 | // just the sizeof(T*), and nothing else. | ||
| 13492 | T* obj = detail::usertype_allocate<T>(L); | ||
| 13493 | f(); | ||
| 13494 | std::allocator<T> alloc {}; | ||
| 13495 | std::allocator_traits<std::allocator<T>>::construct(alloc, obj, std::forward<Args>(args)...); | ||
| 13496 | return 1; | ||
| 13497 | } | ||
| 13498 | |||
| 13499 | template <typename K, typename... Args> | ||
| 13500 | static int push_keyed(lua_State* L, K&& k, Args&&... args) { | ||
| 13501 | stack_detail::undefined_metatable fx(L, &k[0], &stack::stack_detail::set_undefined_methods_on<T>); | ||
| 13502 | return push_fx(L, fx, std::forward<Args>(args)...); | ||
| 13503 | } | ||
| 13504 | |||
| 13505 | template <typename Arg, typename... Args> | ||
| 13506 | static int push(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 13507 | if constexpr (std::is_same_v<meta::unqualified_t<Arg>, detail::with_function_tag>) { | ||
| 13508 | (void)arg; | ||
| 13509 | return push_fx(L, std::forward<Args>(args)...); | ||
| 13510 | } | ||
| 13511 | else { | ||
| 13512 | return push_keyed(L, usertype_traits<T>::metatable(), std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 13513 | } | ||
| 13514 | } | ||
| 13515 | |||
| 13516 | static int push(lua_State* L) { | ||
| 13517 | return push_keyed(L, usertype_traits<T>::metatable()); | ||
| 13518 | } | ||
| 13519 | }; | ||
| 13520 | |||
| 13521 | template <typename T> | ||
| 13522 | struct unqualified_pusher<detail::as_pointer_tag<T>> { | ||
| 13523 | typedef meta::unqualified_t<T> U; | ||
| 13524 | |||
| 13525 | template <typename F> | ||
| 13526 | static int push_fx(lua_State* L, F&& f, T* obj) { | ||
| 13527 | if (obj == nullptr) | ||
| 13528 | return stack::push(L, lua_nil); | ||
| 13529 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13530 | luaL_checkstack(L, 1, detail::not_enough_stack_space_userdata); | ||
| 13531 | #endif // make sure stack doesn't overflow | ||
| 13532 | T** pref = detail::usertype_allocate_pointer<T>(L); | ||
| 13533 | f(); | ||
| 13534 | *pref = obj; | ||
| 13535 | return 1; | ||
| 13536 | } | ||
| 13537 | |||
| 13538 | template <typename K> | ||
| 13539 | static int push_keyed(lua_State* L, K&& k, T* obj) { | ||
| 13540 | stack_detail::undefined_metatable fx(L, &k[0], &stack::stack_detail::set_undefined_methods_on<U*>); | ||
| 13541 | return push_fx(L, fx, obj); | ||
| 13542 | } | ||
| 13543 | |||
| 13544 | template <typename Arg, typename... Args> | ||
| 13545 | static int push(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 13546 | if constexpr (std::is_same_v<meta::unqualified_t<Arg>, detail::with_function_tag>) { | ||
| 13547 | (void)arg; | ||
| 13548 | return push_fx(L, std::forward<Args>(args)...); | ||
| 13549 | } | ||
| 13550 | else { | ||
| 13551 | return push_keyed(L, usertype_traits<U*>::metatable(), std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 13552 | } | ||
| 13553 | } | ||
| 13554 | }; | ||
| 13555 | |||
| 13556 | template <> | ||
| 13557 | struct unqualified_pusher<detail::as_reference_tag> { | ||
| 13558 | template <typename T> | ||
| 13559 | static int push(lua_State* L, T&& obj) { | ||
| 13560 | return stack::push(L, detail::ptr(obj)); | ||
| 13561 | } | ||
| 13562 | }; | ||
| 13563 | |||
| 13564 | namespace stack_detail { | ||
| 13565 | template <typename T> | ||
| 13566 | struct uu_pusher { | ||
| 13567 | using u_traits = unique_usertype_traits<T>; | ||
| 13568 | using P = typename u_traits::type; | ||
| 13569 | using Real = typename u_traits::actual_type; | ||
| 13570 | |||
| 13571 | template <typename Arg, typename... Args> | ||
| 13572 | static int push(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 13573 | if constexpr (std::is_base_of_v<Real, meta::unqualified_t<Arg>>) { | ||
| 13574 | if (u_traits::is_null(arg)) { | ||
| 13575 | return stack::push(L, lua_nil); | ||
| 13576 | } | ||
| 13577 | return push_deep(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 13578 | } | ||
| 13579 | else { | ||
| 13580 | return push_deep(L, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 13581 | } | ||
| 13582 | } | ||
| 13583 | |||
| 13584 | template <typename... Args> | ||
| 13585 | static int push_deep(lua_State* L, Args&&... args) { | ||
| 13586 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13587 | luaL_checkstack(L, 1, detail::not_enough_stack_space_userdata); | ||
| 13588 | #endif // make sure stack doesn't overflow | ||
| 13589 | P** pref = nullptr; | ||
| 13590 | detail::unique_destructor* fx = nullptr; | ||
| 13591 | detail::unique_tag* id = nullptr; | ||
| 13592 | Real* mem = detail::usertype_unique_allocate<P, Real>(L, pref, fx, id); | ||
| 13593 | if (luaL_newmetatable(L, &usertype_traits<detail::unique_usertype<std::remove_cv_t<P>>>::metatable()[0]) == 1) { | ||
| 13594 | detail::lua_reg_table l {}; | ||
| 13595 | int index = 0; | ||
| 13596 | detail::indexed_insert insert_fx(l, index); | ||
| 13597 | detail::insert_default_registrations<P>(insert_fx, detail::property_always_true); | ||
| 13598 | l[index] = { to_string(meta_function::garbage_collect).c_str(), detail::make_destructor<T>() }; | ||
| 13599 | luaL_setfuncs(L, l, 0); | ||
| 13600 | } | ||
| 13601 | lua_setmetatable(L, -2); | ||
| 13602 | *fx = detail::usertype_unique_alloc_destroy<P, Real>; | ||
| 13603 | *id = &detail::inheritance<P>::template type_unique_cast<Real>; | ||
| 13604 | detail::default_construct::construct(mem, std::forward<Args>(args)...); | ||
| 13605 | *pref = unique_usertype_traits<T>::get(*mem); | ||
| 13606 | return 1; | ||
| 13607 | } | ||
| 13608 | }; | ||
| 13609 | } // namespace stack_detail | ||
| 13610 | |||
| 13611 | template <typename T> | ||
| 13612 | struct unqualified_pusher<detail::as_unique_tag<T>> { | ||
| 13613 | template <typename... Args> | ||
| 13614 | static int push(lua_State* L, Args&&... args) { | ||
| 13615 | stack_detail::uu_pusher<T> p; | ||
| 13616 | (void)p; | ||
| 13617 | return p.push(L, std::forward<Args>(args)...); | ||
| 13618 | } | ||
| 13619 | }; | ||
| 13620 | |||
| 13621 | template <typename T, typename> | ||
| 13622 | struct unqualified_pusher { | ||
| 13623 | template <typename... Args> | ||
| 13624 | static int push(lua_State* L, Args&&... args) { | ||
| 13625 | using Tu = meta::unqualified_t<T>; | ||
| 13626 | if constexpr (is_lua_reference_v<Tu>) { | ||
| 13627 | using int_arr = int[]; | ||
| 13628 | int_arr p { (std::forward<Args>(args).push(L))... }; | ||
| 13629 | return p[0]; | ||
| 13630 | } | ||
| 13631 | else if constexpr (std::is_same_v<Tu, bool>) { | ||
| 13632 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13633 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13634 | #endif // make sure stack doesn't overflow | ||
| 13635 | lua_pushboolean(L, std::forward<Args>(args)...); | ||
| 13636 | return 1; | ||
| 13637 | } | ||
| 13638 | else if constexpr (std::is_integral_v<Tu> || std::is_same_v<Tu, lua_Integer>) { | ||
| 13639 | const Tu& value(std::forward<Args>(args)...); | ||
| 13640 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13641 | luaL_checkstack(L, 1, detail::not_enough_stack_space_integral); | ||
| 13642 | #endif // make sure stack doesn't overflow | ||
| 13643 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 13644 | if (stack_detail::integer_value_fits<Tu>(value)) { | ||
| 13645 | lua_pushinteger(L, static_cast<lua_Integer>(value)); | ||
| 13646 | return 1; | ||
| 13647 | } | ||
| 13648 | #endif // Lua 5.3 and above | ||
| 13649 | #if SOL_IS_ON(SOL_NUMBER_PRECISION_CHECKS_I_) | ||
| 13650 | if (static_cast<T>(llround(static_cast<lua_Number>(value))) != value) { | ||
| 13651 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 13652 | // Is this really worth it? | ||
| 13653 | assert(false && "integer value will be misrepresented in lua"); | ||
| 13654 | lua_pushinteger(L, static_cast<lua_Integer>(value)); | ||
| 13655 | return 1; | ||
| 13656 | #else | ||
| 13657 | throw error(detail::direct_error, "integer value will be misrepresented in lua"); | ||
| 13658 | #endif // No Exceptions | ||
| 13659 | } | ||
| 13660 | #endif // Safe Numerics and Number Precision Check | ||
| 13661 | lua_pushnumber(L, static_cast<lua_Number>(value)); | ||
| 13662 | return 1; | ||
| 13663 | } | ||
| 13664 | else if constexpr (std::is_floating_point_v<Tu> || std::is_same_v<Tu, lua_Number>) { | ||
| 13665 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13666 | luaL_checkstack(L, 1, detail::not_enough_stack_space_floating); | ||
| 13667 | #endif // make sure stack doesn't overflow | ||
| 13668 | lua_pushnumber(L, std::forward<Args>(args)...); | ||
| 13669 | return 1; | ||
| 13670 | } | ||
| 13671 | else if constexpr (std::is_same_v<Tu, luaL_Stream*>) { | ||
| 13672 | luaL_Stream* source { std::forward<Args>(args)... }; | ||
| 13673 | luaL_Stream* stream = static_cast<luaL_Stream*>(lua_newuserdata(L, sizeof(luaL_Stream))); | ||
| 13674 | stream->f = source->f; | ||
| 13675 | #if SOL_IS_ON(SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_) | ||
| 13676 | stream->closef = source->closef; | ||
| 13677 | #endif // LuaJIT and Lua 5.1 and below do not have | ||
| 13678 | return 1; | ||
| 13679 | } | ||
| 13680 | else if constexpr (std::is_same_v<Tu, luaL_Stream>) { | ||
| 13681 | luaL_Stream& source(std::forward<Args>(args)...); | ||
| 13682 | luaL_Stream* stream = static_cast<luaL_Stream*>(lua_newuserdata(L, sizeof(luaL_Stream))); | ||
| 13683 | stream->f = source.f; | ||
| 13684 | #if SOL_IS_ON(SOL_LUAL_STREAM_USE_CLOSE_FUNCTION_I_) | ||
| 13685 | stream->closef = source.closef; | ||
| 13686 | #endif // LuaJIT and Lua 5.1 and below do not have | ||
| 13687 | return 1; | ||
| 13688 | } | ||
| 13689 | else if constexpr (std::is_enum_v<Tu>) { | ||
| 13690 | return stack_detail::msvc_is_ass_with_if_constexpr_push_enum(std::true_type(), L, std::forward<Args>(args)...); | ||
| 13691 | } | ||
| 13692 | else if constexpr (std::is_pointer_v<Tu>) { | ||
| 13693 | return stack::push<detail::as_pointer_tag<std::remove_pointer_t<T>>>(L, std::forward<Args>(args)...); | ||
| 13694 | } | ||
| 13695 | else if constexpr (is_unique_usertype_v<Tu>) { | ||
| 13696 | return stack::push<detail::as_unique_tag<T>>(L, std::forward<Args>(args)...); | ||
| 13697 | } | ||
| 13698 | else { | ||
| 13699 | return stack::push<detail::as_value_tag<T>>(L, std::forward<Args>(args)...); | ||
| 13700 | } | ||
| 13701 | } | ||
| 13702 | }; | ||
| 13703 | |||
| 13704 | template <typename T> | ||
| 13705 | struct unqualified_pusher<std::reference_wrapper<T>> { | ||
| 13706 | static int push(lua_State* L, const std::reference_wrapper<T>& t) { | ||
| 13707 | return stack::push(L, std::addressof(detail::deref(t.get()))); | ||
| 13708 | } | ||
| 13709 | }; | ||
| 13710 | |||
| 13711 | template <typename T> | ||
| 13712 | struct unqualified_pusher<detail::as_table_tag<T>> { | ||
| 13713 | using has_kvp = meta::has_key_value_pair<meta::unqualified_t<std::remove_pointer_t<T>>>; | ||
| 13714 | |||
| 13715 | static int push(lua_State* L, const T& tablecont) { | ||
| 13716 | return push(has_kvp(), std::false_type(), L, tablecont); | ||
| 13717 | } | ||
| 13718 | |||
| 13719 | static int push(lua_State* L, const T& tablecont, nested_tag_t) { | ||
| 13720 | return push(has_kvp(), std::true_type(), L, tablecont); | ||
| 13721 | } | ||
| 13722 | |||
| 13723 | static int push(std::true_type, lua_State* L, const T& tablecont) { | ||
| 13724 | return push(has_kvp(), std::true_type(), L, tablecont); | ||
| 13725 | } | ||
| 13726 | |||
| 13727 | static int push(std::false_type, lua_State* L, const T& tablecont) { | ||
| 13728 | return push(has_kvp(), std::false_type(), L, tablecont); | ||
| 13729 | } | ||
| 13730 | |||
| 13731 | template <bool is_nested> | ||
| 13732 | static int push(std::true_type, std::integral_constant<bool, is_nested>, lua_State* L, const T& tablecont) { | ||
| 13733 | auto& cont = detail::deref(detail::unwrap(tablecont)); | ||
| 13734 | lua_createtable(L, static_cast<int>(cont.size()), 0); | ||
| 13735 | int tableindex = lua_gettop(L); | ||
| 13736 | for (const auto& pair : cont) { | ||
| 13737 | if (is_nested) { | ||
| 13738 | set_field(L, pair.first, as_nested_ref(pair.second), tableindex); | ||
| 13739 | } | ||
| 13740 | else { | ||
| 13741 | set_field(L, pair.first, pair.second, tableindex); | ||
| 13742 | } | ||
| 13743 | } | ||
| 13744 | return 1; | ||
| 13745 | } | ||
| 13746 | |||
| 13747 | template <bool is_nested> | ||
| 13748 | static int push(std::false_type, std::integral_constant<bool, is_nested>, lua_State* L, const T& tablecont) { | ||
| 13749 | auto& cont = detail::deref(detail::unwrap(tablecont)); | ||
| 13750 | lua_createtable(L, stack_detail::get_size_hint(cont), 0); | ||
| 13751 | int tableindex = lua_gettop(L); | ||
| 13752 | std::size_t index = 1; | ||
| 13753 | for (const auto& i : cont) { | ||
| 13754 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 13755 | int p = is_nested ? stack::push(L, as_nested_ref(i)) : stack::push(L, i); | ||
| 13756 | for (int pi = 0; pi < p; ++pi) { | ||
| 13757 | lua_seti(L, tableindex, static_cast<lua_Integer>(index++)); | ||
| 13758 | } | ||
| 13759 | #else | ||
| 13760 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13761 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13762 | #endif // make sure stack doesn't overflow | ||
| 13763 | lua_pushinteger(L, static_cast<lua_Integer>(index)); | ||
| 13764 | int p = is_nested ? stack::push(L, as_nested_ref(i)) : stack::push(L, i); | ||
| 13765 | if (p == 1) { | ||
| 13766 | ++index; | ||
| 13767 | lua_settable(L, tableindex); | ||
| 13768 | } | ||
| 13769 | else { | ||
| 13770 | int firstindex = tableindex + 1 + 1; | ||
| 13771 | for (int pi = 0; pi < p; ++pi) { | ||
| 13772 | stack::push(L, index); | ||
| 13773 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13774 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13775 | #endif // make sure stack doesn't overflow | ||
| 13776 | lua_pushvalue(L, firstindex); | ||
| 13777 | lua_settable(L, tableindex); | ||
| 13778 | ++index; | ||
| 13779 | ++firstindex; | ||
| 13780 | } | ||
| 13781 | lua_pop(L, 1 + p); | ||
| 13782 | } | ||
| 13783 | #endif // Lua Version 5.3 and others | ||
| 13784 | } | ||
| 13785 | // TODO: figure out a better way to do this...? | ||
| 13786 | // set_field(L, -1, cont.size()); | ||
| 13787 | return 1; | ||
| 13788 | } | ||
| 13789 | }; | ||
| 13790 | |||
| 13791 | template <typename T> | ||
| 13792 | struct unqualified_pusher<as_table_t<T>> { | ||
| 13793 | static int push(lua_State* L, const T& v) { | ||
| 13794 | using inner_t = std::remove_pointer_t<meta::unwrap_unqualified_t<T>>; | ||
| 13795 | if constexpr (is_container_v<inner_t>) { | ||
| 13796 | return stack::push<detail::as_table_tag<T>>(L, v); | ||
| 13797 | } | ||
| 13798 | else { | ||
| 13799 | return stack::push(L, v); | ||
| 13800 | } | ||
| 13801 | } | ||
| 13802 | }; | ||
| 13803 | |||
| 13804 | template <typename T> | ||
| 13805 | struct unqualified_pusher<nested<T>> { | ||
| 13806 | static int push(lua_State* L, const T& tablecont) { | ||
| 13807 | using Tu = meta::unwrap_unqualified_t<T>; | ||
| 13808 | using inner_t = std::remove_pointer_t<Tu>; | ||
| 13809 | if constexpr (is_container_v<inner_t>) { | ||
| 13810 | return stack::push<detail::as_table_tag<T>>(L, tablecont, nested_tag); | ||
| 13811 | } | ||
| 13812 | else { | ||
| 13813 | return stack::push<Tu>(L, tablecont); | ||
| 13814 | } | ||
| 13815 | } | ||
| 13816 | }; | ||
| 13817 | |||
| 13818 | template <typename T> | ||
| 13819 | struct unqualified_pusher<std::initializer_list<T>> { | ||
| 13820 | static int push(lua_State* L, const std::initializer_list<T>& il) { | ||
| 13821 | unqualified_pusher<detail::as_table_tag<std::initializer_list<T>>> p {}; | ||
| 13822 | // silence annoying VC++ warning | ||
| 13823 | (void)p; | ||
| 13824 | return p.push(L, il); | ||
| 13825 | } | ||
| 13826 | }; | ||
| 13827 | |||
| 13828 | template <> | ||
| 13829 | struct unqualified_pusher<lua_nil_t> { | ||
| 13830 | static int push(lua_State* L, lua_nil_t) { | ||
| 13831 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13832 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13833 | #endif // make sure stack doesn't overflow | ||
| 13834 | lua_pushnil(L); | ||
| 13835 | return 1; | ||
| 13836 | } | ||
| 13837 | }; | ||
| 13838 | |||
| 13839 | template <> | ||
| 13840 | struct unqualified_pusher<stack_count> { | ||
| 13841 | static int push(lua_State*, stack_count st) { | ||
| 13842 | return st.count; | ||
| 13843 | } | ||
| 13844 | }; | ||
| 13845 | |||
| 13846 | template <> | ||
| 13847 | struct unqualified_pusher<metatable_key_t> { | ||
| 13848 | static int push(lua_State* L, metatable_key_t) { | ||
| 13849 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13850 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13851 | #endif // make sure stack doesn't overflow | ||
| 13852 | lua_pushlstring(L, to_string(meta_function::metatable).c_str(), 4); | ||
| 13853 | return 1; | ||
| 13854 | } | ||
| 13855 | }; | ||
| 13856 | |||
| 13857 | template <> | ||
| 13858 | struct unqualified_pusher<std::remove_pointer_t<lua_CFunction>> { | ||
| 13859 | static int push(lua_State* L, lua_CFunction func, int n = 0) { | ||
| 13860 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13861 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13862 | #endif // make sure stack doesn't overflow | ||
| 13863 | lua_pushcclosure(L, func, n); | ||
| 13864 | return 1; | ||
| 13865 | } | ||
| 13866 | }; | ||
| 13867 | |||
| 13868 | template <> | ||
| 13869 | struct unqualified_pusher<lua_CFunction> { | ||
| 13870 | static int push(lua_State* L, lua_CFunction func, int n = 0) { | ||
| 13871 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13872 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13873 | #endif // make sure stack doesn't overflow | ||
| 13874 | lua_pushcclosure(L, func, n); | ||
| 13875 | return 1; | ||
| 13876 | } | ||
| 13877 | }; | ||
| 13878 | |||
| 13879 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 13880 | template <> | ||
| 13881 | struct unqualified_pusher<std::remove_pointer_t<detail::lua_CFunction_noexcept>> { | ||
| 13882 | static int push(lua_State* L, detail::lua_CFunction_noexcept func, int n = 0) { | ||
| 13883 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13884 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13885 | #endif // make sure stack doesn't overflow | ||
| 13886 | lua_pushcclosure(L, func, n); | ||
| 13887 | return 1; | ||
| 13888 | } | ||
| 13889 | }; | ||
| 13890 | |||
| 13891 | template <> | ||
| 13892 | struct unqualified_pusher<detail::lua_CFunction_noexcept> { | ||
| 13893 | static int push(lua_State* L, detail::lua_CFunction_noexcept func, int n = 0) { | ||
| 13894 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13895 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13896 | #endif // make sure stack doesn't overflow | ||
| 13897 | lua_pushcclosure(L, func, n); | ||
| 13898 | return 1; | ||
| 13899 | } | ||
| 13900 | }; | ||
| 13901 | #endif // noexcept function type | ||
| 13902 | |||
| 13903 | template <> | ||
| 13904 | struct unqualified_pusher<c_closure> { | ||
| 13905 | static int push(lua_State* L, c_closure cc) { | ||
| 13906 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13907 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13908 | #endif // make sure stack doesn't overflow | ||
| 13909 | lua_pushcclosure(L, cc.c_function, cc.upvalues); | ||
| 13910 | return 1; | ||
| 13911 | } | ||
| 13912 | }; | ||
| 13913 | |||
| 13914 | template <typename Arg, typename... Args> | ||
| 13915 | struct unqualified_pusher<closure<Arg, Args...>> { | ||
| 13916 | template <std::size_t... I, typename T> | ||
| 13917 | static int push(std::index_sequence<I...>, lua_State* L, T&& c) { | ||
| 13918 | using f_tuple = decltype(std::forward<T>(c).upvalues); | ||
| 13919 | int pushcount = multi_push(L, std::get<I>(std::forward<f_tuple>(std::forward<T>(c).upvalues))...); | ||
| 13920 | return stack::push(L, c_closure(c.c_function, pushcount)); | ||
| 13921 | } | ||
| 13922 | |||
| 13923 | template <typename T> | ||
| 13924 | static int push(lua_State* L, T&& c) { | ||
| 13925 | return push(std::make_index_sequence<1 + sizeof...(Args)>(), L, std::forward<T>(c)); | ||
| 13926 | } | ||
| 13927 | }; | ||
| 13928 | |||
| 13929 | template <> | ||
| 13930 | struct unqualified_pusher<void*> { | ||
| 13931 | static int push(lua_State* L, void* userdata) { | ||
| 13932 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13933 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13934 | #endif // make sure stack doesn't overflow | ||
| 13935 | lua_pushlightuserdata(L, userdata); | ||
| 13936 | return 1; | ||
| 13937 | } | ||
| 13938 | }; | ||
| 13939 | |||
| 13940 | template <> | ||
| 13941 | struct unqualified_pusher<const void*> { | ||
| 13942 | static int push(lua_State* L, const void* userdata) { | ||
| 13943 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13944 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13945 | #endif // make sure stack doesn't overflow | ||
| 13946 | lua_pushlightuserdata(L, const_cast<void*>(userdata)); | ||
| 13947 | return 1; | ||
| 13948 | } | ||
| 13949 | }; | ||
| 13950 | |||
| 13951 | template <> | ||
| 13952 | struct unqualified_pusher<lightuserdata_value> { | ||
| 13953 | static int push(lua_State* L, lightuserdata_value userdata) { | ||
| 13954 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13955 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13956 | #endif // make sure stack doesn't overflow | ||
| 13957 | lua_pushlightuserdata(L, userdata); | ||
| 13958 | return 1; | ||
| 13959 | } | ||
| 13960 | }; | ||
| 13961 | |||
| 13962 | template <typename T> | ||
| 13963 | struct unqualified_pusher<light<T>> { | ||
| 13964 | static int push(lua_State* L, light<T> l) { | ||
| 13965 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13966 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13967 | #endif // make sure stack doesn't overflow | ||
| 13968 | lua_pushlightuserdata(L, static_cast<void*>(l.value)); | ||
| 13969 | return 1; | ||
| 13970 | } | ||
| 13971 | }; | ||
| 13972 | |||
| 13973 | template <typename T> | ||
| 13974 | struct unqualified_pusher<user<T>> { | ||
| 13975 | template <bool with_meta = true, typename Key, typename... Args> | ||
| 13976 | static int push_with(lua_State* L, Key&& name, Args&&... args) { | ||
| 13977 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13978 | luaL_checkstack(L, 1, detail::not_enough_stack_space_userdata); | ||
| 13979 | #endif // make sure stack doesn't overflow | ||
| 13980 | // A dumb pusher | ||
| 13981 | T* data = detail::user_allocate<T>(L); | ||
| 13982 | if (with_meta) { | ||
| 13983 | // Make sure we have a plain GC set for this data | ||
| 13984 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 13985 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 13986 | #endif // make sure stack doesn't overflow | ||
| 13987 | if (luaL_newmetatable(L, name) != 0) { | ||
| 13988 | lua_CFunction cdel = detail::user_alloc_destruct<T>; | ||
| 13989 | lua_pushcclosure(L, cdel, 0); | ||
| 13990 | lua_setfield(L, -2, "__gc"); | ||
| 13991 | } | ||
| 13992 | lua_setmetatable(L, -2); | ||
| 13993 | } | ||
| 13994 | std::allocator<T> alloc {}; | ||
| 13995 | std::allocator_traits<std::allocator<T>>::construct(alloc, data, std::forward<Args>(args)...); | ||
| 13996 | return 1; | ||
| 13997 | } | ||
| 13998 | |||
| 13999 | template <typename Arg, typename... Args> | ||
| 14000 | static int push(lua_State* L, Arg&& arg, Args&&... args) { | ||
| 14001 | if constexpr (std::is_same_v<meta::unqualified_t<Arg>, metatable_key_t>) { | ||
| 14002 | const auto name = &arg[0]; | ||
| 14003 | return push_with<true>(L, name, std::forward<Args>(args)...); | ||
| 14004 | } | ||
| 14005 | else if constexpr (std::is_same_v<meta::unqualified_t<Arg>, no_metatable_t>) { | ||
| 14006 | (void)arg; | ||
| 14007 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14008 | return push_with<false>(L, name, std::forward<Args>(args)...); | ||
| 14009 | } | ||
| 14010 | else { | ||
| 14011 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14012 | return push_with(L, name, std::forward<Arg>(arg), std::forward<Args>(args)...); | ||
| 14013 | } | ||
| 14014 | } | ||
| 14015 | |||
| 14016 | static int push(lua_State* L, const user<T>& u) { | ||
| 14017 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14018 | return push_with(L, name, u.value); | ||
| 14019 | } | ||
| 14020 | |||
| 14021 | static int push(lua_State* L, user<T>&& u) { | ||
| 14022 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14023 | return push_with(L, name, std::move(u.value)); | ||
| 14024 | } | ||
| 14025 | |||
| 14026 | static int push(lua_State* L, no_metatable_t, const user<T>& u) { | ||
| 14027 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14028 | return push_with<false>(L, name, u.value); | ||
| 14029 | } | ||
| 14030 | |||
| 14031 | static int push(lua_State* L, no_metatable_t, user<T>&& u) { | ||
| 14032 | const auto name = &usertype_traits<meta::unqualified_t<T>>::user_gc_metatable()[0]; | ||
| 14033 | return push_with<false>(L, name, std::move(u.value)); | ||
| 14034 | } | ||
| 14035 | }; | ||
| 14036 | |||
| 14037 | template <> | ||
| 14038 | struct unqualified_pusher<userdata_value> { | ||
| 14039 | static int push(lua_State* L, userdata_value data) { | ||
| 14040 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14041 | luaL_checkstack(L, 1, detail::not_enough_stack_space_userdata); | ||
| 14042 | #endif // make sure stack doesn't overflow | ||
| 14043 | void** ud = detail::usertype_allocate_pointer<void>(L); | ||
| 14044 | *ud = data.value; | ||
| 14045 | return 1; | ||
| 14046 | } | ||
| 14047 | }; | ||
| 14048 | |||
| 14049 | template <> | ||
| 14050 | struct unqualified_pusher<const char*> { | ||
| 14051 | static int push_sized(lua_State* L, const char* str, std::size_t len) { | ||
| 14052 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14053 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 14054 | #endif // make sure stack doesn't overflow | ||
| 14055 | lua_pushlstring(L, str, len); | ||
| 14056 | return 1; | ||
| 14057 | } | ||
| 14058 | |||
| 14059 | static int push(lua_State* L, const char* str) { | ||
| 14060 | if (str == nullptr) | ||
| 14061 | return stack::push(L, lua_nil); | ||
| 14062 | return push_sized(L, str, std::char_traits<char>::length(str)); | ||
| 14063 | } | ||
| 14064 | |||
| 14065 | static int push(lua_State* L, const char* strb, const char* stre) { | ||
| 14066 | return push_sized(L, strb, stre - strb); | ||
| 14067 | } | ||
| 14068 | |||
| 14069 | static int push(lua_State* L, const char* str, std::size_t len) { | ||
| 14070 | return push_sized(L, str, len); | ||
| 14071 | } | ||
| 14072 | }; | ||
| 14073 | |||
| 14074 | template <> | ||
| 14075 | struct unqualified_pusher<char*> { | ||
| 14076 | static int push_sized(lua_State* L, const char* str, std::size_t len) { | ||
| 14077 | unqualified_pusher<const char*> p {}; | ||
| 14078 | (void)p; | ||
| 14079 | return p.push_sized(L, str, len); | ||
| 14080 | } | ||
| 14081 | |||
| 14082 | static int push(lua_State* L, const char* str) { | ||
| 14083 | unqualified_pusher<const char*> p {}; | ||
| 14084 | (void)p; | ||
| 14085 | return p.push(L, str); | ||
| 14086 | } | ||
| 14087 | |||
| 14088 | static int push(lua_State* L, const char* strb, const char* stre) { | ||
| 14089 | unqualified_pusher<const char*> p {}; | ||
| 14090 | (void)p; | ||
| 14091 | return p.push(L, strb, stre); | ||
| 14092 | } | ||
| 14093 | |||
| 14094 | static int push(lua_State* L, const char* str, std::size_t len) { | ||
| 14095 | unqualified_pusher<const char*> p {}; | ||
| 14096 | (void)p; | ||
| 14097 | return p.push(L, str, len); | ||
| 14098 | } | ||
| 14099 | }; | ||
| 14100 | |||
| 14101 | template <size_t N> | ||
| 14102 | struct unqualified_pusher<char[N]> { | ||
| 14103 | static int push(lua_State* L, const char (&str)[N]) { | ||
| 14104 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14105 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 14106 | #endif // make sure stack doesn't overflow | ||
| 14107 | lua_pushlstring(L, str, std::char_traits<char>::length(str)); | ||
| 14108 | return 1; | ||
| 14109 | } | ||
| 14110 | |||
| 14111 | static int push(lua_State* L, const char (&str)[N], std::size_t sz) { | ||
| 14112 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14113 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 14114 | #endif // make sure stack doesn't overflow | ||
| 14115 | lua_pushlstring(L, str, sz); | ||
| 14116 | return 1; | ||
| 14117 | } | ||
| 14118 | }; | ||
| 14119 | |||
| 14120 | template <> | ||
| 14121 | struct unqualified_pusher<char> { | ||
| 14122 | static int push(lua_State* L, char c) { | ||
| 14123 | const char str[2] = { c, '\0' }; | ||
| 14124 | return stack::push(L, static_cast<const char*>(str), 1); | ||
| 14125 | } | ||
| 14126 | }; | ||
| 14127 | |||
| 14128 | template <typename Ch, typename Traits, typename Al> | ||
| 14129 | struct unqualified_pusher<std::basic_string<Ch, Traits, Al>> { | ||
| 14130 | static int push(lua_State* L, const std::basic_string<Ch, Traits, Al>& str) { | ||
| 14131 | if constexpr (!std::is_same_v<Ch, char>) { | ||
| 14132 | return stack::push(L, str.data(), str.size()); | ||
| 14133 | } | ||
| 14134 | else { | ||
| 14135 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14136 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 14137 | #endif // make sure stack doesn't overflow | ||
| 14138 | lua_pushlstring(L, str.c_str(), str.size()); | ||
| 14139 | return 1; | ||
| 14140 | } | ||
| 14141 | } | ||
| 14142 | |||
| 14143 | static int push(lua_State* L, const std::basic_string<Ch, Traits, Al>& str, std::size_t sz) { | ||
| 14144 | if constexpr (!std::is_same_v<Ch, char>) { | ||
| 14145 | return stack::push(L, str.data(), sz); | ||
| 14146 | } | ||
| 14147 | else { | ||
| 14148 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14149 | luaL_checkstack(L, 1, detail::not_enough_stack_space_string); | ||
| 14150 | #endif // make sure stack doesn't overflow | ||
| 14151 | lua_pushlstring(L, str.c_str(), sz); | ||
| 14152 | return 1; | ||
| 14153 | } | ||
| 14154 | } | ||
| 14155 | }; | ||
| 14156 | |||
| 14157 | template <typename Ch, typename Traits> | ||
| 14158 | struct unqualified_pusher<basic_string_view<Ch, Traits>> { | ||
| 14159 | static int push(lua_State* L, const basic_string_view<Ch, Traits>& sv) { | ||
| 14160 | return stack::push(L, sv.data(), sv.length()); | ||
| 14161 | } | ||
| 14162 | |||
| 14163 | static int push(lua_State* L, const basic_string_view<Ch, Traits>& sv, std::size_t n) { | ||
| 14164 | return stack::push(L, sv.data(), n); | ||
| 14165 | } | ||
| 14166 | }; | ||
| 14167 | |||
| 14168 | template <> | ||
| 14169 | struct unqualified_pusher<meta_function> { | ||
| 14170 | static int push(lua_State* L, meta_function m) { | ||
| 14171 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14172 | luaL_checkstack(L, 1, detail::not_enough_stack_space_meta_function_name); | ||
| 14173 | #endif // make sure stack doesn't overflow | ||
| 14174 | const std::string& str = to_string(m); | ||
| 14175 | lua_pushlstring(L, str.c_str(), str.size()); | ||
| 14176 | return 1; | ||
| 14177 | } | ||
| 14178 | }; | ||
| 14179 | |||
| 14180 | template <> | ||
| 14181 | struct unqualified_pusher<absolute_index> { | ||
| 14182 | static int push(lua_State* L, absolute_index ai) { | ||
| 14183 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14184 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 14185 | #endif // make sure stack doesn't overflow | ||
| 14186 | lua_pushvalue(L, ai); | ||
| 14187 | return 1; | ||
| 14188 | } | ||
| 14189 | }; | ||
| 14190 | |||
| 14191 | template <> | ||
| 14192 | struct unqualified_pusher<raw_index> { | ||
| 14193 | static int push(lua_State* L, raw_index ri) { | ||
| 14194 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14195 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 14196 | #endif // make sure stack doesn't overflow | ||
| 14197 | lua_pushvalue(L, ri); | ||
| 14198 | return 1; | ||
| 14199 | } | ||
| 14200 | }; | ||
| 14201 | |||
| 14202 | template <> | ||
| 14203 | struct unqualified_pusher<ref_index> { | ||
| 14204 | static int push(lua_State* L, ref_index ri) { | ||
| 14205 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14206 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 14207 | #endif // make sure stack doesn't overflow | ||
| 14208 | lua_rawgeti(L, LUA_REGISTRYINDEX, ri); | ||
| 14209 | return 1; | ||
| 14210 | } | ||
| 14211 | }; | ||
| 14212 | |||
| 14213 | template <> | ||
| 14214 | struct unqualified_pusher<const wchar_t*> { | ||
| 14215 | static int push(lua_State* L, const wchar_t* wstr) { | ||
| 14216 | return push(L, wstr, std::char_traits<wchar_t>::length(wstr)); | ||
| 14217 | } | ||
| 14218 | |||
| 14219 | static int push(lua_State* L, const wchar_t* wstr, std::size_t sz) { | ||
| 14220 | return push(L, wstr, wstr + sz); | ||
| 14221 | } | ||
| 14222 | |||
| 14223 | static int push(lua_State* L, const wchar_t* strb, const wchar_t* stre) { | ||
| 14224 | if constexpr (sizeof(wchar_t) == 2) { | ||
| 14225 | const char16_t* sb = reinterpret_cast<const char16_t*>(strb); | ||
| 14226 | const char16_t* se = reinterpret_cast<const char16_t*>(stre); | ||
| 14227 | return stack::push(L, sb, se); | ||
| 14228 | } | ||
| 14229 | else { | ||
| 14230 | const char32_t* sb = reinterpret_cast<const char32_t*>(strb); | ||
| 14231 | const char32_t* se = reinterpret_cast<const char32_t*>(stre); | ||
| 14232 | return stack::push(L, sb, se); | ||
| 14233 | } | ||
| 14234 | } | ||
| 14235 | }; | ||
| 14236 | |||
| 14237 | template <> | ||
| 14238 | struct unqualified_pusher<wchar_t*> { | ||
| 14239 | static int push(lua_State* L, const wchar_t* str) { | ||
| 14240 | unqualified_pusher<const wchar_t*> p {}; | ||
| 14241 | (void)p; | ||
| 14242 | return p.push(L, str); | ||
| 14243 | } | ||
| 14244 | |||
| 14245 | static int push(lua_State* L, const wchar_t* strb, const wchar_t* stre) { | ||
| 14246 | unqualified_pusher<const wchar_t*> p {}; | ||
| 14247 | (void)p; | ||
| 14248 | return p.push(L, strb, stre); | ||
| 14249 | } | ||
| 14250 | |||
| 14251 | static int push(lua_State* L, const wchar_t* str, std::size_t len) { | ||
| 14252 | unqualified_pusher<const wchar_t*> p {}; | ||
| 14253 | (void)p; | ||
| 14254 | return p.push(L, str, len); | ||
| 14255 | } | ||
| 14256 | }; | ||
| 14257 | |||
| 14258 | template <> | ||
| 14259 | struct unqualified_pusher<const char16_t*> { | ||
| 14260 | static int convert_into(lua_State* L, char* start, std::size_t, const char16_t* strb, const char16_t* stre) { | ||
| 14261 | char* target = start; | ||
| 14262 | char32_t cp = 0; | ||
| 14263 | for (const char16_t* strtarget = strb; strtarget < stre;) { | ||
| 14264 | auto dr = unicode::utf16_to_code_point(strtarget, stre); | ||
| 14265 | if (dr.error != unicode::error_code::ok) { | ||
| 14266 | cp = unicode::unicode_detail::replacement; | ||
| 14267 | } | ||
| 14268 | else { | ||
| 14269 | cp = dr.codepoint; | ||
| 14270 | } | ||
| 14271 | auto er = unicode::code_point_to_utf8(cp); | ||
| 14272 | const char* utf8data = er.code_units.data(); | ||
| 14273 | std::memcpy(target, utf8data, er.code_units_size); | ||
| 14274 | target += er.code_units_size; | ||
| 14275 | strtarget = dr.next; | ||
| 14276 | } | ||
| 14277 | |||
| 14278 | return stack::push(L, start, target); | ||
| 14279 | } | ||
| 14280 | |||
| 14281 | static int push(lua_State* L, const char16_t* u16str) { | ||
| 14282 | return push(L, u16str, std::char_traits<char16_t>::length(u16str)); | ||
| 14283 | } | ||
| 14284 | |||
| 14285 | static int push(lua_State* L, const char16_t* u16str, std::size_t sz) { | ||
| 14286 | return push(L, u16str, u16str + sz); | ||
| 14287 | } | ||
| 14288 | |||
| 14289 | static int push(lua_State* L, const char16_t* strb, const char16_t* stre) { | ||
| 14290 | char sbo[SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_]; | ||
| 14291 | // if our max string space is small enough, use SBO | ||
| 14292 | // right off the bat | ||
| 14293 | std::size_t max_possible_code_units = (stre - strb) * 4; | ||
| 14294 | if (max_possible_code_units <= SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_) { | ||
| 14295 | return convert_into(L, sbo, max_possible_code_units, strb, stre); | ||
| 14296 | } | ||
| 14297 | // otherwise, we must manually count/check size | ||
| 14298 | std::size_t needed_size = 0; | ||
| 14299 | for (const char16_t* strtarget = strb; strtarget < stre;) { | ||
| 14300 | auto dr = unicode::utf16_to_code_point(strtarget, stre); | ||
| 14301 | auto er = unicode::code_point_to_utf8(dr.codepoint); | ||
| 14302 | needed_size += er.code_units_size; | ||
| 14303 | strtarget = dr.next; | ||
| 14304 | } | ||
| 14305 | if (needed_size < SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_) { | ||
| 14306 | return convert_into(L, sbo, needed_size, strb, stre); | ||
| 14307 | } | ||
| 14308 | std::string u8str("", 0); | ||
| 14309 | u8str.resize(needed_size); | ||
| 14310 | char* target = const_cast<char*>(u8str.data()); | ||
| 14311 | return convert_into(L, target, needed_size, strb, stre); | ||
| 14312 | } | ||
| 14313 | }; | ||
| 14314 | |||
| 14315 | template <> | ||
| 14316 | struct unqualified_pusher<char16_t*> { | ||
| 14317 | static int push(lua_State* L, const char16_t* str) { | ||
| 14318 | unqualified_pusher<const char16_t*> p {}; | ||
| 14319 | (void)p; | ||
| 14320 | return p.push(L, str); | ||
| 14321 | } | ||
| 14322 | |||
| 14323 | static int push(lua_State* L, const char16_t* strb, const char16_t* stre) { | ||
| 14324 | unqualified_pusher<const char16_t*> p {}; | ||
| 14325 | (void)p; | ||
| 14326 | return p.push(L, strb, stre); | ||
| 14327 | } | ||
| 14328 | |||
| 14329 | static int push(lua_State* L, const char16_t* str, std::size_t len) { | ||
| 14330 | unqualified_pusher<const char16_t*> p {}; | ||
| 14331 | (void)p; | ||
| 14332 | return p.push(L, str, len); | ||
| 14333 | } | ||
| 14334 | }; | ||
| 14335 | |||
| 14336 | template <> | ||
| 14337 | struct unqualified_pusher<const char32_t*> { | ||
| 14338 | static int convert_into(lua_State* L, char* start, std::size_t, const char32_t* strb, const char32_t* stre) { | ||
| 14339 | char* target = start; | ||
| 14340 | char32_t cp = 0; | ||
| 14341 | for (const char32_t* strtarget = strb; strtarget < stre;) { | ||
| 14342 | auto dr = unicode::utf32_to_code_point(strtarget, stre); | ||
| 14343 | if (dr.error != unicode::error_code::ok) { | ||
| 14344 | cp = unicode::unicode_detail::replacement; | ||
| 14345 | } | ||
| 14346 | else { | ||
| 14347 | cp = dr.codepoint; | ||
| 14348 | } | ||
| 14349 | auto er = unicode::code_point_to_utf8(cp); | ||
| 14350 | const char* data = er.code_units.data(); | ||
| 14351 | std::memcpy(target, data, er.code_units_size); | ||
| 14352 | target += er.code_units_size; | ||
| 14353 | strtarget = dr.next; | ||
| 14354 | } | ||
| 14355 | return stack::push(L, start, target); | ||
| 14356 | } | ||
| 14357 | |||
| 14358 | static int push(lua_State* L, const char32_t* u32str) { | ||
| 14359 | return push(L, u32str, u32str + std::char_traits<char32_t>::length(u32str)); | ||
| 14360 | } | ||
| 14361 | |||
| 14362 | static int push(lua_State* L, const char32_t* u32str, std::size_t sz) { | ||
| 14363 | return push(L, u32str, u32str + sz); | ||
| 14364 | } | ||
| 14365 | |||
| 14366 | static int push(lua_State* L, const char32_t* strb, const char32_t* stre) { | ||
| 14367 | char sbo[SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_]; | ||
| 14368 | // if our max string space is small enough, use SBO | ||
| 14369 | // right off the bat | ||
| 14370 | std::size_t max_possible_code_units = (stre - strb) * 4; | ||
| 14371 | if (max_possible_code_units <= SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_) { | ||
| 14372 | return convert_into(L, sbo, max_possible_code_units, strb, stre); | ||
| 14373 | } | ||
| 14374 | // otherwise, we must manually count/check size | ||
| 14375 | std::size_t needed_size = 0; | ||
| 14376 | for (const char32_t* strtarget = strb; strtarget < stre;) { | ||
| 14377 | auto dr = unicode::utf32_to_code_point(strtarget, stre); | ||
| 14378 | auto er = unicode::code_point_to_utf8(dr.codepoint); | ||
| 14379 | needed_size += er.code_units_size; | ||
| 14380 | strtarget = dr.next; | ||
| 14381 | } | ||
| 14382 | if (needed_size < SOL_OPTIMIZATION_STRING_CONVERSION_STACK_SIZE_I_) { | ||
| 14383 | return convert_into(L, sbo, needed_size, strb, stre); | ||
| 14384 | } | ||
| 14385 | std::string u8str("", 0); | ||
| 14386 | u8str.resize(needed_size); | ||
| 14387 | char* target = const_cast<char*>(u8str.data()); | ||
| 14388 | return convert_into(L, target, needed_size, strb, stre); | ||
| 14389 | } | ||
| 14390 | }; | ||
| 14391 | |||
| 14392 | template <> | ||
| 14393 | struct unqualified_pusher<char32_t*> { | ||
| 14394 | static int push(lua_State* L, const char32_t* str) { | ||
| 14395 | unqualified_pusher<const char32_t*> p {}; | ||
| 14396 | (void)p; | ||
| 14397 | return p.push(L, str); | ||
| 14398 | } | ||
| 14399 | |||
| 14400 | static int push(lua_State* L, const char32_t* strb, const char32_t* stre) { | ||
| 14401 | unqualified_pusher<const char32_t*> p {}; | ||
| 14402 | (void)p; | ||
| 14403 | return p.push(L, strb, stre); | ||
| 14404 | } | ||
| 14405 | |||
| 14406 | static int push(lua_State* L, const char32_t* str, std::size_t len) { | ||
| 14407 | unqualified_pusher<const char32_t*> p {}; | ||
| 14408 | (void)p; | ||
| 14409 | return p.push(L, str, len); | ||
| 14410 | } | ||
| 14411 | }; | ||
| 14412 | |||
| 14413 | template <size_t N> | ||
| 14414 | struct unqualified_pusher<wchar_t[N]> { | ||
| 14415 | static int push(lua_State* L, const wchar_t (&str)[N]) { | ||
| 14416 | return push(L, str, std::char_traits<wchar_t>::length(str)); | ||
| 14417 | } | ||
| 14418 | |||
| 14419 | static int push(lua_State* L, const wchar_t (&str)[N], std::size_t sz) { | ||
| 14420 | const wchar_t* str_ptr = static_cast<const wchar_t*>(str); | ||
| 14421 | return stack::push<const wchar_t*>(L, str_ptr, str_ptr + sz); | ||
| 14422 | } | ||
| 14423 | }; | ||
| 14424 | |||
| 14425 | template <size_t N> | ||
| 14426 | struct unqualified_pusher<char16_t[N]> { | ||
| 14427 | static int push(lua_State* L, const char16_t (&str)[N]) { | ||
| 14428 | return push(L, str, std::char_traits<char16_t>::length(str)); | ||
| 14429 | } | ||
| 14430 | |||
| 14431 | static int push(lua_State* L, const char16_t (&str)[N], std::size_t sz) { | ||
| 14432 | const char16_t* str_ptr = static_cast<const char16_t*>(str); | ||
| 14433 | return stack::push<const char16_t*>(L, str_ptr, str_ptr + sz); | ||
| 14434 | } | ||
| 14435 | }; | ||
| 14436 | |||
| 14437 | template <size_t N> | ||
| 14438 | struct unqualified_pusher<char32_t[N]> { | ||
| 14439 | static int push(lua_State* L, const char32_t (&str)[N]) { | ||
| 14440 | return push(L, str, std::char_traits<char32_t>::length(str)); | ||
| 14441 | } | ||
| 14442 | |||
| 14443 | static int push(lua_State* L, const char32_t (&str)[N], std::size_t sz) { | ||
| 14444 | const char32_t* str_ptr = static_cast<const char32_t*>(str); | ||
| 14445 | return stack::push<const char32_t*>(L, str_ptr, str_ptr + sz); | ||
| 14446 | } | ||
| 14447 | }; | ||
| 14448 | |||
| 14449 | template <> | ||
| 14450 | struct unqualified_pusher<wchar_t> { | ||
| 14451 | static int push(lua_State* L, wchar_t c) { | ||
| 14452 | const wchar_t str[2] = { c, '\0' }; | ||
| 14453 | return stack::push(L, static_cast<const wchar_t*>(str), 1); | ||
| 14454 | } | ||
| 14455 | }; | ||
| 14456 | |||
| 14457 | template <> | ||
| 14458 | struct unqualified_pusher<char16_t> { | ||
| 14459 | static int push(lua_State* L, char16_t c) { | ||
| 14460 | const char16_t str[2] = { c, '\0' }; | ||
| 14461 | return stack::push(L, static_cast<const char16_t*>(str), 1); | ||
| 14462 | } | ||
| 14463 | }; | ||
| 14464 | |||
| 14465 | template <> | ||
| 14466 | struct unqualified_pusher<char32_t> { | ||
| 14467 | static int push(lua_State* L, char32_t c) { | ||
| 14468 | const char32_t str[2] = { c, '\0' }; | ||
| 14469 | return stack::push(L, static_cast<const char32_t*>(str), 1); | ||
| 14470 | } | ||
| 14471 | }; | ||
| 14472 | |||
| 14473 | template <typename... Args> | ||
| 14474 | struct unqualified_pusher<std::tuple<Args...>> { | ||
| 14475 | template <std::size_t... I, typename T> | ||
| 14476 | static int push(std::index_sequence<I...>, lua_State* L, T&& t) { | ||
| 14477 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 14478 | luaL_checkstack(L, static_cast<int>(sizeof...(I)), detail::not_enough_stack_space_generic); | ||
| 14479 | #endif // make sure stack doesn't overflow | ||
| 14480 | int pushcount = 0; | ||
| 14481 | (void)detail::swallow { 0, (pushcount += stack::push(L, std::get<I>(std::forward<T>(t))), 0)... }; | ||
| 14482 | return pushcount; | ||
| 14483 | } | ||
| 14484 | |||
| 14485 | template <typename T> | ||
| 14486 | static int push(lua_State* L, T&& t) { | ||
| 14487 | return push(std::index_sequence_for<Args...>(), L, std::forward<T>(t)); | ||
| 14488 | } | ||
| 14489 | }; | ||
| 14490 | |||
| 14491 | template <typename A, typename B> | ||
| 14492 | struct unqualified_pusher<std::pair<A, B>> { | ||
| 14493 | template <typename T> | ||
| 14494 | static int push(lua_State* L, T&& t) { | ||
| 14495 | int pushcount = stack::push(L, std::get<0>(std::forward<T>(t))); | ||
| 14496 | pushcount += stack::push(L, std::get<1>(std::forward<T>(t))); | ||
| 14497 | return pushcount; | ||
| 14498 | } | ||
| 14499 | }; | ||
| 14500 | |||
| 14501 | template <typename T> | ||
| 14502 | struct unqualified_pusher<T, std::enable_if_t<meta::is_optional_v<T>>> { | ||
| 14503 | using ValueType = typename meta::unqualified_t<T>::value_type; | ||
| 14504 | |||
| 14505 | template <typename Optional> | ||
| 14506 | static int push(lua_State* L, Optional&& op) { | ||
| 14507 | using QualifiedValueType = meta::conditional_t<std::is_lvalue_reference_v<Optional>, ValueType&, ValueType&&>; | ||
| 14508 | if (!op) { | ||
| 14509 | return stack::push(L, nullopt); | ||
| 14510 | } | ||
| 14511 | return stack::push(L, static_cast<QualifiedValueType>(op.value())); | ||
| 14512 | } | ||
| 14513 | }; | ||
| 14514 | |||
| 14515 | template <> | ||
| 14516 | struct unqualified_pusher<nullopt_t> { | ||
| 14517 | static int push(lua_State* L, nullopt_t) { | ||
| 14518 | return stack::push(L, lua_nil); | ||
| 14519 | } | ||
| 14520 | }; | ||
| 14521 | |||
| 14522 | template <> | ||
| 14523 | struct unqualified_pusher<std::nullptr_t> { | ||
| 14524 | static int push(lua_State* L, std::nullptr_t) { | ||
| 14525 | return stack::push(L, lua_nil); | ||
| 14526 | } | ||
| 14527 | }; | ||
| 14528 | |||
| 14529 | template <> | ||
| 14530 | struct unqualified_pusher<this_state> { | ||
| 14531 | static int push(lua_State*, const this_state&) { | ||
| 14532 | return 0; | ||
| 14533 | } | ||
| 14534 | }; | ||
| 14535 | |||
| 14536 | template <> | ||
| 14537 | struct unqualified_pusher<this_main_state> { | ||
| 14538 | static int push(lua_State*, const this_main_state&) { | ||
| 14539 | return 0; | ||
| 14540 | } | ||
| 14541 | }; | ||
| 14542 | |||
| 14543 | template <> | ||
| 14544 | struct unqualified_pusher<new_table> { | ||
| 14545 | static int push(lua_State* L, const new_table& nt) { | ||
| 14546 | lua_createtable(L, nt.sequence_hint, nt.map_hint); | ||
| 14547 | return 1; | ||
| 14548 | } | ||
| 14549 | }; | ||
| 14550 | |||
| 14551 | template <typename Allocator> | ||
| 14552 | struct unqualified_pusher<basic_bytecode<Allocator>> { | ||
| 14553 | template <typename T> | ||
| 14554 | static int push(lua_State* L, T&& bc, const char* bytecode_name) { | ||
| 14555 | const auto first = bc.data(); | ||
| 14556 | const auto bcsize = bc.size(); | ||
| 14557 | // pushes either the function, or an error | ||
| 14558 | // if it errors, shit goes south, and people can test that upstream | ||
| 14559 | (void)luaL_loadbuffer( | ||
| 14560 | L, reinterpret_cast<const char*>(first), static_cast<std::size_t>(bcsize * (sizeof(*first) / sizeof(const char))), bytecode_name); | ||
| 14561 | return 1; | ||
| 14562 | } | ||
| 14563 | |||
| 14564 | template <typename T> | ||
| 14565 | static int push(lua_State* L, T&& bc) { | ||
| 14566 | return push(L, std::forward<bc>(bc), "bytecode"); | ||
| 14567 | } | ||
| 14568 | }; | ||
| 14569 | |||
| 14570 | #if SOL_IS_ON(SOL_STD_VARIANT_I_) | ||
| 14571 | namespace stack_detail { | ||
| 14572 | |||
| 14573 | struct push_function { | ||
| 14574 | lua_State* L; | ||
| 14575 | |||
| 14576 | push_function(lua_State* L) : L(L) { | ||
| 14577 | } | ||
| 14578 | |||
| 14579 | template <typename T> | ||
| 14580 | int operator()(T&& value) const { | ||
| 14581 | return stack::push<T>(L, std::forward<T>(value)); | ||
| 14582 | } | ||
| 14583 | }; | ||
| 14584 | |||
| 14585 | } // namespace stack_detail | ||
| 14586 | |||
| 14587 | template <typename... Tn> | ||
| 14588 | struct unqualified_pusher<std::variant<Tn...>> { | ||
| 14589 | static int push(lua_State* L, const std::variant<Tn...>& v) { | ||
| 14590 | return std::visit(stack_detail::push_function(L), v); | ||
| 14591 | } | ||
| 14592 | |||
| 14593 | static int push(lua_State* L, std::variant<Tn...>&& v) { | ||
| 14594 | return std::visit(stack_detail::push_function(L), std::move(v)); | ||
| 14595 | } | ||
| 14596 | }; | ||
| 14597 | #endif // Variant because Clang is terrible | ||
| 14598 | |||
| 14599 | }} // namespace sol::stack | ||
| 14600 | |||
| 14601 | // end of sol/stack_push.hpp | ||
| 14602 | |||
| 14603 | // beginning of sol/stack_pop.hpp | ||
| 14604 | |||
| 14605 | #include <utility> | ||
| 14606 | #include <tuple> | ||
| 14607 | |||
| 14608 | namespace sol { | ||
| 14609 | namespace stack { | ||
| 14610 | template <typename T, typename> | ||
| 14611 | struct popper { | ||
| 14612 | inline static decltype(auto) pop(lua_State* L) { | ||
| 14613 | if constexpr (is_stack_based_v<meta::unqualified_t<T>>) { | ||
| 14614 | static_assert(!is_stack_based_v<meta::unqualified_t<T>>, | ||
| 14615 | "You cannot pop something that lives solely on the stack: it will not remain on the stack when popped and thusly will go out of " | ||
| 14616 | "scope!"); | ||
| 14617 | } | ||
| 14618 | else { | ||
| 14619 | record tracking{}; | ||
| 14620 | decltype(auto) r = get<T>(L, -lua_size<T>::value, tracking); | ||
| 14621 | lua_pop(L, tracking.used); | ||
| 14622 | return r; | ||
| 14623 | } | ||
| 14624 | } | ||
| 14625 | }; | ||
| 14626 | } | ||
| 14627 | } // namespace sol::stack | ||
| 14628 | |||
| 14629 | // end of sol/stack_pop.hpp | ||
| 14630 | |||
| 14631 | // beginning of sol/stack_field.hpp | ||
| 14632 | |||
| 14633 | namespace sol { namespace stack { | ||
| 14634 | template <typename T, bool global, bool raw, typename> | ||
| 14635 | struct field_getter { | ||
| 14636 | static constexpr int default_table_index = meta::conditional_t < meta::is_c_str_v<T> | ||
| 14637 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 14638 | || (std::is_integral_v<T> && !std::is_same_v<T, bool>) | ||
| 14639 | #endif // integer global keys 5.3 or better | ||
| 14640 | || (raw && std::is_void_v<std::remove_pointer_t<T>>), | ||
| 14641 | std::integral_constant<int, -1>, std::integral_constant<int, -2> > ::value; | ||
| 14642 | |||
| 14643 | template <typename Key> | ||
| 14644 | void get(lua_State* L, Key&& key, int tableindex = default_table_index) { | ||
| 14645 | if constexpr (std::is_same_v<T, update_if_empty_t> || std::is_same_v<T, override_value_t> || std::is_same_v<T, create_if_nil_t>) { | ||
| 14646 | (void)L; | ||
| 14647 | (void)key; | ||
| 14648 | (void)tableindex; | ||
| 14649 | } | ||
| 14650 | else if constexpr (std::is_same_v<T, env_key_t>) { | ||
| 14651 | (void)key; | ||
| 14652 | #if SOL_LUA_VESION_I_ < 502 | ||
| 14653 | // Use lua_setfenv | ||
| 14654 | lua_getfenv(L, tableindex); | ||
| 14655 | #else | ||
| 14656 | // Use upvalues as explained in Lua 5.2 and beyond's manual | ||
| 14657 | if (lua_getupvalue(L, tableindex, 1) == nullptr) { | ||
| 14658 | push(L, lua_nil); | ||
| 14659 | } | ||
| 14660 | #endif | ||
| 14661 | } | ||
| 14662 | else if constexpr (std::is_same_v<T, metatable_key_t>) { | ||
| 14663 | (void)key; | ||
| 14664 | if (lua_getmetatable(L, tableindex) == 0) | ||
| 14665 | push(L, lua_nil); | ||
| 14666 | } | ||
| 14667 | else if constexpr (raw) { | ||
| 14668 | if constexpr (std::is_integral_v<T> && !std::is_same_v<bool, T>) { | ||
| 14669 | lua_rawgeti(L, tableindex, static_cast<lua_Integer>(key)); | ||
| 14670 | } | ||
| 14671 | #if SOL_LUA_VESION_I_ >= 502 | ||
| 14672 | else if constexpr (std::is_void_v<std::remove_pointer_t<T>>) { | ||
| 14673 | lua_rawgetp(L, tableindex, key); | ||
| 14674 | } | ||
| 14675 | #endif // Lua 5.2.x+ | ||
| 14676 | else { | ||
| 14677 | push(L, std::forward<Key>(key)); | ||
| 14678 | lua_rawget(L, tableindex); | ||
| 14679 | } | ||
| 14680 | } | ||
| 14681 | else { | ||
| 14682 | if constexpr (meta::is_c_str_v<T>) { | ||
| 14683 | if constexpr (global) { | ||
| 14684 | (void)tableindex; | ||
| 14685 | lua_getglobal(L, &key[0]); | ||
| 14686 | } | ||
| 14687 | else { | ||
| 14688 | lua_getfield(L, tableindex, &key[0]); | ||
| 14689 | } | ||
| 14690 | } | ||
| 14691 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 14692 | else if constexpr (std::is_integral_v<T> && !std::is_same_v<bool, T>) { | ||
| 14693 | lua_geti(L, tableindex, static_cast<lua_Integer>(key)); | ||
| 14694 | } | ||
| 14695 | #endif // Lua 5.3.x+ | ||
| 14696 | else { | ||
| 14697 | push(L, std::forward<Key>(key)); | ||
| 14698 | lua_gettable(L, tableindex); | ||
| 14699 | } | ||
| 14700 | } | ||
| 14701 | } | ||
| 14702 | }; | ||
| 14703 | |||
| 14704 | template <typename... Args, bool b, bool raw, typename C> | ||
| 14705 | struct field_getter<std::tuple<Args...>, b, raw, C> { | ||
| 14706 | template <std::size_t... I, typename Keys> | ||
| 14707 | void apply(std::index_sequence<0, I...>, lua_State* L, Keys&& keys, int tableindex) { | ||
| 14708 | get_field<b, raw>(L, std::get<0>(std::forward<Keys>(keys)), tableindex); | ||
| 14709 | void(detail::swallow { (get_field<false, raw>(L, std::get<I>(std::forward<Keys>(keys))), 0)... }); | ||
| 14710 | reference saved(L, -1); | ||
| 14711 | lua_pop(L, static_cast<int>(sizeof...(I))); | ||
| 14712 | saved.push(); | ||
| 14713 | } | ||
| 14714 | |||
| 14715 | template <typename Keys> | ||
| 14716 | void get(lua_State* L, Keys&& keys) { | ||
| 14717 | apply(std::make_index_sequence<sizeof...(Args)>(), L, std::forward<Keys>(keys), lua_absindex(L, -1)); | ||
| 14718 | } | ||
| 14719 | |||
| 14720 | template <typename Keys> | ||
| 14721 | void get(lua_State* L, Keys&& keys, int tableindex) { | ||
| 14722 | apply(std::make_index_sequence<sizeof...(Args)>(), L, std::forward<Keys>(keys), tableindex); | ||
| 14723 | } | ||
| 14724 | }; | ||
| 14725 | |||
| 14726 | template <typename A, typename B, bool b, bool raw, typename C> | ||
| 14727 | struct field_getter<std::pair<A, B>, b, raw, C> { | ||
| 14728 | template <typename Keys> | ||
| 14729 | void get(lua_State* L, Keys&& keys, int tableindex) { | ||
| 14730 | get_field<b, raw>(L, std::get<0>(std::forward<Keys>(keys)), tableindex); | ||
| 14731 | get_field<false, raw>(L, std::get<1>(std::forward<Keys>(keys))); | ||
| 14732 | reference saved(L, -1); | ||
| 14733 | lua_pop(L, static_cast<int>(2)); | ||
| 14734 | saved.push(); | ||
| 14735 | } | ||
| 14736 | |||
| 14737 | template <typename Keys> | ||
| 14738 | void get(lua_State* L, Keys&& keys) { | ||
| 14739 | get_field<b, raw>(L, std::get<0>(std::forward<Keys>(keys))); | ||
| 14740 | get_field<false, raw>(L, std::get<1>(std::forward<Keys>(keys))); | ||
| 14741 | reference saved(L, -1); | ||
| 14742 | lua_pop(L, static_cast<int>(2)); | ||
| 14743 | saved.push(); | ||
| 14744 | } | ||
| 14745 | }; | ||
| 14746 | |||
| 14747 | template <typename T, bool global, bool raw, typename> | ||
| 14748 | struct field_setter { | ||
| 14749 | static constexpr int default_table_index | ||
| 14750 | = meta::conditional_t < (meta::is_c_str_v<T> || meta::is_string_of_v<T, char>) || (std::is_integral_v<T> && !std::is_same_v<T, bool>) | ||
| 14751 | || (std::is_integral_v<T> && !std::is_same_v<T, bool>) || (raw && std::is_void_v<std::remove_pointer_t<T>>), | ||
| 14752 | std::integral_constant<int, -2>, std::integral_constant<int, -3> > ::value; | ||
| 14753 | |||
| 14754 | template <typename Key, typename Value> | ||
| 14755 | void set(lua_State* L, Key&& key, Value&& value, int tableindex = default_table_index) { | ||
| 14756 | if constexpr (std::is_same_v<T, update_if_empty_t> || std::is_same_v<T, override_value_t>) { | ||
| 14757 | (void)L; | ||
| 14758 | (void)key; | ||
| 14759 | (void)value; | ||
| 14760 | (void)tableindex; | ||
| 14761 | } | ||
| 14762 | else if constexpr (std::is_same_v<T, metatable_key_t>) { | ||
| 14763 | (void)key; | ||
| 14764 | push(L, std::forward<Value>(value)); | ||
| 14765 | lua_setmetatable(L, tableindex); | ||
| 14766 | } | ||
| 14767 | else if constexpr (raw) { | ||
| 14768 | if constexpr (std::is_integral_v<T> && !std::is_same_v<bool, T>) { | ||
| 14769 | push(L, std::forward<Value>(value)); | ||
| 14770 | lua_rawseti(L, tableindex, static_cast<lua_Integer>(key)); | ||
| 14771 | } | ||
| 14772 | #if SOL_LUA_VESION_I_ >= 502 | ||
| 14773 | else if constexpr (std::is_void_v<std::remove_pointer_t<T>>) { | ||
| 14774 | push(L, std::forward<Value>(value)); | ||
| 14775 | lua_rawsetp(L, tableindex, std::forward<Key>(key)); | ||
| 14776 | } | ||
| 14777 | #endif // Lua 5.2.x | ||
| 14778 | else { | ||
| 14779 | push(L, std::forward<Key>(key)); | ||
| 14780 | push(L, std::forward<Value>(value)); | ||
| 14781 | lua_rawset(L, tableindex); | ||
| 14782 | } | ||
| 14783 | } | ||
| 14784 | else { | ||
| 14785 | if constexpr (meta::is_c_str_v<T> || meta::is_string_of_v<T, char>) { | ||
| 14786 | if constexpr (global) { | ||
| 14787 | push(L, std::forward<Value>(value)); | ||
| 14788 | lua_setglobal(L, &key[0]); | ||
| 14789 | (void)tableindex; | ||
| 14790 | } | ||
| 14791 | else { | ||
| 14792 | push(L, std::forward<Value>(value)); | ||
| 14793 | lua_setfield(L, tableindex, &key[0]); | ||
| 14794 | } | ||
| 14795 | } | ||
| 14796 | #if SOL_LUA_VESION_I_ >= 503 | ||
| 14797 | else if constexpr (std::is_integral_v<T> && !std::is_same_v<bool, T>) { | ||
| 14798 | push(L, std::forward<Value>(value)); | ||
| 14799 | lua_seti(L, tableindex, static_cast<lua_Integer>(key)); | ||
| 14800 | } | ||
| 14801 | #endif // Lua 5.3.x | ||
| 14802 | else { | ||
| 14803 | push(L, std::forward<Key>(key)); | ||
| 14804 | push(L, std::forward<Value>(value)); | ||
| 14805 | lua_settable(L, tableindex); | ||
| 14806 | } | ||
| 14807 | } | ||
| 14808 | } | ||
| 14809 | }; | ||
| 14810 | |||
| 14811 | template <typename... Args, bool b, bool raw, typename C> | ||
| 14812 | struct field_setter<std::tuple<Args...>, b, raw, C> { | ||
| 14813 | template <bool g, std::size_t I, typename Keys, typename Value> | ||
| 14814 | void apply(std::index_sequence<I>, lua_State* L, Keys&& keys, Value&& value, int tableindex) { | ||
| 14815 | I < 1 ? set_field<g, raw>(L, std::get<I>(std::forward<Keys>(keys)), std::forward<Value>(value), tableindex) | ||
| 14816 | : set_field<g, raw>(L, std::get<I>(std::forward<Keys>(keys)), std::forward<Value>(value)); | ||
| 14817 | } | ||
| 14818 | |||
| 14819 | template <bool g, std::size_t I0, std::size_t I1, std::size_t... I, typename Keys, typename Value> | ||
| 14820 | void apply(std::index_sequence<I0, I1, I...>, lua_State* L, Keys&& keys, Value&& value, int tableindex) { | ||
| 14821 | I0 < 1 ? get_field<g, raw>(L, std::get<I0>(std::forward<Keys>(keys)), tableindex) | ||
| 14822 | : get_field<g, raw>(L, std::get<I0>(std::forward<Keys>(keys)), -1); | ||
| 14823 | apply<false>(std::index_sequence<I1, I...>(), L, std::forward<Keys>(keys), std::forward<Value>(value), -1); | ||
| 14824 | } | ||
| 14825 | |||
| 14826 | template <bool g, std::size_t I0, std::size_t... I, typename Keys, typename Value> | ||
| 14827 | void top_apply(std::index_sequence<I0, I...>, lua_State* L, Keys&& keys, Value&& value, int tableindex) { | ||
| 14828 | apply<g>(std::index_sequence<I0, I...>(), L, std::forward<Keys>(keys), std::forward<Value>(value), tableindex); | ||
| 14829 | lua_pop(L, static_cast<int>(sizeof...(I))); | ||
| 14830 | } | ||
| 14831 | |||
| 14832 | template <typename Keys, typename Value> | ||
| 14833 | void set(lua_State* L, Keys&& keys, Value&& value, int tableindex = -3) { | ||
| 14834 | top_apply<b>(std::make_index_sequence<sizeof...(Args)>(), L, std::forward<Keys>(keys), std::forward<Value>(value), tableindex); | ||
| 14835 | } | ||
| 14836 | }; | ||
| 14837 | |||
| 14838 | template <typename A, typename B, bool b, bool raw, typename C> | ||
| 14839 | struct field_setter<std::pair<A, B>, b, raw, C> { | ||
| 14840 | template <typename Keys, typename Value> | ||
| 14841 | void set(lua_State* L, Keys&& keys, Value&& value, int tableindex = -1) { | ||
| 14842 | get_field<b, raw>(L, std::get<0>(std::forward<Keys>(keys)), tableindex); | ||
| 14843 | set_field<false, raw>(L, std::get<1>(std::forward<Keys>(keys)), std::forward<Value>(value), lua_gettop(L)); | ||
| 14844 | lua_pop(L, 1); | ||
| 14845 | } | ||
| 14846 | }; | ||
| 14847 | }} // namespace sol::stack | ||
| 14848 | |||
| 14849 | // end of sol/stack_field.hpp | ||
| 14850 | |||
| 14851 | // beginning of sol/stack_probe.hpp | ||
| 14852 | |||
| 14853 | namespace sol { | ||
| 14854 | namespace stack { | ||
| 14855 | template <typename T, typename P, bool b, bool raw, typename> | ||
| 14856 | struct probe_field_getter { | ||
| 14857 | template <typename Key> | ||
| 14858 | probe get(lua_State* L, Key&& key, int tableindex = -2) { | ||
| 14859 | if constexpr(!b) { | ||
| 14860 | if (!maybe_indexable(L, tableindex)) { | ||
| 14861 | return probe(false, 0); | ||
| 14862 | } | ||
| 14863 | } | ||
| 14864 | get_field<b, raw>(L, std::forward<Key>(key), tableindex); | ||
| 14865 | return probe(check<P>(L), 1); | ||
| 14866 | } | ||
| 14867 | }; | ||
| 14868 | |||
| 14869 | template <typename A, typename B, typename P, bool b, bool raw, typename C> | ||
| 14870 | struct probe_field_getter<std::pair<A, B>, P, b, raw, C> { | ||
| 14871 | template <typename Keys> | ||
| 14872 | probe get(lua_State* L, Keys&& keys, int tableindex = -2) { | ||
| 14873 | if (!b && !maybe_indexable(L, tableindex)) { | ||
| 14874 | return probe(false, 0); | ||
| 14875 | } | ||
| 14876 | get_field<b, raw>(L, std::get<0>(keys), tableindex); | ||
| 14877 | if (!maybe_indexable(L)) { | ||
| 14878 | return probe(false, 1); | ||
| 14879 | } | ||
| 14880 | get_field<false, raw>(L, std::get<1>(keys), tableindex); | ||
| 14881 | return probe(check<P>(L), 2); | ||
| 14882 | } | ||
| 14883 | }; | ||
| 14884 | |||
| 14885 | template <typename... Args, typename P, bool b, bool raw, typename C> | ||
| 14886 | struct probe_field_getter<std::tuple<Args...>, P, b, raw, C> { | ||
| 14887 | template <std::size_t I, typename Keys> | ||
| 14888 | probe apply(std::index_sequence<I>, int sofar, lua_State* L, Keys&& keys, int tableindex) { | ||
| 14889 | get_field<(I<1) && b, raw>(L, std::get<I>(keys), tableindex); | ||
| 14890 | return probe(check<P>(L), sofar); | ||
| 14891 | } | ||
| 14892 | |||
| 14893 | template <std::size_t I, std::size_t I1, std::size_t... In, typename Keys> | ||
| 14894 | probe apply(std::index_sequence<I, I1, In...>, int sofar, lua_State* L, Keys&& keys, int tableindex) { | ||
| 14895 | get_field < I<1 && b, raw>(L, std::get<I>(keys), tableindex); | ||
| 14896 | if (!maybe_indexable(L)) { | ||
| 14897 | return probe(false, sofar); | ||
| 14898 | } | ||
| 14899 | return apply(std::index_sequence<I1, In...>(), sofar + 1, L, std::forward<Keys>(keys), -1); | ||
| 14900 | } | ||
| 14901 | |||
| 14902 | template <typename Keys> | ||
| 14903 | probe get(lua_State* L, Keys&& keys, int tableindex = -2) { | ||
| 14904 | if constexpr (!b) { | ||
| 14905 | if (!maybe_indexable(L, tableindex)) { | ||
| 14906 | return probe(false, 0); | ||
| 14907 | } | ||
| 14908 | return apply(std::index_sequence_for<Args...>(), 1, L, std::forward<Keys>(keys), tableindex); | ||
| 14909 | } | ||
| 14910 | else { | ||
| 14911 | return apply(std::index_sequence_for<Args...>(), 1, L, std::forward<Keys>(keys), tableindex); | ||
| 14912 | } | ||
| 14913 | } | ||
| 14914 | }; | ||
| 14915 | } | ||
| 14916 | } // namespace sol::stack | ||
| 14917 | |||
| 14918 | // end of sol/stack_probe.hpp | ||
| 14919 | |||
| 14920 | #include <cstring> | ||
| 14921 | #include <array> | ||
| 14922 | |||
| 14923 | namespace sol { | ||
| 14924 | namespace detail { | ||
| 14925 | using typical_chunk_name_t = char[SOL_ID_SIZE_I_]; | ||
| 14926 | using typical_file_chunk_name_t = char[SOL_FILE_ID_SIZE_I_]; | ||
| 14927 | |||
| 14928 | inline const std::string& default_chunk_name() { | ||
| 14929 | static const std::string name = ""; | ||
| 14930 | return name; | ||
| 14931 | } | ||
| 14932 | |||
| 14933 | template <std::size_t N> | ||
| 14934 | const char* make_chunk_name(const string_view& code, const std::string& chunkname, char (&basechunkname)[N]) { | ||
| 14935 | if (chunkname.empty()) { | ||
| 14936 | auto it = code.cbegin(); | ||
| 14937 | auto e = code.cend(); | ||
| 14938 | std::size_t i = 0; | ||
| 14939 | static const std::size_t n = N - 4; | ||
| 14940 | for (i = 0; i < n && it != e; ++i, ++it) { | ||
| 14941 | basechunkname[i] = *it; | ||
| 14942 | } | ||
| 14943 | if (it != e) { | ||
| 14944 | for (std::size_t c = 0; c < 3; ++i, ++c) { | ||
| 14945 | basechunkname[i] = '.'; | ||
| 14946 | } | ||
| 14947 | } | ||
| 14948 | basechunkname[i] = '\0'; | ||
| 14949 | return &basechunkname[0]; | ||
| 14950 | } | ||
| 14951 | else { | ||
| 14952 | return chunkname.c_str(); | ||
| 14953 | } | ||
| 14954 | } | ||
| 14955 | |||
| 14956 | inline void clear_entries(stack_reference r) { | ||
| 14957 | stack::push(r.lua_state(), lua_nil); | ||
| 14958 | while (lua_next(r.lua_state(), -2)) { | ||
| 14959 | absolute_index key(r.lua_state(), -2); | ||
| 14960 | auto pn = stack::pop_n(r.lua_state(), 1); | ||
| 14961 | stack::set_field<false, true>(r.lua_state(), key, lua_nil, r.stack_index()); | ||
| 14962 | } | ||
| 14963 | } | ||
| 14964 | |||
| 14965 | inline void clear_entries(const reference& registry_reference) { | ||
| 14966 | auto pp = stack::push_pop(registry_reference); | ||
| 14967 | stack_reference ref(registry_reference.lua_state(), -1); | ||
| 14968 | clear_entries(ref); | ||
| 14969 | } | ||
| 14970 | } // namespace detail | ||
| 14971 | |||
| 14972 | namespace stack { | ||
| 14973 | namespace stack_detail { | ||
| 14974 | template <typename T> | ||
| 14975 | inline int push_as_upvalues(lua_State* L, T& item) { | ||
| 14976 | typedef std::decay_t<T> TValue; | ||
| 14977 | static const std::size_t itemsize = sizeof(TValue); | ||
| 14978 | static const std::size_t voidsize = sizeof(void*); | ||
| 14979 | static const std::size_t voidsizem1 = voidsize - 1; | ||
| 14980 | static const std::size_t data_t_count = (sizeof(TValue) + voidsizem1) / voidsize; | ||
| 14981 | typedef std::array<void*, data_t_count> data_t; | ||
| 14982 | |||
| 14983 | data_t data { {} }; | ||
| 14984 | std::memcpy(&data[0], std::addressof(item), itemsize); | ||
| 14985 | int pushcount = 0; | ||
| 14986 | for (const auto& v : data) { | ||
| 14987 | lua_pushlightuserdata(L, v); | ||
| 14988 | pushcount += 1; | ||
| 14989 | } | ||
| 14990 | return pushcount; | ||
| 14991 | } | ||
| 14992 | |||
| 14993 | template <typename T> | ||
| 14994 | inline std::pair<T, int> get_as_upvalues(lua_State* L, int index = 2) { | ||
| 14995 | static const std::size_t data_t_count = (sizeof(T) + (sizeof(void*) - 1)) / sizeof(void*); | ||
| 14996 | typedef std::array<void*, data_t_count> data_t; | ||
| 14997 | data_t voiddata { {} }; | ||
| 14998 | for (std::size_t i = 0, d = 0; d < sizeof(T); ++i, d += sizeof(void*)) { | ||
| 14999 | voiddata[i] = lua_touserdata(L, upvalue_index(index++)); | ||
| 15000 | } | ||
| 15001 | return std::pair<T, int>(*reinterpret_cast<T*>(static_cast<void*>(voiddata.data())), index); | ||
| 15002 | } | ||
| 15003 | |||
| 15004 | template <typename T> | ||
| 15005 | inline std::pair<T, int> get_as_upvalues_using_function(lua_State* L, int function_index = -1) { | ||
| 15006 | static const std::size_t data_t_count = (sizeof(T) + (sizeof(void*) - 1)) / sizeof(void*); | ||
| 15007 | typedef std::array<void*, data_t_count> data_t; | ||
| 15008 | function_index = lua_absindex(L, function_index); | ||
| 15009 | int index = 0; | ||
| 15010 | data_t voiddata { {} }; | ||
| 15011 | for (std::size_t d = 0; d < sizeof(T); d += sizeof(void*)) { | ||
| 15012 | // first upvalue is nullptr to respect environment shenanigans | ||
| 15013 | // So +2 instead of +1 | ||
| 15014 | const char* upvalue_name = lua_getupvalue(L, function_index, index + 2); | ||
| 15015 | if (upvalue_name == nullptr) { | ||
| 15016 | // We should freak out here... | ||
| 15017 | break; | ||
| 15018 | } | ||
| 15019 | voiddata[index] = lua_touserdata(L, -1); | ||
| 15020 | ++index; | ||
| 15021 | } | ||
| 15022 | lua_pop(L, index); | ||
| 15023 | return std::pair<T, int>(*reinterpret_cast<T*>(static_cast<void*>(voiddata.data())), index); | ||
| 15024 | } | ||
| 15025 | |||
| 15026 | template <typename Fx, typename... Args> | ||
| 15027 | static decltype(auto) eval(types<>, std::index_sequence<>, lua_State*, int, record&, Fx&& fx, Args&&... args) { | ||
| 15028 | return std::forward<Fx>(fx)(std::forward<Args>(args)...); | ||
| 15029 | } | ||
| 15030 | |||
| 15031 | template <typename Fx, typename Arg, typename... Args, std::size_t I, std::size_t... Is, typename... FxArgs> | ||
| 15032 | static decltype(auto) eval( | ||
| 15033 | types<Arg, Args...>, std::index_sequence<I, Is...>, lua_State* L, int start, record& tracking, Fx&& fx, FxArgs&&... fxargs) { | ||
| 15034 | return eval(types<Args...>(), | ||
| 15035 | std::index_sequence<Is...>(), | ||
| 15036 | L, | ||
| 15037 | start, | ||
| 15038 | tracking, | ||
| 15039 | std::forward<Fx>(fx), | ||
| 15040 | std::forward<FxArgs>(fxargs)..., | ||
| 15041 | stack_detail::unchecked_get<Arg>(L, start + tracking.used, tracking)); | ||
| 15042 | } | ||
| 15043 | |||
| 15044 | template <bool checkargs = detail::default_safe_function_calls, std::size_t... I, typename R, typename... Args, typename Fx, typename... FxArgs> | ||
| 15045 | inline decltype(auto) call(types<R>, types<Args...> ta, std::index_sequence<I...> tai, lua_State* L, int start, Fx&& fx, FxArgs&&... args) { | ||
| 15046 | static_assert(meta::all<meta::is_not_move_only<Args>...>::value, | ||
| 15047 | "One of the arguments being bound is a move-only type, and it is not being taken by reference: this will break your code. Please take " | ||
| 15048 | "a reference and std::move it manually if this was your intention."); | ||
| 15049 | if constexpr (checkargs) { | ||
| 15050 | argument_handler<types<R, Args...>> handler {}; | ||
| 15051 | multi_check<Args...>(L, start, handler); | ||
| 15052 | } | ||
| 15053 | record tracking {}; | ||
| 15054 | if constexpr (std::is_void_v<R>) { | ||
| 15055 | eval(ta, tai, L, start, tracking, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15056 | } | ||
| 15057 | else { | ||
| 15058 | return eval(ta, tai, L, start, tracking, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15059 | } | ||
| 15060 | } | ||
| 15061 | } // namespace stack_detail | ||
| 15062 | |||
| 15063 | template <typename T> | ||
| 15064 | int set_ref(lua_State* L, T&& arg, int tableindex = -2) { | ||
| 15065 | push(L, std::forward<T>(arg)); | ||
| 15066 | return luaL_ref(L, tableindex); | ||
| 15067 | } | ||
| 15068 | |||
| 15069 | template <bool check_args = detail::default_safe_function_calls, typename R, typename... Args, typename Fx, typename... FxArgs> | ||
| 15070 | inline decltype(auto) call(types<R> tr, types<Args...> ta, lua_State* L, int start, Fx&& fx, FxArgs&&... args) { | ||
| 15071 | using args_indices = std::make_index_sequence<sizeof...(Args)>; | ||
| 15072 | if constexpr (std::is_void_v<R>) { | ||
| 15073 | stack_detail::call<check_args>(tr, ta, args_indices(), L, start, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15074 | } | ||
| 15075 | else { | ||
| 15076 | return stack_detail::call<check_args>(tr, ta, args_indices(), L, start, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15077 | } | ||
| 15078 | } | ||
| 15079 | |||
| 15080 | template <bool check_args = detail::default_safe_function_calls, typename R, typename... Args, typename Fx, typename... FxArgs> | ||
| 15081 | inline decltype(auto) call(types<R> tr, types<Args...> ta, lua_State* L, Fx&& fx, FxArgs&&... args) { | ||
| 15082 | if constexpr (std::is_void_v<R>) { | ||
| 15083 | call<check_args>(tr, ta, L, 1, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15084 | } | ||
| 15085 | else { | ||
| 15086 | return call<check_args>(tr, ta, L, 1, std::forward<Fx>(fx), std::forward<FxArgs>(args)...); | ||
| 15087 | } | ||
| 15088 | } | ||
| 15089 | |||
| 15090 | template <bool check_args = detail::default_safe_function_calls, typename R, typename... Args, typename Fx, typename... FxArgs> | ||
| 15091 | inline decltype(auto) call_from_top(types<R> tr, types<Args...> ta, lua_State* L, Fx&& fx, FxArgs&&... args) { | ||
| 15092 | using expected_count_t = meta::count_for_pack<lua_size, Args...>; | ||
| 15093 | if constexpr (std::is_void_v<R>) { | ||
| 15094 | call<check_args>(tr, | ||
| 15095 | ta, | ||
| 15096 | L, | ||
| 15097 | (std::max)(static_cast<int>(lua_gettop(L) - expected_count_t::value), static_cast<int>(0)), | ||
| 15098 | std::forward<Fx>(fx), | ||
| 15099 | std::forward<FxArgs>(args)...); | ||
| 15100 | } | ||
| 15101 | else { | ||
| 15102 | return call<check_args>(tr, | ||
| 15103 | ta, | ||
| 15104 | L, | ||
| 15105 | (std::max)(static_cast<int>(lua_gettop(L) - expected_count_t::value), static_cast<int>(0)), | ||
| 15106 | std::forward<Fx>(fx), | ||
| 15107 | std::forward<FxArgs>(args)...); | ||
| 15108 | } | ||
| 15109 | } | ||
| 15110 | |||
| 15111 | template <bool check_args = detail::default_safe_function_calls, bool clean_stack = true, typename Ret0, typename... Ret, typename... Args, | ||
| 15112 | typename Fx, typename... FxArgs> | ||
| 15113 | inline int call_into_lua(types<Ret0, Ret...> tr, types<Args...> ta, lua_State* L, int start, Fx&& fx, FxArgs&&... fxargs) { | ||
| 15114 | if constexpr (std::is_void_v<Ret0>) { | ||
| 15115 | call<check_args>(tr, ta, L, start, std::forward<Fx>(fx), std::forward<FxArgs>(fxargs)...); | ||
| 15116 | if constexpr (clean_stack) { | ||
| 15117 | lua_settop(L, 0); | ||
| 15118 | } | ||
| 15119 | return 0; | ||
| 15120 | } | ||
| 15121 | else { | ||
| 15122 | (void)tr; | ||
| 15123 | decltype(auto) r | ||
| 15124 | = call<check_args>(types<meta::return_type_t<Ret0, Ret...>>(), ta, L, start, std::forward<Fx>(fx), std::forward<FxArgs>(fxargs)...); | ||
| 15125 | using R = meta::unqualified_t<decltype(r)>; | ||
| 15126 | using is_stack = meta::any<is_stack_based<R>, std::is_same<R, absolute_index>, std::is_same<R, ref_index>, std::is_same<R, raw_index>>; | ||
| 15127 | if constexpr (clean_stack && !is_stack::value) { | ||
| 15128 | lua_settop(L, 0); | ||
| 15129 | } | ||
| 15130 | return push_reference(L, std::forward<decltype(r)>(r)); | ||
| 15131 | } | ||
| 15132 | } | ||
| 15133 | |||
| 15134 | template <bool check_args = detail::default_safe_function_calls, bool clean_stack = true, typename Fx, typename... FxArgs> | ||
| 15135 | inline int call_lua(lua_State* L, int start, Fx&& fx, FxArgs&&... fxargs) { | ||
| 15136 | using traits_type = lua_bind_traits<meta::unqualified_t<Fx>>; | ||
| 15137 | using args_list = typename traits_type::args_list; | ||
| 15138 | using returns_list = typename traits_type::returns_list; | ||
| 15139 | return call_into_lua<check_args, clean_stack>(returns_list(), args_list(), L, start, std::forward<Fx>(fx), std::forward<FxArgs>(fxargs)...); | ||
| 15140 | } | ||
| 15141 | |||
| 15142 | inline call_syntax get_call_syntax(lua_State* L, const string_view& key, int index) { | ||
| 15143 | if (lua_gettop(L) < 1) { | ||
| 15144 | return call_syntax::dot; | ||
| 15145 | } | ||
| 15146 | luaL_getmetatable(L, key.data()); | ||
| 15147 | auto pn = pop_n(L, 1); | ||
| 15148 | if (lua_compare(L, -1, index, LUA_OPEQ) != 1) { | ||
| 15149 | return call_syntax::dot; | ||
| 15150 | } | ||
| 15151 | return call_syntax::colon; | ||
| 15152 | } | ||
| 15153 | |||
| 15154 | inline void script( | ||
| 15155 | lua_State* L, lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 15156 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 15157 | const char* chunknametarget = detail::make_chunk_name("lua_Reader", chunkname, basechunkname); | ||
| 15158 | if (lua_load(L, reader, data, chunknametarget, to_string(mode).c_str()) || lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 15159 | lua_error(L); | ||
| 15160 | } | ||
| 15161 | } | ||
| 15162 | |||
| 15163 | inline void script( | ||
| 15164 | lua_State* L, const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 15165 | |||
| 15166 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 15167 | const char* chunknametarget = detail::make_chunk_name(code, chunkname, basechunkname); | ||
| 15168 | if (luaL_loadbufferx(L, code.data(), code.size(), chunknametarget, to_string(mode).c_str()) || lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 15169 | lua_error(L); | ||
| 15170 | } | ||
| 15171 | } | ||
| 15172 | |||
| 15173 | inline void script_file(lua_State* L, const std::string& filename, load_mode mode = load_mode::any) { | ||
| 15174 | if (luaL_loadfilex(L, filename.c_str(), to_string(mode).c_str()) || lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 15175 | lua_error(L); | ||
| 15176 | } | ||
| 15177 | } | ||
| 15178 | |||
| 15179 | inline void luajit_exception_handler(lua_State* L, int (*handler)(lua_State*, lua_CFunction) = detail::c_trampoline) { | ||
| 15180 | #if SOL_IS_ON(SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_) | ||
| 15181 | if (L == nullptr) { | ||
| 15182 | return; | ||
| 15183 | } | ||
| 15184 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 15185 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 15186 | #endif // make sure stack doesn't overflow | ||
| 15187 | lua_pushlightuserdata(L, (void*)handler); | ||
| 15188 | auto pn = pop_n(L, 1); | ||
| 15189 | luaJIT_setmode(L, -1, LUAJIT_MODE_WRAPCFUNC | LUAJIT_MODE_ON); | ||
| 15190 | #else | ||
| 15191 | (void)L; | ||
| 15192 | (void)handler; | ||
| 15193 | #endif | ||
| 15194 | } | ||
| 15195 | |||
| 15196 | inline void luajit_exception_off(lua_State* L) { | ||
| 15197 | #if SOL_IS_ON(SOL_USE_LUAJIT_EXCEPTION_TRAMPOLINE_I_) | ||
| 15198 | if (L == nullptr) { | ||
| 15199 | return; | ||
| 15200 | } | ||
| 15201 | luaJIT_setmode(L, -1, LUAJIT_MODE_WRAPCFUNC | LUAJIT_MODE_OFF); | ||
| 15202 | #else | ||
| 15203 | (void)L; | ||
| 15204 | #endif | ||
| 15205 | } | ||
| 15206 | } // namespace stack | ||
| 15207 | } // namespace sol | ||
| 15208 | |||
| 15209 | // end of sol/stack.hpp | ||
| 15210 | |||
| 15211 | // beginning of sol/object.hpp | ||
| 15212 | |||
| 15213 | // beginning of sol/make_reference.hpp | ||
| 15214 | |||
| 15215 | namespace sol { | ||
| 15216 | |||
| 15217 | template <typename R = reference, bool should_pop = !is_stack_based_v<R>, typename T> | ||
| 15218 | R make_reference(lua_State* L, T&& value) { | ||
| 15219 | int backpedal = stack::push(L, std::forward<T>(value)); | ||
| 15220 | R r = stack::get<R>(L, -backpedal); | ||
| 15221 | if (should_pop) { | ||
| 15222 | lua_pop(L, backpedal); | ||
| 15223 | } | ||
| 15224 | return r; | ||
| 15225 | } | ||
| 15226 | |||
| 15227 | template <typename T, typename R = reference, bool should_pop = !is_stack_based_v<R>, typename... Args> | ||
| 15228 | R make_reference(lua_State* L, Args&&... args) { | ||
| 15229 | int backpedal = stack::push<T>(L, std::forward<Args>(args)...); | ||
| 15230 | R r = stack::get<R>(L, -backpedal); | ||
| 15231 | if (should_pop) { | ||
| 15232 | lua_pop(L, backpedal); | ||
| 15233 | } | ||
| 15234 | return r; | ||
| 15235 | } | ||
| 15236 | |||
| 15237 | template <typename R = reference, bool should_pop = !is_stack_based_v<R>, typename T> | ||
| 15238 | R make_reference_userdata(lua_State* L, T&& value) { | ||
| 15239 | int backpedal = stack::push_userdata(L, std::forward<T>(value)); | ||
| 15240 | R r = stack::get<R>(L, -backpedal); | ||
| 15241 | if (should_pop) { | ||
| 15242 | lua_pop(L, backpedal); | ||
| 15243 | } | ||
| 15244 | return r; | ||
| 15245 | } | ||
| 15246 | |||
| 15247 | template <typename T, typename R = reference, bool should_pop = !is_stack_based_v<R>, typename... Args> | ||
| 15248 | R make_reference_userdata(lua_State* L, Args&&... args) { | ||
| 15249 | int backpedal = stack::push_userdata<T>(L, std::forward<Args>(args)...); | ||
| 15250 | R r = stack::get<R>(L, -backpedal); | ||
| 15251 | if (should_pop) { | ||
| 15252 | lua_pop(L, backpedal); | ||
| 15253 | } | ||
| 15254 | return r; | ||
| 15255 | } | ||
| 15256 | |||
| 15257 | } // namespace sol | ||
| 15258 | |||
| 15259 | // end of sol/make_reference.hpp | ||
| 15260 | |||
| 15261 | // beginning of sol/object_base.hpp | ||
| 15262 | |||
| 15263 | namespace sol { | ||
| 15264 | |||
| 15265 | template <typename ref_t> | ||
| 15266 | class basic_object_base : public ref_t { | ||
| 15267 | private: | ||
| 15268 | using base_t = ref_t; | ||
| 15269 | |||
| 15270 | template <typename T> | ||
| 15271 | decltype(auto) as_stack(std::true_type) const { | ||
| 15272 | return stack::get<T>(base_t::lua_state(), base_t::stack_index()); | ||
| 15273 | } | ||
| 15274 | |||
| 15275 | template <typename T> | ||
| 15276 | decltype(auto) as_stack(std::false_type) const { | ||
| 15277 | base_t::push(); | ||
| 15278 | return stack::pop<T>(base_t::lua_state()); | ||
| 15279 | } | ||
| 15280 | |||
| 15281 | template <typename T> | ||
| 15282 | bool is_stack(std::true_type) const { | ||
| 15283 | return stack::check<T>(base_t::lua_state(), base_t::stack_index(), no_panic); | ||
| 15284 | } | ||
| 15285 | |||
| 15286 | template <typename T> | ||
| 15287 | bool is_stack(std::false_type) const { | ||
| 15288 | int r = base_t::registry_index(); | ||
| 15289 | if (r == LUA_REFNIL) | ||
| 15290 | return meta::any_same<meta::unqualified_t<T>, lua_nil_t, nullopt_t, std::nullptr_t>::value ? true : false; | ||
| 15291 | if (r == LUA_NOREF) | ||
| 15292 | return false; | ||
| 15293 | auto pp = stack::push_pop(*this); | ||
| 15294 | return stack::check<T>(base_t::lua_state(), -1, no_panic); | ||
| 15295 | } | ||
| 15296 | |||
| 15297 | public: | ||
| 15298 | basic_object_base() noexcept = default; | ||
| 15299 | basic_object_base(const basic_object_base&) = default; | ||
| 15300 | basic_object_base(basic_object_base&&) = default; | ||
| 15301 | basic_object_base& operator=(const basic_object_base&) = default; | ||
| 15302 | basic_object_base& operator=(basic_object_base&&) = default; | ||
| 15303 | template <typename T, typename... Args, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_object_base>>> = meta::enabler> | ||
| 15304 | basic_object_base(T&& arg, Args&&... args) | ||
| 15305 | : base_t(std::forward<T>(arg), std::forward<Args>(args)...) { | ||
| 15306 | } | ||
| 15307 | |||
| 15308 | template <typename T> | ||
| 15309 | decltype(auto) as() const { | ||
| 15310 | return as_stack<T>(is_stack_based<base_t>()); | ||
| 15311 | } | ||
| 15312 | |||
| 15313 | template <typename T> | ||
| 15314 | bool is() const { | ||
| 15315 | return is_stack<T>(is_stack_based<base_t>()); | ||
| 15316 | } | ||
| 15317 | }; | ||
| 15318 | } // namespace sol | ||
| 15319 | |||
| 15320 | // end of sol/object_base.hpp | ||
| 15321 | |||
| 15322 | namespace sol { | ||
| 15323 | |||
| 15324 | template <typename base_type> | ||
| 15325 | class basic_object : public basic_object_base<base_type> { | ||
| 15326 | private: | ||
| 15327 | typedef basic_object_base<base_type> base_t; | ||
| 15328 | |||
| 15329 | template <bool invert_and_pop = false> | ||
| 15330 | basic_object(std::integral_constant<bool, invert_and_pop>, lua_State* L, int index = -1) noexcept | ||
| 15331 | : base_t(L, index) { | ||
| 15332 | if (invert_and_pop) { | ||
| 15333 | lua_pop(L, -index); | ||
| 15334 | } | ||
| 15335 | } | ||
| 15336 | |||
| 15337 | protected: | ||
| 15338 | basic_object(detail::no_safety_tag, lua_nil_t n) : base_t(n) { | ||
| 15339 | } | ||
| 15340 | basic_object(detail::no_safety_tag, lua_State* L, int index) : base_t(L, index) { | ||
| 15341 | } | ||
| 15342 | basic_object(lua_State* L, detail::global_tag t) : base_t(L, t) { | ||
| 15343 | } | ||
| 15344 | basic_object(detail::no_safety_tag, lua_State* L, ref_index index) : base_t(L, index) { | ||
| 15345 | } | ||
| 15346 | template <typename T, | ||
| 15347 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_object>>, meta::neg<std::is_same<base_type, stack_reference>>, | ||
| 15348 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 15349 | basic_object(detail::no_safety_tag, T&& r) noexcept : base_t(std::forward<T>(r)) { | ||
| 15350 | } | ||
| 15351 | |||
| 15352 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 15353 | basic_object(detail::no_safety_tag, lua_State* L, T&& r) noexcept : base_t(L, std::forward<T>(r)) { | ||
| 15354 | } | ||
| 15355 | |||
| 15356 | public: | ||
| 15357 | basic_object() noexcept = default; | ||
| 15358 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_object>>, meta::neg<std::is_same<base_type, stack_reference>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 15359 | basic_object(T&& r) | ||
| 15360 | : base_t(std::forward<T>(r)) { | ||
| 15361 | } | ||
| 15362 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 15363 | basic_object(lua_State* L, T&& r) | ||
| 15364 | : base_t(L, std::forward<T>(r)) { | ||
| 15365 | } | ||
| 15366 | basic_object(lua_nil_t r) | ||
| 15367 | : base_t(r) { | ||
| 15368 | } | ||
| 15369 | basic_object(const basic_object&) = default; | ||
| 15370 | basic_object(basic_object&&) = default; | ||
| 15371 | basic_object(const stack_reference& r) noexcept | ||
| 15372 | : basic_object(r.lua_state(), r.stack_index()) { | ||
| 15373 | } | ||
| 15374 | basic_object(stack_reference&& r) noexcept | ||
| 15375 | : basic_object(r.lua_state(), r.stack_index()) { | ||
| 15376 | } | ||
| 15377 | template <typename Super> | ||
| 15378 | basic_object(const proxy_base<Super>& r) noexcept | ||
| 15379 | : basic_object(r.operator basic_object()) { | ||
| 15380 | } | ||
| 15381 | template <typename Super> | ||
| 15382 | basic_object(proxy_base<Super>&& r) noexcept | ||
| 15383 | : basic_object(r.operator basic_object()) { | ||
| 15384 | } | ||
| 15385 | basic_object(lua_State* L, lua_nil_t r) noexcept | ||
| 15386 | : base_t(L, r) { | ||
| 15387 | } | ||
| 15388 | basic_object(lua_State* L, int index = -1) noexcept | ||
| 15389 | : base_t(L, index) { | ||
| 15390 | } | ||
| 15391 | basic_object(lua_State* L, absolute_index index) noexcept | ||
| 15392 | : base_t(L, index) { | ||
| 15393 | } | ||
| 15394 | basic_object(lua_State* L, raw_index index) noexcept | ||
| 15395 | : base_t(L, index) { | ||
| 15396 | } | ||
| 15397 | basic_object(lua_State* L, ref_index index) noexcept | ||
| 15398 | : base_t(L, index) { | ||
| 15399 | } | ||
| 15400 | template <typename T, typename... Args> | ||
| 15401 | basic_object(lua_State* L, in_place_type_t<T>, Args&&... args) noexcept | ||
| 15402 | : basic_object(std::integral_constant<bool, !is_stack_based<base_t>::value>(), L, -stack::push<T>(L, std::forward<Args>(args)...)) { | ||
| 15403 | } | ||
| 15404 | template <typename T, typename... Args> | ||
| 15405 | basic_object(lua_State* L, in_place_t, T&& arg, Args&&... args) noexcept | ||
| 15406 | : basic_object(L, in_place_type<T>, std::forward<T>(arg), std::forward<Args>(args)...) { | ||
| 15407 | } | ||
| 15408 | basic_object& operator=(const basic_object&) = default; | ||
| 15409 | basic_object& operator=(basic_object&&) = default; | ||
| 15410 | basic_object& operator=(const base_type& b) { | ||
| 15411 | base_t::operator=(b); | ||
| 15412 | return *this; | ||
| 15413 | } | ||
| 15414 | basic_object& operator=(base_type&& b) { | ||
| 15415 | base_t::operator=(std::move(b)); | ||
| 15416 | return *this; | ||
| 15417 | } | ||
| 15418 | template <typename Super> | ||
| 15419 | basic_object& operator=(const proxy_base<Super>& r) { | ||
| 15420 | this->operator=(r.operator basic_object()); | ||
| 15421 | return *this; | ||
| 15422 | } | ||
| 15423 | template <typename Super> | ||
| 15424 | basic_object& operator=(proxy_base<Super>&& r) { | ||
| 15425 | this->operator=(r.operator basic_object()); | ||
| 15426 | return *this; | ||
| 15427 | } | ||
| 15428 | }; | ||
| 15429 | |||
| 15430 | template <typename T> | ||
| 15431 | object make_object(lua_State* L, T&& value) { | ||
| 15432 | return make_reference<object, true>(L, std::forward<T>(value)); | ||
| 15433 | } | ||
| 15434 | |||
| 15435 | template <typename T, typename... Args> | ||
| 15436 | object make_object(lua_State* L, Args&&... args) { | ||
| 15437 | return make_reference<T, object, true>(L, std::forward<Args>(args)...); | ||
| 15438 | } | ||
| 15439 | |||
| 15440 | template <typename T> | ||
| 15441 | object make_object_userdata(lua_State* L, T&& value) { | ||
| 15442 | return make_reference_userdata<object, true>(L, std::forward<T>(value)); | ||
| 15443 | } | ||
| 15444 | |||
| 15445 | template <typename T, typename... Args> | ||
| 15446 | object make_object_userdata(lua_State* L, Args&&... args) { | ||
| 15447 | return make_reference_userdata<T, object, true>(L, std::forward<Args>(args)...); | ||
| 15448 | } | ||
| 15449 | } // namespace sol | ||
| 15450 | |||
| 15451 | // end of sol/object.hpp | ||
| 15452 | |||
| 15453 | // beginning of sol/function.hpp | ||
| 15454 | |||
| 15455 | // beginning of sol/unsafe_function.hpp | ||
| 15456 | |||
| 15457 | // beginning of sol/function_result.hpp | ||
| 15458 | |||
| 15459 | // beginning of sol/protected_function_result.hpp | ||
| 15460 | |||
| 15461 | // beginning of sol/proxy_base.hpp | ||
| 15462 | |||
| 15463 | namespace sol { | ||
| 15464 | struct proxy_base_tag {}; | ||
| 15465 | |||
| 15466 | namespace detail { | ||
| 15467 | template <typename T> | ||
| 15468 | using proxy_key_t = meta::conditional_t<meta::is_specialization_of_v<meta::unqualified_t<T>, std::tuple>, T, | ||
| 15469 | std::tuple<meta::conditional_t<std::is_array_v<meta::unqualified_t<T>>, std::remove_reference_t<T>&, meta::unqualified_t<T>>>>; | ||
| 15470 | } | ||
| 15471 | |||
| 15472 | template <typename Super> | ||
| 15473 | struct proxy_base : proxy_base_tag { | ||
| 15474 | operator std::string() const { | ||
| 15475 | const Super& super = *static_cast<const Super*>(static_cast<const void*>(this)); | ||
| 15476 | return super.template get<std::string>(); | ||
| 15477 | } | ||
| 15478 | |||
| 15479 | template <typename T, meta::enable<meta::neg<meta::is_string_constructible<T>>, is_proxy_primitive<meta::unqualified_t<T>>> = meta::enabler> | ||
| 15480 | operator T() const { | ||
| 15481 | const Super& super = *static_cast<const Super*>(static_cast<const void*>(this)); | ||
| 15482 | return super.template get<T>(); | ||
| 15483 | } | ||
| 15484 | |||
| 15485 | template <typename T, meta::enable<meta::neg<meta::is_string_constructible<T>>, meta::neg<is_proxy_primitive<meta::unqualified_t<T>>>> = meta::enabler> | ||
| 15486 | operator T&() const { | ||
| 15487 | const Super& super = *static_cast<const Super*>(static_cast<const void*>(this)); | ||
| 15488 | return super.template get<T&>(); | ||
| 15489 | } | ||
| 15490 | |||
| 15491 | lua_State* lua_state() const { | ||
| 15492 | const Super& super = *static_cast<const Super*>(static_cast<const void*>(this)); | ||
| 15493 | return super.lua_state(); | ||
| 15494 | } | ||
| 15495 | }; | ||
| 15496 | } // namespace sol | ||
| 15497 | |||
| 15498 | // end of sol/proxy_base.hpp | ||
| 15499 | |||
| 15500 | // beginning of sol/stack_iterator.hpp | ||
| 15501 | |||
| 15502 | #include <limits> | ||
| 15503 | #include <iterator> | ||
| 15504 | |||
| 15505 | namespace sol { | ||
| 15506 | template <typename proxy_t, bool is_const> | ||
| 15507 | struct stack_iterator { | ||
| 15508 | typedef meta::conditional_t<is_const, const proxy_t, proxy_t> reference; | ||
| 15509 | typedef meta::conditional_t<is_const, const proxy_t*, proxy_t*> pointer; | ||
| 15510 | typedef proxy_t value_type; | ||
| 15511 | typedef std::ptrdiff_t difference_type; | ||
| 15512 | typedef std::random_access_iterator_tag iterator_category; | ||
| 15513 | lua_State* L; | ||
| 15514 | int index; | ||
| 15515 | int stacktop; | ||
| 15516 | proxy_t sp; | ||
| 15517 | |||
| 15518 | stack_iterator() | ||
| 15519 | : L(nullptr), index((std::numeric_limits<int>::max)()), stacktop((std::numeric_limits<int>::max)()), sp() { | ||
| 15520 | } | ||
| 15521 | stack_iterator(const stack_iterator<proxy_t, true>& r) | ||
| 15522 | : L(r.L), index(r.index), stacktop(r.stacktop), sp(r.sp) { | ||
| 15523 | } | ||
| 15524 | stack_iterator(lua_State* luastate, int idx, int topidx) | ||
| 15525 | : L(luastate), index(idx), stacktop(topidx), sp(luastate, idx) { | ||
| 15526 | } | ||
| 15527 | |||
| 15528 | reference operator*() { | ||
| 15529 | return proxy_t(L, index); | ||
| 15530 | } | ||
| 15531 | |||
| 15532 | reference operator*() const { | ||
| 15533 | return proxy_t(L, index); | ||
| 15534 | } | ||
| 15535 | |||
| 15536 | pointer operator->() { | ||
| 15537 | sp = proxy_t(L, index); | ||
| 15538 | return &sp; | ||
| 15539 | } | ||
| 15540 | |||
| 15541 | pointer operator->() const { | ||
| 15542 | const_cast<proxy_t&>(sp) = proxy_t(L, index); | ||
| 15543 | return &sp; | ||
| 15544 | } | ||
| 15545 | |||
| 15546 | stack_iterator& operator++() { | ||
| 15547 | ++index; | ||
| 15548 | return *this; | ||
| 15549 | } | ||
| 15550 | |||
| 15551 | stack_iterator operator++(int) { | ||
| 15552 | auto r = *this; | ||
| 15553 | this->operator++(); | ||
| 15554 | return r; | ||
| 15555 | } | ||
| 15556 | |||
| 15557 | stack_iterator& operator--() { | ||
| 15558 | --index; | ||
| 15559 | return *this; | ||
| 15560 | } | ||
| 15561 | |||
| 15562 | stack_iterator operator--(int) { | ||
| 15563 | auto r = *this; | ||
| 15564 | this->operator--(); | ||
| 15565 | return r; | ||
| 15566 | } | ||
| 15567 | |||
| 15568 | stack_iterator& operator+=(difference_type idx) { | ||
| 15569 | index += static_cast<int>(idx); | ||
| 15570 | return *this; | ||
| 15571 | } | ||
| 15572 | |||
| 15573 | stack_iterator& operator-=(difference_type idx) { | ||
| 15574 | index -= static_cast<int>(idx); | ||
| 15575 | return *this; | ||
| 15576 | } | ||
| 15577 | |||
| 15578 | difference_type operator-(const stack_iterator& r) const { | ||
| 15579 | return index - r.index; | ||
| 15580 | } | ||
| 15581 | |||
| 15582 | stack_iterator operator+(difference_type idx) const { | ||
| 15583 | stack_iterator r = *this; | ||
| 15584 | r += idx; | ||
| 15585 | return r; | ||
| 15586 | } | ||
| 15587 | |||
| 15588 | reference operator[](difference_type idx) const { | ||
| 15589 | return proxy_t(L, index + static_cast<int>(idx)); | ||
| 15590 | } | ||
| 15591 | |||
| 15592 | bool operator==(const stack_iterator& r) const { | ||
| 15593 | if (stacktop == (std::numeric_limits<int>::max)()) { | ||
| 15594 | return r.index == r.stacktop; | ||
| 15595 | } | ||
| 15596 | else if (r.stacktop == (std::numeric_limits<int>::max)()) { | ||
| 15597 | return index == stacktop; | ||
| 15598 | } | ||
| 15599 | return index == r.index; | ||
| 15600 | } | ||
| 15601 | |||
| 15602 | bool operator!=(const stack_iterator& r) const { | ||
| 15603 | return !(this->operator==(r)); | ||
| 15604 | } | ||
| 15605 | |||
| 15606 | bool operator<(const stack_iterator& r) const { | ||
| 15607 | return index < r.index; | ||
| 15608 | } | ||
| 15609 | |||
| 15610 | bool operator>(const stack_iterator& r) const { | ||
| 15611 | return index > r.index; | ||
| 15612 | } | ||
| 15613 | |||
| 15614 | bool operator<=(const stack_iterator& r) const { | ||
| 15615 | return index <= r.index; | ||
| 15616 | } | ||
| 15617 | |||
| 15618 | bool operator>=(const stack_iterator& r) const { | ||
| 15619 | return index >= r.index; | ||
| 15620 | } | ||
| 15621 | }; | ||
| 15622 | |||
| 15623 | template <typename proxy_t, bool is_const> | ||
| 15624 | inline stack_iterator<proxy_t, is_const> operator+(typename stack_iterator<proxy_t, is_const>::difference_type n, const stack_iterator<proxy_t, is_const>& r) { | ||
| 15625 | return r + n; | ||
| 15626 | } | ||
| 15627 | } // namespace sol | ||
| 15628 | |||
| 15629 | // end of sol/stack_iterator.hpp | ||
| 15630 | |||
| 15631 | // beginning of sol/stack_proxy.hpp | ||
| 15632 | |||
| 15633 | // beginning of sol/stack_proxy_base.hpp | ||
| 15634 | |||
| 15635 | namespace sol { | ||
| 15636 | struct stack_proxy_base : public proxy_base<stack_proxy_base> { | ||
| 15637 | private: | ||
| 15638 | lua_State* L; | ||
| 15639 | int index; | ||
| 15640 | |||
| 15641 | public: | ||
| 15642 | stack_proxy_base() | ||
| 15643 | : L(nullptr), index(0) { | ||
| 15644 | } | ||
| 15645 | stack_proxy_base(lua_State* L, int index) | ||
| 15646 | : L(L), index(index) { | ||
| 15647 | } | ||
| 15648 | |||
| 15649 | template <typename T> | ||
| 15650 | decltype(auto) get() const { | ||
| 15651 | return stack::get<T>(L, stack_index()); | ||
| 15652 | } | ||
| 15653 | |||
| 15654 | template <typename T> | ||
| 15655 | bool is() const { | ||
| 15656 | return stack::check<T>(L, stack_index()); | ||
| 15657 | } | ||
| 15658 | |||
| 15659 | template <typename T> | ||
| 15660 | decltype(auto) as() const { | ||
| 15661 | return get<T>(); | ||
| 15662 | } | ||
| 15663 | |||
| 15664 | type get_type() const noexcept { | ||
| 15665 | return type_of(lua_state(), stack_index()); | ||
| 15666 | } | ||
| 15667 | |||
| 15668 | int push() const { | ||
| 15669 | return push(L); | ||
| 15670 | } | ||
| 15671 | |||
| 15672 | int push(lua_State* Ls) const { | ||
| 15673 | lua_pushvalue(Ls, index); | ||
| 15674 | return 1; | ||
| 15675 | } | ||
| 15676 | |||
| 15677 | lua_State* lua_state() const { | ||
| 15678 | return L; | ||
| 15679 | } | ||
| 15680 | int stack_index() const { | ||
| 15681 | return index; | ||
| 15682 | } | ||
| 15683 | }; | ||
| 15684 | |||
| 15685 | namespace stack { | ||
| 15686 | template <> | ||
| 15687 | struct unqualified_getter<stack_proxy_base> { | ||
| 15688 | static stack_proxy_base get(lua_State* L, int index = -1) { | ||
| 15689 | return stack_proxy_base(L, index); | ||
| 15690 | } | ||
| 15691 | }; | ||
| 15692 | |||
| 15693 | template <> | ||
| 15694 | struct unqualified_pusher<stack_proxy_base> { | ||
| 15695 | static int push(lua_State*, const stack_proxy_base& ref) { | ||
| 15696 | return ref.push(); | ||
| 15697 | } | ||
| 15698 | }; | ||
| 15699 | } // namespace stack | ||
| 15700 | |||
| 15701 | } // namespace sol | ||
| 15702 | |||
| 15703 | // end of sol/stack_proxy_base.hpp | ||
| 15704 | |||
| 15705 | namespace sol { | ||
| 15706 | struct stack_proxy : public stack_proxy_base { | ||
| 15707 | public: | ||
| 15708 | stack_proxy() : stack_proxy_base() { | ||
| 15709 | } | ||
| 15710 | stack_proxy(lua_State* L, int index) : stack_proxy_base(L, index) { | ||
| 15711 | } | ||
| 15712 | |||
| 15713 | template <typename... Ret, typename... Args> | ||
| 15714 | decltype(auto) call(Args&&... args); | ||
| 15715 | |||
| 15716 | template <typename... Args> | ||
| 15717 | decltype(auto) operator()(Args&&... args) { | ||
| 15718 | return call<>(std::forward<Args>(args)...); | ||
| 15719 | } | ||
| 15720 | }; | ||
| 15721 | |||
| 15722 | namespace stack { | ||
| 15723 | template <> | ||
| 15724 | struct unqualified_getter<stack_proxy> { | ||
| 15725 | static stack_proxy get(lua_State* L, int index, record& tracking) { | ||
| 15726 | tracking.use(0); | ||
| 15727 | return stack_proxy(L, index); | ||
| 15728 | } | ||
| 15729 | }; | ||
| 15730 | |||
| 15731 | template <> | ||
| 15732 | struct unqualified_pusher<stack_proxy> { | ||
| 15733 | static int push(lua_State*, const stack_proxy& ref) { | ||
| 15734 | return ref.push(); | ||
| 15735 | } | ||
| 15736 | }; | ||
| 15737 | } // namespace stack | ||
| 15738 | } // namespace sol | ||
| 15739 | |||
| 15740 | // end of sol/stack_proxy.hpp | ||
| 15741 | |||
| 15742 | #include <cstdint> | ||
| 15743 | |||
| 15744 | namespace sol { | ||
| 15745 | struct protected_function_result : public proxy_base<protected_function_result> { | ||
| 15746 | private: | ||
| 15747 | lua_State* L; | ||
| 15748 | int index; | ||
| 15749 | int returncount; | ||
| 15750 | int popcount; | ||
| 15751 | call_status err; | ||
| 15752 | |||
| 15753 | public: | ||
| 15754 | typedef stack_proxy reference_type; | ||
| 15755 | typedef stack_proxy value_type; | ||
| 15756 | typedef stack_proxy* pointer; | ||
| 15757 | typedef std::ptrdiff_t difference_type; | ||
| 15758 | typedef std::size_t size_type; | ||
| 15759 | typedef stack_iterator<stack_proxy, false> iterator; | ||
| 15760 | typedef stack_iterator<stack_proxy, true> const_iterator; | ||
| 15761 | typedef std::reverse_iterator<iterator> reverse_iterator; | ||
| 15762 | typedef std::reverse_iterator<const_iterator> const_reverse_iterator; | ||
| 15763 | |||
| 15764 | protected_function_result() noexcept = default; | ||
| 15765 | protected_function_result(lua_State* Ls, int idx = -1, int retnum = 0, int popped = 0, call_status pferr = call_status::ok) noexcept | ||
| 15766 | : L(Ls), index(idx), returncount(retnum), popcount(popped), err(pferr) { | ||
| 15767 | } | ||
| 15768 | |||
| 15769 | // We do not want anyone to copy these around willy-nilly | ||
| 15770 | // Will likely break people, but also will probably get rid of quiet bugs that have | ||
| 15771 | // been lurking. (E.g., Vanilla Lua will just quietly discard over-pops and under-pops: | ||
| 15772 | // LuaJIT and other Lua engines will implode and segfault at random later times.) | ||
| 15773 | protected_function_result(const protected_function_result&) = delete; | ||
| 15774 | protected_function_result& operator=(const protected_function_result&) = delete; | ||
| 15775 | |||
| 15776 | protected_function_result(protected_function_result&& o) noexcept | ||
| 15777 | : L(o.L), index(o.index), returncount(o.returncount), popcount(o.popcount), err(o.err) { | ||
| 15778 | // Must be manual, otherwise destructor will screw us | ||
| 15779 | // return count being 0 is enough to keep things clean | ||
| 15780 | // but we will be thorough | ||
| 15781 | o.abandon(); | ||
| 15782 | } | ||
| 15783 | protected_function_result& operator=(protected_function_result&& o) noexcept { | ||
| 15784 | L = o.L; | ||
| 15785 | index = o.index; | ||
| 15786 | returncount = o.returncount; | ||
| 15787 | popcount = o.popcount; | ||
| 15788 | err = o.err; | ||
| 15789 | // Must be manual, otherwise destructor will screw us | ||
| 15790 | // return count being 0 is enough to keep things clean | ||
| 15791 | // but we will be thorough | ||
| 15792 | o.abandon(); | ||
| 15793 | return *this; | ||
| 15794 | } | ||
| 15795 | |||
| 15796 | protected_function_result(const unsafe_function_result& o) = delete; | ||
| 15797 | protected_function_result& operator=(const unsafe_function_result& o) = delete; | ||
| 15798 | protected_function_result(unsafe_function_result&& o) noexcept; | ||
| 15799 | protected_function_result& operator=(unsafe_function_result&& o) noexcept; | ||
| 15800 | |||
| 15801 | call_status status() const noexcept { | ||
| 15802 | return err; | ||
| 15803 | } | ||
| 15804 | |||
| 15805 | bool valid() const noexcept { | ||
| 15806 | return status() == call_status::ok || status() == call_status::yielded; | ||
| 15807 | } | ||
| 15808 | |||
| 15809 | template <typename T> | ||
| 15810 | decltype(auto) get(int index_offset = 0) const { | ||
| 15811 | using UT = meta::unqualified_t<T>; | ||
| 15812 | int target = index + index_offset; | ||
| 15813 | if constexpr (meta::is_optional_v<UT>) { | ||
| 15814 | using ValueType = typename UT::value_type; | ||
| 15815 | if constexpr (std::is_same_v<ValueType, error>) { | ||
| 15816 | if (valid()) { | ||
| 15817 | return UT(); | ||
| 15818 | } | ||
| 15819 | return UT(error(detail::direct_error, stack::get<std::string>(L, target))); | ||
| 15820 | } | ||
| 15821 | else { | ||
| 15822 | if (!valid()) { | ||
| 15823 | return UT(); | ||
| 15824 | } | ||
| 15825 | return stack::get<UT>(L, target); | ||
| 15826 | } | ||
| 15827 | } | ||
| 15828 | else { | ||
| 15829 | if constexpr (std::is_same_v<T, error>) { | ||
| 15830 | #if SOL_IS_ON(SOL_SAFE_PROXIES_I_) | ||
| 15831 | if (valid()) { | ||
| 15832 | type t = type_of(L, target); | ||
| 15833 | type_panic_c_str(L, target, t, type::none, "bad get from protected_function_result (is an error)"); | ||
| 15834 | } | ||
| 15835 | #endif // Check Argument Safety | ||
| 15836 | return error(detail::direct_error, stack::get<std::string>(L, target)); | ||
| 15837 | } | ||
| 15838 | else { | ||
| 15839 | #if SOL_IS_ON(SOL_SAFE_PROXIES_I_) | ||
| 15840 | if (!valid()) { | ||
| 15841 | type t = type_of(L, target); | ||
| 15842 | type_panic_c_str(L, target, t, type::none, "bad get from protected_function_result (is not an error)"); | ||
| 15843 | } | ||
| 15844 | #endif // Check Argument Safety | ||
| 15845 | return stack::get<T>(L, target); | ||
| 15846 | } | ||
| 15847 | } | ||
| 15848 | } | ||
| 15849 | |||
| 15850 | type get_type(int index_offset = 0) const noexcept { | ||
| 15851 | return type_of(L, index + static_cast<int>(index_offset)); | ||
| 15852 | } | ||
| 15853 | |||
| 15854 | stack_proxy operator[](difference_type index_offset) const { | ||
| 15855 | return stack_proxy(L, index + static_cast<int>(index_offset)); | ||
| 15856 | } | ||
| 15857 | |||
| 15858 | iterator begin() { | ||
| 15859 | return iterator(L, index, stack_index() + return_count()); | ||
| 15860 | } | ||
| 15861 | iterator end() { | ||
| 15862 | return iterator(L, stack_index() + return_count(), stack_index() + return_count()); | ||
| 15863 | } | ||
| 15864 | const_iterator begin() const { | ||
| 15865 | return const_iterator(L, index, stack_index() + return_count()); | ||
| 15866 | } | ||
| 15867 | const_iterator end() const { | ||
| 15868 | return const_iterator(L, stack_index() + return_count(), stack_index() + return_count()); | ||
| 15869 | } | ||
| 15870 | const_iterator cbegin() const { | ||
| 15871 | return begin(); | ||
| 15872 | } | ||
| 15873 | const_iterator cend() const { | ||
| 15874 | return end(); | ||
| 15875 | } | ||
| 15876 | |||
| 15877 | reverse_iterator rbegin() { | ||
| 15878 | return std::reverse_iterator<iterator>(begin()); | ||
| 15879 | } | ||
| 15880 | reverse_iterator rend() { | ||
| 15881 | return std::reverse_iterator<iterator>(end()); | ||
| 15882 | } | ||
| 15883 | const_reverse_iterator rbegin() const { | ||
| 15884 | return std::reverse_iterator<const_iterator>(begin()); | ||
| 15885 | } | ||
| 15886 | const_reverse_iterator rend() const { | ||
| 15887 | return std::reverse_iterator<const_iterator>(end()); | ||
| 15888 | } | ||
| 15889 | const_reverse_iterator crbegin() const { | ||
| 15890 | return std::reverse_iterator<const_iterator>(cbegin()); | ||
| 15891 | } | ||
| 15892 | const_reverse_iterator crend() const { | ||
| 15893 | return std::reverse_iterator<const_iterator>(cend()); | ||
| 15894 | } | ||
| 15895 | |||
| 15896 | lua_State* lua_state() const noexcept { | ||
| 15897 | return L; | ||
| 15898 | }; | ||
| 15899 | int stack_index() const noexcept { | ||
| 15900 | return index; | ||
| 15901 | }; | ||
| 15902 | int return_count() const noexcept { | ||
| 15903 | return returncount; | ||
| 15904 | }; | ||
| 15905 | int pop_count() const noexcept { | ||
| 15906 | return popcount; | ||
| 15907 | }; | ||
| 15908 | void abandon() noexcept { | ||
| 15909 | // L = nullptr; | ||
| 15910 | index = 0; | ||
| 15911 | returncount = 0; | ||
| 15912 | popcount = 0; | ||
| 15913 | err = call_status::runtime; | ||
| 15914 | } | ||
| 15915 | ~protected_function_result() { | ||
| 15916 | stack::remove(L, index, popcount); | ||
| 15917 | } | ||
| 15918 | }; | ||
| 15919 | |||
| 15920 | namespace stack { | ||
| 15921 | template <> | ||
| 15922 | struct unqualified_pusher<protected_function_result> { | ||
| 15923 | static int push(lua_State* L, const protected_function_result& pfr) { | ||
| 15924 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 15925 | luaL_checkstack(L, static_cast<int>(pfr.pop_count()), detail::not_enough_stack_space_generic); | ||
| 15926 | #endif // make sure stack doesn't overflow | ||
| 15927 | int p = 0; | ||
| 15928 | for (int i = 0; i < pfr.pop_count(); ++i) { | ||
| 15929 | lua_pushvalue(L, i + pfr.stack_index()); | ||
| 15930 | ++p; | ||
| 15931 | } | ||
| 15932 | return p; | ||
| 15933 | } | ||
| 15934 | }; | ||
| 15935 | } // namespace stack | ||
| 15936 | } // namespace sol | ||
| 15937 | |||
| 15938 | // end of sol/protected_function_result.hpp | ||
| 15939 | |||
| 15940 | // beginning of sol/unsafe_function_result.hpp | ||
| 15941 | |||
| 15942 | #include <cstdint> | ||
| 15943 | |||
| 15944 | namespace sol { | ||
| 15945 | struct unsafe_function_result : public proxy_base<unsafe_function_result> { | ||
| 15946 | private: | ||
| 15947 | lua_State* L; | ||
| 15948 | int index; | ||
| 15949 | int returncount; | ||
| 15950 | |||
| 15951 | public: | ||
| 15952 | typedef stack_proxy reference_type; | ||
| 15953 | typedef stack_proxy value_type; | ||
| 15954 | typedef stack_proxy* pointer; | ||
| 15955 | typedef std::ptrdiff_t difference_type; | ||
| 15956 | typedef std::size_t size_type; | ||
| 15957 | typedef stack_iterator<stack_proxy, false> iterator; | ||
| 15958 | typedef stack_iterator<stack_proxy, true> const_iterator; | ||
| 15959 | typedef std::reverse_iterator<iterator> reverse_iterator; | ||
| 15960 | typedef std::reverse_iterator<const_iterator> const_reverse_iterator; | ||
| 15961 | |||
| 15962 | unsafe_function_result() noexcept = default; | ||
| 15963 | unsafe_function_result(lua_State* Ls, int idx = -1, int retnum = 0) noexcept : L(Ls), index(idx), returncount(retnum) { | ||
| 15964 | } | ||
| 15965 | |||
| 15966 | // We do not want anyone to copy these around willy-nilly | ||
| 15967 | // Will likely break people, but also will probably get rid of quiet bugs that have | ||
| 15968 | // been lurking. (E.g., Vanilla Lua will just quietly discard over-pops and under-pops: | ||
| 15969 | // LuaJIT and other Lua engines will implode and segfault at random later times.) | ||
| 15970 | unsafe_function_result(const unsafe_function_result&) = delete; | ||
| 15971 | unsafe_function_result& operator=(const unsafe_function_result&) = delete; | ||
| 15972 | |||
| 15973 | unsafe_function_result(unsafe_function_result&& o) noexcept : L(o.L), index(o.index), returncount(o.returncount) { | ||
| 15974 | // Must be manual, otherwise destructor will screw us | ||
| 15975 | // return count being 0 is enough to keep things clean | ||
| 15976 | // but will be thorough | ||
| 15977 | o.abandon(); | ||
| 15978 | } | ||
| 15979 | unsafe_function_result& operator=(unsafe_function_result&& o) noexcept { | ||
| 15980 | L = o.L; | ||
| 15981 | index = o.index; | ||
| 15982 | returncount = o.returncount; | ||
| 15983 | // Must be manual, otherwise destructor will screw us | ||
| 15984 | // return count being 0 is enough to keep things clean | ||
| 15985 | // but will be thorough | ||
| 15986 | o.abandon(); | ||
| 15987 | return *this; | ||
| 15988 | } | ||
| 15989 | |||
| 15990 | unsafe_function_result(const protected_function_result& o) = delete; | ||
| 15991 | unsafe_function_result& operator=(const protected_function_result& o) = delete; | ||
| 15992 | unsafe_function_result(protected_function_result&& o) noexcept; | ||
| 15993 | unsafe_function_result& operator=(protected_function_result&& o) noexcept; | ||
| 15994 | |||
| 15995 | template <typename T> | ||
| 15996 | decltype(auto) get(difference_type index_offset = 0) const { | ||
| 15997 | return stack::get<T>(L, index + static_cast<int>(index_offset)); | ||
| 15998 | } | ||
| 15999 | |||
| 16000 | type get_type(difference_type index_offset = 0) const noexcept { | ||
| 16001 | return type_of(L, index + static_cast<int>(index_offset)); | ||
| 16002 | } | ||
| 16003 | |||
| 16004 | stack_proxy operator[](difference_type index_offset) const { | ||
| 16005 | return stack_proxy(L, index + static_cast<int>(index_offset)); | ||
| 16006 | } | ||
| 16007 | |||
| 16008 | iterator begin() { | ||
| 16009 | return iterator(L, index, stack_index() + return_count()); | ||
| 16010 | } | ||
| 16011 | iterator end() { | ||
| 16012 | return iterator(L, stack_index() + return_count(), stack_index() + return_count()); | ||
| 16013 | } | ||
| 16014 | const_iterator begin() const { | ||
| 16015 | return const_iterator(L, index, stack_index() + return_count()); | ||
| 16016 | } | ||
| 16017 | const_iterator end() const { | ||
| 16018 | return const_iterator(L, stack_index() + return_count(), stack_index() + return_count()); | ||
| 16019 | } | ||
| 16020 | const_iterator cbegin() const { | ||
| 16021 | return begin(); | ||
| 16022 | } | ||
| 16023 | const_iterator cend() const { | ||
| 16024 | return end(); | ||
| 16025 | } | ||
| 16026 | |||
| 16027 | reverse_iterator rbegin() { | ||
| 16028 | return std::reverse_iterator<iterator>(begin()); | ||
| 16029 | } | ||
| 16030 | reverse_iterator rend() { | ||
| 16031 | return std::reverse_iterator<iterator>(end()); | ||
| 16032 | } | ||
| 16033 | const_reverse_iterator rbegin() const { | ||
| 16034 | return std::reverse_iterator<const_iterator>(begin()); | ||
| 16035 | } | ||
| 16036 | const_reverse_iterator rend() const { | ||
| 16037 | return std::reverse_iterator<const_iterator>(end()); | ||
| 16038 | } | ||
| 16039 | const_reverse_iterator crbegin() const { | ||
| 16040 | return std::reverse_iterator<const_iterator>(cbegin()); | ||
| 16041 | } | ||
| 16042 | const_reverse_iterator crend() const { | ||
| 16043 | return std::reverse_iterator<const_iterator>(cend()); | ||
| 16044 | } | ||
| 16045 | |||
| 16046 | call_status status() const noexcept { | ||
| 16047 | return call_status::ok; | ||
| 16048 | } | ||
| 16049 | |||
| 16050 | bool valid() const noexcept { | ||
| 16051 | return status() == call_status::ok || status() == call_status::yielded; | ||
| 16052 | } | ||
| 16053 | |||
| 16054 | lua_State* lua_state() const { | ||
| 16055 | return L; | ||
| 16056 | }; | ||
| 16057 | int stack_index() const { | ||
| 16058 | return index; | ||
| 16059 | }; | ||
| 16060 | int return_count() const { | ||
| 16061 | return returncount; | ||
| 16062 | }; | ||
| 16063 | void abandon() noexcept { | ||
| 16064 | // L = nullptr; | ||
| 16065 | index = 0; | ||
| 16066 | returncount = 0; | ||
| 16067 | } | ||
| 16068 | ~unsafe_function_result() { | ||
| 16069 | lua_pop(L, returncount); | ||
| 16070 | } | ||
| 16071 | }; | ||
| 16072 | |||
| 16073 | namespace stack { | ||
| 16074 | template <> | ||
| 16075 | struct unqualified_pusher<unsafe_function_result> { | ||
| 16076 | static int push(lua_State* L, const unsafe_function_result& fr) { | ||
| 16077 | int p = 0; | ||
| 16078 | for (int i = 0; i < fr.return_count(); ++i) { | ||
| 16079 | lua_pushvalue(L, i + fr.stack_index()); | ||
| 16080 | ++p; | ||
| 16081 | } | ||
| 16082 | return p; | ||
| 16083 | } | ||
| 16084 | }; | ||
| 16085 | } // namespace stack | ||
| 16086 | } // namespace sol | ||
| 16087 | |||
| 16088 | // end of sol/unsafe_function_result.hpp | ||
| 16089 | |||
| 16090 | #include <cstdint> | ||
| 16091 | |||
| 16092 | namespace sol { | ||
| 16093 | |||
| 16094 | namespace detail { | ||
| 16095 | template <> | ||
| 16096 | struct is_speshul<unsafe_function_result> : std::true_type {}; | ||
| 16097 | template <> | ||
| 16098 | struct is_speshul<protected_function_result> : std::true_type {}; | ||
| 16099 | |||
| 16100 | template <std::size_t I, typename... Args, typename T> | ||
| 16101 | stack_proxy get(types<Args...>, meta::index_value<0>, meta::index_value<I>, const T& fr) { | ||
| 16102 | return stack_proxy(fr.lua_state(), static_cast<int>(fr.stack_index() + I)); | ||
| 16103 | } | ||
| 16104 | |||
| 16105 | template <std::size_t I, std::size_t N, typename Arg, typename... Args, typename T, meta::enable<meta::boolean<(N > 0)>> = meta::enabler> | ||
| 16106 | stack_proxy get(types<Arg, Args...>, meta::index_value<N>, meta::index_value<I>, const T& fr) { | ||
| 16107 | return get(types<Args...>(), meta::index_value<N - 1>(), meta::index_value<I + lua_size<Arg>::value>(), fr); | ||
| 16108 | } | ||
| 16109 | } // namespace detail | ||
| 16110 | |||
| 16111 | template <> | ||
| 16112 | struct tie_size<unsafe_function_result> : std::integral_constant<std::size_t, SIZE_MAX> {}; | ||
| 16113 | |||
| 16114 | template <> | ||
| 16115 | struct tie_size<protected_function_result> : std::integral_constant<std::size_t, SIZE_MAX> {}; | ||
| 16116 | |||
| 16117 | template <std::size_t I> | ||
| 16118 | stack_proxy get(const unsafe_function_result& fr) { | ||
| 16119 | return stack_proxy(fr.lua_state(), static_cast<int>(fr.stack_index() + I)); | ||
| 16120 | } | ||
| 16121 | |||
| 16122 | template <std::size_t I, typename... Args> | ||
| 16123 | stack_proxy get(types<Args...> t, const unsafe_function_result& fr) { | ||
| 16124 | return detail::get(t, meta::index_value<I>(), meta::index_value<0>(), fr); | ||
| 16125 | } | ||
| 16126 | |||
| 16127 | template <std::size_t I> | ||
| 16128 | stack_proxy get(const protected_function_result& fr) { | ||
| 16129 | return stack_proxy(fr.lua_state(), static_cast<int>(fr.stack_index() + I)); | ||
| 16130 | } | ||
| 16131 | |||
| 16132 | template <std::size_t I, typename... Args> | ||
| 16133 | stack_proxy get(types<Args...> t, const protected_function_result& fr) { | ||
| 16134 | return detail::get(t, meta::index_value<I>(), meta::index_value<0>(), fr); | ||
| 16135 | } | ||
| 16136 | } // namespace sol | ||
| 16137 | |||
| 16138 | // end of sol/function_result.hpp | ||
| 16139 | |||
| 16140 | // beginning of sol/function_types.hpp | ||
| 16141 | |||
| 16142 | // beginning of sol/function_types_core.hpp | ||
| 16143 | |||
| 16144 | // beginning of sol/wrapper.hpp | ||
| 16145 | |||
| 16146 | namespace sol { | ||
| 16147 | |||
| 16148 | namespace detail { | ||
| 16149 | template <typename T> | ||
| 16150 | using array_return_type = meta::conditional_t<std::is_array<T>::value, std::add_lvalue_reference_t<T>, T>; | ||
| 16151 | } | ||
| 16152 | |||
| 16153 | template <typename F, typename = void> | ||
| 16154 | struct wrapper { | ||
| 16155 | typedef lua_bind_traits<meta::unqualified_t<F>> traits_type; | ||
| 16156 | typedef typename traits_type::args_list args_list; | ||
| 16157 | typedef typename traits_type::args_list free_args_list; | ||
| 16158 | typedef typename traits_type::returns_list returns_list; | ||
| 16159 | |||
| 16160 | template <typename... Args> | ||
| 16161 | static decltype(auto) call(F& f, Args&&... args) { | ||
| 16162 | return f(std::forward<Args>(args)...); | ||
| 16163 | } | ||
| 16164 | |||
| 16165 | struct caller { | ||
| 16166 | template <typename... Args> | ||
| 16167 | decltype(auto) operator()(F& fx, Args&&... args) const { | ||
| 16168 | return call(fx, std::forward<Args>(args)...); | ||
| 16169 | } | ||
| 16170 | }; | ||
| 16171 | }; | ||
| 16172 | |||
| 16173 | template <typename F> | ||
| 16174 | struct wrapper<F, std::enable_if_t<std::is_function<std::remove_pointer_t<meta::unqualified_t<F>>>::value>> { | ||
| 16175 | typedef lua_bind_traits<std::remove_pointer_t<meta::unqualified_t<F>>> traits_type; | ||
| 16176 | typedef typename traits_type::args_list args_list; | ||
| 16177 | typedef typename traits_type::args_list free_args_list; | ||
| 16178 | typedef typename traits_type::returns_list returns_list; | ||
| 16179 | |||
| 16180 | template <F fx, typename... Args> | ||
| 16181 | static decltype(auto) invoke(Args&&... args) { | ||
| 16182 | return fx(std::forward<Args>(args)...); | ||
| 16183 | } | ||
| 16184 | |||
| 16185 | template <typename... Args> | ||
| 16186 | static decltype(auto) call(F& fx, Args&&... args) { | ||
| 16187 | return fx(std::forward<Args>(args)...); | ||
| 16188 | } | ||
| 16189 | |||
| 16190 | struct caller { | ||
| 16191 | template <typename... Args> | ||
| 16192 | decltype(auto) operator()(F& fx, Args&&... args) const { | ||
| 16193 | return call(fx, std::forward<Args>(args)...); | ||
| 16194 | } | ||
| 16195 | }; | ||
| 16196 | |||
| 16197 | template <F fx> | ||
| 16198 | struct invoker { | ||
| 16199 | template <typename... Args> | ||
| 16200 | decltype(auto) operator()(Args&&... args) const { | ||
| 16201 | return invoke<fx>(std::forward<Args>(args)...); | ||
| 16202 | } | ||
| 16203 | }; | ||
| 16204 | }; | ||
| 16205 | |||
| 16206 | template <typename F> | ||
| 16207 | struct wrapper<F, std::enable_if_t<std::is_member_object_pointer<meta::unqualified_t<F>>::value>> { | ||
| 16208 | typedef lua_bind_traits<meta::unqualified_t<F>> traits_type; | ||
| 16209 | typedef typename traits_type::object_type object_type; | ||
| 16210 | typedef typename traits_type::return_type return_type; | ||
| 16211 | typedef typename traits_type::args_list args_list; | ||
| 16212 | typedef types<object_type&, return_type> free_args_list; | ||
| 16213 | typedef typename traits_type::returns_list returns_list; | ||
| 16214 | |||
| 16215 | template <F fx> | ||
| 16216 | static auto call(object_type& mem) -> detail::array_return_type<decltype(mem.*fx)> { | ||
| 16217 | return mem.*fx; | ||
| 16218 | } | ||
| 16219 | |||
| 16220 | template <F fx, typename Arg, typename... Args> | ||
| 16221 | static decltype(auto) invoke(object_type& mem, Arg&& arg, Args&&...) { | ||
| 16222 | return mem.*fx = std::forward<Arg>(arg); | ||
| 16223 | } | ||
| 16224 | |||
| 16225 | template <typename Fx> | ||
| 16226 | static auto call(Fx&& fx, object_type& mem) -> detail::array_return_type<decltype(mem.*fx)> { | ||
| 16227 | return mem.*fx; | ||
| 16228 | } | ||
| 16229 | |||
| 16230 | template <typename Fx, typename Arg, typename... Args> | ||
| 16231 | static void call(Fx&& fx, object_type& mem, Arg&& arg, Args&&...) { | ||
| 16232 | using actual_type = meta::unqualified_t<detail::array_return_type<decltype(mem.*fx)>>; | ||
| 16233 | if constexpr (std::is_array_v<actual_type>) { | ||
| 16234 | using std::cbegin; | ||
| 16235 | using std::cend; | ||
| 16236 | auto first = cbegin(arg); | ||
| 16237 | auto last = cend(arg); | ||
| 16238 | for (std::size_t i = 0; first != last; ++i, ++first) { | ||
| 16239 | (mem.*fx)[i] = *first; | ||
| 16240 | } | ||
| 16241 | } | ||
| 16242 | else { | ||
| 16243 | (mem.*fx) = std::forward<Arg>(arg); | ||
| 16244 | } | ||
| 16245 | } | ||
| 16246 | |||
| 16247 | struct caller { | ||
| 16248 | template <typename Fx, typename... Args> | ||
| 16249 | decltype(auto) operator()(Fx&& fx, object_type& mem, Args&&... args) const { | ||
| 16250 | return call(std::forward<Fx>(fx), mem, std::forward<Args>(args)...); | ||
| 16251 | } | ||
| 16252 | }; | ||
| 16253 | |||
| 16254 | template <F fx> | ||
| 16255 | struct invoker { | ||
| 16256 | template <typename... Args> | ||
| 16257 | decltype(auto) operator()(Args&&... args) const { | ||
| 16258 | return invoke<fx>(std::forward<Args>(args)...); | ||
| 16259 | } | ||
| 16260 | }; | ||
| 16261 | }; | ||
| 16262 | |||
| 16263 | template <typename F, typename R, typename O, typename... FArgs> | ||
| 16264 | struct member_function_wrapper { | ||
| 16265 | typedef O object_type; | ||
| 16266 | typedef lua_bind_traits<F> traits_type; | ||
| 16267 | typedef typename traits_type::args_list args_list; | ||
| 16268 | typedef types<object_type&, FArgs...> free_args_list; | ||
| 16269 | typedef meta::tuple_types<R> returns_list; | ||
| 16270 | |||
| 16271 | template <F fx, typename... Args> | ||
| 16272 | static R invoke(O& mem, Args&&... args) { | ||
| 16273 | return (mem.*fx)(std::forward<Args>(args)...); | ||
| 16274 | } | ||
| 16275 | |||
| 16276 | template <typename Fx, typename... Args> | ||
| 16277 | static R call(Fx&& fx, O& mem, Args&&... args) { | ||
| 16278 | return (mem.*fx)(std::forward<Args>(args)...); | ||
| 16279 | } | ||
| 16280 | |||
| 16281 | struct caller { | ||
| 16282 | template <typename Fx, typename... Args> | ||
| 16283 | decltype(auto) operator()(Fx&& fx, O& mem, Args&&... args) const { | ||
| 16284 | return call(std::forward<Fx>(fx), mem, std::forward<Args>(args)...); | ||
| 16285 | } | ||
| 16286 | }; | ||
| 16287 | |||
| 16288 | template <F fx> | ||
| 16289 | struct invoker { | ||
| 16290 | template <typename... Args> | ||
| 16291 | decltype(auto) operator()(O& mem, Args&&... args) const { | ||
| 16292 | return invoke<fx>(mem, std::forward<Args>(args)...); | ||
| 16293 | } | ||
| 16294 | }; | ||
| 16295 | }; | ||
| 16296 | |||
| 16297 | template <typename R, typename O, typename... Args> | ||
| 16298 | struct wrapper<R (O::*)(Args...)> : public member_function_wrapper<R (O::*)(Args...), R, O, Args...> {}; | ||
| 16299 | |||
| 16300 | template <typename R, typename O, typename... Args> | ||
| 16301 | struct wrapper<R (O::*)(Args...) const> : public member_function_wrapper<R (O::*)(Args...) const, R, O, Args...> {}; | ||
| 16302 | |||
| 16303 | template <typename R, typename O, typename... Args> | ||
| 16304 | struct wrapper<R (O::*)(Args...) const volatile> : public member_function_wrapper<R (O::*)(Args...) const volatile, R, O, Args...> {}; | ||
| 16305 | |||
| 16306 | template <typename R, typename O, typename... Args> | ||
| 16307 | struct wrapper<R (O::*)(Args...)&> : public member_function_wrapper<R (O::*)(Args...)&, R, O, Args...> {}; | ||
| 16308 | |||
| 16309 | template <typename R, typename O, typename... Args> | ||
| 16310 | struct wrapper<R (O::*)(Args...) const&> : public member_function_wrapper<R (O::*)(Args...) const&, R, O, Args...> {}; | ||
| 16311 | |||
| 16312 | template <typename R, typename O, typename... Args> | ||
| 16313 | struct wrapper<R (O::*)(Args...) const volatile&> : public member_function_wrapper<R (O::*)(Args...) const volatile&, R, O, Args...> {}; | ||
| 16314 | |||
| 16315 | template <typename R, typename O, typename... Args> | ||
| 16316 | struct wrapper<R (O::*)(Args..., ...)&> : public member_function_wrapper<R (O::*)(Args..., ...)&, R, O, Args...> {}; | ||
| 16317 | |||
| 16318 | template <typename R, typename O, typename... Args> | ||
| 16319 | struct wrapper<R (O::*)(Args..., ...) const&> : public member_function_wrapper<R (O::*)(Args..., ...) const&, R, O, Args...> {}; | ||
| 16320 | |||
| 16321 | template <typename R, typename O, typename... Args> | ||
| 16322 | struct wrapper<R (O::*)(Args..., ...) const volatile&> : public member_function_wrapper<R (O::*)(Args..., ...) const volatile&, R, O, Args...> {}; | ||
| 16323 | |||
| 16324 | template <typename R, typename O, typename... Args> | ||
| 16325 | struct wrapper<R (O::*)(Args...) &&> : public member_function_wrapper<R (O::*)(Args...)&, R, O, Args...> {}; | ||
| 16326 | |||
| 16327 | template <typename R, typename O, typename... Args> | ||
| 16328 | struct wrapper<R (O::*)(Args...) const&&> : public member_function_wrapper<R (O::*)(Args...) const&, R, O, Args...> {}; | ||
| 16329 | |||
| 16330 | template <typename R, typename O, typename... Args> | ||
| 16331 | struct wrapper<R (O::*)(Args...) const volatile&&> : public member_function_wrapper<R (O::*)(Args...) const volatile&, R, O, Args...> {}; | ||
| 16332 | |||
| 16333 | template <typename R, typename O, typename... Args> | ||
| 16334 | struct wrapper<R (O::*)(Args..., ...) &&> : public member_function_wrapper<R (O::*)(Args..., ...)&, R, O, Args...> {}; | ||
| 16335 | |||
| 16336 | template <typename R, typename O, typename... Args> | ||
| 16337 | struct wrapper<R (O::*)(Args..., ...) const&&> : public member_function_wrapper<R (O::*)(Args..., ...) const&, R, O, Args...> {}; | ||
| 16338 | |||
| 16339 | template <typename R, typename O, typename... Args> | ||
| 16340 | struct wrapper<R (O::*)(Args..., ...) const volatile&&> : public member_function_wrapper<R (O::*)(Args..., ...) const volatile&, R, O, Args...> {}; | ||
| 16341 | |||
| 16342 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 16343 | // noexcept has become a part of a function's type | ||
| 16344 | |||
| 16345 | template <typename R, typename O, typename... Args> | ||
| 16346 | struct wrapper<R (O::*)(Args...) noexcept> : public member_function_wrapper<R (O::*)(Args...) noexcept, R, O, Args...> {}; | ||
| 16347 | |||
| 16348 | template <typename R, typename O, typename... Args> | ||
| 16349 | struct wrapper<R (O::*)(Args...) const noexcept> : public member_function_wrapper<R (O::*)(Args...) const noexcept, R, O, Args...> {}; | ||
| 16350 | |||
| 16351 | template <typename R, typename O, typename... Args> | ||
| 16352 | struct wrapper<R (O::*)(Args...) const volatile noexcept> : public member_function_wrapper<R (O::*)(Args...) const volatile noexcept, R, O, Args...> {}; | ||
| 16353 | |||
| 16354 | template <typename R, typename O, typename... Args> | ||
| 16355 | struct wrapper<R (O::*)(Args...) & noexcept> : public member_function_wrapper<R (O::*)(Args...) & noexcept, R, O, Args...> {}; | ||
| 16356 | |||
| 16357 | template <typename R, typename O, typename... Args> | ||
| 16358 | struct wrapper<R (O::*)(Args...) const& noexcept> : public member_function_wrapper<R (O::*)(Args...) const& noexcept, R, O, Args...> {}; | ||
| 16359 | |||
| 16360 | template <typename R, typename O, typename... Args> | ||
| 16361 | struct wrapper<R (O::*)(Args...) const volatile& noexcept> : public member_function_wrapper<R (O::*)(Args...) const volatile& noexcept, R, O, Args...> {}; | ||
| 16362 | |||
| 16363 | template <typename R, typename O, typename... Args> | ||
| 16364 | struct wrapper<R (O::*)(Args..., ...) & noexcept> : public member_function_wrapper<R (O::*)(Args..., ...) & noexcept, R, O, Args...> {}; | ||
| 16365 | |||
| 16366 | template <typename R, typename O, typename... Args> | ||
| 16367 | struct wrapper<R (O::*)(Args..., ...) const& noexcept> : public member_function_wrapper<R (O::*)(Args..., ...) const& noexcept, R, O, Args...> {}; | ||
| 16368 | |||
| 16369 | template <typename R, typename O, typename... Args> | ||
| 16370 | struct wrapper<R (O::*)(Args..., ...) const volatile& noexcept> | ||
| 16371 | : public member_function_wrapper<R (O::*)(Args..., ...) const volatile& noexcept, R, O, Args...> {}; | ||
| 16372 | |||
| 16373 | template <typename R, typename O, typename... Args> | ||
| 16374 | struct wrapper<R (O::*)(Args...) && noexcept> : public member_function_wrapper<R (O::*)(Args...) & noexcept, R, O, Args...> {}; | ||
| 16375 | |||
| 16376 | template <typename R, typename O, typename... Args> | ||
| 16377 | struct wrapper<R (O::*)(Args...) const&& noexcept> : public member_function_wrapper<R (O::*)(Args...) const& noexcept, R, O, Args...> {}; | ||
| 16378 | |||
| 16379 | template <typename R, typename O, typename... Args> | ||
| 16380 | struct wrapper<R (O::*)(Args...) const volatile&& noexcept> : public member_function_wrapper<R (O::*)(Args...) const volatile& noexcept, R, O, Args...> {}; | ||
| 16381 | |||
| 16382 | template <typename R, typename O, typename... Args> | ||
| 16383 | struct wrapper<R (O::*)(Args..., ...) && noexcept> : public member_function_wrapper<R (O::*)(Args..., ...) & noexcept, R, O, Args...> {}; | ||
| 16384 | |||
| 16385 | template <typename R, typename O, typename... Args> | ||
| 16386 | struct wrapper<R (O::*)(Args..., ...) const&& noexcept> : public member_function_wrapper<R (O::*)(Args..., ...) const& noexcept, R, O, Args...> {}; | ||
| 16387 | |||
| 16388 | template <typename R, typename O, typename... Args> | ||
| 16389 | struct wrapper<R (O::*)(Args..., ...) const volatile&& noexcept> | ||
| 16390 | : public member_function_wrapper<R (O::*)(Args..., ...) const volatile& noexcept, R, O, Args...> {}; | ||
| 16391 | |||
| 16392 | #endif // noexcept is part of a function's type | ||
| 16393 | |||
| 16394 | } // namespace sol | ||
| 16395 | |||
| 16396 | // end of sol/wrapper.hpp | ||
| 16397 | |||
| 16398 | #include <memory> | ||
| 16399 | |||
| 16400 | namespace sol { | ||
| 16401 | namespace function_detail { | ||
| 16402 | template <typename Fx, int start = 1, bool is_yielding = false> | ||
| 16403 | int call(lua_State* L) { | ||
| 16404 | Fx& fx = stack::get<user<Fx>>(L, upvalue_index(start)); | ||
| 16405 | int nr = fx(L); | ||
| 16406 | if (is_yielding) { | ||
| 16407 | return lua_yield(L, nr); | ||
| 16408 | } | ||
| 16409 | else { | ||
| 16410 | return nr; | ||
| 16411 | } | ||
| 16412 | } | ||
| 16413 | } | ||
| 16414 | } // namespace sol::function_detail | ||
| 16415 | |||
| 16416 | // end of sol/function_types_core.hpp | ||
| 16417 | |||
| 16418 | // beginning of sol/function_types_templated.hpp | ||
| 16419 | |||
| 16420 | // beginning of sol/call.hpp | ||
| 16421 | |||
| 16422 | // beginning of sol/property.hpp | ||
| 16423 | |||
| 16424 | #include <type_traits> | ||
| 16425 | #include <utility> | ||
| 16426 | |||
| 16427 | namespace sol { | ||
| 16428 | namespace detail { | ||
| 16429 | struct no_prop {}; | ||
| 16430 | } | ||
| 16431 | |||
| 16432 | template <typename R, typename W> | ||
| 16433 | struct property_wrapper : detail::ebco<R, 0>, detail::ebco<W, 1> { | ||
| 16434 | private: | ||
| 16435 | using read_base_t = detail::ebco<R, 0>; | ||
| 16436 | using write_base_t = detail::ebco<W, 1>; | ||
| 16437 | |||
| 16438 | public: | ||
| 16439 | template <typename Rx, typename Wx> | ||
| 16440 | property_wrapper(Rx&& r, Wx&& w) | ||
| 16441 | : read_base_t(std::forward<Rx>(r)), write_base_t(std::forward<Wx>(w)) { | ||
| 16442 | } | ||
| 16443 | |||
| 16444 | W& write() { | ||
| 16445 | return write_base_t::value(); | ||
| 16446 | } | ||
| 16447 | |||
| 16448 | const W& write() const { | ||
| 16449 | return write_base_t::value(); | ||
| 16450 | } | ||
| 16451 | |||
| 16452 | R& read() { | ||
| 16453 | return read_base_t::value(); | ||
| 16454 | } | ||
| 16455 | |||
| 16456 | const R& read() const { | ||
| 16457 | return read_base_t::value(); | ||
| 16458 | } | ||
| 16459 | }; | ||
| 16460 | |||
| 16461 | template <typename F, typename G> | ||
| 16462 | inline decltype(auto) property(F&& f, G&& g) { | ||
| 16463 | typedef lua_bind_traits<meta::unqualified_t<F>> left_traits; | ||
| 16464 | typedef lua_bind_traits<meta::unqualified_t<G>> right_traits; | ||
| 16465 | if constexpr (left_traits::free_arity < right_traits::free_arity) { | ||
| 16466 | return property_wrapper<std::decay_t<F>, std::decay_t<G>>(std::forward<F>(f), std::forward<G>(g)); | ||
| 16467 | } | ||
| 16468 | else { | ||
| 16469 | return property_wrapper<std::decay_t<G>, std::decay_t<F>>(std::forward<G>(g), std::forward<F>(f)); | ||
| 16470 | } | ||
| 16471 | } | ||
| 16472 | |||
| 16473 | template <typename F> | ||
| 16474 | inline decltype(auto) property(F&& f) { | ||
| 16475 | typedef lua_bind_traits<meta::unqualified_t<F>> left_traits; | ||
| 16476 | if constexpr (left_traits::free_arity < 2) { | ||
| 16477 | return property_wrapper<std::decay_t<F>, detail::no_prop>(std::forward<F>(f), detail::no_prop()); | ||
| 16478 | } | ||
| 16479 | else { | ||
| 16480 | return property_wrapper<detail::no_prop, std::decay_t<F>>(detail::no_prop(), std::forward<F>(f)); | ||
| 16481 | } | ||
| 16482 | } | ||
| 16483 | |||
| 16484 | template <typename F> | ||
| 16485 | inline decltype(auto) readonly_property(F&& f) { | ||
| 16486 | return property_wrapper<std::decay_t<F>, detail::no_prop>(std::forward<F>(f), detail::no_prop()); | ||
| 16487 | } | ||
| 16488 | |||
| 16489 | template <typename F> | ||
| 16490 | inline decltype(auto) writeonly_property(F&& f) { | ||
| 16491 | return property_wrapper<detail::no_prop, std::decay_t<F>>(detail::no_prop(), std::forward<F>(f)); | ||
| 16492 | } | ||
| 16493 | |||
| 16494 | template <typename T> | ||
| 16495 | struct readonly_wrapper : detail::ebco<T> { | ||
| 16496 | private: | ||
| 16497 | using base_t = detail::ebco<T>; | ||
| 16498 | |||
| 16499 | public: | ||
| 16500 | using base_t::base_t; | ||
| 16501 | |||
| 16502 | operator T&() { | ||
| 16503 | return base_t::value(); | ||
| 16504 | } | ||
| 16505 | operator const T&() const { | ||
| 16506 | return base_t::value(); | ||
| 16507 | } | ||
| 16508 | }; | ||
| 16509 | |||
| 16510 | // Allow someone to make a member variable readonly (const) | ||
| 16511 | template <typename R, typename T> | ||
| 16512 | inline auto readonly(R T::*v) { | ||
| 16513 | return readonly_wrapper<meta::unqualified_t<decltype(v)>>(v); | ||
| 16514 | } | ||
| 16515 | |||
| 16516 | template <typename T> | ||
| 16517 | struct var_wrapper : detail::ebco<T> { | ||
| 16518 | private: | ||
| 16519 | using base_t = detail::ebco<T>; | ||
| 16520 | |||
| 16521 | public: | ||
| 16522 | using base_t::base_t; | ||
| 16523 | }; | ||
| 16524 | |||
| 16525 | template <typename V> | ||
| 16526 | inline auto var(V&& v) { | ||
| 16527 | typedef std::decay_t<V> T; | ||
| 16528 | return var_wrapper<T>(std::forward<V>(v)); | ||
| 16529 | } | ||
| 16530 | |||
| 16531 | namespace meta { | ||
| 16532 | template <typename T> | ||
| 16533 | struct is_member_object : std::is_member_object_pointer<T> {}; | ||
| 16534 | |||
| 16535 | template <typename T> | ||
| 16536 | struct is_member_object<readonly_wrapper<T>> : std::true_type {}; | ||
| 16537 | |||
| 16538 | template <typename T> | ||
| 16539 | inline constexpr bool is_member_object_v = is_member_object<T>::value; | ||
| 16540 | } // namespace meta | ||
| 16541 | |||
| 16542 | } // namespace sol | ||
| 16543 | |||
| 16544 | // end of sol/property.hpp | ||
| 16545 | |||
| 16546 | // beginning of sol/protect.hpp | ||
| 16547 | |||
| 16548 | #include <utility> | ||
| 16549 | |||
| 16550 | namespace sol { | ||
| 16551 | |||
| 16552 | template <typename T> | ||
| 16553 | struct protect_t { | ||
| 16554 | T value; | ||
| 16555 | |||
| 16556 | template <typename Arg, typename... Args, meta::disable<std::is_same<protect_t, meta::unqualified_t<Arg>>> = meta::enabler> | ||
| 16557 | protect_t(Arg&& arg, Args&&... args) | ||
| 16558 | : value(std::forward<Arg>(arg), std::forward<Args>(args)...) { | ||
| 16559 | } | ||
| 16560 | |||
| 16561 | protect_t(const protect_t&) = default; | ||
| 16562 | protect_t(protect_t&&) = default; | ||
| 16563 | protect_t& operator=(const protect_t&) = default; | ||
| 16564 | protect_t& operator=(protect_t&&) = default; | ||
| 16565 | }; | ||
| 16566 | |||
| 16567 | template <typename T> | ||
| 16568 | auto protect(T&& value) { | ||
| 16569 | return protect_t<std::decay_t<T>>(std::forward<T>(value)); | ||
| 16570 | } | ||
| 16571 | |||
| 16572 | } // namespace sol | ||
| 16573 | |||
| 16574 | // end of sol/protect.hpp | ||
| 16575 | |||
| 16576 | namespace sol { | ||
| 16577 | namespace u_detail { | ||
| 16578 | |||
| 16579 | } // namespace u_detail | ||
| 16580 | |||
| 16581 | namespace policy_detail { | ||
| 16582 | template <int I, int... In> | ||
| 16583 | inline void handle_policy(static_stack_dependencies<I, In...>, lua_State* L, int&) { | ||
| 16584 | if constexpr (sizeof...(In) == 0) { | ||
| 16585 | (void)L; | ||
| 16586 | return; | ||
| 16587 | } | ||
| 16588 | else { | ||
| 16589 | absolute_index ai(L, I); | ||
| 16590 | if (type_of(L, ai) != type::userdata) { | ||
| 16591 | return; | ||
| 16592 | } | ||
| 16593 | lua_createtable(L, static_cast<int>(sizeof...(In)), 0); | ||
| 16594 | stack_reference deps(L, -1); | ||
| 16595 | auto per_dep = [&L, &deps](int i) { | ||
| 16596 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 16597 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 16598 | #endif // make sure stack doesn't overflow | ||
| 16599 | lua_pushvalue(L, i); | ||
| 16600 | luaL_ref(L, deps.stack_index()); | ||
| 16601 | }; | ||
| 16602 | (void)per_dep; | ||
| 16603 | (void)detail::swallow{ int(), (per_dep(In), int())... }; | ||
| 16604 | lua_setuservalue(L, ai); | ||
| 16605 | } | ||
| 16606 | } | ||
| 16607 | |||
| 16608 | template <int... In> | ||
| 16609 | inline void handle_policy(returns_self_with<In...>, lua_State* L, int& pushed) { | ||
| 16610 | pushed = stack::push(L, raw_index(1)); | ||
| 16611 | handle_policy(static_stack_dependencies<-1, In...>(), L, pushed); | ||
| 16612 | } | ||
| 16613 | |||
| 16614 | inline void handle_policy(const stack_dependencies& sdeps, lua_State* L, int&) { | ||
| 16615 | absolute_index ai(L, sdeps.target); | ||
| 16616 | if (type_of(L, ai) != type::userdata) { | ||
| 16617 | return; | ||
| 16618 | } | ||
| 16619 | lua_createtable(L, static_cast<int>(sdeps.size()), 0); | ||
| 16620 | stack_reference deps(L, -1); | ||
| 16621 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 16622 | luaL_checkstack(L, static_cast<int>(sdeps.size()), detail::not_enough_stack_space_generic); | ||
| 16623 | #endif // make sure stack doesn't overflow | ||
| 16624 | for (std::size_t i = 0; i < sdeps.size(); ++i) { | ||
| 16625 | lua_pushvalue(L, sdeps.stack_indices[i]); | ||
| 16626 | luaL_ref(L, deps.stack_index()); | ||
| 16627 | } | ||
| 16628 | lua_setuservalue(L, ai); | ||
| 16629 | } | ||
| 16630 | |||
| 16631 | template <typename P, meta::disable<std::is_base_of<detail::policy_base_tag, meta::unqualified_t<P>>> = meta::enabler> | ||
| 16632 | inline void handle_policy(P&& p, lua_State* L, int& pushed) { | ||
| 16633 | pushed = std::forward<P>(p)(L, pushed); | ||
| 16634 | } | ||
| 16635 | } // namespace policy_detail | ||
| 16636 | |||
| 16637 | namespace function_detail { | ||
| 16638 | inline int no_construction_error(lua_State* L) { | ||
| 16639 | return luaL_error(L, "sol: cannot call this constructor (tagged as non-constructible)"); | ||
| 16640 | } | ||
| 16641 | } // namespace function_detail | ||
| 16642 | |||
| 16643 | namespace call_detail { | ||
| 16644 | |||
| 16645 | template <typename R, typename W> | ||
| 16646 | inline auto& pick(std::true_type, property_wrapper<R, W>& f) { | ||
| 16647 | return f.read(); | ||
| 16648 | } | ||
| 16649 | |||
| 16650 | template <typename R, typename W> | ||
| 16651 | inline auto& pick(std::false_type, property_wrapper<R, W>& f) { | ||
| 16652 | return f.write(); | ||
| 16653 | } | ||
| 16654 | |||
| 16655 | template <typename T, typename List> | ||
| 16656 | struct void_call : void_call<T, meta::function_args_t<List>> {}; | ||
| 16657 | |||
| 16658 | template <typename T, typename... Args> | ||
| 16659 | struct void_call<T, types<Args...>> { | ||
| 16660 | static void call(Args...) { | ||
| 16661 | } | ||
| 16662 | }; | ||
| 16663 | |||
| 16664 | template <typename T, bool checked, bool clean_stack> | ||
| 16665 | struct constructor_match { | ||
| 16666 | T* obj_; | ||
| 16667 | |||
| 16668 | constructor_match(T* o) : obj_(o) { | ||
| 16669 | } | ||
| 16670 | |||
| 16671 | template <typename Fx, std::size_t I, typename... R, typename... Args> | ||
| 16672 | int operator()(types<Fx>, meta::index_value<I>, types<R...> r, types<Args...> a, lua_State* L, int, int start) const { | ||
| 16673 | detail::default_construct func{}; | ||
| 16674 | return stack::call_into_lua<checked, clean_stack>(r, a, L, start, func, obj_); | ||
| 16675 | } | ||
| 16676 | }; | ||
| 16677 | |||
| 16678 | namespace overload_detail { | ||
| 16679 | template <std::size_t... M, typename Match, typename... Args> | ||
| 16680 | inline int overload_match_arity(types<>, std::index_sequence<>, std::index_sequence<M...>, Match&&, lua_State* L, int, int, Args&&...) { | ||
| 16681 | return luaL_error(L, "sol: no matching function call takes this number of arguments and the specified types"); | ||
| 16682 | } | ||
| 16683 | |||
| 16684 | template <typename Fx, typename... Fxs, std::size_t I, std::size_t... In, std::size_t... M, typename Match, typename... Args> | ||
| 16685 | inline int overload_match_arity(types<Fx, Fxs...>, std::index_sequence<I, In...>, std::index_sequence<M...>, Match&& matchfx, lua_State* L, | ||
| 16686 | int fxarity, int start, Args&&... args) { | ||
| 16687 | typedef lua_bind_traits<meta::unwrap_unqualified_t<Fx>> traits; | ||
| 16688 | typedef meta::tuple_types<typename traits::return_type> return_types; | ||
| 16689 | typedef typename traits::free_args_list args_list; | ||
| 16690 | // compile-time eliminate any functions that we know ahead of time are of improper arity | ||
| 16691 | if constexpr (!traits::runtime_variadics_t::value | ||
| 16692 | && meta::find_in_pack_v<meta::index_value<traits::free_arity>, meta::index_value<M>...>::value) { | ||
| 16693 | return overload_match_arity(types<Fxs...>(), | ||
| 16694 | std::index_sequence<In...>(), | ||
| 16695 | std::index_sequence<M...>(), | ||
| 16696 | std::forward<Match>(matchfx), | ||
| 16697 | L, | ||
| 16698 | fxarity, | ||
| 16699 | start, | ||
| 16700 | std::forward<Args>(args)...); | ||
| 16701 | } | ||
| 16702 | else { | ||
| 16703 | if constexpr (!traits::runtime_variadics_t::value) { | ||
| 16704 | if (traits::free_arity != fxarity) { | ||
| 16705 | return overload_match_arity(types<Fxs...>(), | ||
| 16706 | std::index_sequence<In...>(), | ||
| 16707 | std::index_sequence<traits::free_arity, M...>(), | ||
| 16708 | std::forward<Match>(matchfx), | ||
| 16709 | L, | ||
| 16710 | fxarity, | ||
| 16711 | start, | ||
| 16712 | std::forward<Args>(args)...); | ||
| 16713 | } | ||
| 16714 | } | ||
| 16715 | stack::record tracking{}; | ||
| 16716 | if (!stack::stack_detail::check_types(args_list(), L, start, no_panic, tracking)) { | ||
| 16717 | return overload_match_arity(types<Fxs...>(), | ||
| 16718 | std::index_sequence<In...>(), | ||
| 16719 | std::index_sequence<M...>(), | ||
| 16720 | std::forward<Match>(matchfx), | ||
| 16721 | L, | ||
| 16722 | fxarity, | ||
| 16723 | start, | ||
| 16724 | std::forward<Args>(args)...); | ||
| 16725 | } | ||
| 16726 | return matchfx(types<Fx>(), meta::index_value<I>(), return_types(), args_list(), L, fxarity, start, std::forward<Args>(args)...); | ||
| 16727 | } | ||
| 16728 | } | ||
| 16729 | |||
| 16730 | template <std::size_t... M, typename Match, typename... Args> | ||
| 16731 | inline int overload_match_arity_single( | ||
| 16732 | types<>, std::index_sequence<>, std::index_sequence<M...>, Match&& matchfx, lua_State* L, int fxarity, int start, Args&&... args) { | ||
| 16733 | return overload_match_arity(types<>(), | ||
| 16734 | std::index_sequence<>(), | ||
| 16735 | std::index_sequence<M...>(), | ||
| 16736 | std::forward<Match>(matchfx), | ||
| 16737 | L, | ||
| 16738 | fxarity, | ||
| 16739 | start, | ||
| 16740 | std::forward<Args>(args)...); | ||
| 16741 | } | ||
| 16742 | |||
| 16743 | template <typename Fx, std::size_t I, std::size_t... M, typename Match, typename... Args> | ||
| 16744 | inline int overload_match_arity_single( | ||
| 16745 | types<Fx>, std::index_sequence<I>, std::index_sequence<M...>, Match&& matchfx, lua_State* L, int fxarity, int start, Args&&... args) { | ||
| 16746 | typedef lua_bind_traits<meta::unwrap_unqualified_t<Fx>> traits; | ||
| 16747 | typedef meta::tuple_types<typename traits::return_type> return_types; | ||
| 16748 | typedef typename traits::free_args_list args_list; | ||
| 16749 | // compile-time eliminate any functions that we know ahead of time are of improper arity | ||
| 16750 | if constexpr (!traits::runtime_variadics_t::value | ||
| 16751 | && meta::find_in_pack_v<meta::index_value<traits::free_arity>, meta::index_value<M>...>::value) { | ||
| 16752 | return overload_match_arity(types<>(), | ||
| 16753 | std::index_sequence<>(), | ||
| 16754 | std::index_sequence<M...>(), | ||
| 16755 | std::forward<Match>(matchfx), | ||
| 16756 | L, | ||
| 16757 | fxarity, | ||
| 16758 | start, | ||
| 16759 | std::forward<Args>(args)...); | ||
| 16760 | } | ||
| 16761 | if constexpr (!traits::runtime_variadics_t::value) { | ||
| 16762 | if (traits::free_arity != fxarity) { | ||
| 16763 | return overload_match_arity(types<>(), | ||
| 16764 | std::index_sequence<>(), | ||
| 16765 | std::index_sequence<traits::free_arity, M...>(), | ||
| 16766 | std::forward<Match>(matchfx), | ||
| 16767 | L, | ||
| 16768 | fxarity, | ||
| 16769 | start, | ||
| 16770 | std::forward<Args>(args)...); | ||
| 16771 | } | ||
| 16772 | } | ||
| 16773 | return matchfx(types<Fx>(), meta::index_value<I>(), return_types(), args_list(), L, fxarity, start, std::forward<Args>(args)...); | ||
| 16774 | } | ||
| 16775 | |||
| 16776 | template <typename Fx, typename Fx1, typename... Fxs, std::size_t I, std::size_t I1, std::size_t... In, std::size_t... M, typename Match, | ||
| 16777 | typename... Args> | ||
| 16778 | inline int overload_match_arity_single(types<Fx, Fx1, Fxs...>, std::index_sequence<I, I1, In...>, std::index_sequence<M...>, Match&& matchfx, | ||
| 16779 | lua_State* L, int fxarity, int start, Args&&... args) { | ||
| 16780 | typedef lua_bind_traits<meta::unwrap_unqualified_t<Fx>> traits; | ||
| 16781 | typedef meta::tuple_types<typename traits::return_type> return_types; | ||
| 16782 | typedef typename traits::free_args_list args_list; | ||
| 16783 | // compile-time eliminate any functions that we know ahead of time are of improper arity | ||
| 16784 | if constexpr (!traits::runtime_variadics_t::value | ||
| 16785 | && meta::find_in_pack_v<meta::index_value<traits::free_arity>, meta::index_value<M>...>::value) { | ||
| 16786 | return overload_match_arity(types<Fx1, Fxs...>(), | ||
| 16787 | std::index_sequence<I1, In...>(), | ||
| 16788 | std::index_sequence<M...>(), | ||
| 16789 | std::forward<Match>(matchfx), | ||
| 16790 | L, | ||
| 16791 | fxarity, | ||
| 16792 | start, | ||
| 16793 | std::forward<Args>(args)...); | ||
| 16794 | } | ||
| 16795 | else { | ||
| 16796 | if constexpr (!traits::runtime_variadics_t::value) { | ||
| 16797 | if (traits::free_arity != fxarity) { | ||
| 16798 | return overload_match_arity(types<Fx1, Fxs...>(), | ||
| 16799 | std::index_sequence<I1, In...>(), | ||
| 16800 | std::index_sequence<traits::free_arity, M...>(), | ||
| 16801 | std::forward<Match>(matchfx), | ||
| 16802 | L, | ||
| 16803 | fxarity, | ||
| 16804 | start, | ||
| 16805 | std::forward<Args>(args)...); | ||
| 16806 | } | ||
| 16807 | } | ||
| 16808 | stack::record tracking{}; | ||
| 16809 | if (!stack::stack_detail::check_types(args_list(), L, start, no_panic, tracking)) { | ||
| 16810 | return overload_match_arity(types<Fx1, Fxs...>(), | ||
| 16811 | std::index_sequence<I1, In...>(), | ||
| 16812 | std::index_sequence<M...>(), | ||
| 16813 | std::forward<Match>(matchfx), | ||
| 16814 | L, | ||
| 16815 | fxarity, | ||
| 16816 | start, | ||
| 16817 | std::forward<Args>(args)...); | ||
| 16818 | } | ||
| 16819 | return matchfx(types<Fx>(), meta::index_value<I>(), return_types(), args_list(), L, fxarity, start, std::forward<Args>(args)...); | ||
| 16820 | } | ||
| 16821 | } | ||
| 16822 | } // namespace overload_detail | ||
| 16823 | |||
| 16824 | template <typename... Functions, typename Match, typename... Args> | ||
| 16825 | inline int overload_match_arity(Match&& matchfx, lua_State* L, int fxarity, int start, Args&&... args) { | ||
| 16826 | return overload_detail::overload_match_arity_single(types<Functions...>(), | ||
| 16827 | std::make_index_sequence<sizeof...(Functions)>(), | ||
| 16828 | std::index_sequence<>(), | ||
| 16829 | std::forward<Match>(matchfx), | ||
| 16830 | L, | ||
| 16831 | fxarity, | ||
| 16832 | start, | ||
| 16833 | std::forward<Args>(args)...); | ||
| 16834 | } | ||
| 16835 | |||
| 16836 | template <typename... Functions, typename Match, typename... Args> | ||
| 16837 | inline int overload_match(Match&& matchfx, lua_State* L, int start, Args&&... args) { | ||
| 16838 | int fxarity = lua_gettop(L) - (start - 1); | ||
| 16839 | return overload_match_arity<Functions...>(std::forward<Match>(matchfx), L, fxarity, start, std::forward<Args>(args)...); | ||
| 16840 | } | ||
| 16841 | |||
| 16842 | template <typename T, typename... TypeLists, typename Match, typename... Args> | ||
| 16843 | inline int construct_match(Match&& matchfx, lua_State* L, int fxarity, int start, Args&&... args) { | ||
| 16844 | // use same overload resolution matching as all other parts of the framework | ||
| 16845 | return overload_match_arity<decltype(void_call<T, TypeLists>::call)...>( | ||
| 16846 | std::forward<Match>(matchfx), L, fxarity, start, std::forward<Args>(args)...); | ||
| 16847 | } | ||
| 16848 | |||
| 16849 | template <typename T, bool checked, bool clean_stack, typename... TypeLists> | ||
| 16850 | inline int construct_trampolined(lua_State* L) { | ||
| 16851 | static const auto& meta = usertype_traits<T>::metatable(); | ||
| 16852 | int argcount = lua_gettop(L); | ||
| 16853 | call_syntax syntax = argcount > 0 ? stack::get_call_syntax(L, usertype_traits<T>::user_metatable(), 1) : call_syntax::dot; | ||
| 16854 | argcount -= static_cast<int>(syntax); | ||
| 16855 | |||
| 16856 | T* obj = detail::usertype_allocate<T>(L); | ||
| 16857 | reference userdataref(L, -1); | ||
| 16858 | stack::stack_detail::undefined_metatable umf(L, &meta[0], &stack::stack_detail::set_undefined_methods_on<T>); | ||
| 16859 | umf(); | ||
| 16860 | |||
| 16861 | // put userdata at the first index | ||
| 16862 | lua_insert(L, 1); | ||
| 16863 | construct_match<T, TypeLists...>(constructor_match<T, checked, clean_stack>(obj), L, argcount, 1 + static_cast<int>(syntax)); | ||
| 16864 | |||
| 16865 | userdataref.push(); | ||
| 16866 | return 1; | ||
| 16867 | } | ||
| 16868 | |||
| 16869 | template <typename T, bool checked, bool clean_stack, typename... TypeLists> | ||
| 16870 | inline int construct(lua_State* L) { | ||
| 16871 | return detail::static_trampoline<&construct_trampolined<T, checked, clean_stack, TypeLists...>>(L); | ||
| 16872 | } | ||
| 16873 | |||
| 16874 | template <typename F, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename = void> | ||
| 16875 | struct agnostic_lua_call_wrapper { | ||
| 16876 | template <typename Fx, typename... Args> | ||
| 16877 | static int call(lua_State* L, Fx&& f, Args&&... args) { | ||
| 16878 | using uFx = meta::unqualified_t<Fx>; | ||
| 16879 | static constexpr bool is_ref = is_lua_reference_v<uFx>; | ||
| 16880 | if constexpr (is_ref) { | ||
| 16881 | if constexpr (is_index) { | ||
| 16882 | return stack::push(L, std::forward<Fx>(f), std::forward<Args>(args)...); | ||
| 16883 | } | ||
| 16884 | else { | ||
| 16885 | std::forward<Fx>(f) = stack::unqualified_get<F>(L, boost + (is_variable ? 3 : 1)); | ||
| 16886 | return 0; | ||
| 16887 | } | ||
| 16888 | } | ||
| 16889 | else { | ||
| 16890 | using wrap = wrapper<uFx>; | ||
| 16891 | using traits_type = typename wrap::traits_type; | ||
| 16892 | using fp_t = typename traits_type::function_pointer_type; | ||
| 16893 | constexpr bool is_function_pointer_convertible | ||
| 16894 | = std::is_class_v<uFx> && std::is_convertible_v<std::decay_t<Fx>, fp_t>; | ||
| 16895 | if constexpr (is_function_pointer_convertible) { | ||
| 16896 | fp_t fx = f; | ||
| 16897 | return agnostic_lua_call_wrapper<fp_t, is_index, is_variable, checked, boost, clean_stack>{}.call( | ||
| 16898 | L, fx, std::forward<Args>(args)...); | ||
| 16899 | } | ||
| 16900 | else { | ||
| 16901 | using returns_list = typename wrap::returns_list; | ||
| 16902 | using args_list = typename wrap::free_args_list; | ||
| 16903 | using caller = typename wrap::caller; | ||
| 16904 | return stack::call_into_lua<checked, clean_stack>( | ||
| 16905 | returns_list(), args_list(), L, boost + 1, caller(), std::forward<Fx>(f), std::forward<Args>(args)...); | ||
| 16906 | } | ||
| 16907 | } | ||
| 16908 | } | ||
| 16909 | }; | ||
| 16910 | |||
| 16911 | template <typename T, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16912 | struct agnostic_lua_call_wrapper<var_wrapper<T>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16913 | template <typename F> | ||
| 16914 | static int call(lua_State* L, F&& f) { | ||
| 16915 | if constexpr (is_index) { | ||
| 16916 | constexpr bool is_stack = is_stack_based_v<meta::unqualified_t<decltype(detail::unwrap(f.value()))>>; | ||
| 16917 | if constexpr (clean_stack && !is_stack) { | ||
| 16918 | lua_settop(L, 0); | ||
| 16919 | } | ||
| 16920 | return stack::push_reference(L, detail::unwrap(f.value())); | ||
| 16921 | } | ||
| 16922 | else { | ||
| 16923 | if constexpr (std::is_const_v<meta::unwrapped_t<T>>) { | ||
| 16924 | (void)f; | ||
| 16925 | return luaL_error(L, "sol: cannot write to a readonly (const) variable"); | ||
| 16926 | } | ||
| 16927 | else { | ||
| 16928 | using R = meta::unwrapped_t<T>; | ||
| 16929 | if constexpr (std::is_assignable_v<std::add_lvalue_reference_t<meta::unqualified_t<R>>, R>) { | ||
| 16930 | detail::unwrap(f.value()) = stack::unqualified_get<meta::unwrapped_t<T>>(L, boost + (is_variable ? 3 : 1)); | ||
| 16931 | if (clean_stack) { | ||
| 16932 | lua_settop(L, 0); | ||
| 16933 | } | ||
| 16934 | return 0; | ||
| 16935 | } | ||
| 16936 | else { | ||
| 16937 | return luaL_error(L, "sol: cannot write to this variable: copy assignment/constructor not available"); | ||
| 16938 | } | ||
| 16939 | } | ||
| 16940 | } | ||
| 16941 | } | ||
| 16942 | }; | ||
| 16943 | |||
| 16944 | template <bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16945 | struct agnostic_lua_call_wrapper<lua_CFunction_ref, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16946 | static int call(lua_State* L, lua_CFunction_ref f) { | ||
| 16947 | return f(L); | ||
| 16948 | } | ||
| 16949 | }; | ||
| 16950 | |||
| 16951 | template <bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16952 | struct agnostic_lua_call_wrapper<lua_CFunction, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16953 | static int call(lua_State* L, lua_CFunction f) { | ||
| 16954 | return f(L); | ||
| 16955 | } | ||
| 16956 | }; | ||
| 16957 | |||
| 16958 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 16959 | template <bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16960 | struct agnostic_lua_call_wrapper<detail::lua_CFunction_noexcept, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16961 | static int call(lua_State* L, detail::lua_CFunction_noexcept f) { | ||
| 16962 | return f(L); | ||
| 16963 | } | ||
| 16964 | }; | ||
| 16965 | #endif // noexcept function types | ||
| 16966 | |||
| 16967 | template <bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16968 | struct agnostic_lua_call_wrapper<detail::no_prop, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16969 | static int call(lua_State* L, const detail::no_prop&) { | ||
| 16970 | return luaL_error(L, is_index ? "sol: cannot read from a writeonly property" : "sol: cannot write to a readonly property"); | ||
| 16971 | } | ||
| 16972 | }; | ||
| 16973 | |||
| 16974 | template <bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16975 | struct agnostic_lua_call_wrapper<no_construction, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16976 | static int call(lua_State* L, const no_construction&) { | ||
| 16977 | return function_detail::no_construction_error(L); | ||
| 16978 | } | ||
| 16979 | }; | ||
| 16980 | |||
| 16981 | template <typename... Args, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16982 | struct agnostic_lua_call_wrapper<bases<Args...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16983 | static int call(lua_State*, const bases<Args...>&) { | ||
| 16984 | // Uh. How did you even call this, lul | ||
| 16985 | return 0; | ||
| 16986 | } | ||
| 16987 | }; | ||
| 16988 | |||
| 16989 | template <typename T, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 16990 | struct agnostic_lua_call_wrapper<std::reference_wrapper<T>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 16991 | static int call(lua_State* L, std::reference_wrapper<T> f) { | ||
| 16992 | agnostic_lua_call_wrapper<T, is_index, is_variable, checked, boost, clean_stack> alcw{}; | ||
| 16993 | return alcw.call(L, f.get()); | ||
| 16994 | } | ||
| 16995 | }; | ||
| 16996 | |||
| 16997 | template <typename T, typename F, bool is_index, bool is_variable, bool checked = detail::default_safe_function_calls, int boost = 0, | ||
| 16998 | bool clean_stack = true, typename = void> | ||
| 16999 | struct lua_call_wrapper { | ||
| 17000 | template <typename Fx, typename... Args> | ||
| 17001 | static int call(lua_State* L, Fx&& fx, Args&&... args) { | ||
| 17002 | if constexpr (std::is_member_function_pointer_v<F>) { | ||
| 17003 | using wrap = wrapper<F>; | ||
| 17004 | using object_type = typename wrap::object_type; | ||
| 17005 | if constexpr (sizeof...(Args) < 1) { | ||
| 17006 | using Ta = meta::conditional_t<std::is_void_v<T>, object_type, T>; | ||
| 17007 | static_assert(std::is_base_of_v<object_type, Ta>, "It seems like you might have accidentally bound a class type with a member function method that does not correspond to the class. For example, there could be a small type in your new_usertype<T>(...) binding, where you specify one class \"T\" but then bind member methods from a complete unrelated class. Check things over!"); | ||
| 17008 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 17009 | auto maybeo = stack::check_get<Ta*>(L, 1); | ||
| 17010 | if (!maybeo || maybeo.value() == nullptr) { | ||
| 17011 | return luaL_error(L, | ||
| 17012 | "sol: received nil for 'self' argument (use ':' for accessing member functions, make sure member variables are " | ||
| 17013 | "preceeded by the " | ||
| 17014 | "actual object with '.' syntax)"); | ||
| 17015 | } | ||
| 17016 | object_type* o = static_cast<object_type*>(maybeo.value()); | ||
| 17017 | return call(L, std::forward<Fx>(fx), *o); | ||
| 17018 | #else | ||
| 17019 | object_type& o = static_cast<object_type&>(*stack::unqualified_get<non_null<Ta*>>(L, 1)); | ||
| 17020 | return call(L, std::forward<Fx>(fx), o); | ||
| 17021 | #endif // Safety | ||
| 17022 | } | ||
| 17023 | else { | ||
| 17024 | using returns_list = typename wrap::returns_list; | ||
| 17025 | using args_list = typename wrap::args_list; | ||
| 17026 | using caller = typename wrap::caller; | ||
| 17027 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17028 | returns_list(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 17029 | } | ||
| 17030 | } | ||
| 17031 | else if constexpr (std::is_member_object_pointer_v<F>) { | ||
| 17032 | using wrap = wrapper<F>; | ||
| 17033 | using object_type = typename wrap::object_type; | ||
| 17034 | if constexpr (is_index) { | ||
| 17035 | if constexpr (sizeof...(Args) < 1) { | ||
| 17036 | using Ta = meta::conditional_t<std::is_void_v<T>, object_type, T>; | ||
| 17037 | static_assert(std::is_base_of_v<object_type, Ta>, "It seems like you might have accidentally bound a class type with a member function method that does not correspond to the class. For example, there could be a small type in your new_usertype<T>(...) binding, where you specify one class \"T\" but then bind member methods from a complete unrelated class. Check things over!"); | ||
| 17038 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 17039 | auto maybeo = stack::check_get<Ta*>(L, 1); | ||
| 17040 | if (!maybeo || maybeo.value() == nullptr) { | ||
| 17041 | if (is_variable) { | ||
| 17042 | return luaL_error(L, "sol: 'self' argument is lua_nil (bad '.' access?)"); | ||
| 17043 | } | ||
| 17044 | return luaL_error(L, "sol: 'self' argument is lua_nil (pass 'self' as first argument)"); | ||
| 17045 | } | ||
| 17046 | object_type* o = static_cast<object_type*>(maybeo.value()); | ||
| 17047 | return call(L, std::forward<Fx>(fx), *o); | ||
| 17048 | #else | ||
| 17049 | object_type& o = static_cast<object_type&>(*stack::get<non_null<Ta*>>(L, 1)); | ||
| 17050 | return call(L, std::forward<Fx>(fx), o); | ||
| 17051 | #endif // Safety | ||
| 17052 | } | ||
| 17053 | else { | ||
| 17054 | using returns_list = typename wrap::returns_list; | ||
| 17055 | using caller = typename wrap::caller; | ||
| 17056 | return stack::call_into_lua<checked, clean_stack>(returns_list(), | ||
| 17057 | types<>(), | ||
| 17058 | L, | ||
| 17059 | boost + (is_variable ? 3 : 2), | ||
| 17060 | caller(), | ||
| 17061 | std::forward<Fx>(fx), | ||
| 17062 | std::forward<Args>(args)...); | ||
| 17063 | } | ||
| 17064 | } | ||
| 17065 | else { | ||
| 17066 | using traits_type = lua_bind_traits<F>; | ||
| 17067 | using return_type = typename traits_type::return_type; | ||
| 17068 | constexpr bool ret_is_const = std::is_const_v<std::remove_reference_t<return_type>>; | ||
| 17069 | if constexpr (ret_is_const) { | ||
| 17070 | (void)fx; | ||
| 17071 | (void)detail::swallow{ 0, (static_cast<void>(args), 0)... }; | ||
| 17072 | return luaL_error(L, "sol: cannot write to a readonly (const) variable"); | ||
| 17073 | } | ||
| 17074 | else { | ||
| 17075 | using u_return_type = meta::unqualified_t<return_type>; | ||
| 17076 | constexpr bool is_assignable = std::is_copy_assignable_v<u_return_type> || std::is_array_v<u_return_type>; | ||
| 17077 | if constexpr (!is_assignable) { | ||
| 17078 | (void)fx; | ||
| 17079 | (void)detail::swallow{ 0, ((void)args, 0)... }; | ||
| 17080 | return luaL_error(L, "sol: cannot write to this variable: copy assignment/constructor not available"); | ||
| 17081 | } | ||
| 17082 | else { | ||
| 17083 | using args_list = typename wrap::args_list; | ||
| 17084 | using caller = typename wrap::caller; | ||
| 17085 | if constexpr (sizeof...(Args) > 0) { | ||
| 17086 | return stack::call_into_lua<checked, clean_stack>(types<void>(), | ||
| 17087 | args_list(), | ||
| 17088 | L, | ||
| 17089 | boost + (is_variable ? 3 : 2), | ||
| 17090 | caller(), | ||
| 17091 | std::forward<Fx>(fx), | ||
| 17092 | std::forward<Args>(args)...); | ||
| 17093 | } | ||
| 17094 | else { | ||
| 17095 | using Ta = meta::conditional_t<std::is_void_v<T>, object_type, T>; | ||
| 17096 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 17097 | auto maybeo = stack::check_get<Ta*>(L, 1); | ||
| 17098 | if (!maybeo || maybeo.value() == nullptr) { | ||
| 17099 | if (is_variable) { | ||
| 17100 | return luaL_error(L, "sol: received nil for 'self' argument (bad '.' access?)"); | ||
| 17101 | } | ||
| 17102 | return luaL_error(L, "sol: received nil for 'self' argument (pass 'self' as first argument)"); | ||
| 17103 | } | ||
| 17104 | object_type* po = static_cast<object_type*>(maybeo.value()); | ||
| 17105 | object_type& o = *po; | ||
| 17106 | #else | ||
| 17107 | object_type& o = static_cast<object_type&>(*stack::get<non_null<Ta*>>(L, 1)); | ||
| 17108 | #endif // Safety | ||
| 17109 | |||
| 17110 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17111 | types<void>(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), std::forward<Fx>(fx), o); | ||
| 17112 | } | ||
| 17113 | } | ||
| 17114 | } | ||
| 17115 | } | ||
| 17116 | } | ||
| 17117 | else { | ||
| 17118 | agnostic_lua_call_wrapper<F, is_index, is_variable, checked, boost, clean_stack> alcw{}; | ||
| 17119 | return alcw.call(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 17120 | } | ||
| 17121 | } | ||
| 17122 | }; | ||
| 17123 | |||
| 17124 | template <typename T, typename F, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17125 | struct lua_call_wrapper<T, readonly_wrapper<F>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17126 | using traits_type = lua_bind_traits<F>; | ||
| 17127 | using wrap = wrapper<F>; | ||
| 17128 | using object_type = typename wrap::object_type; | ||
| 17129 | |||
| 17130 | static int call(lua_State* L, readonly_wrapper<F>&& rw) { | ||
| 17131 | if constexpr (!is_index) { | ||
| 17132 | (void)rw; | ||
| 17133 | return luaL_error(L, "sol: cannot write to a sol::readonly variable"); | ||
| 17134 | } | ||
| 17135 | else { | ||
| 17136 | lua_call_wrapper<T, F, true, is_variable, checked, boost, clean_stack, C> lcw; | ||
| 17137 | return lcw.call(L, std::move(rw.value())); | ||
| 17138 | } | ||
| 17139 | } | ||
| 17140 | |||
| 17141 | static int call(lua_State* L, readonly_wrapper<F>&& rw, object_type& o) { | ||
| 17142 | if constexpr (!is_index) { | ||
| 17143 | (void)o; | ||
| 17144 | return call(L, std::move(rw)); | ||
| 17145 | } | ||
| 17146 | else { | ||
| 17147 | lua_call_wrapper<T, F, true, is_variable, checked, boost, clean_stack, C> lcw; | ||
| 17148 | return lcw.call(L, rw.value(), o); | ||
| 17149 | } | ||
| 17150 | } | ||
| 17151 | |||
| 17152 | static int call(lua_State* L, const readonly_wrapper<F>& rw) { | ||
| 17153 | if constexpr (!is_index) { | ||
| 17154 | (void)rw; | ||
| 17155 | return luaL_error(L, "sol: cannot write to a sol::readonly variable"); | ||
| 17156 | } | ||
| 17157 | else { | ||
| 17158 | lua_call_wrapper<T, F, true, is_variable, checked, boost, clean_stack, C> lcw; | ||
| 17159 | return lcw.call(L, rw.value()); | ||
| 17160 | } | ||
| 17161 | } | ||
| 17162 | |||
| 17163 | static int call(lua_State* L, const readonly_wrapper<F>& rw, object_type& o) { | ||
| 17164 | if constexpr (!is_index) { | ||
| 17165 | (void)o; | ||
| 17166 | return call(L, rw); | ||
| 17167 | } | ||
| 17168 | else { | ||
| 17169 | lua_call_wrapper<T, F, true, is_variable, checked, boost, clean_stack, C> lcw; | ||
| 17170 | return lcw.call(L, rw.value(), o); | ||
| 17171 | } | ||
| 17172 | } | ||
| 17173 | }; | ||
| 17174 | |||
| 17175 | template <typename T, typename... Args, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17176 | struct lua_call_wrapper<T, constructor_list<Args...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17177 | typedef constructor_list<Args...> F; | ||
| 17178 | |||
| 17179 | static int call(lua_State* L, F&) { | ||
| 17180 | const auto& meta = usertype_traits<T>::metatable(); | ||
| 17181 | int argcount = lua_gettop(L); | ||
| 17182 | call_syntax syntax = argcount > 0 ? stack::get_call_syntax(L, usertype_traits<T>::user_metatable(), 1) : call_syntax::dot; | ||
| 17183 | argcount -= static_cast<int>(syntax); | ||
| 17184 | |||
| 17185 | T* obj = detail::usertype_allocate<T>(L); | ||
| 17186 | reference userdataref(L, -1); | ||
| 17187 | stack::stack_detail::undefined_metatable umf(L, &meta[0], &stack::stack_detail::set_undefined_methods_on<T>); | ||
| 17188 | umf(); | ||
| 17189 | |||
| 17190 | // put userdata at the first index | ||
| 17191 | lua_insert(L, 1); | ||
| 17192 | construct_match<T, Args...>(constructor_match<T, checked, clean_stack>(obj), L, argcount, boost + 1 + 1 + static_cast<int>(syntax)); | ||
| 17193 | |||
| 17194 | userdataref.push(); | ||
| 17195 | return 1; | ||
| 17196 | } | ||
| 17197 | }; | ||
| 17198 | |||
| 17199 | template <typename T, typename... Cxs, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17200 | struct lua_call_wrapper<T, constructor_wrapper<Cxs...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17201 | typedef constructor_wrapper<Cxs...> F; | ||
| 17202 | |||
| 17203 | struct onmatch { | ||
| 17204 | template <typename Fx, std::size_t I, typename... R, typename... Args> | ||
| 17205 | int operator()(types<Fx>, meta::index_value<I>, types<R...> r, types<Args...> a, lua_State* L, int, int start, F& f) { | ||
| 17206 | const auto& meta = usertype_traits<T>::metatable(); | ||
| 17207 | T* obj = detail::usertype_allocate<T>(L); | ||
| 17208 | reference userdataref(L, -1); | ||
| 17209 | stack::stack_detail::undefined_metatable umf(L, &meta[0], &stack::stack_detail::set_undefined_methods_on<T>); | ||
| 17210 | umf(); | ||
| 17211 | |||
| 17212 | auto& func = std::get<I>(f.functions); | ||
| 17213 | // put userdata at the first index | ||
| 17214 | lua_insert(L, 1); | ||
| 17215 | stack::call_into_lua<checked, clean_stack>(r, a, L, boost + 1 + start, func, detail::implicit_wrapper<T>(obj)); | ||
| 17216 | |||
| 17217 | userdataref.push(); | ||
| 17218 | return 1; | ||
| 17219 | } | ||
| 17220 | }; | ||
| 17221 | |||
| 17222 | static int call(lua_State* L, F& f) { | ||
| 17223 | call_syntax syntax = stack::get_call_syntax(L, usertype_traits<T>::user_metatable(), 1); | ||
| 17224 | int syntaxval = static_cast<int>(syntax); | ||
| 17225 | int argcount = lua_gettop(L) - syntaxval; | ||
| 17226 | return construct_match<T, meta::pop_front_type_t<meta::function_args_t<Cxs>>...>(onmatch(), L, argcount, 1 + syntaxval, f); | ||
| 17227 | } | ||
| 17228 | }; | ||
| 17229 | |||
| 17230 | template <typename T, typename Fx, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17231 | struct lua_call_wrapper<T, destructor_wrapper<Fx>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17232 | |||
| 17233 | template <typename F> | ||
| 17234 | static int call(lua_State* L, F&& f) { | ||
| 17235 | if constexpr (std::is_void_v<Fx>) { | ||
| 17236 | return detail::usertype_alloc_destruct<T>(L); | ||
| 17237 | } | ||
| 17238 | else { | ||
| 17239 | using uFx = meta::unqualified_t<Fx>; | ||
| 17240 | lua_call_wrapper<T, uFx, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17241 | return lcw.call(L, std::forward<F>(f).fx); | ||
| 17242 | } | ||
| 17243 | } | ||
| 17244 | }; | ||
| 17245 | |||
| 17246 | template <typename T, typename... Fs, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17247 | struct lua_call_wrapper<T, overload_set<Fs...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17248 | typedef overload_set<Fs...> F; | ||
| 17249 | |||
| 17250 | struct on_match { | ||
| 17251 | template <typename Fx, std::size_t I, typename... R, typename... Args> | ||
| 17252 | int operator()(types<Fx>, meta::index_value<I>, types<R...>, types<Args...>, lua_State* L, int, int, F& fx) { | ||
| 17253 | auto& f = std::get<I>(fx.functions); | ||
| 17254 | return lua_call_wrapper<T, Fx, is_index, is_variable, checked, boost>{}.call(L, f); | ||
| 17255 | } | ||
| 17256 | }; | ||
| 17257 | |||
| 17258 | static int call(lua_State* L, F& fx) { | ||
| 17259 | return overload_match_arity<Fs...>(on_match(), L, lua_gettop(L), 1, fx); | ||
| 17260 | } | ||
| 17261 | }; | ||
| 17262 | |||
| 17263 | template <typename T, typename... Fs, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17264 | struct lua_call_wrapper<T, factory_wrapper<Fs...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17265 | typedef factory_wrapper<Fs...> F; | ||
| 17266 | |||
| 17267 | struct on_match { | ||
| 17268 | template <typename Fx, std::size_t I, typename... R, typename... Args> | ||
| 17269 | int operator()(types<Fx>, meta::index_value<I>, types<R...>, types<Args...>, lua_State* L, int, int, F& fx) { | ||
| 17270 | auto& f = std::get<I>(fx.functions); | ||
| 17271 | return lua_call_wrapper<T, Fx, is_index, is_variable, checked, boost, clean_stack>{}.call(L, f); | ||
| 17272 | } | ||
| 17273 | }; | ||
| 17274 | |||
| 17275 | static int call(lua_State* L, F& fx) { | ||
| 17276 | return overload_match_arity<Fs...>(on_match(), L, lua_gettop(L) - boost, 1 + boost, fx); | ||
| 17277 | } | ||
| 17278 | }; | ||
| 17279 | |||
| 17280 | template <typename T, typename R, typename W, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17281 | struct lua_call_wrapper<T, property_wrapper<R, W>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17282 | typedef meta::conditional_t<is_index, R, W> P; | ||
| 17283 | typedef meta::unqualified_t<P> U; | ||
| 17284 | typedef wrapper<U> wrap; | ||
| 17285 | typedef lua_bind_traits<U> traits_type; | ||
| 17286 | typedef meta::unqualified_t<typename traits_type::template arg_at<0>> object_type; | ||
| 17287 | |||
| 17288 | template <typename F, typename... Args> | ||
| 17289 | static int call(lua_State* L, F&& f, Args&&... args) { | ||
| 17290 | constexpr bool is_specialized = meta::any<std::is_same<U, detail::no_prop>, | ||
| 17291 | meta::is_specialization_of<U, var_wrapper>, | ||
| 17292 | meta::is_specialization_of<U, constructor_wrapper>, | ||
| 17293 | meta::is_specialization_of<U, constructor_list>, | ||
| 17294 | std::is_member_pointer<U>>::value; | ||
| 17295 | if constexpr (is_specialized) { | ||
| 17296 | if constexpr (is_index) { | ||
| 17297 | decltype(auto) p = f.read(); | ||
| 17298 | lua_call_wrapper<T, meta::unqualified_t<decltype(p)>, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17299 | return lcw.call(L, p, std::forward<Args>(args)...); | ||
| 17300 | } | ||
| 17301 | else { | ||
| 17302 | decltype(auto) p = f.write(); | ||
| 17303 | lua_call_wrapper<T, meta::unqualified_t<decltype(p)>, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17304 | return lcw.call(L, p, std::forward<Args>(args)...); | ||
| 17305 | } | ||
| 17306 | } | ||
| 17307 | else { | ||
| 17308 | constexpr bool non_class_object_type = meta::any<std::is_void<object_type>, | ||
| 17309 | meta::boolean<lua_type_of<meta::unwrap_unqualified_t<object_type>>::value != type::userdata>>::value; | ||
| 17310 | if constexpr (non_class_object_type) { | ||
| 17311 | // The type being void means we don't have any arguments, so it might be a free functions? | ||
| 17312 | using args_list = typename traits_type::free_args_list; | ||
| 17313 | using returns_list = typename wrap::returns_list; | ||
| 17314 | using caller = typename wrap::caller; | ||
| 17315 | if constexpr (is_index) { | ||
| 17316 | decltype(auto) pf = f.read(); | ||
| 17317 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17318 | returns_list(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), pf); | ||
| 17319 | } | ||
| 17320 | else { | ||
| 17321 | decltype(auto) pf = f.write(); | ||
| 17322 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17323 | returns_list(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), pf); | ||
| 17324 | } | ||
| 17325 | } | ||
| 17326 | else { | ||
| 17327 | using args_list = meta::pop_front_type_t<typename traits_type::free_args_list>; | ||
| 17328 | using Ta = T; | ||
| 17329 | using Oa = std::remove_pointer_t<object_type>; | ||
| 17330 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 17331 | auto maybeo = stack::check_get<Ta*>(L, 1); | ||
| 17332 | if (!maybeo || maybeo.value() == nullptr) { | ||
| 17333 | if (is_variable) { | ||
| 17334 | return luaL_error(L, "sol: 'self' argument is lua_nil (bad '.' access?)"); | ||
| 17335 | } | ||
| 17336 | return luaL_error(L, "sol: 'self' argument is lua_nil (pass 'self' as first argument)"); | ||
| 17337 | } | ||
| 17338 | Oa* o = static_cast<Oa*>(maybeo.value()); | ||
| 17339 | #else | ||
| 17340 | Oa* o = static_cast<Oa*>(stack::get<non_null<Ta*>>(L, 1)); | ||
| 17341 | #endif // Safety | ||
| 17342 | using returns_list = typename wrap::returns_list; | ||
| 17343 | using caller = typename wrap::caller; | ||
| 17344 | if constexpr (is_index) { | ||
| 17345 | decltype(auto) pf = f.read(); | ||
| 17346 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17347 | returns_list(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), pf, detail::implicit_wrapper<Oa>(*o)); | ||
| 17348 | } | ||
| 17349 | else { | ||
| 17350 | decltype(auto) pf = f.write(); | ||
| 17351 | return stack::call_into_lua<checked, clean_stack>( | ||
| 17352 | returns_list(), args_list(), L, boost + (is_variable ? 3 : 2), caller(), pf, detail::implicit_wrapper<Oa>(*o)); | ||
| 17353 | } | ||
| 17354 | } | ||
| 17355 | } | ||
| 17356 | } | ||
| 17357 | }; | ||
| 17358 | |||
| 17359 | template <typename T, typename V, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17360 | struct lua_call_wrapper<T, protect_t<V>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17361 | typedef protect_t<V> F; | ||
| 17362 | |||
| 17363 | template <typename... Args> | ||
| 17364 | static int call(lua_State* L, F& fx, Args&&... args) { | ||
| 17365 | return lua_call_wrapper<T, V, is_index, is_variable, true, boost, clean_stack>{}.call(L, fx.value, std::forward<Args>(args)...); | ||
| 17366 | } | ||
| 17367 | }; | ||
| 17368 | |||
| 17369 | template <typename T, typename F, typename... Policies, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17370 | struct lua_call_wrapper<T, policy_wrapper<F, Policies...>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17371 | typedef policy_wrapper<F, Policies...> P; | ||
| 17372 | |||
| 17373 | template <std::size_t... In> | ||
| 17374 | static int call(std::index_sequence<In...>, lua_State* L, P& fx) { | ||
| 17375 | int pushed = lua_call_wrapper<T, F, is_index, is_variable, checked, boost, false, C>{}.call(L, fx.value); | ||
| 17376 | (void)detail::swallow{ int(), (policy_detail::handle_policy(std::get<In>(fx.policies), L, pushed), int())... }; | ||
| 17377 | return pushed; | ||
| 17378 | } | ||
| 17379 | |||
| 17380 | static int call(lua_State* L, P& fx) { | ||
| 17381 | typedef typename P::indices indices; | ||
| 17382 | return call(indices(), L, fx); | ||
| 17383 | } | ||
| 17384 | }; | ||
| 17385 | |||
| 17386 | template <typename T, typename Y, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17387 | struct lua_call_wrapper<T, yielding_t<Y>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17388 | template <typename F> | ||
| 17389 | static int call(lua_State* L, F&& f) { | ||
| 17390 | return lua_call_wrapper<T, meta::unqualified_t<Y>, is_index, is_variable, checked, boost, clean_stack>{}.call(L, f.func); | ||
| 17391 | } | ||
| 17392 | }; | ||
| 17393 | |||
| 17394 | template <typename T, typename Sig, typename P, bool is_index, bool is_variable, bool checked, int boost, bool clean_stack, typename C> | ||
| 17395 | struct lua_call_wrapper<T, function_arguments<Sig, P>, is_index, is_variable, checked, boost, clean_stack, C> { | ||
| 17396 | static int call(lua_State* L, const function_arguments<Sig, P>& f) { | ||
| 17397 | lua_call_wrapper<T, meta::unqualified_t<P>, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17398 | return lcw.call(L, std::get<0>(f.arguments)); | ||
| 17399 | } | ||
| 17400 | |||
| 17401 | static int call(lua_State* L, function_arguments<Sig, P>&& f) { | ||
| 17402 | lua_call_wrapper<T, meta::unqualified_t<P>, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17403 | return lcw.call(L, std::get<0>(std::move(f.arguments))); | ||
| 17404 | } | ||
| 17405 | }; | ||
| 17406 | |||
| 17407 | template <typename T, bool is_index, bool is_variable, int boost = 0, bool checked = detail::default_safe_function_calls, bool clean_stack = true, | ||
| 17408 | typename Fx, typename... Args> | ||
| 17409 | inline int call_wrapped(lua_State* L, Fx&& fx, Args&&... args) { | ||
| 17410 | using uFx = meta::unqualified_t<Fx>; | ||
| 17411 | if constexpr (meta::is_specialization_of_v<uFx, yielding_t>) { | ||
| 17412 | using real_fx = meta::unqualified_t<decltype(std::forward<Fx>(fx).func)>; | ||
| 17413 | lua_call_wrapper<T, real_fx, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17414 | return lcw.call(L, std::forward<Fx>(fx).func, std::forward<Args>(args)...); | ||
| 17415 | } | ||
| 17416 | else { | ||
| 17417 | lua_call_wrapper<T, uFx, is_index, is_variable, checked, boost, clean_stack> lcw{}; | ||
| 17418 | return lcw.call(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 17419 | } | ||
| 17420 | } | ||
| 17421 | |||
| 17422 | template <typename T, bool is_index, bool is_variable, typename F, int start = 1, bool checked = detail::default_safe_function_calls, | ||
| 17423 | bool clean_stack = true> | ||
| 17424 | inline int call_user(lua_State* L) { | ||
| 17425 | auto& fx = stack::unqualified_get<user<F>>(L, upvalue_index(start)); | ||
| 17426 | using uFx = meta::unqualified_t<F>; | ||
| 17427 | int nr = call_wrapped<T, is_index, is_variable, 0, checked, clean_stack>(L, fx); | ||
| 17428 | if constexpr (meta::is_specialization_of_v<uFx, yielding_t>) { | ||
| 17429 | return lua_yield(L, nr); | ||
| 17430 | } | ||
| 17431 | else { | ||
| 17432 | return nr; | ||
| 17433 | } | ||
| 17434 | } | ||
| 17435 | |||
| 17436 | template <typename T, typename = void> | ||
| 17437 | struct is_var_bind : std::false_type {}; | ||
| 17438 | |||
| 17439 | template <typename T> | ||
| 17440 | struct is_var_bind<T, std::enable_if_t<std::is_member_object_pointer<T>::value>> : std::true_type {}; | ||
| 17441 | |||
| 17442 | template <typename T> | ||
| 17443 | struct is_var_bind<T, std::enable_if_t<is_lua_reference_or_proxy<T>::value>> : std::true_type {}; | ||
| 17444 | |||
| 17445 | template <> | ||
| 17446 | struct is_var_bind<detail::no_prop> : std::true_type {}; | ||
| 17447 | |||
| 17448 | template <typename R, typename W> | ||
| 17449 | struct is_var_bind<property_wrapper<R, W>> : std::true_type {}; | ||
| 17450 | |||
| 17451 | template <typename T> | ||
| 17452 | struct is_var_bind<var_wrapper<T>> : std::true_type {}; | ||
| 17453 | |||
| 17454 | template <typename T> | ||
| 17455 | struct is_var_bind<readonly_wrapper<T>> : is_var_bind<meta::unqualified_t<T>> {}; | ||
| 17456 | |||
| 17457 | template <typename F, typename... Policies> | ||
| 17458 | struct is_var_bind<policy_wrapper<F, Policies...>> : is_var_bind<meta::unqualified_t<F>> {}; | ||
| 17459 | } // namespace call_detail | ||
| 17460 | |||
| 17461 | template <typename T> | ||
| 17462 | struct is_variable_binding : call_detail::is_var_bind<meta::unqualified_t<T>> {}; | ||
| 17463 | |||
| 17464 | template <typename T> | ||
| 17465 | using is_var_wrapper = meta::is_specialization_of<T, var_wrapper>; | ||
| 17466 | |||
| 17467 | template <typename T> | ||
| 17468 | struct is_function_binding : meta::neg<is_variable_binding<T>> {}; | ||
| 17469 | |||
| 17470 | } // namespace sol | ||
| 17471 | |||
| 17472 | // end of sol/call.hpp | ||
| 17473 | |||
| 17474 | namespace sol { | ||
| 17475 | namespace function_detail { | ||
| 17476 | template <typename F, F fx> | ||
| 17477 | inline int call_wrapper_variable(std::false_type, lua_State* L) { | ||
| 17478 | typedef meta::bind_traits<meta::unqualified_t<F>> traits_type; | ||
| 17479 | typedef typename traits_type::args_list args_list; | ||
| 17480 | typedef meta::tuple_types<typename traits_type::return_type> return_type; | ||
| 17481 | return stack::call_into_lua(return_type(), args_list(), L, 1, fx); | ||
| 17482 | } | ||
| 17483 | |||
| 17484 | template <typename R, typename V, V, typename T> | ||
| 17485 | inline int call_set_assignable(std::false_type, T&&, lua_State* L) { | ||
| 17486 | return luaL_error(L, "cannot write to this type: copy assignment/constructor not available"); | ||
| 17487 | } | ||
| 17488 | |||
| 17489 | template <typename R, typename V, V variable, typename T> | ||
| 17490 | inline int call_set_assignable(std::true_type, lua_State* L, T&& mem) { | ||
| 17491 | (mem.*variable) = stack::get<R>(L, 2); | ||
| 17492 | return 0; | ||
| 17493 | } | ||
| 17494 | |||
| 17495 | template <typename R, typename V, V, typename T> | ||
| 17496 | inline int call_set_variable(std::false_type, lua_State* L, T&&) { | ||
| 17497 | return luaL_error(L, "cannot write to a const variable"); | ||
| 17498 | } | ||
| 17499 | |||
| 17500 | template <typename R, typename V, V variable, typename T> | ||
| 17501 | inline int call_set_variable(std::true_type, lua_State* L, T&& mem) { | ||
| 17502 | return call_set_assignable<R, V, variable>(std::is_assignable<std::add_lvalue_reference_t<R>, R>(), L, std::forward<T>(mem)); | ||
| 17503 | } | ||
| 17504 | |||
| 17505 | template <typename V, V variable> | ||
| 17506 | inline int call_wrapper_variable(std::true_type, lua_State* L) { | ||
| 17507 | typedef meta::bind_traits<meta::unqualified_t<V>> traits_type; | ||
| 17508 | typedef typename traits_type::object_type T; | ||
| 17509 | typedef typename traits_type::return_type R; | ||
| 17510 | auto& mem = stack::get<T>(L, 1); | ||
| 17511 | switch (lua_gettop(L)) { | ||
| 17512 | case 1: { | ||
| 17513 | decltype(auto) r = (mem.*variable); | ||
| 17514 | stack::push_reference(L, std::forward<decltype(r)>(r)); | ||
| 17515 | return 1; | ||
| 17516 | } | ||
| 17517 | case 2: | ||
| 17518 | return call_set_variable<R, V, variable>(meta::neg<std::is_const<R>>(), L, mem); | ||
| 17519 | default: | ||
| 17520 | return luaL_error(L, "incorrect number of arguments to member variable function call"); | ||
| 17521 | } | ||
| 17522 | } | ||
| 17523 | |||
| 17524 | template <typename F, F fx> | ||
| 17525 | inline int call_wrapper_function(std::false_type, lua_State* L) { | ||
| 17526 | return call_wrapper_variable<F, fx>(std::is_member_object_pointer<F>(), L); | ||
| 17527 | } | ||
| 17528 | |||
| 17529 | template <typename F, F fx> | ||
| 17530 | inline int call_wrapper_function(std::true_type, lua_State* L) { | ||
| 17531 | return call_detail::call_wrapped<void, false, false>(L, fx); | ||
| 17532 | } | ||
| 17533 | |||
| 17534 | template <typename F, F fx> | ||
| 17535 | int call_wrapper_entry(lua_State* L) noexcept(meta::bind_traits<F>::is_noexcept) { | ||
| 17536 | return call_wrapper_function<F, fx>(std::is_member_function_pointer<meta::unqualified_t<F>>(), L); | ||
| 17537 | } | ||
| 17538 | |||
| 17539 | template <typename... Fxs> | ||
| 17540 | struct c_call_matcher { | ||
| 17541 | template <typename Fx, std::size_t I, typename R, typename... Args> | ||
| 17542 | int operator()(types<Fx>, meta::index_value<I>, types<R>, types<Args...>, lua_State* L, int, int) const { | ||
| 17543 | typedef meta::at_in_pack_t<I, Fxs...> target; | ||
| 17544 | return target::call(L); | ||
| 17545 | } | ||
| 17546 | }; | ||
| 17547 | |||
| 17548 | template <typename F, F fx> | ||
| 17549 | inline int c_call_raw(std::true_type, lua_State* L) { | ||
| 17550 | return fx(L); | ||
| 17551 | } | ||
| 17552 | |||
| 17553 | template <typename F, F fx> | ||
| 17554 | inline int c_call_raw(std::false_type, lua_State* L) { | ||
| 17555 | #ifdef __clang__ | ||
| 17556 | return detail::trampoline(L, function_detail::call_wrapper_entry<F, fx>); | ||
| 17557 | #else | ||
| 17558 | return detail::typed_static_trampoline<decltype(&function_detail::call_wrapper_entry<F, fx>), (&function_detail::call_wrapper_entry<F, fx>)>(L); | ||
| 17559 | #endif // fuck you clang :c | ||
| 17560 | } | ||
| 17561 | |||
| 17562 | } // namespace function_detail | ||
| 17563 | |||
| 17564 | template <typename F, F fx> | ||
| 17565 | inline int c_call(lua_State* L) { | ||
| 17566 | typedef meta::unqualified_t<F> Fu; | ||
| 17567 | typedef std::integral_constant<bool, | ||
| 17568 | std::is_same<Fu, lua_CFunction>::value | ||
| 17569 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 17570 | || std::is_same<Fu, detail::lua_CFunction_noexcept>::value | ||
| 17571 | #endif | ||
| 17572 | > | ||
| 17573 | is_raw; | ||
| 17574 | return function_detail::c_call_raw<F, fx>(is_raw(), L); | ||
| 17575 | } | ||
| 17576 | |||
| 17577 | template <typename F, F f> | ||
| 17578 | struct wrap { | ||
| 17579 | typedef F type; | ||
| 17580 | |||
| 17581 | static int call(lua_State* L) { | ||
| 17582 | return c_call<type, f>(L); | ||
| 17583 | } | ||
| 17584 | }; | ||
| 17585 | |||
| 17586 | template <typename... Fxs> | ||
| 17587 | inline int c_call(lua_State* L) { | ||
| 17588 | if constexpr (sizeof...(Fxs) < 2) { | ||
| 17589 | using target = meta::at_in_pack_t<0, Fxs...>; | ||
| 17590 | return target::call(L); | ||
| 17591 | } | ||
| 17592 | else { | ||
| 17593 | return call_detail::overload_match_arity<typename Fxs::type...>(function_detail::c_call_matcher<Fxs...>(), L, lua_gettop(L), 1); | ||
| 17594 | } | ||
| 17595 | } | ||
| 17596 | |||
| 17597 | } // namespace sol | ||
| 17598 | |||
| 17599 | // end of sol/function_types_templated.hpp | ||
| 17600 | |||
| 17601 | // beginning of sol/function_types_stateless.hpp | ||
| 17602 | |||
| 17603 | namespace sol { namespace function_detail { | ||
| 17604 | template <typename Function, bool is_yielding> | ||
| 17605 | struct upvalue_free_function { | ||
| 17606 | using function_type = std::remove_pointer_t<std::decay_t<Function>>; | ||
| 17607 | using traits_type = meta::bind_traits<function_type>; | ||
| 17608 | |||
| 17609 | static int real_call(lua_State* L) | ||
| 17610 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17611 | // MSVC is broken, what a surprise... | ||
| 17612 | #else | ||
| 17613 | noexcept(traits_type::is_noexcept) | ||
| 17614 | #endif | ||
| 17615 | { | ||
| 17616 | auto udata = stack::stack_detail::get_as_upvalues<function_type*>(L); | ||
| 17617 | function_type* fx = udata.first; | ||
| 17618 | return call_detail::call_wrapped<void, true, false>(L, fx); | ||
| 17619 | } | ||
| 17620 | |||
| 17621 | static int call(lua_State* L) { | ||
| 17622 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17623 | if (is_yielding) { | ||
| 17624 | return lua_yield(L, nr); | ||
| 17625 | } | ||
| 17626 | else { | ||
| 17627 | return nr; | ||
| 17628 | } | ||
| 17629 | } | ||
| 17630 | |||
| 17631 | int operator()(lua_State* L) { | ||
| 17632 | return call(L); | ||
| 17633 | } | ||
| 17634 | }; | ||
| 17635 | |||
| 17636 | template <typename T, typename Function, bool is_yielding> | ||
| 17637 | struct upvalue_member_function { | ||
| 17638 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17639 | typedef lua_bind_traits<function_type> traits_type; | ||
| 17640 | |||
| 17641 | static int real_call(lua_State* L) | ||
| 17642 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17643 | // MSVC is broken, what a surprise... | ||
| 17644 | #else | ||
| 17645 | noexcept(traits_type::is_noexcept) | ||
| 17646 | #endif | ||
| 17647 | { | ||
| 17648 | // Layout: | ||
| 17649 | // idx 1...n: verbatim data of member function pointer | ||
| 17650 | // idx n + 1: is the object's void pointer | ||
| 17651 | // We don't need to store the size, because the other side is templated | ||
| 17652 | // with the same member function pointer type | ||
| 17653 | function_type& memfx = stack::get<user<function_type>>(L, upvalue_index(2)); | ||
| 17654 | auto& item = *static_cast<T*>(stack::get<void*>(L, upvalue_index(3))); | ||
| 17655 | return call_detail::call_wrapped<T, true, false, -1>(L, memfx, item); | ||
| 17656 | } | ||
| 17657 | |||
| 17658 | static int call(lua_State* L) | ||
| 17659 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17660 | // MSVC is broken, what a surprise... | ||
| 17661 | #else | ||
| 17662 | noexcept(traits_type::is_noexcept) | ||
| 17663 | #endif | ||
| 17664 | { | ||
| 17665 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17666 | if (is_yielding) { | ||
| 17667 | return lua_yield(L, nr); | ||
| 17668 | } | ||
| 17669 | else { | ||
| 17670 | return nr; | ||
| 17671 | } | ||
| 17672 | } | ||
| 17673 | |||
| 17674 | int operator()(lua_State* L) { | ||
| 17675 | return call(L); | ||
| 17676 | } | ||
| 17677 | }; | ||
| 17678 | |||
| 17679 | template <typename T, typename Function, bool is_yielding> | ||
| 17680 | struct upvalue_member_variable { | ||
| 17681 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17682 | typedef lua_bind_traits<function_type> traits_type; | ||
| 17683 | |||
| 17684 | static int real_call(lua_State* L) | ||
| 17685 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17686 | // MSVC is broken, what a surprise... | ||
| 17687 | #else | ||
| 17688 | noexcept(traits_type::is_noexcept) | ||
| 17689 | #endif | ||
| 17690 | { | ||
| 17691 | // Layout: | ||
| 17692 | // idx 1...n: verbatim data of member variable pointer | ||
| 17693 | // idx n + 1: is the object's void pointer | ||
| 17694 | // We don't need to store the size, because the other side is templated | ||
| 17695 | // with the same member function pointer type | ||
| 17696 | auto memberdata = stack::stack_detail::get_as_upvalues<function_type>(L); | ||
| 17697 | auto objdata = stack::stack_detail::get_as_upvalues<T*>(L, memberdata.second); | ||
| 17698 | auto& mem = *objdata.first; | ||
| 17699 | function_type& var = memberdata.first; | ||
| 17700 | switch (lua_gettop(L)) { | ||
| 17701 | case 0: | ||
| 17702 | return call_detail::call_wrapped<T, true, false, -1>(L, var, mem); | ||
| 17703 | case 1: | ||
| 17704 | return call_detail::call_wrapped<T, false, false, -1>(L, var, mem); | ||
| 17705 | default: | ||
| 17706 | return luaL_error(L, "sol: incorrect number of arguments to member variable function"); | ||
| 17707 | } | ||
| 17708 | } | ||
| 17709 | |||
| 17710 | static int call(lua_State* L) | ||
| 17711 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17712 | // MSVC is broken, what a surprise... | ||
| 17713 | #else | ||
| 17714 | noexcept(traits_type::is_noexcept) | ||
| 17715 | #endif | ||
| 17716 | { | ||
| 17717 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17718 | if (is_yielding) { | ||
| 17719 | return lua_yield(L, nr); | ||
| 17720 | } | ||
| 17721 | else { | ||
| 17722 | return nr; | ||
| 17723 | } | ||
| 17724 | } | ||
| 17725 | |||
| 17726 | int operator()(lua_State* L) { | ||
| 17727 | return call(L); | ||
| 17728 | } | ||
| 17729 | }; | ||
| 17730 | |||
| 17731 | template <typename T, typename Function, bool is_yielding> | ||
| 17732 | struct upvalue_member_variable<T, readonly_wrapper<Function>, is_yielding> { | ||
| 17733 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17734 | typedef lua_bind_traits<function_type> traits_type; | ||
| 17735 | |||
| 17736 | static int real_call(lua_State* L) | ||
| 17737 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17738 | // MSVC is broken, what a surprise... | ||
| 17739 | #else | ||
| 17740 | noexcept(traits_type::is_noexcept) | ||
| 17741 | #endif | ||
| 17742 | { | ||
| 17743 | // Layout: | ||
| 17744 | // idx 1...n: verbatim data of member variable pointer | ||
| 17745 | // idx n + 1: is the object's void pointer | ||
| 17746 | // We don't need to store the size, because the other side is templated | ||
| 17747 | // with the same member function pointer type | ||
| 17748 | auto memberdata = stack::stack_detail::get_as_upvalues<function_type>(L); | ||
| 17749 | auto objdata = stack::stack_detail::get_as_upvalues<T*>(L, memberdata.second); | ||
| 17750 | auto& mem = *objdata.first; | ||
| 17751 | function_type& var = memberdata.first; | ||
| 17752 | switch (lua_gettop(L)) { | ||
| 17753 | case 0: | ||
| 17754 | return call_detail::call_wrapped<T, true, false, -1>(L, var, mem); | ||
| 17755 | default: | ||
| 17756 | return luaL_error(L, "sol: incorrect number of arguments to member variable function"); | ||
| 17757 | } | ||
| 17758 | } | ||
| 17759 | |||
| 17760 | static int call(lua_State* L) | ||
| 17761 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17762 | // MSVC is broken, what a surprise... | ||
| 17763 | #else | ||
| 17764 | noexcept(traits_type::is_noexcept) | ||
| 17765 | #endif | ||
| 17766 | { | ||
| 17767 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17768 | if (is_yielding) { | ||
| 17769 | return lua_yield(L, nr); | ||
| 17770 | } | ||
| 17771 | else { | ||
| 17772 | return nr; | ||
| 17773 | } | ||
| 17774 | } | ||
| 17775 | |||
| 17776 | int operator()(lua_State* L) { | ||
| 17777 | return call(L); | ||
| 17778 | } | ||
| 17779 | }; | ||
| 17780 | |||
| 17781 | template <typename T, typename Function, bool is_yielding> | ||
| 17782 | struct upvalue_this_member_function { | ||
| 17783 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17784 | typedef lua_bind_traits<function_type> traits_type; | ||
| 17785 | |||
| 17786 | static int real_call(lua_State* L) | ||
| 17787 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17788 | // MSVC is broken, what a surprise... | ||
| 17789 | #else | ||
| 17790 | noexcept(traits_type::is_noexcept) | ||
| 17791 | #endif | ||
| 17792 | { | ||
| 17793 | // Layout: | ||
| 17794 | // idx 1...n: verbatim data of member variable pointer | ||
| 17795 | function_type& memfx = stack::get<user<function_type>>(L, upvalue_index(2)); | ||
| 17796 | return call_detail::call_wrapped<T, false, false>(L, memfx); | ||
| 17797 | } | ||
| 17798 | |||
| 17799 | static int call(lua_State* L) | ||
| 17800 | #if SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 17801 | // MSVC is broken, what a surprise... | ||
| 17802 | #else | ||
| 17803 | noexcept(traits_type::is_noexcept) | ||
| 17804 | #endif | ||
| 17805 | { | ||
| 17806 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17807 | if (is_yielding) { | ||
| 17808 | return lua_yield(L, nr); | ||
| 17809 | } | ||
| 17810 | else { | ||
| 17811 | return nr; | ||
| 17812 | } | ||
| 17813 | } | ||
| 17814 | |||
| 17815 | int operator()(lua_State* L) { | ||
| 17816 | return call(L); | ||
| 17817 | } | ||
| 17818 | }; | ||
| 17819 | |||
| 17820 | template <typename T, typename Function, bool is_yielding> | ||
| 17821 | struct upvalue_this_member_variable { | ||
| 17822 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17823 | |||
| 17824 | static int real_call(lua_State* L) noexcept(false) { | ||
| 17825 | // Layout: | ||
| 17826 | // idx 1...n: verbatim data of member variable pointer | ||
| 17827 | auto memberdata = stack::stack_detail::get_as_upvalues<function_type>(L); | ||
| 17828 | function_type& var = memberdata.first; | ||
| 17829 | switch (lua_gettop(L)) { | ||
| 17830 | case 1: | ||
| 17831 | return call_detail::call_wrapped<T, true, false>(L, var); | ||
| 17832 | case 2: | ||
| 17833 | return call_detail::call_wrapped<T, false, false>(L, var); | ||
| 17834 | default: | ||
| 17835 | return luaL_error(L, "sol: incorrect number of arguments to member variable function"); | ||
| 17836 | } | ||
| 17837 | } | ||
| 17838 | |||
| 17839 | static int call(lua_State* L) { | ||
| 17840 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17841 | if (is_yielding) { | ||
| 17842 | return lua_yield(L, nr); | ||
| 17843 | } | ||
| 17844 | else { | ||
| 17845 | return nr; | ||
| 17846 | } | ||
| 17847 | } | ||
| 17848 | |||
| 17849 | int operator()(lua_State* L) { | ||
| 17850 | return call(L); | ||
| 17851 | } | ||
| 17852 | }; | ||
| 17853 | |||
| 17854 | template <typename T, typename Function, bool is_yielding> | ||
| 17855 | struct upvalue_this_member_variable<T, readonly_wrapper<Function>, is_yielding> { | ||
| 17856 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17857 | typedef lua_bind_traits<function_type> traits_type; | ||
| 17858 | |||
| 17859 | static int real_call(lua_State* L) noexcept(false) { | ||
| 17860 | // Layout: | ||
| 17861 | // idx 1...n: verbatim data of member variable pointer | ||
| 17862 | auto memberdata = stack::stack_detail::get_as_upvalues<function_type>(L); | ||
| 17863 | function_type& var = memberdata.first; | ||
| 17864 | switch (lua_gettop(L)) { | ||
| 17865 | case 1: | ||
| 17866 | return call_detail::call_wrapped<T, true, false>(L, var); | ||
| 17867 | default: | ||
| 17868 | return luaL_error(L, "sol: incorrect number of arguments to member variable function"); | ||
| 17869 | } | ||
| 17870 | } | ||
| 17871 | |||
| 17872 | static int call(lua_State* L) { | ||
| 17873 | int nr = detail::typed_static_trampoline<decltype(&real_call), (&real_call)>(L); | ||
| 17874 | if (is_yielding) { | ||
| 17875 | return lua_yield(L, nr); | ||
| 17876 | } | ||
| 17877 | else { | ||
| 17878 | return nr; | ||
| 17879 | } | ||
| 17880 | } | ||
| 17881 | |||
| 17882 | int operator()(lua_State* L) { | ||
| 17883 | return call(L); | ||
| 17884 | } | ||
| 17885 | }; | ||
| 17886 | }} // namespace sol::function_detail | ||
| 17887 | |||
| 17888 | // end of sol/function_types_stateless.hpp | ||
| 17889 | |||
| 17890 | // beginning of sol/function_types_stateful.hpp | ||
| 17891 | |||
| 17892 | namespace sol { | ||
| 17893 | namespace function_detail { | ||
| 17894 | template <typename Func, bool is_yielding, bool no_trampoline> | ||
| 17895 | struct functor_function { | ||
| 17896 | typedef std::decay_t<meta::unwrap_unqualified_t<Func>> function_type; | ||
| 17897 | function_type fx; | ||
| 17898 | |||
| 17899 | template <typename... Args> | ||
| 17900 | functor_function(function_type f, Args&&... args) | ||
| 17901 | : fx(std::move(f), std::forward<Args>(args)...) { | ||
| 17902 | } | ||
| 17903 | |||
| 17904 | int call(lua_State* L) { | ||
| 17905 | int nr = call_detail::call_wrapped<void, true, false>(L, fx); | ||
| 17906 | if (is_yielding) { | ||
| 17907 | return lua_yield(L, nr); | ||
| 17908 | } | ||
| 17909 | else { | ||
| 17910 | return nr; | ||
| 17911 | } | ||
| 17912 | } | ||
| 17913 | |||
| 17914 | int operator()(lua_State* L) { | ||
| 17915 | if (!no_trampoline) { | ||
| 17916 | auto f = [&](lua_State*) -> int { return this->call(L); }; | ||
| 17917 | return detail::trampoline(L, f); | ||
| 17918 | } | ||
| 17919 | else { | ||
| 17920 | return call(L); | ||
| 17921 | } | ||
| 17922 | } | ||
| 17923 | }; | ||
| 17924 | |||
| 17925 | template <typename T, typename Function, bool is_yielding> | ||
| 17926 | struct member_function { | ||
| 17927 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17928 | typedef meta::function_return_t<function_type> return_type; | ||
| 17929 | typedef meta::function_args_t<function_type> args_lists; | ||
| 17930 | function_type invocation; | ||
| 17931 | T member; | ||
| 17932 | |||
| 17933 | template <typename... Args> | ||
| 17934 | member_function(function_type f, Args&&... args) | ||
| 17935 | : invocation(std::move(f)), member(std::forward<Args>(args)...) { | ||
| 17936 | } | ||
| 17937 | |||
| 17938 | int call(lua_State* L) { | ||
| 17939 | int nr = call_detail::call_wrapped<T, true, false, -1>(L, invocation, detail::unwrap(detail::deref(member))); | ||
| 17940 | if (is_yielding) { | ||
| 17941 | return lua_yield(L, nr); | ||
| 17942 | } | ||
| 17943 | else { | ||
| 17944 | return nr; | ||
| 17945 | } | ||
| 17946 | } | ||
| 17947 | |||
| 17948 | int operator()(lua_State* L) { | ||
| 17949 | auto f = [&](lua_State*) -> int { return this->call(L); }; | ||
| 17950 | return detail::trampoline(L, f); | ||
| 17951 | } | ||
| 17952 | }; | ||
| 17953 | |||
| 17954 | template <typename T, typename Function, bool is_yielding> | ||
| 17955 | struct member_variable { | ||
| 17956 | typedef std::remove_pointer_t<std::decay_t<Function>> function_type; | ||
| 17957 | typedef typename meta::bind_traits<function_type>::return_type return_type; | ||
| 17958 | typedef typename meta::bind_traits<function_type>::args_list args_lists; | ||
| 17959 | function_type var; | ||
| 17960 | T member; | ||
| 17961 | typedef std::add_lvalue_reference_t<meta::unwrapped_t<std::remove_reference_t<decltype(detail::deref(member))>>> M; | ||
| 17962 | |||
| 17963 | template <typename... Args> | ||
| 17964 | member_variable(function_type v, Args&&... args) | ||
| 17965 | : var(std::move(v)), member(std::forward<Args>(args)...) { | ||
| 17966 | } | ||
| 17967 | |||
| 17968 | int call(lua_State* L) { | ||
| 17969 | int nr; | ||
| 17970 | { | ||
| 17971 | M mem = detail::unwrap(detail::deref(member)); | ||
| 17972 | switch (lua_gettop(L)) { | ||
| 17973 | case 0: | ||
| 17974 | nr = call_detail::call_wrapped<T, true, false, -1>(L, var, mem); | ||
| 17975 | break; | ||
| 17976 | case 1: | ||
| 17977 | nr = call_detail::call_wrapped<T, false, false, -1>(L, var, mem); | ||
| 17978 | break; | ||
| 17979 | default: | ||
| 17980 | nr = luaL_error(L, "sol: incorrect number of arguments to member variable function"); | ||
| 17981 | break; | ||
| 17982 | } | ||
| 17983 | } | ||
| 17984 | if (is_yielding) { | ||
| 17985 | return lua_yield(L, nr); | ||
| 17986 | } | ||
| 17987 | else { | ||
| 17988 | return nr; | ||
| 17989 | } | ||
| 17990 | } | ||
| 17991 | |||
| 17992 | int operator()(lua_State* L) { | ||
| 17993 | auto f = [&](lua_State*) -> int { return this->call(L); }; | ||
| 17994 | return detail::trampoline(L, f); | ||
| 17995 | } | ||
| 17996 | }; | ||
| 17997 | } | ||
| 17998 | } // namespace sol::function_detail | ||
| 17999 | |||
| 18000 | // end of sol/function_types_stateful.hpp | ||
| 18001 | |||
| 18002 | // beginning of sol/function_types_overloaded.hpp | ||
| 18003 | |||
| 18004 | namespace sol { | ||
| 18005 | namespace function_detail { | ||
| 18006 | template <int start_skew, typename... Functions> | ||
| 18007 | struct overloaded_function { | ||
| 18008 | typedef std::tuple<Functions...> overload_list; | ||
| 18009 | typedef std::make_index_sequence<sizeof...(Functions)> indices; | ||
| 18010 | overload_list overloads; | ||
| 18011 | |||
| 18012 | overloaded_function(overload_list set) | ||
| 18013 | : overloads(std::move(set)) { | ||
| 18014 | } | ||
| 18015 | |||
| 18016 | overloaded_function(Functions... fxs) | ||
| 18017 | : overloads(fxs...) { | ||
| 18018 | } | ||
| 18019 | |||
| 18020 | template <typename Fx, std::size_t I, typename... R, typename... Args> | ||
| 18021 | static int call(types<Fx>, meta::index_value<I>, types<R...>, types<Args...>, lua_State* L, int, int, overload_list& ol) { | ||
| 18022 | auto& func = std::get<I>(ol); | ||
| 18023 | int nr = call_detail::call_wrapped<void, true, false, start_skew>(L, func); | ||
| 18024 | return nr; | ||
| 18025 | } | ||
| 18026 | |||
| 18027 | int operator()(lua_State* L) { | ||
| 18028 | auto mfx = [](auto&&... args) { return call(std::forward<decltype(args)>(args)...); }; | ||
| 18029 | return call_detail::overload_match<Functions...>(mfx, L, 1 + start_skew, overloads); | ||
| 18030 | } | ||
| 18031 | }; | ||
| 18032 | } | ||
| 18033 | } // namespace sol::function_detail | ||
| 18034 | |||
| 18035 | // end of sol/function_types_overloaded.hpp | ||
| 18036 | |||
| 18037 | // beginning of sol/resolve.hpp | ||
| 18038 | |||
| 18039 | namespace sol { | ||
| 18040 | |||
| 18041 | #ifndef __clang__ | ||
| 18042 | // constexpr is fine for not-clang | ||
| 18043 | |||
| 18044 | namespace detail { | ||
| 18045 | template <typename R, typename... Args, typename F, typename = std::invoke_result_t<meta::unqualified_t<F>, Args...>> | ||
| 18046 | inline constexpr auto resolve_i(types<R(Args...)>, F &&) -> R (meta::unqualified_t<F>::*)(Args...) { | ||
| 18047 | using Sig = R(Args...); | ||
| 18048 | typedef meta::unqualified_t<F> Fu; | ||
| 18049 | return static_cast<Sig Fu::*>(&Fu::operator()); | ||
| 18050 | } | ||
| 18051 | |||
| 18052 | template <typename F, typename U = meta::unqualified_t<F>> | ||
| 18053 | inline constexpr auto resolve_f(std::true_type, F&& f) | ||
| 18054 | -> decltype(resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f))) { | ||
| 18055 | return resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f)); | ||
| 18056 | } | ||
| 18057 | |||
| 18058 | template <typename F> | ||
| 18059 | inline constexpr void resolve_f(std::false_type, F&&) { | ||
| 18060 | static_assert( | ||
| 18061 | meta::has_deducible_signature<F>::value, "Cannot use no-template-parameter call with an overloaded functor: specify the signature"); | ||
| 18062 | } | ||
| 18063 | |||
| 18064 | template <typename F, typename U = meta::unqualified_t<F>> | ||
| 18065 | inline constexpr auto resolve_i(types<>, F&& f) -> decltype(resolve_f(meta::has_deducible_signature<U>(), std::forward<F>(f))) { | ||
| 18066 | return resolve_f(meta::has_deducible_signature<U> {}, std::forward<F>(f)); | ||
| 18067 | } | ||
| 18068 | |||
| 18069 | template <typename... Args, typename F, typename R = std::invoke_result_t<F&, Args...>> | ||
| 18070 | inline constexpr auto resolve_i(types<Args...>, F&& f) -> decltype(resolve_i(types<R(Args...)>(), std::forward<F>(f))) { | ||
| 18071 | return resolve_i(types<R(Args...)>(), std::forward<F>(f)); | ||
| 18072 | } | ||
| 18073 | |||
| 18074 | template <typename Sig, typename C> | ||
| 18075 | inline constexpr Sig C::*resolve_v(std::false_type, Sig C::*mem_func_ptr) { | ||
| 18076 | return mem_func_ptr; | ||
| 18077 | } | ||
| 18078 | |||
| 18079 | template <typename Sig, typename C> | ||
| 18080 | inline constexpr Sig C::*resolve_v(std::true_type, Sig C::*mem_variable_ptr) { | ||
| 18081 | return mem_variable_ptr; | ||
| 18082 | } | ||
| 18083 | } // namespace detail | ||
| 18084 | |||
| 18085 | template <typename... Args, typename R> | ||
| 18086 | inline constexpr auto resolve(R fun_ptr(Args...)) -> R (*)(Args...) { | ||
| 18087 | return fun_ptr; | ||
| 18088 | } | ||
| 18089 | |||
| 18090 | template <typename Sig> | ||
| 18091 | inline constexpr Sig* resolve(Sig* fun_ptr) { | ||
| 18092 | return fun_ptr; | ||
| 18093 | } | ||
| 18094 | |||
| 18095 | template <typename... Args, typename R, typename C> | ||
| 18096 | inline constexpr auto resolve(R (C::*mem_ptr)(Args...)) -> R (C::*)(Args...) { | ||
| 18097 | return mem_ptr; | ||
| 18098 | } | ||
| 18099 | |||
| 18100 | template <typename Sig, typename C> | ||
| 18101 | inline constexpr Sig C::*resolve(Sig C::*mem_ptr) { | ||
| 18102 | return detail::resolve_v(std::is_member_object_pointer<Sig C::*>(), mem_ptr); | ||
| 18103 | } | ||
| 18104 | |||
| 18105 | template <typename... Sig, typename F, meta::disable<std::is_function<meta::unqualified_t<F>>> = meta::enabler> | ||
| 18106 | inline constexpr auto resolve(F&& f) -> decltype(detail::resolve_i(types<Sig...>(), std::forward<F>(f))) { | ||
| 18107 | return detail::resolve_i(types<Sig...>(), std::forward<F>(f)); | ||
| 18108 | } | ||
| 18109 | #else | ||
| 18110 | |||
| 18111 | // Clang has distinct problems with constexpr arguments, | ||
| 18112 | // so don't use the constexpr versions inside of clang. | ||
| 18113 | |||
| 18114 | namespace detail { | ||
| 18115 | template <typename R, typename... Args, typename F, typename = std::invoke_result_t<meta::unqualified_t<F>, Args...>> | ||
| 18116 | inline auto resolve_i(types<R(Args...)>, F &&) -> R (meta::unqualified_t<F>::*)(Args...) { | ||
| 18117 | using Sig = R(Args...); | ||
| 18118 | typedef meta::unqualified_t<F> Fu; | ||
| 18119 | return static_cast<Sig Fu::*>(&Fu::operator()); | ||
| 18120 | } | ||
| 18121 | |||
| 18122 | template <typename F, typename U = meta::unqualified_t<F>> | ||
| 18123 | inline auto resolve_f(std::true_type, F&& f) | ||
| 18124 | -> decltype(resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f))) { | ||
| 18125 | return resolve_i(types<meta::function_signature_t<decltype(&U::operator())>>(), std::forward<F>(f)); | ||
| 18126 | } | ||
| 18127 | |||
| 18128 | template <typename F> | ||
| 18129 | inline void resolve_f(std::false_type, F&&) { | ||
| 18130 | static_assert( | ||
| 18131 | meta::has_deducible_signature<F>::value, "Cannot use no-template-parameter call with an overloaded functor: specify the signature"); | ||
| 18132 | } | ||
| 18133 | |||
| 18134 | template <typename F, typename U = meta::unqualified_t<F>> | ||
| 18135 | inline auto resolve_i(types<>, F&& f) -> decltype(resolve_f(meta::has_deducible_signature<U>(), std::forward<F>(f))) { | ||
| 18136 | return resolve_f(meta::has_deducible_signature<U> {}, std::forward<F>(f)); | ||
| 18137 | } | ||
| 18138 | |||
| 18139 | template <typename... Args, typename F, typename R = std::invoke_result_t<F&, Args...>> | ||
| 18140 | inline auto resolve_i(types<Args...>, F&& f) -> decltype(resolve_i(types<R(Args...)>(), std::forward<F>(f))) { | ||
| 18141 | return resolve_i(types<R(Args...)>(), std::forward<F>(f)); | ||
| 18142 | } | ||
| 18143 | |||
| 18144 | template <typename Sig, typename C> | ||
| 18145 | inline Sig C::*resolve_v(std::false_type, Sig C::*mem_func_ptr) { | ||
| 18146 | return mem_func_ptr; | ||
| 18147 | } | ||
| 18148 | |||
| 18149 | template <typename Sig, typename C> | ||
| 18150 | inline Sig C::*resolve_v(std::true_type, Sig C::*mem_variable_ptr) { | ||
| 18151 | return mem_variable_ptr; | ||
| 18152 | } | ||
| 18153 | } // namespace detail | ||
| 18154 | |||
| 18155 | template <typename... Args, typename R> | ||
| 18156 | inline auto resolve(R fun_ptr(Args...)) -> R (*)(Args...) { | ||
| 18157 | return fun_ptr; | ||
| 18158 | } | ||
| 18159 | |||
| 18160 | template <typename Sig> | ||
| 18161 | inline Sig* resolve(Sig* fun_ptr) { | ||
| 18162 | return fun_ptr; | ||
| 18163 | } | ||
| 18164 | |||
| 18165 | template <typename... Args, typename R, typename C> | ||
| 18166 | inline auto resolve(R (C::*mem_ptr)(Args...)) -> R (C::*)(Args...) { | ||
| 18167 | return mem_ptr; | ||
| 18168 | } | ||
| 18169 | |||
| 18170 | template <typename Sig, typename C> | ||
| 18171 | inline Sig C::*resolve(Sig C::*mem_ptr) { | ||
| 18172 | return detail::resolve_v(std::is_member_object_pointer<Sig C::*>(), mem_ptr); | ||
| 18173 | } | ||
| 18174 | |||
| 18175 | template <typename... Sig, typename F> | ||
| 18176 | inline auto resolve(F&& f) -> decltype(detail::resolve_i(types<Sig...>(), std::forward<F>(f))) { | ||
| 18177 | return detail::resolve_i(types<Sig...>(), std::forward<F>(f)); | ||
| 18178 | } | ||
| 18179 | |||
| 18180 | #endif | ||
| 18181 | |||
| 18182 | } // namespace sol | ||
| 18183 | |||
| 18184 | // end of sol/resolve.hpp | ||
| 18185 | |||
| 18186 | namespace sol { | ||
| 18187 | namespace function_detail { | ||
| 18188 | template <typename T> | ||
| 18189 | struct class_indicator { | ||
| 18190 | using type = T; | ||
| 18191 | }; | ||
| 18192 | |||
| 18193 | struct call_indicator { }; | ||
| 18194 | |||
| 18195 | template <bool yielding> | ||
| 18196 | int lua_c_wrapper(lua_State* L) { | ||
| 18197 | lua_CFunction cf = lua_tocfunction(L, lua_upvalueindex(2)); | ||
| 18198 | int nr = cf(L); | ||
| 18199 | if constexpr (yielding) { | ||
| 18200 | return lua_yield(L, nr); | ||
| 18201 | } | ||
| 18202 | else { | ||
| 18203 | return nr; | ||
| 18204 | } | ||
| 18205 | } | ||
| 18206 | |||
| 18207 | template <bool yielding> | ||
| 18208 | int lua_c_noexcept_wrapper(lua_State* L) noexcept { | ||
| 18209 | detail::lua_CFunction_noexcept cf = reinterpret_cast<detail::lua_CFunction_noexcept>(lua_tocfunction(L, lua_upvalueindex(2))); | ||
| 18210 | int nr = cf(L); | ||
| 18211 | if constexpr (yielding) { | ||
| 18212 | return lua_yield(L, nr); | ||
| 18213 | } | ||
| 18214 | else { | ||
| 18215 | return nr; | ||
| 18216 | } | ||
| 18217 | } | ||
| 18218 | |||
| 18219 | struct c_function_invocation { }; | ||
| 18220 | |||
| 18221 | template <bool is_yielding, typename Fx, typename... Args> | ||
| 18222 | void select(lua_State* L, Fx&& fx, Args&&... args); | ||
| 18223 | |||
| 18224 | template <bool is_yielding, bool no_trampoline, typename Fx, typename... Args> | ||
| 18225 | void select_set_fx(lua_State* L, Args&&... args) { | ||
| 18226 | lua_CFunction freefunc = no_trampoline ? detail::static_trampoline<function_detail::call<meta::unqualified_t<Fx>, 2, is_yielding>> | ||
| 18227 | : function_detail::call<meta::unqualified_t<Fx>, 2, is_yielding>; | ||
| 18228 | |||
| 18229 | int upvalues = 0; | ||
| 18230 | upvalues += stack::push(L, nullptr); | ||
| 18231 | upvalues += stack::push<user<Fx>>(L, std::forward<Args>(args)...); | ||
| 18232 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18233 | } | ||
| 18234 | |||
| 18235 | template <bool is_yielding, typename R, typename... A, typename Fx, typename... Args> | ||
| 18236 | void select_convertible(types<R(A...)>, lua_State* L, Fx&& fx, Args&&... args) { | ||
| 18237 | using dFx = std::decay_t<meta::unwrap_unqualified_t<Fx>>; | ||
| 18238 | using fx_ptr_t = R (*)(A...); | ||
| 18239 | constexpr bool is_convertible = std::is_convertible_v<dFx, fx_ptr_t>; | ||
| 18240 | if constexpr (is_convertible) { | ||
| 18241 | fx_ptr_t fxptr = detail::unwrap(std::forward<Fx>(fx)); | ||
| 18242 | select<is_yielding>(L, std::move(fxptr), std::forward<Args>(args)...); | ||
| 18243 | } | ||
| 18244 | else { | ||
| 18245 | using F = function_detail::functor_function<dFx, false, true>; | ||
| 18246 | select_set_fx<is_yielding, false, F>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18247 | } | ||
| 18248 | } | ||
| 18249 | |||
| 18250 | template <bool is_yielding, typename Fx, typename... Args> | ||
| 18251 | void select_convertible(types<>, lua_State* L, Fx&& fx, Args&&... args) { | ||
| 18252 | typedef meta::function_signature_t<meta::unwrap_unqualified_t<Fx>> Sig; | ||
| 18253 | select_convertible<is_yielding>(types<Sig>(), L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18254 | } | ||
| 18255 | |||
| 18256 | template <bool is_yielding, typename Fx, typename... Args> | ||
| 18257 | void select_member_variable(lua_State* L, Fx&& fx, Args&&... args) { | ||
| 18258 | using uFx = meta::unqualified_t<Fx>; | ||
| 18259 | if constexpr (sizeof...(Args) < 1) { | ||
| 18260 | using C = typename meta::bind_traits<uFx>::object_type; | ||
| 18261 | lua_CFunction freefunc = &function_detail::upvalue_this_member_variable<C, Fx, is_yielding>::call; | ||
| 18262 | |||
| 18263 | int upvalues = 0; | ||
| 18264 | upvalues += stack::push(L, nullptr); | ||
| 18265 | upvalues += stack::stack_detail::push_as_upvalues(L, fx); | ||
| 18266 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18267 | } | ||
| 18268 | else if constexpr (sizeof...(Args) < 2) { | ||
| 18269 | using Tu = typename meta::meta_detail::unqualified_non_alias<Args...>::type; | ||
| 18270 | constexpr bool is_reference = meta::is_specialization_of_v<Tu, std::reference_wrapper> || std::is_pointer_v<Tu>; | ||
| 18271 | if constexpr (meta::is_specialization_of_v<Tu, function_detail::class_indicator>) { | ||
| 18272 | lua_CFunction freefunc = &function_detail::upvalue_this_member_variable<typename Tu::type, Fx, is_yielding>::call; | ||
| 18273 | |||
| 18274 | int upvalues = 0; | ||
| 18275 | upvalues += stack::push(L, nullptr); | ||
| 18276 | upvalues += stack::stack_detail::push_as_upvalues(L, fx); | ||
| 18277 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18278 | } | ||
| 18279 | else if constexpr (is_reference) { | ||
| 18280 | typedef std::decay_t<Fx> dFx; | ||
| 18281 | dFx memfxptr(std::forward<Fx>(fx)); | ||
| 18282 | auto userptr = detail::ptr(std::forward<Args>(args)...); | ||
| 18283 | lua_CFunction freefunc | ||
| 18284 | = &function_detail::upvalue_member_variable<std::decay_t<decltype(*userptr)>, meta::unqualified_t<Fx>, is_yielding>::call; | ||
| 18285 | |||
| 18286 | int upvalues = 0; | ||
| 18287 | upvalues += stack::push(L, nullptr); | ||
| 18288 | upvalues += stack::stack_detail::push_as_upvalues(L, memfxptr); | ||
| 18289 | upvalues += stack::push(L, static_cast<void const*>(userptr)); | ||
| 18290 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18291 | } | ||
| 18292 | else { | ||
| 18293 | using clean_fx = std::remove_pointer_t<std::decay_t<Fx>>; | ||
| 18294 | using F = function_detail::member_variable<Tu, clean_fx, is_yielding>; | ||
| 18295 | select_set_fx<false, false, F>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18296 | } | ||
| 18297 | } | ||
| 18298 | else { | ||
| 18299 | using C = typename meta::bind_traits<uFx>::object_type; | ||
| 18300 | using clean_fx = std::remove_pointer_t<std::decay_t<Fx>>; | ||
| 18301 | using F = function_detail::member_variable<C, clean_fx, is_yielding>; | ||
| 18302 | select_set_fx<false, false, F>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18303 | } | ||
| 18304 | } | ||
| 18305 | |||
| 18306 | template <bool is_yielding, typename Fx, typename T, typename... Args> | ||
| 18307 | void select_member_function_with(lua_State* L, Fx&& fx, T&& obj, Args&&... args) { | ||
| 18308 | using dFx = std::decay_t<Fx>; | ||
| 18309 | using Tu = meta::unqualified_t<T>; | ||
| 18310 | if constexpr (meta::is_specialization_of_v<Tu, function_detail::class_indicator>) { | ||
| 18311 | (void)obj; | ||
| 18312 | using C = typename Tu::type; | ||
| 18313 | lua_CFunction freefunc = &function_detail::upvalue_this_member_function<C, dFx, is_yielding>::call; | ||
| 18314 | |||
| 18315 | int upvalues = 0; | ||
| 18316 | upvalues += stack::push(L, nullptr); | ||
| 18317 | upvalues += stack::push<user<dFx>>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18318 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18319 | } | ||
| 18320 | else { | ||
| 18321 | constexpr bool is_reference = meta::is_specialization_of_v<Tu, std::reference_wrapper> || std::is_pointer_v<Tu>; | ||
| 18322 | if constexpr (is_reference) { | ||
| 18323 | auto userptr = detail::ptr(std::forward<T>(obj)); | ||
| 18324 | lua_CFunction freefunc = &function_detail::upvalue_member_function<std::decay_t<decltype(*userptr)>, dFx, is_yielding>::call; | ||
| 18325 | |||
| 18326 | int upvalues = 0; | ||
| 18327 | upvalues += stack::push(L, nullptr); | ||
| 18328 | upvalues += stack::push<user<dFx>>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18329 | upvalues += stack::push(L, lightuserdata_value(static_cast<void*>(userptr))); | ||
| 18330 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18331 | } | ||
| 18332 | else { | ||
| 18333 | using F = function_detail::member_function<Tu, dFx, is_yielding>; | ||
| 18334 | select_set_fx<false, false, F>(L, std::forward<Fx>(fx), std::forward<T>(obj), std::forward<Args>(args)...); | ||
| 18335 | } | ||
| 18336 | } | ||
| 18337 | } | ||
| 18338 | |||
| 18339 | template <bool is_yielding, typename Fx, typename... Args> | ||
| 18340 | void select_member_function(lua_State* L, Fx&& fx, Args&&... args) { | ||
| 18341 | using dFx = std::decay_t<Fx>; | ||
| 18342 | if constexpr (sizeof...(Args) < 1) { | ||
| 18343 | using C = typename meta::bind_traits<meta::unqualified_t<Fx>>::object_type; | ||
| 18344 | lua_CFunction freefunc = &function_detail::upvalue_this_member_function<C, dFx, is_yielding>::call; | ||
| 18345 | |||
| 18346 | int upvalues = 0; | ||
| 18347 | upvalues += stack::push(L, nullptr); | ||
| 18348 | upvalues += stack::push<user<dFx>>(L, std::forward<Fx>(fx)); | ||
| 18349 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18350 | } | ||
| 18351 | else { | ||
| 18352 | select_member_function_with<is_yielding>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18353 | } | ||
| 18354 | } | ||
| 18355 | |||
| 18356 | template <bool is_yielding, typename Fx, typename... Args> | ||
| 18357 | void select(lua_State* L, Fx&& fx, Args&&... args) { | ||
| 18358 | using uFx = meta::unqualified_t<Fx>; | ||
| 18359 | if constexpr (is_lua_reference_v<uFx>) { | ||
| 18360 | // TODO: hoist into lambda in this case for yielding??? | ||
| 18361 | stack::push(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18362 | } | ||
| 18363 | else if constexpr (is_lua_c_function_v<uFx>) { | ||
| 18364 | int upvalues = 0; | ||
| 18365 | upvalues += stack::push(L, nullptr); | ||
| 18366 | upvalues += stack::push(L, std::forward<Fx>(fx)); | ||
| 18367 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 18368 | if constexpr (std::is_nothrow_invocable_r_v<int, uFx, lua_State*>) { | ||
| 18369 | detail::lua_CFunction_noexcept cf = &lua_c_noexcept_wrapper<is_yielding>; | ||
| 18370 | lua_pushcclosure(L, reinterpret_cast<lua_CFunction>(cf), 2); | ||
| 18371 | } | ||
| 18372 | else { | ||
| 18373 | lua_CFunction cf = &lua_c_wrapper<is_yielding>; | ||
| 18374 | lua_pushcclosure(L, cf, 2); | ||
| 18375 | } | ||
| 18376 | #else | ||
| 18377 | lua_CFunction cf = &function_detail::lua_c_wrapper<is_yielding>; | ||
| 18378 | lua_pushcclosure(L, cf, 2); | ||
| 18379 | #endif | ||
| 18380 | } | ||
| 18381 | else if constexpr (std::is_function_v<std::remove_pointer_t<uFx>>) { | ||
| 18382 | std::decay_t<Fx> target(std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18383 | lua_CFunction freefunc = &function_detail::upvalue_free_function<Fx, is_yielding>::call; | ||
| 18384 | |||
| 18385 | int upvalues = 0; | ||
| 18386 | upvalues += stack::push(L, nullptr); | ||
| 18387 | upvalues += stack::stack_detail::push_as_upvalues(L, target); | ||
| 18388 | stack::push(L, c_closure(freefunc, upvalues)); | ||
| 18389 | } | ||
| 18390 | else if constexpr (std::is_member_function_pointer_v<uFx>) { | ||
| 18391 | select_member_function<is_yielding>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18392 | } | ||
| 18393 | else if constexpr (meta::is_member_object_v<uFx>) { | ||
| 18394 | select_member_variable<is_yielding>(L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18395 | } | ||
| 18396 | else { | ||
| 18397 | select_convertible<is_yielding>(types<>(), L, std::forward<Fx>(fx), std::forward<Args>(args)...); | ||
| 18398 | } | ||
| 18399 | } | ||
| 18400 | } // namespace function_detail | ||
| 18401 | |||
| 18402 | namespace stack { | ||
| 18403 | template <typename... Sigs> | ||
| 18404 | struct unqualified_pusher<function_sig<Sigs...>> { | ||
| 18405 | template <bool is_yielding, typename Arg0, typename... Args> | ||
| 18406 | static int push(lua_State* L, Arg0&& arg0, Args&&... args) { | ||
| 18407 | if constexpr (meta::is_specialization_of_v<meta::unqualified_t<Arg0>, std::function>) { | ||
| 18408 | if constexpr (is_yielding) { | ||
| 18409 | return stack::push<meta::unqualified_t<Arg0>>(L, detail::yield_tag, std::forward<Arg0>(arg0), std::forward<Args>(args)...); | ||
| 18410 | } | ||
| 18411 | else { | ||
| 18412 | return stack::push(L, std::forward<Arg0>(arg0), std::forward<Args>(args)...); | ||
| 18413 | } | ||
| 18414 | } | ||
| 18415 | else { | ||
| 18416 | function_detail::select<is_yielding>(L, std::forward<Arg0>(arg0), std::forward<Args>(args)...); | ||
| 18417 | return 1; | ||
| 18418 | } | ||
| 18419 | } | ||
| 18420 | |||
| 18421 | template <typename Arg0, typename... Args> | ||
| 18422 | static int push(lua_State* L, Arg0&& arg0, Args&&... args) { | ||
| 18423 | if constexpr (std::is_same_v<meta::unqualified_t<Arg0>, detail::yield_tag_t>) { | ||
| 18424 | push<true>(L, std::forward<Args>(args)...); | ||
| 18425 | } | ||
| 18426 | else if constexpr (meta::is_specialization_of_v<meta::unqualified_t<Arg0>, yielding_t>) { | ||
| 18427 | push<true>(L, std::forward<Arg0>(arg0).func, std::forward<Args>(args)...); | ||
| 18428 | } | ||
| 18429 | else { | ||
| 18430 | push<false>(L, std::forward<Arg0>(arg0), std::forward<Args>(args)...); | ||
| 18431 | } | ||
| 18432 | return 1; | ||
| 18433 | } | ||
| 18434 | }; | ||
| 18435 | |||
| 18436 | template <typename T> | ||
| 18437 | struct unqualified_pusher<yielding_t<T>> { | ||
| 18438 | template <typename... Args> | ||
| 18439 | static int push(lua_State* L, const yielding_t<T>& f, Args&&... args) { | ||
| 18440 | if constexpr (meta::is_specialization_of_v<meta::unqualified_t<T>, std::function>) { | ||
| 18441 | return stack::push<T>(L, detail::yield_tag, f.func, std::forward<Args>(args)...); | ||
| 18442 | } | ||
| 18443 | else { | ||
| 18444 | function_detail::select<true>(L, f.func, std::forward<Args>(args)...); | ||
| 18445 | return 1; | ||
| 18446 | } | ||
| 18447 | } | ||
| 18448 | |||
| 18449 | template <typename... Args> | ||
| 18450 | static int push(lua_State* L, yielding_t<T>&& f, Args&&... args) { | ||
| 18451 | if constexpr (meta::is_specialization_of_v<meta::unqualified_t<T>, std::function>) { | ||
| 18452 | return stack::push<T>(L, detail::yield_tag, std::move(f.func), std::forward<Args>(args)...); | ||
| 18453 | } | ||
| 18454 | else { | ||
| 18455 | function_detail::select<true>(L, std::move(f.func), std::forward<Args>(args)...); | ||
| 18456 | return 1; | ||
| 18457 | } | ||
| 18458 | } | ||
| 18459 | }; | ||
| 18460 | |||
| 18461 | template <typename T, typename... Args> | ||
| 18462 | struct unqualified_pusher<function_arguments<T, Args...>> { | ||
| 18463 | template <std::size_t... I, typename FP> | ||
| 18464 | static int push_func(std::index_sequence<I...>, lua_State* L, FP&& fp) { | ||
| 18465 | return stack::push<T>(L, std::get<I>(std::forward<FP>(fp).arguments)...); | ||
| 18466 | } | ||
| 18467 | |||
| 18468 | static int push(lua_State* L, const function_arguments<T, Args...>& fp) { | ||
| 18469 | return push_func(std::make_index_sequence<sizeof...(Args)>(), L, fp); | ||
| 18470 | } | ||
| 18471 | |||
| 18472 | static int push(lua_State* L, function_arguments<T, Args...>&& fp) { | ||
| 18473 | return push_func(std::make_index_sequence<sizeof...(Args)>(), L, std::move(fp)); | ||
| 18474 | } | ||
| 18475 | }; | ||
| 18476 | |||
| 18477 | template <typename Signature> | ||
| 18478 | struct unqualified_pusher<std::function<Signature>> { | ||
| 18479 | static int push(lua_State* L, detail::yield_tag_t, const std::function<Signature>& fx) { | ||
| 18480 | if (fx) { | ||
| 18481 | function_detail::select<true>(L, fx); | ||
| 18482 | return 1; | ||
| 18483 | } | ||
| 18484 | return stack::push(L, lua_nil); | ||
| 18485 | } | ||
| 18486 | |||
| 18487 | static int push(lua_State* L, detail::yield_tag_t, std::function<Signature>&& fx) { | ||
| 18488 | if (fx) { | ||
| 18489 | function_detail::select<true>(L, std::move(fx)); | ||
| 18490 | return 1; | ||
| 18491 | } | ||
| 18492 | return stack::push(L, lua_nil); | ||
| 18493 | } | ||
| 18494 | |||
| 18495 | static int push(lua_State* L, const std::function<Signature>& fx) { | ||
| 18496 | if (fx) { | ||
| 18497 | function_detail::select<false>(L, fx); | ||
| 18498 | return 1; | ||
| 18499 | } | ||
| 18500 | return stack::push(L, lua_nil); | ||
| 18501 | } | ||
| 18502 | |||
| 18503 | static int push(lua_State* L, std::function<Signature>&& fx) { | ||
| 18504 | if (fx) { | ||
| 18505 | function_detail::select<false>(L, std::move(fx)); | ||
| 18506 | return 1; | ||
| 18507 | } | ||
| 18508 | return stack::push(L, lua_nil); | ||
| 18509 | } | ||
| 18510 | }; | ||
| 18511 | |||
| 18512 | template <typename Signature> | ||
| 18513 | struct unqualified_pusher<Signature, std::enable_if_t<std::is_member_pointer<Signature>::value>> { | ||
| 18514 | template <typename... Args> | ||
| 18515 | static int push(lua_State* L, Args&&... args) { | ||
| 18516 | function_detail::select<false>(L, std::forward<Args>(args)...); | ||
| 18517 | return 1; | ||
| 18518 | } | ||
| 18519 | }; | ||
| 18520 | |||
| 18521 | template <typename Signature> | ||
| 18522 | struct unqualified_pusher<Signature, | ||
| 18523 | std::enable_if_t<meta::all<std::is_function<std::remove_pointer_t<Signature>>, meta::neg<std::is_same<Signature, lua_CFunction>>, | ||
| 18524 | meta::neg<std::is_same<Signature, std::remove_pointer_t<lua_CFunction>>> | ||
| 18525 | #if SOL_IS_ON(SOL_USE_NOEXCEPT_FUNCTION_TYPE_I_) | ||
| 18526 | , | ||
| 18527 | meta::neg<std::is_same<Signature, detail::lua_CFunction_noexcept>>, | ||
| 18528 | meta::neg<std::is_same<Signature, std::remove_pointer_t<detail::lua_CFunction_noexcept>>> | ||
| 18529 | #endif // noexcept function types | ||
| 18530 | >::value>> { | ||
| 18531 | template <typename F> | ||
| 18532 | static int push(lua_State* L, F&& f) { | ||
| 18533 | function_detail::select<false>(L, std::forward<F>(f)); | ||
| 18534 | return 1; | ||
| 18535 | } | ||
| 18536 | }; | ||
| 18537 | |||
| 18538 | template <typename... Functions> | ||
| 18539 | struct unqualified_pusher<overload_set<Functions...>> { | ||
| 18540 | static int push(lua_State* L, overload_set<Functions...>&& set) { | ||
| 18541 | using F = function_detail::overloaded_function<0, Functions...>; | ||
| 18542 | function_detail::select_set_fx<false, false, F>(L, std::move(set.functions)); | ||
| 18543 | return 1; | ||
| 18544 | } | ||
| 18545 | |||
| 18546 | static int push(lua_State* L, const overload_set<Functions...>& set) { | ||
| 18547 | using F = function_detail::overloaded_function<0, Functions...>; | ||
| 18548 | function_detail::select_set_fx<false, false, F>(L, set.functions); | ||
| 18549 | return 1; | ||
| 18550 | } | ||
| 18551 | }; | ||
| 18552 | |||
| 18553 | template <typename T> | ||
| 18554 | struct unqualified_pusher<protect_t<T>> { | ||
| 18555 | static int push(lua_State* L, protect_t<T>&& pw) { | ||
| 18556 | lua_CFunction cf = call_detail::call_user<void, false, false, protect_t<T>, 2>; | ||
| 18557 | int upvalues = 0; | ||
| 18558 | upvalues += stack::push(L, nullptr); | ||
| 18559 | upvalues += stack::push<user<protect_t<T>>>(L, std::move(pw.value)); | ||
| 18560 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18561 | } | ||
| 18562 | |||
| 18563 | static int push(lua_State* L, const protect_t<T>& pw) { | ||
| 18564 | lua_CFunction cf = call_detail::call_user<void, false, false, protect_t<T>, 2>; | ||
| 18565 | int upvalues = 0; | ||
| 18566 | upvalues += stack::push(L, nullptr); | ||
| 18567 | upvalues += stack::push<user<protect_t<T>>>(L, pw.value); | ||
| 18568 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18569 | } | ||
| 18570 | }; | ||
| 18571 | |||
| 18572 | template <typename F, typename G> | ||
| 18573 | struct unqualified_pusher<property_wrapper<F, G>> { | ||
| 18574 | static int push(lua_State* L, property_wrapper<F, G>&& pw) { | ||
| 18575 | if constexpr (std::is_void_v<F>) { | ||
| 18576 | return stack::push(L, std::move(pw.write())); | ||
| 18577 | } | ||
| 18578 | else if constexpr (std::is_void_v<G>) { | ||
| 18579 | return stack::push(L, std::move(pw.read())); | ||
| 18580 | } | ||
| 18581 | else { | ||
| 18582 | return stack::push(L, overload(std::move(pw.read()), std::move(pw.write()))); | ||
| 18583 | } | ||
| 18584 | } | ||
| 18585 | |||
| 18586 | static int push(lua_State* L, const property_wrapper<F, G>& pw) { | ||
| 18587 | if constexpr (std::is_void_v<F>) { | ||
| 18588 | return stack::push(L, pw.write); | ||
| 18589 | } | ||
| 18590 | else if constexpr (std::is_void_v<G>) { | ||
| 18591 | return stack::push(L, pw.read); | ||
| 18592 | } | ||
| 18593 | else { | ||
| 18594 | return stack::push(L, overload(pw.read, pw.write)); | ||
| 18595 | } | ||
| 18596 | } | ||
| 18597 | }; | ||
| 18598 | |||
| 18599 | template <typename T> | ||
| 18600 | struct unqualified_pusher<var_wrapper<T>> { | ||
| 18601 | static int push(lua_State* L, var_wrapper<T>&& vw) { | ||
| 18602 | return stack::push(L, std::move(vw.value())); | ||
| 18603 | } | ||
| 18604 | static int push(lua_State* L, const var_wrapper<T>& vw) { | ||
| 18605 | return stack::push(L, vw.value()); | ||
| 18606 | } | ||
| 18607 | }; | ||
| 18608 | |||
| 18609 | template <typename... Functions> | ||
| 18610 | struct unqualified_pusher<factory_wrapper<Functions...>> { | ||
| 18611 | static int push(lua_State* L, const factory_wrapper<Functions...>& fw) { | ||
| 18612 | using F = function_detail::overloaded_function<0, Functions...>; | ||
| 18613 | function_detail::select_set_fx<false, false, F>(L, fw.functions); | ||
| 18614 | return 1; | ||
| 18615 | } | ||
| 18616 | |||
| 18617 | static int push(lua_State* L, factory_wrapper<Functions...>&& fw) { | ||
| 18618 | using F = function_detail::overloaded_function<0, Functions...>; | ||
| 18619 | function_detail::select_set_fx<false, false, F>(L, std::move(fw.functions)); | ||
| 18620 | return 1; | ||
| 18621 | } | ||
| 18622 | |||
| 18623 | static int push(lua_State* L, const factory_wrapper<Functions...>& fw, function_detail::call_indicator) { | ||
| 18624 | using F = function_detail::overloaded_function<1, Functions...>; | ||
| 18625 | function_detail::select_set_fx<false, false, F>(L, fw.functions); | ||
| 18626 | return 1; | ||
| 18627 | } | ||
| 18628 | |||
| 18629 | static int push(lua_State* L, factory_wrapper<Functions...>&& fw, function_detail::call_indicator) { | ||
| 18630 | using F = function_detail::overloaded_function<1, Functions...>; | ||
| 18631 | function_detail::select_set_fx<false, false, F>(L, std::move(fw.functions)); | ||
| 18632 | return 1; | ||
| 18633 | } | ||
| 18634 | }; | ||
| 18635 | |||
| 18636 | template <> | ||
| 18637 | struct unqualified_pusher<no_construction> { | ||
| 18638 | static int push(lua_State* L, no_construction) { | ||
| 18639 | lua_CFunction cf = &function_detail::no_construction_error; | ||
| 18640 | return stack::push(L, cf); | ||
| 18641 | } | ||
| 18642 | |||
| 18643 | static int push(lua_State* L, no_construction c, function_detail::call_indicator) { | ||
| 18644 | return push(L, c); | ||
| 18645 | } | ||
| 18646 | }; | ||
| 18647 | |||
| 18648 | template <typename T> | ||
| 18649 | struct unqualified_pusher<detail::tagged<T, no_construction>> { | ||
| 18650 | static int push(lua_State* L, detail::tagged<T, no_construction>) { | ||
| 18651 | lua_CFunction cf = &function_detail::no_construction_error; | ||
| 18652 | return stack::push(L, cf); | ||
| 18653 | } | ||
| 18654 | |||
| 18655 | static int push(lua_State* L, no_construction c, function_detail::call_indicator) { | ||
| 18656 | return push(L, c); | ||
| 18657 | } | ||
| 18658 | }; | ||
| 18659 | |||
| 18660 | template <typename T, typename... Lists> | ||
| 18661 | struct unqualified_pusher<detail::tagged<T, constructor_list<Lists...>>> { | ||
| 18662 | static int push(lua_State* L, detail::tagged<T, constructor_list<Lists...>>) { | ||
| 18663 | lua_CFunction cf = call_detail::construct<T, detail::default_safe_function_calls, true, Lists...>; | ||
| 18664 | return stack::push(L, cf); | ||
| 18665 | } | ||
| 18666 | |||
| 18667 | static int push(lua_State* L, constructor_list<Lists...>) { | ||
| 18668 | lua_CFunction cf = call_detail::construct<T, detail::default_safe_function_calls, true, Lists...>; | ||
| 18669 | return stack::push(L, cf); | ||
| 18670 | } | ||
| 18671 | }; | ||
| 18672 | |||
| 18673 | template <typename L0, typename... Lists> | ||
| 18674 | struct unqualified_pusher<constructor_list<L0, Lists...>> { | ||
| 18675 | typedef constructor_list<L0, Lists...> cl_t; | ||
| 18676 | static int push(lua_State* L, cl_t cl) { | ||
| 18677 | typedef typename meta::bind_traits<L0>::return_type T; | ||
| 18678 | return stack::push<detail::tagged<T, cl_t>>(L, cl); | ||
| 18679 | } | ||
| 18680 | }; | ||
| 18681 | |||
| 18682 | template <typename T, typename... Fxs> | ||
| 18683 | struct unqualified_pusher<detail::tagged<T, constructor_wrapper<Fxs...>>> { | ||
| 18684 | static int push(lua_State* L, detail::tagged<T, constructor_wrapper<Fxs...>>&& c) { | ||
| 18685 | return push(L, std::move(c.value())); | ||
| 18686 | } | ||
| 18687 | |||
| 18688 | static int push(lua_State* L, const detail::tagged<T, const constructor_wrapper<Fxs...>>& c) { | ||
| 18689 | return push(L, c.value()); | ||
| 18690 | } | ||
| 18691 | |||
| 18692 | static int push(lua_State* L, constructor_wrapper<Fxs...>&& c) { | ||
| 18693 | lua_CFunction cf = call_detail::call_user<T, false, false, constructor_wrapper<Fxs...>, 2>; | ||
| 18694 | int upvalues = 0; | ||
| 18695 | upvalues += stack::push(L, nullptr); | ||
| 18696 | upvalues += stack::push<user<constructor_wrapper<Fxs...>>>(L, std::move(c)); | ||
| 18697 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18698 | } | ||
| 18699 | |||
| 18700 | static int push(lua_State* L, const constructor_wrapper<Fxs...>& c) { | ||
| 18701 | lua_CFunction cf = call_detail::call_user<T, false, false, constructor_wrapper<Fxs...>, 2>; | ||
| 18702 | int upvalues = 0; | ||
| 18703 | upvalues += stack::push(L, nullptr); | ||
| 18704 | upvalues += stack::push<user<constructor_wrapper<Fxs...>>>(L, c); | ||
| 18705 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18706 | } | ||
| 18707 | }; | ||
| 18708 | |||
| 18709 | template <typename F, typename... Fxs> | ||
| 18710 | struct unqualified_pusher<constructor_wrapper<F, Fxs...>> { | ||
| 18711 | static int push(lua_State* L, const constructor_wrapper<F, Fxs...>& c) { | ||
| 18712 | typedef typename meta::bind_traits<F>::template arg_at<0> arg0; | ||
| 18713 | typedef meta::unqualified_t<std::remove_pointer_t<arg0>> T; | ||
| 18714 | return stack::push<detail::tagged<T, constructor_wrapper<F, Fxs...>>>(L, c); | ||
| 18715 | } | ||
| 18716 | |||
| 18717 | static int push(lua_State* L, constructor_wrapper<F, Fxs...>&& c) { | ||
| 18718 | typedef typename meta::bind_traits<F>::template arg_at<0> arg0; | ||
| 18719 | typedef meta::unqualified_t<std::remove_pointer_t<arg0>> T; | ||
| 18720 | return stack::push<detail::tagged<T, constructor_wrapper<F, Fxs...>>>(L, std::move(c)); | ||
| 18721 | } | ||
| 18722 | }; | ||
| 18723 | |||
| 18724 | template <typename T> | ||
| 18725 | struct unqualified_pusher<detail::tagged<T, destructor_wrapper<void>>> { | ||
| 18726 | static int push(lua_State* L, destructor_wrapper<void>) { | ||
| 18727 | lua_CFunction cf = detail::usertype_alloc_destruct<T>; | ||
| 18728 | return stack::push(L, cf); | ||
| 18729 | } | ||
| 18730 | }; | ||
| 18731 | |||
| 18732 | template <typename T, typename Fx> | ||
| 18733 | struct unqualified_pusher<detail::tagged<T, destructor_wrapper<Fx>>> { | ||
| 18734 | static int push(lua_State* L, destructor_wrapper<Fx>&& c) { | ||
| 18735 | lua_CFunction cf = call_detail::call_user<T, false, false, destructor_wrapper<Fx>, 2>; | ||
| 18736 | int upvalues = 0; | ||
| 18737 | upvalues += stack::push(L, nullptr); | ||
| 18738 | upvalues += stack::push<user<destructor_wrapper<Fx>>>(L, std::move(c)); | ||
| 18739 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18740 | } | ||
| 18741 | |||
| 18742 | static int push(lua_State* L, const destructor_wrapper<Fx>& c) { | ||
| 18743 | lua_CFunction cf = call_detail::call_user<T, false, false, destructor_wrapper<Fx>, 2>; | ||
| 18744 | int upvalues = 0; | ||
| 18745 | upvalues += stack::push(L, nullptr); | ||
| 18746 | upvalues += stack::push<user<destructor_wrapper<Fx>>>(L, c); | ||
| 18747 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18748 | } | ||
| 18749 | }; | ||
| 18750 | |||
| 18751 | template <typename Fx> | ||
| 18752 | struct unqualified_pusher<destructor_wrapper<Fx>> { | ||
| 18753 | static int push(lua_State* L, destructor_wrapper<Fx>&& c) { | ||
| 18754 | lua_CFunction cf = call_detail::call_user<void, false, false, destructor_wrapper<Fx>, 2>; | ||
| 18755 | int upvalues = 0; | ||
| 18756 | upvalues += stack::push(L, nullptr); | ||
| 18757 | upvalues += stack::push<user<destructor_wrapper<Fx>>>(L, std::move(c)); | ||
| 18758 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18759 | } | ||
| 18760 | |||
| 18761 | static int push(lua_State* L, const destructor_wrapper<Fx>& c) { | ||
| 18762 | lua_CFunction cf = call_detail::call_user<void, false, false, destructor_wrapper<Fx>, 2>; | ||
| 18763 | int upvalues = 0; | ||
| 18764 | upvalues += stack::push(L, nullptr); | ||
| 18765 | upvalues += stack::push<user<destructor_wrapper<Fx>>>(L, c); | ||
| 18766 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18767 | } | ||
| 18768 | }; | ||
| 18769 | |||
| 18770 | template <typename F, typename... Policies> | ||
| 18771 | struct unqualified_pusher<policy_wrapper<F, Policies...>> { | ||
| 18772 | using P = policy_wrapper<F, Policies...>; | ||
| 18773 | |||
| 18774 | static int push(lua_State* L, const P& p) { | ||
| 18775 | lua_CFunction cf = call_detail::call_user<void, false, false, P, 2>; | ||
| 18776 | int upvalues = 0; | ||
| 18777 | upvalues += stack::push(L, nullptr); | ||
| 18778 | upvalues += stack::push<user<P>>(L, p); | ||
| 18779 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18780 | } | ||
| 18781 | |||
| 18782 | static int push(lua_State* L, P&& p) { | ||
| 18783 | lua_CFunction cf = call_detail::call_user<void, false, false, P, 2>; | ||
| 18784 | int upvalues = 0; | ||
| 18785 | upvalues += stack::push(L, nullptr); | ||
| 18786 | upvalues += stack::push<user<P>>(L, std::move(p)); | ||
| 18787 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18788 | } | ||
| 18789 | }; | ||
| 18790 | |||
| 18791 | template <typename T, typename F, typename... Policies> | ||
| 18792 | struct unqualified_pusher<detail::tagged<T, policy_wrapper<F, Policies...>>> { | ||
| 18793 | using P = policy_wrapper<F, Policies...>; | ||
| 18794 | using Tagged = detail::tagged<T, P>; | ||
| 18795 | |||
| 18796 | static int push(lua_State* L, const Tagged& p) { | ||
| 18797 | lua_CFunction cf = call_detail::call_user<T, false, false, P, 2>; | ||
| 18798 | int upvalues = 0; | ||
| 18799 | upvalues += stack::push(L, nullptr); | ||
| 18800 | upvalues += stack::push<user<P>>(L, p.value()); | ||
| 18801 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18802 | } | ||
| 18803 | |||
| 18804 | static int push(lua_State* L, Tagged&& p) { | ||
| 18805 | lua_CFunction cf = call_detail::call_user<T, false, false, P, 2>; | ||
| 18806 | int upvalues = 0; | ||
| 18807 | upvalues += stack::push(L, nullptr); | ||
| 18808 | upvalues += stack::push<user<P>>(L, std::move(p.value())); | ||
| 18809 | return stack::push(L, c_closure(cf, upvalues)); | ||
| 18810 | } | ||
| 18811 | }; | ||
| 18812 | |||
| 18813 | template <typename T> | ||
| 18814 | struct unqualified_pusher<push_invoke_t<T>> { | ||
| 18815 | static int push(lua_State* L, push_invoke_t<T>&& pi) { | ||
| 18816 | if constexpr (std::is_invocable_v<std::add_rvalue_reference_t<T>, lua_State*>) { | ||
| 18817 | return stack::push(L, std::move(pi.value())(L)); | ||
| 18818 | } | ||
| 18819 | else { | ||
| 18820 | return stack::push(L, std::move(pi.value())()); | ||
| 18821 | } | ||
| 18822 | } | ||
| 18823 | |||
| 18824 | static int push(lua_State* L, const push_invoke_t<T>& pi) { | ||
| 18825 | if constexpr (std::is_invocable_v<const T, lua_State*>) { | ||
| 18826 | return stack::push(L, pi.value()(L)); | ||
| 18827 | } | ||
| 18828 | else { | ||
| 18829 | return stack::push(L, pi.value()()); | ||
| 18830 | } | ||
| 18831 | } | ||
| 18832 | }; | ||
| 18833 | |||
| 18834 | namespace stack_detail { | ||
| 18835 | template <typename Function, typename Handler> | ||
| 18836 | bool check_function_pointer(lua_State* L, int index, Handler&& handler, record& tracking) noexcept { | ||
| 18837 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 18838 | tracking.use(1); | ||
| 18839 | bool success = lua_iscfunction(L, index) == 1; | ||
| 18840 | if (success) { | ||
| 18841 | // there must be at LEAST 2 upvalues; otherwise, we didn't serialize it. | ||
| 18842 | const char* upvalue_name = lua_getupvalue(L, index, 2); | ||
| 18843 | lua_pop(L, 1); | ||
| 18844 | success = upvalue_name != nullptr; | ||
| 18845 | } | ||
| 18846 | if (!success) { | ||
| 18847 | // expected type, actual type | ||
| 18848 | handler( | ||
| 18849 | L, index, type::function, type_of(L, index), "type must be a Lua C Function gotten from a function pointer serialized by sol2"); | ||
| 18850 | } | ||
| 18851 | return success; | ||
| 18852 | #else | ||
| 18853 | return false; | ||
| 18854 | #endif | ||
| 18855 | } | ||
| 18856 | |||
| 18857 | template <typename Function> | ||
| 18858 | Function* get_function_pointer(lua_State* L, int index, record& tracking) noexcept { | ||
| 18859 | #if SOL_IS_ON(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 18860 | tracking.use(1); | ||
| 18861 | auto udata = stack::stack_detail::get_as_upvalues_using_function<Function*>(L, index); | ||
| 18862 | Function* fx = udata.first; | ||
| 18863 | return fx; | ||
| 18864 | #else | ||
| 18865 | static_assert(meta::meta_detail::always_true<Function>::value, | ||
| 18866 | #if SOL_IS_DEFAULT_OFF(SOL_GET_FUNCTION_POINTER_UNSAFE_I_) | ||
| 18867 | "You are attempting to retrieve a function pointer type. " | ||
| 18868 | "This is inherently unsafe in sol2. In order to do this, you must turn on the " | ||
| 18869 | "SOL_GET_FUNCTION_POINTER_UNSAFE configuration macro, as detailed in the documentation. " | ||
| 18870 | "Please be careful!" | ||
| 18871 | #else | ||
| 18872 | "You are attempting to retrieve a function pointer type. " | ||
| 18873 | "You explicitly turned off the ability to do this by defining " | ||
| 18874 | "SOL_GET_FUNCTION_POINTER_UNSAFE or similar to be off. " | ||
| 18875 | "Please reconsider this!" | ||
| 18876 | #endif | ||
| 18877 | ); | ||
| 18878 | return nullptr; | ||
| 18879 | #endif | ||
| 18880 | } | ||
| 18881 | } // namespace stack_detail | ||
| 18882 | } // namespace stack | ||
| 18883 | } // namespace sol | ||
| 18884 | |||
| 18885 | // end of sol/function_types.hpp | ||
| 18886 | |||
| 18887 | // beginning of sol/dump_handler.hpp | ||
| 18888 | |||
| 18889 | #include <cstdint> | ||
| 18890 | #include <exception> | ||
| 18891 | |||
| 18892 | namespace sol { | ||
| 18893 | |||
| 18894 | class dump_error : public error { | ||
| 18895 | private: | ||
| 18896 | int ec_; | ||
| 18897 | |||
| 18898 | public: | ||
| 18899 | dump_error(int error_code_) : error("dump returned non-zero error of " + std::to_string(error_code_)), ec_(error_code_) { | ||
| 18900 | } | ||
| 18901 | |||
| 18902 | int error_code() const { | ||
| 18903 | return ec_; | ||
| 18904 | } | ||
| 18905 | }; | ||
| 18906 | |||
| 18907 | inline int dump_pass_on_error(lua_State* L, int result_code, lua_Writer writer_function, void* userdata, bool strip) { | ||
| 18908 | (void)L; | ||
| 18909 | (void)writer_function; | ||
| 18910 | (void)userdata; | ||
| 18911 | (void)strip; | ||
| 18912 | return result_code; | ||
| 18913 | } | ||
| 18914 | |||
| 18915 | inline int dump_panic_on_error(lua_State* L, int result_code, lua_Writer writer_function, void* userdata, bool strip) { | ||
| 18916 | (void)L; | ||
| 18917 | (void)writer_function; | ||
| 18918 | (void)userdata; | ||
| 18919 | (void)strip; | ||
| 18920 | return luaL_error(L, "a non-zero error code (%d) was returned by the lua_Writer for the dump function", result_code); | ||
| 18921 | } | ||
| 18922 | |||
| 18923 | inline int dump_throw_on_error(lua_State* L, int result_code, lua_Writer writer_function, void* userdata, bool strip) { | ||
| 18924 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 18925 | return dump_panic_on_error(L, result_code, writer_function, userdata, strip); | ||
| 18926 | #else | ||
| 18927 | (void)L; | ||
| 18928 | (void)writer_function; | ||
| 18929 | (void)userdata; | ||
| 18930 | (void)strip; | ||
| 18931 | throw dump_error(result_code); | ||
| 18932 | #endif // no exceptions stuff | ||
| 18933 | } | ||
| 18934 | |||
| 18935 | } // namespace sol | ||
| 18936 | |||
| 18937 | // end of sol/dump_handler.hpp | ||
| 18938 | |||
| 18939 | #include <cstdint> | ||
| 18940 | |||
| 18941 | namespace sol { | ||
| 18942 | template <typename ref_t, bool aligned = false> | ||
| 18943 | class basic_function : public basic_object<ref_t> { | ||
| 18944 | private: | ||
| 18945 | using base_t = basic_object<ref_t>; | ||
| 18946 | |||
| 18947 | void luacall(std::ptrdiff_t argcount, std::ptrdiff_t resultcount) const { | ||
| 18948 | lua_call(lua_state(), static_cast<int>(argcount), static_cast<int>(resultcount)); | ||
| 18949 | } | ||
| 18950 | |||
| 18951 | template <std::size_t... I, typename... Ret> | ||
| 18952 | auto invoke(types<Ret...>, std::index_sequence<I...>, std::ptrdiff_t n) const { | ||
| 18953 | luacall(n, lua_size<std::tuple<Ret...>>::value); | ||
| 18954 | return stack::pop<std::tuple<Ret...>>(lua_state()); | ||
| 18955 | } | ||
| 18956 | |||
| 18957 | template <std::size_t I, typename Ret, meta::enable<meta::neg<std::is_void<Ret>>> = meta::enabler> | ||
| 18958 | Ret invoke(types<Ret>, std::index_sequence<I>, std::ptrdiff_t n) const { | ||
| 18959 | luacall(n, lua_size<Ret>::value); | ||
| 18960 | return stack::pop<Ret>(lua_state()); | ||
| 18961 | } | ||
| 18962 | |||
| 18963 | template <std::size_t I> | ||
| 18964 | void invoke(types<void>, std::index_sequence<I>, std::ptrdiff_t n) const { | ||
| 18965 | luacall(n, 0); | ||
| 18966 | } | ||
| 18967 | |||
| 18968 | unsafe_function_result invoke(types<>, std::index_sequence<>, std::ptrdiff_t n) const { | ||
| 18969 | int stacksize = lua_gettop(lua_state()); | ||
| 18970 | int firstreturn = (std::max)(1, stacksize - static_cast<int>(n)); | ||
| 18971 | luacall(n, LUA_MULTRET); | ||
| 18972 | int poststacksize = lua_gettop(lua_state()); | ||
| 18973 | int returncount = poststacksize - (firstreturn - 1); | ||
| 18974 | return unsafe_function_result(lua_state(), firstreturn, returncount); | ||
| 18975 | } | ||
| 18976 | |||
| 18977 | public: | ||
| 18978 | using base_t::lua_state; | ||
| 18979 | |||
| 18980 | basic_function() = default; | ||
| 18981 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_function>>, meta::neg<std::is_same<base_t, stack_reference>>, meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 18982 | basic_function(T&& r) noexcept | ||
| 18983 | : base_t(std::forward<T>(r)) { | ||
| 18984 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 18985 | if (!is_function<meta::unqualified_t<T>>::value) { | ||
| 18986 | auto pp = stack::push_pop(*this); | ||
| 18987 | constructor_handler handler{}; | ||
| 18988 | stack::check<basic_function>(lua_state(), -1, handler); | ||
| 18989 | } | ||
| 18990 | #endif // Safety | ||
| 18991 | } | ||
| 18992 | basic_function(const basic_function&) = default; | ||
| 18993 | basic_function& operator=(const basic_function&) = default; | ||
| 18994 | basic_function(basic_function&&) = default; | ||
| 18995 | basic_function& operator=(basic_function&&) = default; | ||
| 18996 | basic_function(const stack_reference& r) | ||
| 18997 | : basic_function(r.lua_state(), r.stack_index()) { | ||
| 18998 | } | ||
| 18999 | basic_function(stack_reference&& r) | ||
| 19000 | : basic_function(r.lua_state(), r.stack_index()) { | ||
| 19001 | } | ||
| 19002 | basic_function(lua_nil_t n) | ||
| 19003 | : base_t(n) { | ||
| 19004 | } | ||
| 19005 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 19006 | basic_function(lua_State* L, T&& r) | ||
| 19007 | : base_t(L, std::forward<T>(r)) { | ||
| 19008 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19009 | auto pp = stack::push_pop(*this); | ||
| 19010 | constructor_handler handler{}; | ||
| 19011 | stack::check<basic_function>(lua_state(), -1, handler); | ||
| 19012 | #endif // Safety | ||
| 19013 | } | ||
| 19014 | basic_function(lua_State* L, int index = -1) | ||
| 19015 | : base_t(L, index) { | ||
| 19016 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19017 | constructor_handler handler{}; | ||
| 19018 | stack::check<basic_function>(L, index, handler); | ||
| 19019 | #endif // Safety | ||
| 19020 | } | ||
| 19021 | basic_function(lua_State* L, ref_index index) | ||
| 19022 | : base_t(L, index) { | ||
| 19023 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19024 | auto pp = stack::push_pop(*this); | ||
| 19025 | constructor_handler handler{}; | ||
| 19026 | stack::check<basic_function>(lua_state(), -1, handler); | ||
| 19027 | #endif // Safety | ||
| 19028 | } | ||
| 19029 | |||
| 19030 | template <typename Fx> | ||
| 19031 | int dump(lua_Writer writer, void* userdata, bool strip, Fx&& on_error) const { | ||
| 19032 | this->push(); | ||
| 19033 | auto ppn = stack::push_popper_n<false>(this->lua_state(), 1); | ||
| 19034 | int r = lua_dump(this->lua_state(), writer, userdata, strip ? 1 : 0); | ||
| 19035 | if (r != 0) { | ||
| 19036 | return on_error(this->lua_state(), r, writer, userdata, strip); | ||
| 19037 | } | ||
| 19038 | return r; | ||
| 19039 | } | ||
| 19040 | |||
| 19041 | int dump(lua_Writer writer, void* userdata, bool strip = false) const { | ||
| 19042 | return dump(writer, userdata, strip, &dump_throw_on_error); | ||
| 19043 | } | ||
| 19044 | |||
| 19045 | template <typename Container = bytecode> | ||
| 19046 | Container dump() const { | ||
| 19047 | Container bc; | ||
| 19048 | (void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, &dump_panic_on_error); | ||
| 19049 | return bc; | ||
| 19050 | } | ||
| 19051 | |||
| 19052 | template <typename Container = bytecode, typename Fx> | ||
| 19053 | Container dump(Fx&& on_error) const { | ||
| 19054 | Container bc; | ||
| 19055 | (void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, std::forward<Fx>(on_error)); | ||
| 19056 | return bc; | ||
| 19057 | } | ||
| 19058 | |||
| 19059 | template <typename... Args> | ||
| 19060 | unsafe_function_result operator()(Args&&... args) const { | ||
| 19061 | return call<>(std::forward<Args>(args)...); | ||
| 19062 | } | ||
| 19063 | |||
| 19064 | template <typename... Ret, typename... Args> | ||
| 19065 | decltype(auto) operator()(types<Ret...>, Args&&... args) const { | ||
| 19066 | return call<Ret...>(std::forward<Args>(args)...); | ||
| 19067 | } | ||
| 19068 | |||
| 19069 | template <typename... Ret, typename... Args> | ||
| 19070 | decltype(auto) call(Args&&... args) const { | ||
| 19071 | if (!aligned) { | ||
| 19072 | base_t::push(); | ||
| 19073 | } | ||
| 19074 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 19075 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), static_cast<std::ptrdiff_t>(pushcount)); | ||
| 19076 | } | ||
| 19077 | }; | ||
| 19078 | } // namespace sol | ||
| 19079 | |||
| 19080 | // end of sol/unsafe_function.hpp | ||
| 19081 | |||
| 19082 | // beginning of sol/protected_function.hpp | ||
| 19083 | |||
| 19084 | // beginning of sol/protected_handler.hpp | ||
| 19085 | |||
| 19086 | #include <cstdint> | ||
| 19087 | |||
| 19088 | namespace sol { | ||
| 19089 | namespace detail { | ||
| 19090 | inline const char(&default_handler_name())[9]{ | ||
| 19091 | static const char name[9] = "sol.\xF0\x9F\x94\xA9"; | ||
| 19092 | return name; | ||
| 19093 | } | ||
| 19094 | |||
| 19095 | template <bool b, typename target_t = reference> | ||
| 19096 | struct protected_handler { | ||
| 19097 | typedef is_stack_based<target_t> is_stack; | ||
| 19098 | const target_t& target; | ||
| 19099 | int stackindex; | ||
| 19100 | |||
| 19101 | protected_handler(std::false_type, const target_t& target) | ||
| 19102 | : target(target), stackindex(0) { | ||
| 19103 | if (b) { | ||
| 19104 | stackindex = lua_gettop(target.lua_state()) + 1; | ||
| 19105 | target.push(); | ||
| 19106 | } | ||
| 19107 | } | ||
| 19108 | |||
| 19109 | protected_handler(std::true_type, const target_t& target) | ||
| 19110 | : target(target), stackindex(0) { | ||
| 19111 | if (b) { | ||
| 19112 | stackindex = target.stack_index(); | ||
| 19113 | } | ||
| 19114 | } | ||
| 19115 | |||
| 19116 | protected_handler(const target_t& target) | ||
| 19117 | : protected_handler(is_stack(), target) { | ||
| 19118 | } | ||
| 19119 | |||
| 19120 | bool valid() const noexcept { | ||
| 19121 | return b; | ||
| 19122 | } | ||
| 19123 | |||
| 19124 | ~protected_handler() { | ||
| 19125 | if constexpr (!is_stack::value) { | ||
| 19126 | if (stackindex != 0) { | ||
| 19127 | lua_remove(target.lua_state(), stackindex); | ||
| 19128 | } | ||
| 19129 | } | ||
| 19130 | } | ||
| 19131 | }; | ||
| 19132 | |||
| 19133 | template <typename base_t, typename T> | ||
| 19134 | basic_function<base_t> force_cast(T& p) { | ||
| 19135 | return p; | ||
| 19136 | } | ||
| 19137 | |||
| 19138 | template <typename Reference, bool is_main_ref = false> | ||
| 19139 | static Reference get_default_handler(lua_State* L) { | ||
| 19140 | if (is_stack_based<Reference>::value || L == nullptr) | ||
| 19141 | return Reference(L, lua_nil); | ||
| 19142 | L = is_main_ref ? main_thread(L, L) : L; | ||
| 19143 | lua_getglobal(L, default_handler_name()); | ||
| 19144 | auto pp = stack::pop_n(L, 1); | ||
| 19145 | return Reference(L, -1); | ||
| 19146 | } | ||
| 19147 | |||
| 19148 | template <typename T> | ||
| 19149 | static void set_default_handler(lua_State* L, const T& ref) { | ||
| 19150 | if (L == nullptr) { | ||
| 19151 | return; | ||
| 19152 | } | ||
| 19153 | if (!ref.valid()) { | ||
| 19154 | #if SOL_IS_ON(SOL_SAFE_STACK_CHECK_I_) | ||
| 19155 | luaL_checkstack(L, 1, detail::not_enough_stack_space_generic); | ||
| 19156 | #endif // make sure stack doesn't overflow | ||
| 19157 | lua_pushnil(L); | ||
| 19158 | lua_setglobal(L, default_handler_name()); | ||
| 19159 | } | ||
| 19160 | else { | ||
| 19161 | ref.push(L); | ||
| 19162 | lua_setglobal(L, default_handler_name()); | ||
| 19163 | } | ||
| 19164 | } | ||
| 19165 | } // namespace detail | ||
| 19166 | } // namespace sol | ||
| 19167 | |||
| 19168 | // end of sol/protected_handler.hpp | ||
| 19169 | |||
| 19170 | #include <cstdint> | ||
| 19171 | #include <algorithm> | ||
| 19172 | |||
| 19173 | namespace sol { | ||
| 19174 | |||
| 19175 | namespace detail { | ||
| 19176 | template <bool b, typename handler_t> | ||
| 19177 | inline void handle_protected_exception(lua_State* L, optional<const std::exception&> maybe_ex, const char* error, detail::protected_handler<b, handler_t>& h) { | ||
| 19178 | h.stackindex = 0; | ||
| 19179 | if (b) { | ||
| 19180 | h.target.push(); | ||
| 19181 | detail::call_exception_handler(L, maybe_ex, error); | ||
| 19182 | lua_call(L, 1, 1); | ||
| 19183 | } | ||
| 19184 | else { | ||
| 19185 | detail::call_exception_handler(L, maybe_ex, error); | ||
| 19186 | } | ||
| 19187 | } | ||
| 19188 | } | ||
| 19189 | |||
| 19190 | template <typename ref_t, bool aligned = false, typename handler_t = reference> | ||
| 19191 | class basic_protected_function : public basic_object<ref_t> { | ||
| 19192 | private: | ||
| 19193 | using base_t = basic_object<ref_t>; | ||
| 19194 | |||
| 19195 | public: | ||
| 19196 | using is_stack_handler = is_stack_based<handler_t>; | ||
| 19197 | |||
| 19198 | static handler_t get_default_handler(lua_State* L) { | ||
| 19199 | return detail::get_default_handler<handler_t, is_main_threaded<base_t>::value>(L); | ||
| 19200 | } | ||
| 19201 | |||
| 19202 | template <typename T> | ||
| 19203 | static void set_default_handler(const T& ref) { | ||
| 19204 | detail::set_default_handler(ref.lua_state(), ref); | ||
| 19205 | } | ||
| 19206 | |||
| 19207 | private: | ||
| 19208 | template <bool b> | ||
| 19209 | call_status luacall(std::ptrdiff_t argcount, std::ptrdiff_t resultcount, detail::protected_handler<b, handler_t>& h) const { | ||
| 19210 | return static_cast<call_status>(lua_pcall(lua_state(), static_cast<int>(argcount), static_cast<int>(resultcount), h.stackindex)); | ||
| 19211 | } | ||
| 19212 | |||
| 19213 | template <std::size_t... I, bool b, typename... Ret> | ||
| 19214 | auto invoke(types<Ret...>, std::index_sequence<I...>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const { | ||
| 19215 | luacall(n, sizeof...(Ret), h); | ||
| 19216 | return stack::pop<std::tuple<Ret...>>(lua_state()); | ||
| 19217 | } | ||
| 19218 | |||
| 19219 | template <std::size_t I, bool b, typename Ret> | ||
| 19220 | Ret invoke(types<Ret>, std::index_sequence<I>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const { | ||
| 19221 | luacall(n, 1, h); | ||
| 19222 | return stack::pop<Ret>(lua_state()); | ||
| 19223 | } | ||
| 19224 | |||
| 19225 | template <std::size_t I, bool b> | ||
| 19226 | void invoke(types<void>, std::index_sequence<I>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const { | ||
| 19227 | luacall(n, 0, h); | ||
| 19228 | } | ||
| 19229 | |||
| 19230 | template <bool b> | ||
| 19231 | protected_function_result invoke(types<>, std::index_sequence<>, std::ptrdiff_t n, detail::protected_handler<b, handler_t>& h) const { | ||
| 19232 | int stacksize = lua_gettop(lua_state()); | ||
| 19233 | int poststacksize = stacksize; | ||
| 19234 | int firstreturn = 1; | ||
| 19235 | int returncount = 0; | ||
| 19236 | call_status code = call_status::ok; | ||
| 19237 | #if !defined(SOL_NO_EXCEPTIONS) || !SOL_NO_EXCEPTIONS | ||
| 19238 | #if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION) || (defined(SOL_LUAJIT) && SOL_LUAJIT) | ||
| 19239 | try { | ||
| 19240 | #endif // Safe Exception Propagation | ||
| 19241 | #endif // No Exceptions | ||
| 19242 | firstreturn = (std::max)(1, static_cast<int>(stacksize - n - static_cast<int>(h.valid() && !is_stack_handler::value))); | ||
| 19243 | code = luacall(n, LUA_MULTRET, h); | ||
| 19244 | poststacksize = lua_gettop(lua_state()) - static_cast<int>(h.valid() && !is_stack_handler::value); | ||
| 19245 | returncount = poststacksize - (firstreturn - 1); | ||
| 19246 | #ifndef SOL_NO_EXCEPTIONS | ||
| 19247 | #if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION) || (defined(SOL_LUAJIT) && SOL_LUAJIT) | ||
| 19248 | } | ||
| 19249 | // Handle C++ errors thrown from C++ functions bound inside of lua | ||
| 19250 | catch (const char* error) { | ||
| 19251 | detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), error, h); | ||
| 19252 | firstreturn = lua_gettop(lua_state()); | ||
| 19253 | return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime); | ||
| 19254 | } | ||
| 19255 | catch (const std::string& error) { | ||
| 19256 | detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), error.c_str(), h); | ||
| 19257 | firstreturn = lua_gettop(lua_state()); | ||
| 19258 | return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime); | ||
| 19259 | } | ||
| 19260 | catch (const std::exception& error) { | ||
| 19261 | detail::handle_protected_exception(lua_state(), optional<const std::exception&>(error), error.what(), h); | ||
| 19262 | firstreturn = lua_gettop(lua_state()); | ||
| 19263 | return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime); | ||
| 19264 | } | ||
| 19265 | #if (!defined(SOL_EXCEPTIONS_SAFE_PROPAGATION) || !SOL_NO_EXCEPTIONS_SAFE_PROPAGATION) | ||
| 19266 | // LuaJIT cannot have the catchall when the safe propagation is on | ||
| 19267 | // but LuaJIT will swallow all C++ errors | ||
| 19268 | // if we don't at least catch std::exception ones | ||
| 19269 | catch (...) { | ||
| 19270 | detail::handle_protected_exception(lua_state(), optional<const std::exception&>(nullopt), detail::protected_function_error, h); | ||
| 19271 | firstreturn = lua_gettop(lua_state()); | ||
| 19272 | return protected_function_result(lua_state(), firstreturn, 0, 1, call_status::runtime); | ||
| 19273 | } | ||
| 19274 | #endif // LuaJIT | ||
| 19275 | #else | ||
| 19276 | // do not handle exceptions: they can be propogated into C++ and keep all type information / rich information | ||
| 19277 | #endif // Safe Exception Propagation | ||
| 19278 | #endif // Exceptions vs. No Exceptions | ||
| 19279 | return protected_function_result(lua_state(), firstreturn, returncount, returncount, code); | ||
| 19280 | } | ||
| 19281 | |||
| 19282 | public: | ||
| 19283 | using base_t::lua_state; | ||
| 19284 | |||
| 19285 | handler_t error_handler; | ||
| 19286 | |||
| 19287 | basic_protected_function() = default; | ||
| 19288 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_protected_function>>, meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<T>>>, meta::neg<std::is_same<base_t, stack_reference>>, meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 19289 | basic_protected_function(T&& r) noexcept | ||
| 19290 | : base_t(std::forward<T>(r)), error_handler(get_default_handler(r.lua_state())) { | ||
| 19291 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19292 | if (!is_function<meta::unqualified_t<T>>::value) { | ||
| 19293 | auto pp = stack::push_pop(*this); | ||
| 19294 | constructor_handler handler{}; | ||
| 19295 | stack::check<basic_protected_function>(lua_state(), -1, handler); | ||
| 19296 | } | ||
| 19297 | #endif // Safety | ||
| 19298 | } | ||
| 19299 | basic_protected_function(const basic_protected_function&) = default; | ||
| 19300 | basic_protected_function& operator=(const basic_protected_function&) = default; | ||
| 19301 | basic_protected_function(basic_protected_function&&) = default; | ||
| 19302 | basic_protected_function& operator=(basic_protected_function&&) = default; | ||
| 19303 | basic_protected_function(const basic_function<base_t>& b) | ||
| 19304 | : basic_protected_function(b, get_default_handler(b.lua_state())) { | ||
| 19305 | } | ||
| 19306 | basic_protected_function(basic_function<base_t>&& b) | ||
| 19307 | : basic_protected_function(std::move(b), get_default_handler(b.lua_state())) { | ||
| 19308 | } | ||
| 19309 | basic_protected_function(const basic_function<base_t>& b, handler_t eh) | ||
| 19310 | : base_t(b), error_handler(std::move(eh)) { | ||
| 19311 | } | ||
| 19312 | basic_protected_function(basic_function<base_t>&& b, handler_t eh) | ||
| 19313 | : base_t(std::move(b)), error_handler(std::move(eh)) { | ||
| 19314 | } | ||
| 19315 | basic_protected_function(const stack_reference& r) | ||
| 19316 | : basic_protected_function(r.lua_state(), r.stack_index(), get_default_handler(r.lua_state())) { | ||
| 19317 | } | ||
| 19318 | basic_protected_function(stack_reference&& r) | ||
| 19319 | : basic_protected_function(r.lua_state(), r.stack_index(), get_default_handler(r.lua_state())) { | ||
| 19320 | } | ||
| 19321 | basic_protected_function(const stack_reference& r, handler_t eh) | ||
| 19322 | : basic_protected_function(r.lua_state(), r.stack_index(), std::move(eh)) { | ||
| 19323 | } | ||
| 19324 | basic_protected_function(stack_reference&& r, handler_t eh) | ||
| 19325 | : basic_protected_function(r.lua_state(), r.stack_index(), std::move(eh)) { | ||
| 19326 | } | ||
| 19327 | |||
| 19328 | template <typename Super> | ||
| 19329 | basic_protected_function(const proxy_base<Super>& p) | ||
| 19330 | : basic_protected_function(p, get_default_handler(p.lua_state())) { | ||
| 19331 | } | ||
| 19332 | template <typename Super> | ||
| 19333 | basic_protected_function(proxy_base<Super>&& p) | ||
| 19334 | : basic_protected_function(std::move(p), get_default_handler(p.lua_state())) { | ||
| 19335 | } | ||
| 19336 | template <typename Proxy, typename Handler, meta::enable<std::is_base_of<proxy_base_tag, meta::unqualified_t<Proxy>>, meta::neg<is_lua_index<meta::unqualified_t<Handler>>>> = meta::enabler> | ||
| 19337 | basic_protected_function(Proxy&& p, Handler&& eh) | ||
| 19338 | : basic_protected_function(detail::force_cast<base_t>(p), std::forward<Handler>(eh)) { | ||
| 19339 | } | ||
| 19340 | |||
| 19341 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 19342 | basic_protected_function(lua_State* L, T&& r) | ||
| 19343 | : basic_protected_function(L, std::forward<T>(r), get_default_handler(L)) { | ||
| 19344 | } | ||
| 19345 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 19346 | basic_protected_function(lua_State* L, T&& r, handler_t eh) | ||
| 19347 | : base_t(L, std::forward<T>(r)), error_handler(std::move(eh)) { | ||
| 19348 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19349 | auto pp = stack::push_pop(*this); | ||
| 19350 | constructor_handler handler{}; | ||
| 19351 | stack::check<basic_protected_function>(lua_state(), -1, handler); | ||
| 19352 | #endif // Safety | ||
| 19353 | } | ||
| 19354 | |||
| 19355 | basic_protected_function(lua_nil_t n) | ||
| 19356 | : base_t(n), error_handler(n) { | ||
| 19357 | } | ||
| 19358 | |||
| 19359 | basic_protected_function(lua_State* L, int index = -1) | ||
| 19360 | : basic_protected_function(L, index, get_default_handler(L)) { | ||
| 19361 | } | ||
| 19362 | basic_protected_function(lua_State* L, int index, handler_t eh) | ||
| 19363 | : base_t(L, index), error_handler(std::move(eh)) { | ||
| 19364 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19365 | constructor_handler handler{}; | ||
| 19366 | stack::check<basic_protected_function>(L, index, handler); | ||
| 19367 | #endif // Safety | ||
| 19368 | } | ||
| 19369 | basic_protected_function(lua_State* L, absolute_index index) | ||
| 19370 | : basic_protected_function(L, index, get_default_handler(L)) { | ||
| 19371 | } | ||
| 19372 | basic_protected_function(lua_State* L, absolute_index index, handler_t eh) | ||
| 19373 | : base_t(L, index), error_handler(std::move(eh)) { | ||
| 19374 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19375 | constructor_handler handler{}; | ||
| 19376 | stack::check<basic_protected_function>(L, index, handler); | ||
| 19377 | #endif // Safety | ||
| 19378 | } | ||
| 19379 | basic_protected_function(lua_State* L, raw_index index) | ||
| 19380 | : basic_protected_function(L, index, get_default_handler(L)) { | ||
| 19381 | } | ||
| 19382 | basic_protected_function(lua_State* L, raw_index index, handler_t eh) | ||
| 19383 | : base_t(L, index), error_handler(std::move(eh)) { | ||
| 19384 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19385 | constructor_handler handler{}; | ||
| 19386 | stack::check<basic_protected_function>(L, index, handler); | ||
| 19387 | #endif // Safety | ||
| 19388 | } | ||
| 19389 | basic_protected_function(lua_State* L, ref_index index) | ||
| 19390 | : basic_protected_function(L, index, get_default_handler(L)) { | ||
| 19391 | } | ||
| 19392 | basic_protected_function(lua_State* L, ref_index index, handler_t eh) | ||
| 19393 | : base_t(L, index), error_handler(std::move(eh)) { | ||
| 19394 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 19395 | auto pp = stack::push_pop(*this); | ||
| 19396 | constructor_handler handler{}; | ||
| 19397 | stack::check<basic_protected_function>(lua_state(), -1, handler); | ||
| 19398 | #endif // Safety | ||
| 19399 | } | ||
| 19400 | |||
| 19401 | template <typename Fx> | ||
| 19402 | int dump(lua_Writer writer, void* userdata, bool strip, Fx&& on_error) const { | ||
| 19403 | this->push(); | ||
| 19404 | auto ppn = stack::push_popper_n<false>(this->lua_state(), 1); | ||
| 19405 | int r = lua_dump(this->lua_state(), writer, userdata, strip ? 1 : 0); | ||
| 19406 | if (r != 0) { | ||
| 19407 | return on_error(this->lua_state(), r, writer, userdata, strip); | ||
| 19408 | } | ||
| 19409 | return r; | ||
| 19410 | } | ||
| 19411 | |||
| 19412 | int dump(lua_Writer writer, void* userdata, bool strip = false) const { | ||
| 19413 | return dump(writer, userdata, strip, &dump_pass_on_error); | ||
| 19414 | } | ||
| 19415 | |||
| 19416 | template <typename Container = bytecode> | ||
| 19417 | Container dump() const { | ||
| 19418 | Container bc; | ||
| 19419 | (void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, &dump_throw_on_error); | ||
| 19420 | return bc; | ||
| 19421 | } | ||
| 19422 | |||
| 19423 | template <typename Container = bytecode, typename Fx> | ||
| 19424 | Container dump(Fx&& on_error) const { | ||
| 19425 | Container bc; | ||
| 19426 | (void)dump(static_cast<lua_Writer>(&basic_insert_dump_writer<Container>), static_cast<void*>(&bc), false, std::forward<Fx>(on_error)); | ||
| 19427 | return bc; | ||
| 19428 | } | ||
| 19429 | |||
| 19430 | template <typename... Args> | ||
| 19431 | protected_function_result operator()(Args&&... args) const { | ||
| 19432 | return call<>(std::forward<Args>(args)...); | ||
| 19433 | } | ||
| 19434 | |||
| 19435 | template <typename... Ret, typename... Args> | ||
| 19436 | decltype(auto) operator()(types<Ret...>, Args&&... args) const { | ||
| 19437 | return call<Ret...>(std::forward<Args>(args)...); | ||
| 19438 | } | ||
| 19439 | |||
| 19440 | template <typename... Ret, typename... Args> | ||
| 19441 | decltype(auto) call(Args&&... args) const { | ||
| 19442 | if constexpr (!aligned) { | ||
| 19443 | // we do not expect the function to already be on the stack: push it | ||
| 19444 | if (error_handler.valid()) { | ||
| 19445 | detail::protected_handler<true, handler_t> h(error_handler); | ||
| 19446 | base_t::push(); | ||
| 19447 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 19448 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h); | ||
| 19449 | } | ||
| 19450 | else { | ||
| 19451 | detail::protected_handler<false, handler_t> h(error_handler); | ||
| 19452 | base_t::push(); | ||
| 19453 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 19454 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h); | ||
| 19455 | } | ||
| 19456 | } | ||
| 19457 | else { | ||
| 19458 | // the function is already on the stack at the right location | ||
| 19459 | if (error_handler.valid()) { | ||
| 19460 | // the handler will be pushed onto the stack manually, | ||
| 19461 | // since it's not already on the stack this means we need to push our own | ||
| 19462 | // function on the stack too and swap things to be in-place | ||
| 19463 | if constexpr (!is_stack_handler::value) { | ||
| 19464 | // so, we need to remove the function at the top and then dump the handler out ourselves | ||
| 19465 | base_t::push(); | ||
| 19466 | } | ||
| 19467 | detail::protected_handler<true, handler_t> h(error_handler); | ||
| 19468 | if constexpr (!is_stack_handler::value) { | ||
| 19469 | lua_replace(lua_state(), -3); | ||
| 19470 | h.stackindex = lua_absindex(lua_state(), -2); | ||
| 19471 | } | ||
| 19472 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 19473 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h); | ||
| 19474 | } | ||
| 19475 | else { | ||
| 19476 | detail::protected_handler<false, handler_t> h(error_handler); | ||
| 19477 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 19478 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount, h); | ||
| 19479 | } | ||
| 19480 | } | ||
| 19481 | } | ||
| 19482 | }; | ||
| 19483 | } // namespace sol | ||
| 19484 | |||
| 19485 | // end of sol/protected_function.hpp | ||
| 19486 | |||
| 19487 | #include <functional> | ||
| 19488 | |||
| 19489 | namespace sol { | ||
| 19490 | template <typename... Ret, typename... Args> | ||
| 19491 | decltype(auto) stack_proxy::call(Args&&... args) { | ||
| 19492 | stack_function sf(this->lua_state(), this->stack_index()); | ||
| 19493 | return sf.template call<Ret...>(std::forward<Args>(args)...); | ||
| 19494 | } | ||
| 19495 | |||
| 19496 | inline protected_function_result::protected_function_result(unsafe_function_result&& o) noexcept | ||
| 19497 | : L(o.lua_state()), index(o.stack_index()), returncount(o.return_count()), popcount(o.return_count()), err(o.status()) { | ||
| 19498 | // Must be manual, otherwise destructor will screw us | ||
| 19499 | // return count being 0 is enough to keep things clean | ||
| 19500 | // but we will be thorough | ||
| 19501 | o.abandon(); | ||
| 19502 | } | ||
| 19503 | |||
| 19504 | inline protected_function_result& protected_function_result::operator=(unsafe_function_result&& o) noexcept { | ||
| 19505 | L = o.lua_state(); | ||
| 19506 | index = o.stack_index(); | ||
| 19507 | returncount = o.return_count(); | ||
| 19508 | popcount = o.return_count(); | ||
| 19509 | err = o.status(); | ||
| 19510 | // Must be manual, otherwise destructor will screw us | ||
| 19511 | // return count being 0 is enough to keep things clean | ||
| 19512 | // but we will be thorough | ||
| 19513 | o.abandon(); | ||
| 19514 | return *this; | ||
| 19515 | } | ||
| 19516 | |||
| 19517 | inline unsafe_function_result::unsafe_function_result(protected_function_result&& o) noexcept | ||
| 19518 | : L(o.lua_state()), index(o.stack_index()), returncount(o.return_count()) { | ||
| 19519 | // Must be manual, otherwise destructor will screw us | ||
| 19520 | // return count being 0 is enough to keep things clean | ||
| 19521 | // but we will be thorough | ||
| 19522 | o.abandon(); | ||
| 19523 | } | ||
| 19524 | inline unsafe_function_result& unsafe_function_result::operator=(protected_function_result&& o) noexcept { | ||
| 19525 | L = o.lua_state(); | ||
| 19526 | index = o.stack_index(); | ||
| 19527 | returncount = o.return_count(); | ||
| 19528 | // Must be manual, otherwise destructor will screw us | ||
| 19529 | // return count being 0 is enough to keep things clean | ||
| 19530 | // but we will be thorough | ||
| 19531 | o.abandon(); | ||
| 19532 | return *this; | ||
| 19533 | } | ||
| 19534 | |||
| 19535 | namespace detail { | ||
| 19536 | template <typename... R> | ||
| 19537 | struct std_shim { | ||
| 19538 | unsafe_function lua_func_; | ||
| 19539 | |||
| 19540 | std_shim(unsafe_function lua_func) : lua_func_(std::move(lua_func)) { | ||
| 19541 | } | ||
| 19542 | |||
| 19543 | template <typename... Args> | ||
| 19544 | meta::return_type_t<R...> operator()(Args&&... args) { | ||
| 19545 | return lua_func_.call<R...>(std::forward<Args>(args)...); | ||
| 19546 | } | ||
| 19547 | }; | ||
| 19548 | |||
| 19549 | template <> | ||
| 19550 | struct std_shim<void> { | ||
| 19551 | unsafe_function lua_func_; | ||
| 19552 | |||
| 19553 | std_shim(unsafe_function lua_func) : lua_func_(std::move(lua_func)) { | ||
| 19554 | } | ||
| 19555 | |||
| 19556 | template <typename... Args> | ||
| 19557 | void operator()(Args&&... args) { | ||
| 19558 | lua_func_.call<void>(std::forward<Args>(args)...); | ||
| 19559 | } | ||
| 19560 | }; | ||
| 19561 | } // namespace detail | ||
| 19562 | |||
| 19563 | namespace stack { | ||
| 19564 | template <typename Signature> | ||
| 19565 | struct unqualified_getter<std::function<Signature>> { | ||
| 19566 | typedef meta::bind_traits<Signature> fx_t; | ||
| 19567 | typedef typename fx_t::args_list args_lists; | ||
| 19568 | typedef meta::tuple_types<typename fx_t::return_type> return_types; | ||
| 19569 | |||
| 19570 | template <typename... R> | ||
| 19571 | static std::function<Signature> get_std_func(types<R...>, lua_State* L, int index) { | ||
| 19572 | detail::std_shim<R...> fx(unsafe_function(L, index)); | ||
| 19573 | return fx; | ||
| 19574 | } | ||
| 19575 | |||
| 19576 | static std::function<Signature> get(lua_State* L, int index, record& tracking) { | ||
| 19577 | tracking.use(1); | ||
| 19578 | type t = type_of(L, index); | ||
| 19579 | if (t == type::none || t == type::lua_nil) { | ||
| 19580 | return nullptr; | ||
| 19581 | } | ||
| 19582 | return get_std_func(return_types(), L, index); | ||
| 19583 | } | ||
| 19584 | }; | ||
| 19585 | |||
| 19586 | template <typename Allocator> | ||
| 19587 | struct unqualified_getter<basic_bytecode<Allocator>> { | ||
| 19588 | static basic_bytecode<Allocator> get(lua_State* L, int index, record& tracking) { | ||
| 19589 | tracking.use(1); | ||
| 19590 | stack_function sf(L, index); | ||
| 19591 | return sf.dump(&dump_panic_on_error); | ||
| 19592 | } | ||
| 19593 | }; | ||
| 19594 | } // namespace stack | ||
| 19595 | |||
| 19596 | } // namespace sol | ||
| 19597 | |||
| 19598 | // end of sol/function.hpp | ||
| 19599 | |||
| 19600 | // beginning of sol/usertype.hpp | ||
| 19601 | |||
| 19602 | // beginning of sol/usertype_core.hpp | ||
| 19603 | |||
| 19604 | // beginning of sol/deprecate.hpp | ||
| 19605 | |||
| 19606 | #ifndef SOL_DEPRECATED | ||
| 19607 | #ifdef _MSC_VER | ||
| 19608 | #define SOL_DEPRECATED __declspec(deprecated) | ||
| 19609 | #elif __GNUC__ | ||
| 19610 | #define SOL_DEPRECATED __attribute__((deprecated)) | ||
| 19611 | #else | ||
| 19612 | #define SOL_DEPRECATED [[deprecated]] | ||
| 19613 | #endif // compilers | ||
| 19614 | #endif // SOL_DEPRECATED | ||
| 19615 | |||
| 19616 | namespace sol { | ||
| 19617 | namespace detail { | ||
| 19618 | template <typename T> | ||
| 19619 | struct SOL_DEPRECATED deprecate_type { | ||
| 19620 | using type = T; | ||
| 19621 | }; | ||
| 19622 | } | ||
| 19623 | } // namespace sol::detail | ||
| 19624 | |||
| 19625 | // end of sol/deprecate.hpp | ||
| 19626 | |||
| 19627 | // beginning of sol/usertype_container_launch.hpp | ||
| 19628 | |||
| 19629 | // beginning of sol/usertype_container.hpp | ||
| 19630 | |||
| 19631 | namespace sol { | ||
| 19632 | |||
| 19633 | template <typename T> | ||
| 19634 | struct usertype_container; | ||
| 19635 | |||
| 19636 | namespace container_detail { | ||
| 19637 | |||
| 19638 | template <typename T> | ||
| 19639 | struct has_clear_test { | ||
| 19640 | private: | ||
| 19641 | template <typename C> | ||
| 19642 | static meta::sfinae_yes_t test(decltype(&C::clear)); | ||
| 19643 | template <typename C> | ||
| 19644 | static meta::sfinae_no_t test(...); | ||
| 19645 | |||
| 19646 | public: | ||
| 19647 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19648 | }; | ||
| 19649 | |||
| 19650 | template <typename T> | ||
| 19651 | struct has_empty_test { | ||
| 19652 | private: | ||
| 19653 | template <typename C> | ||
| 19654 | static meta::sfinae_yes_t test(decltype(&C::empty)); | ||
| 19655 | template <typename C> | ||
| 19656 | static meta::sfinae_no_t test(...); | ||
| 19657 | |||
| 19658 | public: | ||
| 19659 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19660 | }; | ||
| 19661 | |||
| 19662 | template <typename T> | ||
| 19663 | struct has_erase_after_test { | ||
| 19664 | private: | ||
| 19665 | template <typename C> | ||
| 19666 | static meta::sfinae_yes_t test( | ||
| 19667 | decltype(std::declval<C>().erase_after(std::declval<std::add_rvalue_reference_t<typename C::const_iterator>>()))*); | ||
| 19668 | template <typename C> | ||
| 19669 | static meta::sfinae_no_t test(...); | ||
| 19670 | |||
| 19671 | public: | ||
| 19672 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19673 | }; | ||
| 19674 | |||
| 19675 | template <typename T, typename = void> | ||
| 19676 | struct has_find_test { | ||
| 19677 | private: | ||
| 19678 | template <typename C> | ||
| 19679 | static meta::sfinae_yes_t test(decltype(std::declval<C>().find(std::declval<std::add_rvalue_reference_t<typename C::value_type>>()))*); | ||
| 19680 | template <typename C> | ||
| 19681 | static meta::sfinae_no_t test(...); | ||
| 19682 | |||
| 19683 | public: | ||
| 19684 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19685 | }; | ||
| 19686 | |||
| 19687 | template <typename T> | ||
| 19688 | struct has_find_test<T, std::enable_if_t<meta::is_lookup<T>::value>> { | ||
| 19689 | private: | ||
| 19690 | template <typename C> | ||
| 19691 | static meta::sfinae_yes_t test(decltype(std::declval<C>().find(std::declval<std::add_rvalue_reference_t<typename C::key_type>>()))*); | ||
| 19692 | template <typename C> | ||
| 19693 | static meta::sfinae_no_t test(...); | ||
| 19694 | |||
| 19695 | public: | ||
| 19696 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19697 | }; | ||
| 19698 | |||
| 19699 | template <typename T> | ||
| 19700 | struct has_erase_test { | ||
| 19701 | private: | ||
| 19702 | template <typename C> | ||
| 19703 | static meta::sfinae_yes_t test(decltype(std::declval<C>().erase(std::declval<typename C::iterator>()))*); | ||
| 19704 | template <typename C> | ||
| 19705 | static meta::sfinae_no_t test(...); | ||
| 19706 | |||
| 19707 | public: | ||
| 19708 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19709 | }; | ||
| 19710 | |||
| 19711 | template <typename T> | ||
| 19712 | struct has_erase_key_test { | ||
| 19713 | private: | ||
| 19714 | template <typename C> | ||
| 19715 | static meta::sfinae_yes_t test(decltype(std::declval<C>().erase(std::declval<typename C::key_type>()))*); | ||
| 19716 | template <typename C> | ||
| 19717 | static meta::sfinae_no_t test(...); | ||
| 19718 | |||
| 19719 | public: | ||
| 19720 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19721 | }; | ||
| 19722 | |||
| 19723 | template <typename T> | ||
| 19724 | struct has_traits_find_test { | ||
| 19725 | private: | ||
| 19726 | template <typename C> | ||
| 19727 | static meta::sfinae_yes_t test(decltype(&C::find)); | ||
| 19728 | template <typename C> | ||
| 19729 | static meta::sfinae_no_t test(...); | ||
| 19730 | |||
| 19731 | public: | ||
| 19732 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19733 | }; | ||
| 19734 | |||
| 19735 | template <typename T> | ||
| 19736 | struct has_traits_index_of_test { | ||
| 19737 | private: | ||
| 19738 | template <typename C> | ||
| 19739 | static meta::sfinae_yes_t test(decltype(&C::index_of)); | ||
| 19740 | template <typename C> | ||
| 19741 | static meta::sfinae_no_t test(...); | ||
| 19742 | |||
| 19743 | public: | ||
| 19744 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19745 | }; | ||
| 19746 | |||
| 19747 | template <typename T> | ||
| 19748 | struct has_traits_insert_test { | ||
| 19749 | private: | ||
| 19750 | template <typename C> | ||
| 19751 | static meta::sfinae_yes_t test(decltype(&C::insert)); | ||
| 19752 | template <typename C> | ||
| 19753 | static meta::sfinae_no_t test(...); | ||
| 19754 | |||
| 19755 | public: | ||
| 19756 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19757 | }; | ||
| 19758 | |||
| 19759 | template <typename T> | ||
| 19760 | struct has_traits_erase_test { | ||
| 19761 | private: | ||
| 19762 | template <typename C> | ||
| 19763 | static meta::sfinae_yes_t test(decltype(&C::erase)); | ||
| 19764 | template <typename C> | ||
| 19765 | static meta::sfinae_no_t test(...); | ||
| 19766 | |||
| 19767 | public: | ||
| 19768 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19769 | }; | ||
| 19770 | |||
| 19771 | template <typename T> | ||
| 19772 | struct has_traits_index_set_test { | ||
| 19773 | private: | ||
| 19774 | template <typename C> | ||
| 19775 | static meta::sfinae_yes_t test(decltype(&C::index_set)); | ||
| 19776 | template <typename C> | ||
| 19777 | static meta::sfinae_no_t test(...); | ||
| 19778 | |||
| 19779 | public: | ||
| 19780 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19781 | }; | ||
| 19782 | |||
| 19783 | template <typename T> | ||
| 19784 | struct has_traits_index_get_test { | ||
| 19785 | private: | ||
| 19786 | template <typename C> | ||
| 19787 | static meta::sfinae_yes_t test(decltype(&C::index_get)); | ||
| 19788 | template <typename C> | ||
| 19789 | static meta::sfinae_no_t test(...); | ||
| 19790 | |||
| 19791 | public: | ||
| 19792 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19793 | }; | ||
| 19794 | |||
| 19795 | template <typename T> | ||
| 19796 | struct has_traits_set_test { | ||
| 19797 | private: | ||
| 19798 | template <typename C> | ||
| 19799 | static meta::sfinae_yes_t test(decltype(&C::set)); | ||
| 19800 | template <typename C> | ||
| 19801 | static meta::sfinae_no_t test(...); | ||
| 19802 | |||
| 19803 | public: | ||
| 19804 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19805 | }; | ||
| 19806 | |||
| 19807 | template <typename T> | ||
| 19808 | struct has_traits_get_test { | ||
| 19809 | private: | ||
| 19810 | template <typename C> | ||
| 19811 | static meta::sfinae_yes_t test(decltype(&C::get)); | ||
| 19812 | template <typename C> | ||
| 19813 | static meta::sfinae_no_t test(...); | ||
| 19814 | |||
| 19815 | public: | ||
| 19816 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19817 | }; | ||
| 19818 | |||
| 19819 | template <typename T> | ||
| 19820 | struct has_traits_at_test { | ||
| 19821 | private: | ||
| 19822 | template <typename C> | ||
| 19823 | static meta::sfinae_yes_t test(decltype(&C::at)); | ||
| 19824 | template <typename C> | ||
| 19825 | static meta::sfinae_no_t test(...); | ||
| 19826 | |||
| 19827 | public: | ||
| 19828 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19829 | }; | ||
| 19830 | |||
| 19831 | template <typename T> | ||
| 19832 | struct has_traits_pairs_test { | ||
| 19833 | private: | ||
| 19834 | template <typename C> | ||
| 19835 | static meta::sfinae_yes_t test(decltype(&C::pairs)); | ||
| 19836 | template <typename C> | ||
| 19837 | static meta::sfinae_no_t test(...); | ||
| 19838 | |||
| 19839 | public: | ||
| 19840 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19841 | }; | ||
| 19842 | |||
| 19843 | template <typename T> | ||
| 19844 | struct has_traits_ipairs_test { | ||
| 19845 | private: | ||
| 19846 | template <typename C> | ||
| 19847 | static meta::sfinae_yes_t test(decltype(&C::ipairs)); | ||
| 19848 | template <typename C> | ||
| 19849 | static meta::sfinae_no_t test(...); | ||
| 19850 | |||
| 19851 | public: | ||
| 19852 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19853 | }; | ||
| 19854 | |||
| 19855 | template <typename T> | ||
| 19856 | struct has_traits_next_test { | ||
| 19857 | private: | ||
| 19858 | template <typename C> | ||
| 19859 | static meta::sfinae_yes_t test(decltype(&C::next)); | ||
| 19860 | template <typename C> | ||
| 19861 | static meta::sfinae_no_t test(...); | ||
| 19862 | |||
| 19863 | public: | ||
| 19864 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19865 | }; | ||
| 19866 | |||
| 19867 | template <typename T> | ||
| 19868 | struct has_traits_add_test { | ||
| 19869 | private: | ||
| 19870 | template <typename C> | ||
| 19871 | static meta::sfinae_yes_t test(decltype(&C::add)); | ||
| 19872 | template <typename C> | ||
| 19873 | static meta::sfinae_no_t test(...); | ||
| 19874 | |||
| 19875 | public: | ||
| 19876 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19877 | }; | ||
| 19878 | |||
| 19879 | template <typename T> | ||
| 19880 | struct has_traits_size_test { | ||
| 19881 | private: | ||
| 19882 | template <typename C> | ||
| 19883 | static meta::sfinae_yes_t test(decltype(&C::size)); | ||
| 19884 | template <typename C> | ||
| 19885 | static meta::sfinae_no_t test(...); | ||
| 19886 | |||
| 19887 | public: | ||
| 19888 | static constexpr bool value = std::is_same_v<decltype(test<T>(0)), meta::sfinae_yes_t>; | ||
| 19889 | }; | ||
| 19890 | |||
| 19891 | template <typename T> | ||
| 19892 | using has_clear = meta::boolean<has_clear_test<T>::value>; | ||
| 19893 | |||
| 19894 | template <typename T> | ||
| 19895 | using has_empty = meta::boolean<has_empty_test<T>::value>; | ||
| 19896 | |||
| 19897 | template <typename T> | ||
| 19898 | using has_find = meta::boolean<has_find_test<T>::value>; | ||
| 19899 | |||
| 19900 | template <typename T> | ||
| 19901 | using has_erase = meta::boolean<has_erase_test<T>::value>; | ||
| 19902 | |||
| 19903 | template <typename T> | ||
| 19904 | using has_erase_key = meta::boolean<has_erase_key_test<T>::value>; | ||
| 19905 | |||
| 19906 | template <typename T> | ||
| 19907 | using has_erase_after = meta::boolean<has_erase_after_test<T>::value>; | ||
| 19908 | |||
| 19909 | template <typename T> | ||
| 19910 | using has_traits_get = meta::boolean<has_traits_get_test<T>::value>; | ||
| 19911 | |||
| 19912 | template <typename T> | ||
| 19913 | using has_traits_at = meta::boolean<has_traits_at_test<T>::value>; | ||
| 19914 | |||
| 19915 | template <typename T> | ||
| 19916 | using has_traits_set = meta::boolean<has_traits_set_test<T>::value>; | ||
| 19917 | |||
| 19918 | template <typename T> | ||
| 19919 | using has_traits_index_get = meta::boolean<has_traits_index_get_test<T>::value>; | ||
| 19920 | |||
| 19921 | template <typename T> | ||
| 19922 | using has_traits_index_set = meta::boolean<has_traits_index_set_test<T>::value>; | ||
| 19923 | |||
| 19924 | template <typename T> | ||
| 19925 | using has_traits_pairs = meta::boolean<has_traits_pairs_test<T>::value>; | ||
| 19926 | |||
| 19927 | template <typename T> | ||
| 19928 | using has_traits_ipairs = meta::boolean<has_traits_ipairs_test<T>::value>; | ||
| 19929 | |||
| 19930 | template <typename T> | ||
| 19931 | using has_traits_next = meta::boolean<has_traits_next_test<T>::value>; | ||
| 19932 | |||
| 19933 | template <typename T> | ||
| 19934 | using has_traits_add = meta::boolean<has_traits_add_test<T>::value>; | ||
| 19935 | |||
| 19936 | template <typename T> | ||
| 19937 | using has_traits_size = meta::boolean<has_traits_size_test<T>::value>; | ||
| 19938 | |||
| 19939 | template <typename T> | ||
| 19940 | using has_traits_clear = has_clear<T>; | ||
| 19941 | |||
| 19942 | template <typename T> | ||
| 19943 | using has_traits_empty = has_empty<T>; | ||
| 19944 | |||
| 19945 | template <typename T> | ||
| 19946 | using has_traits_find = meta::boolean<has_traits_find_test<T>::value>; | ||
| 19947 | |||
| 19948 | template <typename T> | ||
| 19949 | using has_traits_index_of = meta::boolean<has_traits_index_of_test<T>::value>; | ||
| 19950 | |||
| 19951 | template <typename T> | ||
| 19952 | using has_traits_insert = meta::boolean<has_traits_insert_test<T>::value>; | ||
| 19953 | |||
| 19954 | template <typename T> | ||
| 19955 | using has_traits_erase = meta::boolean<has_traits_erase_test<T>::value>; | ||
| 19956 | |||
| 19957 | template <typename T> | ||
| 19958 | struct is_forced_container : is_container<T> {}; | ||
| 19959 | |||
| 19960 | template <typename T> | ||
| 19961 | struct is_forced_container<as_container_t<T>> : std::true_type {}; | ||
| 19962 | |||
| 19963 | template <typename T> | ||
| 19964 | struct container_decay { | ||
| 19965 | typedef T type; | ||
| 19966 | }; | ||
| 19967 | |||
| 19968 | template <typename T> | ||
| 19969 | struct container_decay<as_container_t<T>> { | ||
| 19970 | typedef T type; | ||
| 19971 | }; | ||
| 19972 | |||
| 19973 | template <typename T> | ||
| 19974 | using container_decay_t = typename container_decay<meta::unqualified_t<T>>::type; | ||
| 19975 | |||
| 19976 | template <typename T> | ||
| 19977 | decltype(auto) get_key(std::false_type, T&& t) { | ||
| 19978 | return std::forward<T>(t); | ||
| 19979 | } | ||
| 19980 | |||
| 19981 | template <typename T> | ||
| 19982 | decltype(auto) get_key(std::true_type, T&& t) { | ||
| 19983 | return t.first; | ||
| 19984 | } | ||
| 19985 | |||
| 19986 | template <typename T> | ||
| 19987 | decltype(auto) get_value(std::false_type, T&& t) { | ||
| 19988 | return std::forward<T>(t); | ||
| 19989 | } | ||
| 19990 | |||
| 19991 | template <typename T> | ||
| 19992 | decltype(auto) get_value(std::true_type, T&& t) { | ||
| 19993 | return t.second; | ||
| 19994 | } | ||
| 19995 | |||
| 19996 | template <typename X, typename = void> | ||
| 19997 | struct usertype_container_default { | ||
| 19998 | private: | ||
| 19999 | typedef std::remove_pointer_t<meta::unwrap_unqualified_t<X>> T; | ||
| 20000 | |||
| 20001 | public: | ||
| 20002 | typedef lua_nil_t iterator; | ||
| 20003 | typedef lua_nil_t value_type; | ||
| 20004 | |||
| 20005 | static int at(lua_State* L) { | ||
| 20006 | return luaL_error(L, "sol: cannot call 'at(index)' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20007 | } | ||
| 20008 | |||
| 20009 | static int get(lua_State* L) { | ||
| 20010 | return luaL_error(L, "sol: cannot call 'get(key)' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20011 | } | ||
| 20012 | |||
| 20013 | static int index_get(lua_State* L) { | ||
| 20014 | return luaL_error(L, "sol: cannot call 'container[key]' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20015 | } | ||
| 20016 | |||
| 20017 | static int set(lua_State* L) { | ||
| 20018 | return luaL_error(L, "sol: cannot call 'set(key, value)' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20019 | } | ||
| 20020 | |||
| 20021 | static int index_set(lua_State* L) { | ||
| 20022 | return luaL_error( | ||
| 20023 | L, "sol: cannot call 'container[key] = value' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20024 | } | ||
| 20025 | |||
| 20026 | static int add(lua_State* L) { | ||
| 20027 | return luaL_error(L, "sol: cannot call 'add' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20028 | } | ||
| 20029 | |||
| 20030 | static int insert(lua_State* L) { | ||
| 20031 | return luaL_error(L, "sol: cannot call 'insert' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20032 | } | ||
| 20033 | |||
| 20034 | static int find(lua_State* L) { | ||
| 20035 | return luaL_error(L, "sol: cannot call 'find' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20036 | } | ||
| 20037 | |||
| 20038 | static int index_of(lua_State* L) { | ||
| 20039 | return luaL_error(L, "sol: cannot call 'index_of' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20040 | } | ||
| 20041 | |||
| 20042 | static int size(lua_State* L) { | ||
| 20043 | return luaL_error(L, "sol: cannot call 'end' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20044 | } | ||
| 20045 | |||
| 20046 | static int clear(lua_State* L) { | ||
| 20047 | return luaL_error(L, "sol: cannot call 'clear' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20048 | } | ||
| 20049 | |||
| 20050 | static int empty(lua_State* L) { | ||
| 20051 | return luaL_error(L, "sol: cannot call 'empty' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20052 | } | ||
| 20053 | |||
| 20054 | static int erase(lua_State* L) { | ||
| 20055 | return luaL_error(L, "sol: cannot call 'erase' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20056 | } | ||
| 20057 | |||
| 20058 | static int next(lua_State* L) { | ||
| 20059 | return luaL_error(L, "sol: cannot call 'next' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20060 | } | ||
| 20061 | |||
| 20062 | static int pairs(lua_State* L) { | ||
| 20063 | return luaL_error(L, "sol: cannot call '__pairs/pairs' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20064 | } | ||
| 20065 | |||
| 20066 | static int ipairs(lua_State* L) { | ||
| 20067 | return luaL_error(L, "sol: cannot call '__ipairs' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20068 | } | ||
| 20069 | |||
| 20070 | static iterator begin(lua_State* L, T&) { | ||
| 20071 | luaL_error(L, "sol: cannot call 'being' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20072 | return lua_nil; | ||
| 20073 | } | ||
| 20074 | |||
| 20075 | static iterator end(lua_State* L, T&) { | ||
| 20076 | luaL_error(L, "sol: cannot call 'end' on type '%s': it is not recognized as a container", detail::demangle<T>().c_str()); | ||
| 20077 | return lua_nil; | ||
| 20078 | } | ||
| 20079 | }; | ||
| 20080 | |||
| 20081 | template <typename X> | ||
| 20082 | struct usertype_container_default<X, | ||
| 20083 | std::enable_if_t<meta::all<is_forced_container<meta::unqualified_t<X>>, meta::has_value_type<meta::unqualified_t<container_decay_t<X>>>, | ||
| 20084 | meta::has_iterator<meta::unqualified_t<container_decay_t<X>>>>::value>> { | ||
| 20085 | private: | ||
| 20086 | using T = std::remove_pointer_t<meta::unwrap_unqualified_t<container_decay_t<X>>>; | ||
| 20087 | |||
| 20088 | private: | ||
| 20089 | using deferred_uc = usertype_container<X>; | ||
| 20090 | using is_associative = meta::is_associative<T>; | ||
| 20091 | using is_lookup = meta::is_lookup<T>; | ||
| 20092 | using is_ordered = meta::is_ordered<T>; | ||
| 20093 | using is_matched_lookup = meta::is_matched_lookup<T>; | ||
| 20094 | using iterator = typename T::iterator; | ||
| 20095 | using value_type = typename T::value_type; | ||
| 20096 | typedef meta::conditional_t<is_matched_lookup::value, std::pair<value_type, value_type>, | ||
| 20097 | meta::conditional_t<is_associative::value || is_lookup::value, value_type, std::pair<std::ptrdiff_t, value_type>>> | ||
| 20098 | KV; | ||
| 20099 | typedef typename KV::first_type K; | ||
| 20100 | typedef typename KV::second_type V; | ||
| 20101 | typedef meta::conditional_t<is_matched_lookup::value, std::ptrdiff_t, K> next_K; | ||
| 20102 | typedef decltype(*std::declval<iterator&>()) iterator_return; | ||
| 20103 | typedef meta::conditional_t<is_associative::value || is_matched_lookup::value, std::add_lvalue_reference_t<V>, | ||
| 20104 | meta::conditional_t<is_lookup::value, V, iterator_return>> | ||
| 20105 | captured_type; | ||
| 20106 | typedef typename meta::iterator_tag<iterator>::type iterator_category; | ||
| 20107 | typedef std::is_same<iterator_category, std::input_iterator_tag> is_input_iterator; | ||
| 20108 | typedef meta::conditional_t<is_input_iterator::value, V, decltype(detail::deref_move_only(std::declval<captured_type>()))> push_type; | ||
| 20109 | typedef std::is_copy_assignable<V> is_copyable; | ||
| 20110 | typedef meta::neg<meta::any<std::is_const<V>, std::is_const<std::remove_reference_t<iterator_return>>, meta::neg<is_copyable>>> is_writable; | ||
| 20111 | typedef meta::unqualified_t<decltype(get_key(is_associative(), std::declval<std::add_lvalue_reference_t<value_type>>()))> key_type; | ||
| 20112 | typedef meta::all<std::is_integral<K>, meta::neg<meta::any<is_associative, is_lookup>>> is_linear_integral; | ||
| 20113 | |||
| 20114 | struct iter { | ||
| 20115 | T& source; | ||
| 20116 | iterator it; | ||
| 20117 | std::size_t i; | ||
| 20118 | |||
| 20119 | iter(T& source, iterator it) : source(source), it(std::move(it)), i(0) { | ||
| 20120 | } | ||
| 20121 | |||
| 20122 | ~iter() { | ||
| 20123 | } | ||
| 20124 | }; | ||
| 20125 | |||
| 20126 | static auto& get_src(lua_State* L) { | ||
| 20127 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 20128 | auto p = stack::unqualified_check_get<T*>(L, 1); | ||
| 20129 | if (!p) { | ||
| 20130 | luaL_error(L, | ||
| 20131 | "sol: 'self' is not of type '%s' (pass 'self' as first argument with ':' or call on proper type)", | ||
| 20132 | detail::demangle<T>().c_str()); | ||
| 20133 | } | ||
| 20134 | if (p.value() == nullptr) { | ||
| 20135 | luaL_error( | ||
| 20136 | L, "sol: 'self' argument is nil (pass 'self' as first argument with ':' or call on a '%s' type)", detail::demangle<T>().c_str()); | ||
| 20137 | } | ||
| 20138 | return *p.value(); | ||
| 20139 | #else | ||
| 20140 | return stack::unqualified_get<T>(L, 1); | ||
| 20141 | #endif // Safe getting with error | ||
| 20142 | } | ||
| 20143 | |||
| 20144 | static detail::error_result at_category(std::input_iterator_tag, lua_State* L, T& self, std::ptrdiff_t pos) { | ||
| 20145 | pos += deferred_uc::index_adjustment(L, self); | ||
| 20146 | if (pos < 0) { | ||
| 20147 | return stack::push(L, lua_nil); | ||
| 20148 | } | ||
| 20149 | auto it = deferred_uc::begin(L, self); | ||
| 20150 | auto e = deferred_uc::end(L, self); | ||
| 20151 | if (it == e) { | ||
| 20152 | return stack::push(L, lua_nil); | ||
| 20153 | } | ||
| 20154 | while (pos > 0) { | ||
| 20155 | --pos; | ||
| 20156 | ++it; | ||
| 20157 | if (it == e) { | ||
| 20158 | return stack::push(L, lua_nil); | ||
| 20159 | } | ||
| 20160 | } | ||
| 20161 | return get_associative(is_associative(), L, it); | ||
| 20162 | } | ||
| 20163 | |||
| 20164 | static detail::error_result at_category(std::random_access_iterator_tag, lua_State* L, T& self, std::ptrdiff_t pos) { | ||
| 20165 | std::ptrdiff_t len = static_cast<std::ptrdiff_t>(size_start(L, self)); | ||
| 20166 | pos += deferred_uc::index_adjustment(L, self); | ||
| 20167 | if (pos < 0 || pos >= len) { | ||
| 20168 | return stack::push(L, lua_nil); | ||
| 20169 | } | ||
| 20170 | auto it = std::next(deferred_uc::begin(L, self), pos); | ||
| 20171 | return get_associative(is_associative(), L, it); | ||
| 20172 | } | ||
| 20173 | |||
| 20174 | static detail::error_result at_start(lua_State* L, T& self, std::ptrdiff_t pos) { | ||
| 20175 | return at_category(iterator_category(), L, self, pos); | ||
| 20176 | } | ||
| 20177 | |||
| 20178 | template <typename Iter> | ||
| 20179 | static detail::error_result get_associative(std::true_type, lua_State* L, Iter& it) { | ||
| 20180 | decltype(auto) v = *it; | ||
| 20181 | return stack::stack_detail::push_reference<push_type>(L, detail::deref_move_only(v.second)); | ||
| 20182 | } | ||
| 20183 | |||
| 20184 | template <typename Iter> | ||
| 20185 | static detail::error_result get_associative(std::false_type, lua_State* L, Iter& it) { | ||
| 20186 | return stack::stack_detail::push_reference<push_type>(L, detail::deref_move_only(*it)); | ||
| 20187 | } | ||
| 20188 | |||
| 20189 | static detail::error_result get_category(std::input_iterator_tag, lua_State* L, T& self, K& key) { | ||
| 20190 | key += deferred_uc::index_adjustment(L, self); | ||
| 20191 | if (key < 0) { | ||
| 20192 | return stack::push(L, lua_nil); | ||
| 20193 | } | ||
| 20194 | auto it = deferred_uc::begin(L, self); | ||
| 20195 | auto e = deferred_uc::end(L, self); | ||
| 20196 | if (it == e) { | ||
| 20197 | return stack::push(L, lua_nil); | ||
| 20198 | } | ||
| 20199 | while (key > 0) { | ||
| 20200 | --key; | ||
| 20201 | ++it; | ||
| 20202 | if (it == e) { | ||
| 20203 | return stack::push(L, lua_nil); | ||
| 20204 | } | ||
| 20205 | } | ||
| 20206 | return get_associative(is_associative(), L, it); | ||
| 20207 | } | ||
| 20208 | |||
| 20209 | static detail::error_result get_category(std::random_access_iterator_tag, lua_State* L, T& self, K& key) { | ||
| 20210 | std::ptrdiff_t len = static_cast<std::ptrdiff_t>(size_start(L, self)); | ||
| 20211 | key += deferred_uc::index_adjustment(L, self); | ||
| 20212 | if (key < 0 || key >= len) { | ||
| 20213 | return stack::push(L, lua_nil); | ||
| 20214 | } | ||
| 20215 | auto it = std::next(deferred_uc::begin(L, self), key); | ||
| 20216 | return get_associative(is_associative(), L, it); | ||
| 20217 | } | ||
| 20218 | |||
| 20219 | static detail::error_result get_it(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20220 | return get_category(iterator_category(), L, self, key); | ||
| 20221 | } | ||
| 20222 | |||
| 20223 | static detail::error_result get_comparative(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20224 | auto fx = [&](const value_type& r) -> bool { return key == get_key(is_associative(), r); }; | ||
| 20225 | auto e = deferred_uc::end(L, self); | ||
| 20226 | auto it = std::find_if(deferred_uc::begin(L, self), e, std::ref(fx)); | ||
| 20227 | if (it == e) { | ||
| 20228 | return stack::push(L, lua_nil); | ||
| 20229 | } | ||
| 20230 | return get_associative(is_associative(), L, it); | ||
| 20231 | } | ||
| 20232 | |||
| 20233 | static detail::error_result get_comparative(std::false_type, lua_State*, T&, K&) { | ||
| 20234 | return detail::error_result("cannot get this key on '%s': no suitable way to increment iterator and compare to key value '%s'", | ||
| 20235 | detail::demangle<T>().data(), | ||
| 20236 | detail::demangle<K>().data()); | ||
| 20237 | } | ||
| 20238 | |||
| 20239 | static detail::error_result get_it(std::false_type, lua_State* L, T& self, K& key) { | ||
| 20240 | return get_comparative(meta::supports_op_equal<K, key_type>(), L, self, key); | ||
| 20241 | } | ||
| 20242 | |||
| 20243 | static detail::error_result set_associative(std::true_type, iterator& it, stack_object value) { | ||
| 20244 | decltype(auto) v = *it; | ||
| 20245 | v.second = value.as<V>(); | ||
| 20246 | return {}; | ||
| 20247 | } | ||
| 20248 | |||
| 20249 | static detail::error_result set_associative(std::false_type, iterator& it, stack_object value) { | ||
| 20250 | decltype(auto) v = *it; | ||
| 20251 | v = value.as<V>(); | ||
| 20252 | return {}; | ||
| 20253 | } | ||
| 20254 | |||
| 20255 | static detail::error_result set_writable(std::true_type, lua_State*, T&, iterator& it, stack_object value) { | ||
| 20256 | return set_associative(is_associative(), it, std::move(value)); | ||
| 20257 | } | ||
| 20258 | |||
| 20259 | static detail::error_result set_writable(std::false_type, lua_State*, T&, iterator&, stack_object) { | ||
| 20260 | return detail::error_result( | ||
| 20261 | "cannot perform a 'set': '%s's iterator reference is not writable (non-copy-assignable or const)", detail::demangle<T>().data()); | ||
| 20262 | } | ||
| 20263 | |||
| 20264 | static detail::error_result set_category(std::input_iterator_tag, lua_State* L, T& self, stack_object okey, stack_object value) { | ||
| 20265 | decltype(auto) key = okey.as<K>(); | ||
| 20266 | key += deferred_uc::index_adjustment(L, self); | ||
| 20267 | auto e = deferred_uc::end(L, self); | ||
| 20268 | auto it = deferred_uc::begin(L, self); | ||
| 20269 | auto backit = it; | ||
| 20270 | for (; key > 0 && it != e; --key, ++it) { | ||
| 20271 | backit = it; | ||
| 20272 | } | ||
| 20273 | if (it == e) { | ||
| 20274 | if (key == 0) { | ||
| 20275 | return add_copyable(is_copyable(), L, self, std::move(value), meta::has_insert_after<T>::value ? backit : it); | ||
| 20276 | } | ||
| 20277 | return detail::error_result("out of bounds (too big) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 20278 | } | ||
| 20279 | return set_writable(is_writable(), L, self, it, std::move(value)); | ||
| 20280 | } | ||
| 20281 | |||
| 20282 | static detail::error_result set_category(std::random_access_iterator_tag, lua_State* L, T& self, stack_object okey, stack_object value) { | ||
| 20283 | decltype(auto) key = okey.as<K>(); | ||
| 20284 | key += deferred_uc::index_adjustment(L, self); | ||
| 20285 | if (key < 0) { | ||
| 20286 | return detail::error_result("sol: out of bounds (too small) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 20287 | } | ||
| 20288 | std::ptrdiff_t len = static_cast<std::ptrdiff_t>(size_start(L, self)); | ||
| 20289 | if (key == len) { | ||
| 20290 | return add_copyable(is_copyable(), L, self, std::move(value)); | ||
| 20291 | } | ||
| 20292 | else if (key >= len) { | ||
| 20293 | return detail::error_result("sol: out of bounds (too big) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 20294 | } | ||
| 20295 | auto it = std::next(deferred_uc::begin(L, self), key); | ||
| 20296 | return set_writable(is_writable(), L, self, it, std::move(value)); | ||
| 20297 | } | ||
| 20298 | |||
| 20299 | static detail::error_result set_comparative(std::true_type, lua_State* L, T& self, stack_object okey, stack_object value) { | ||
| 20300 | decltype(auto) key = okey.as<K>(); | ||
| 20301 | if (!is_writable::value) { | ||
| 20302 | return detail::error_result( | ||
| 20303 | "cannot perform a 'set': '%s's iterator reference is not writable (non-copy-assignable or const)", detail::demangle<T>().data()); | ||
| 20304 | } | ||
| 20305 | auto fx = [&](const value_type& r) -> bool { return key == get_key(is_associative(), r); }; | ||
| 20306 | auto e = deferred_uc::end(L, self); | ||
| 20307 | auto it = std::find_if(deferred_uc::begin(L, self), e, std::ref(fx)); | ||
| 20308 | if (it == e) { | ||
| 20309 | return {}; | ||
| 20310 | } | ||
| 20311 | return set_writable(is_writable(), L, self, it, std::move(value)); | ||
| 20312 | } | ||
| 20313 | |||
| 20314 | static detail::error_result set_comparative(std::false_type, lua_State*, T&, stack_object, stack_object) { | ||
| 20315 | return detail::error_result("cannot set this value on '%s': no suitable way to increment iterator or compare to '%s' key", | ||
| 20316 | detail::demangle<T>().data(), | ||
| 20317 | detail::demangle<K>().data()); | ||
| 20318 | } | ||
| 20319 | |||
| 20320 | template <typename Iter> | ||
| 20321 | static detail::error_result set_associative_insert(std::true_type, lua_State*, T& self, Iter& it, K& key, stack_object value) { | ||
| 20322 | if constexpr (meta::has_insert<T>::value) { | ||
| 20323 | self.insert(it, value_type(key, value.as<V>())); | ||
| 20324 | return {}; | ||
| 20325 | } | ||
| 20326 | else { | ||
| 20327 | (void)self; | ||
| 20328 | (void)it; | ||
| 20329 | (void)key; | ||
| 20330 | return detail::error_result( | ||
| 20331 | "cannot call 'set' on '%s': there is no 'insert' function on this associative type", detail::demangle<T>().c_str()); | ||
| 20332 | } | ||
| 20333 | } | ||
| 20334 | |||
| 20335 | template <typename Iter> | ||
| 20336 | static detail::error_result set_associative_insert(std::false_type, lua_State*, T& self, Iter& it, K& key, stack_object) { | ||
| 20337 | if constexpr (meta::has_insert<T>::value) { | ||
| 20338 | self.insert(it, key); | ||
| 20339 | return {}; | ||
| 20340 | } | ||
| 20341 | else { | ||
| 20342 | (void)self; | ||
| 20343 | (void)it; | ||
| 20344 | (void)key; | ||
| 20345 | return detail::error_result( | ||
| 20346 | "cannot call 'set' on '%s': there is no 'insert' function on this non-associative type", detail::demangle<T>().c_str()); | ||
| 20347 | } | ||
| 20348 | } | ||
| 20349 | |||
| 20350 | static detail::error_result set_associative_find(std::true_type, lua_State* L, T& self, stack_object okey, stack_object value) { | ||
| 20351 | decltype(auto) key = okey.as<K>(); | ||
| 20352 | auto it = self.find(key); | ||
| 20353 | if (it == deferred_uc::end(L, self)) { | ||
| 20354 | return set_associative_insert(is_associative(), L, self, it, key, std::move(value)); | ||
| 20355 | } | ||
| 20356 | return set_writable(is_writable(), L, self, it, std::move(value)); | ||
| 20357 | } | ||
| 20358 | |||
| 20359 | static detail::error_result set_associative_find(std::false_type, lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20360 | return set_comparative(meta::supports_op_equal<K, key_type>(), L, self, std::move(key), std::move(value)); | ||
| 20361 | } | ||
| 20362 | |||
| 20363 | static detail::error_result set_it(std::true_type, lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20364 | return set_category(iterator_category(), L, self, std::move(key), std::move(value)); | ||
| 20365 | } | ||
| 20366 | |||
| 20367 | static detail::error_result set_it(std::false_type, lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20368 | return set_associative_find(meta::all<has_find<T>, meta::any<is_associative, is_lookup>>(), L, self, std::move(key), std::move(value)); | ||
| 20369 | } | ||
| 20370 | |||
| 20371 | template <bool idx_of = false> | ||
| 20372 | static detail::error_result find_has_associative_lookup(std::true_type, lua_State* L, T& self) { | ||
| 20373 | if constexpr (!is_ordered::value && idx_of) { | ||
| 20374 | (void)L; | ||
| 20375 | (void)self; | ||
| 20376 | return detail::error_result("cannot perform an 'index_of': '%s's is not an ordered container", detail::demangle<T>().data()); | ||
| 20377 | } | ||
| 20378 | else { | ||
| 20379 | decltype(auto) key = stack::unqualified_get<K>(L, 2); | ||
| 20380 | auto it = self.find(key); | ||
| 20381 | if (it == deferred_uc::end(L, self)) { | ||
| 20382 | return stack::push(L, lua_nil); | ||
| 20383 | } | ||
| 20384 | if constexpr (idx_of) { | ||
| 20385 | auto dist = std::distance(deferred_uc::begin(L, self), it); | ||
| 20386 | dist -= deferred_uc::index_adjustment(L, self); | ||
| 20387 | return stack::push(L, dist); | ||
| 20388 | } | ||
| 20389 | else { | ||
| 20390 | return get_associative(is_associative(), L, it); | ||
| 20391 | } | ||
| 20392 | } | ||
| 20393 | } | ||
| 20394 | |||
| 20395 | template <bool idx_of = false> | ||
| 20396 | static detail::error_result find_has_associative_lookup(std::false_type, lua_State* L, T& self) { | ||
| 20397 | if constexpr (!is_ordered::value && idx_of) { | ||
| 20398 | (void)L; | ||
| 20399 | (void)self; | ||
| 20400 | return detail::error_result("cannot perform an 'index_of': '%s's is not an ordered container", detail::demangle<T>().data()); | ||
| 20401 | } | ||
| 20402 | else { | ||
| 20403 | decltype(auto) value = stack::unqualified_get<V>(L, 2); | ||
| 20404 | auto it = self.find(value); | ||
| 20405 | if (it == deferred_uc::end(L, self)) { | ||
| 20406 | return stack::push(L, lua_nil); | ||
| 20407 | } | ||
| 20408 | if constexpr (idx_of) { | ||
| 20409 | auto dist = std::distance(deferred_uc::begin(L, self), it); | ||
| 20410 | dist -= deferred_uc::index_adjustment(L, self); | ||
| 20411 | return stack::push(L, dist); | ||
| 20412 | } | ||
| 20413 | else { | ||
| 20414 | return get_associative(is_associative(), L, it); | ||
| 20415 | } | ||
| 20416 | } | ||
| 20417 | } | ||
| 20418 | |||
| 20419 | template <bool idx_of = false> | ||
| 20420 | static detail::error_result find_has(std::true_type, lua_State* L, T& self) { | ||
| 20421 | return find_has_associative_lookup<idx_of>(meta::any<is_lookup, is_associative>(), L, self); | ||
| 20422 | } | ||
| 20423 | |||
| 20424 | template <typename Iter> | ||
| 20425 | static detail::error_result find_associative_lookup(std::true_type, lua_State* L, T&, Iter& it, std::size_t) { | ||
| 20426 | return get_associative(is_associative(), L, it); | ||
| 20427 | } | ||
| 20428 | |||
| 20429 | template <typename Iter> | ||
| 20430 | static detail::error_result find_associative_lookup(std::false_type, lua_State* L, T& self, Iter&, std::size_t idx) { | ||
| 20431 | idx -= deferred_uc::index_adjustment(L, self); | ||
| 20432 | return stack::push(L, idx); | ||
| 20433 | } | ||
| 20434 | |||
| 20435 | template <bool = false> | ||
| 20436 | static detail::error_result find_comparative(std::false_type, lua_State*, T&) { | ||
| 20437 | return detail::error_result("cannot call 'find' on '%s': there is no 'find' function and the value_type is not equality comparable", | ||
| 20438 | detail::demangle<T>().c_str()); | ||
| 20439 | } | ||
| 20440 | |||
| 20441 | template <bool idx_of = false> | ||
| 20442 | static detail::error_result find_comparative(std::true_type, lua_State* L, T& self) { | ||
| 20443 | decltype(auto) value = stack::unqualified_get<V>(L, 2); | ||
| 20444 | auto it = deferred_uc::begin(L, self); | ||
| 20445 | auto e = deferred_uc::end(L, self); | ||
| 20446 | std::size_t idx = 0; | ||
| 20447 | for (;; ++it, ++idx) { | ||
| 20448 | if (it == e) { | ||
| 20449 | return stack::push(L, lua_nil); | ||
| 20450 | } | ||
| 20451 | if (value == get_value(is_associative(), *it)) { | ||
| 20452 | break; | ||
| 20453 | } | ||
| 20454 | } | ||
| 20455 | return find_associative_lookup(meta::all<meta::boolean<!idx_of>, meta::any<is_lookup, is_associative>>(), L, self, it, idx); | ||
| 20456 | } | ||
| 20457 | |||
| 20458 | template <bool idx_of = false> | ||
| 20459 | static detail::error_result find_has(std::false_type, lua_State* L, T& self) { | ||
| 20460 | return find_comparative<idx_of>(meta::supports_op_equal<V>(), L, self); | ||
| 20461 | } | ||
| 20462 | |||
| 20463 | template <typename Iter> | ||
| 20464 | static detail::error_result add_insert_after(std::false_type, lua_State* L, T& self, stack_object value, Iter&) { | ||
| 20465 | return add_insert_after(std::false_type(), L, self, value); | ||
| 20466 | } | ||
| 20467 | |||
| 20468 | static detail::error_result add_insert_after(std::false_type, lua_State*, T&, stack_object) { | ||
| 20469 | return detail::error_result("cannot call 'add' on type '%s': no suitable insert/push_back C++ functions", detail::demangle<T>().data()); | ||
| 20470 | } | ||
| 20471 | |||
| 20472 | template <typename Iter> | ||
| 20473 | static detail::error_result add_insert_after(std::true_type, lua_State*, T& self, stack_object value, Iter& pos) { | ||
| 20474 | self.insert_after(pos, value.as<V>()); | ||
| 20475 | return {}; | ||
| 20476 | } | ||
| 20477 | |||
| 20478 | static detail::error_result add_insert_after(std::true_type, lua_State* L, T& self, stack_object value) { | ||
| 20479 | auto backit = self.before_begin(); | ||
| 20480 | { | ||
| 20481 | auto e = deferred_uc::end(L, self); | ||
| 20482 | for (auto it = deferred_uc::begin(L, self); it != e; ++backit, ++it) { | ||
| 20483 | } | ||
| 20484 | } | ||
| 20485 | return add_insert_after(std::true_type(), L, self, value, backit); | ||
| 20486 | } | ||
| 20487 | |||
| 20488 | template <typename Iter> | ||
| 20489 | static detail::error_result add_insert(std::true_type, lua_State*, T& self, stack_object value, Iter& pos) { | ||
| 20490 | self.insert(pos, value.as<V>()); | ||
| 20491 | return {}; | ||
| 20492 | } | ||
| 20493 | |||
| 20494 | static detail::error_result add_insert(std::true_type, lua_State* L, T& self, stack_object value) { | ||
| 20495 | auto pos = deferred_uc::end(L, self); | ||
| 20496 | return add_insert(std::true_type(), L, self, value, pos); | ||
| 20497 | } | ||
| 20498 | |||
| 20499 | template <typename Iter> | ||
| 20500 | static detail::error_result add_insert(std::false_type, lua_State* L, T& self, stack_object value, Iter& pos) { | ||
| 20501 | return add_insert_after(meta::has_insert_after<T>(), L, self, std::move(value), pos); | ||
| 20502 | } | ||
| 20503 | |||
| 20504 | static detail::error_result add_insert(std::false_type, lua_State* L, T& self, stack_object value) { | ||
| 20505 | return add_insert_after(meta::has_insert_after<T>(), L, self, std::move(value)); | ||
| 20506 | } | ||
| 20507 | |||
| 20508 | template <typename Iter> | ||
| 20509 | static detail::error_result add_push_back(std::true_type, lua_State*, T& self, stack_object value, Iter&) { | ||
| 20510 | self.push_back(value.as<V>()); | ||
| 20511 | return {}; | ||
| 20512 | } | ||
| 20513 | |||
| 20514 | static detail::error_result add_push_back(std::true_type, lua_State*, T& self, stack_object value) { | ||
| 20515 | self.push_back(value.as<V>()); | ||
| 20516 | return {}; | ||
| 20517 | } | ||
| 20518 | |||
| 20519 | template <typename Iter> | ||
| 20520 | static detail::error_result add_push_back(std::false_type, lua_State* L, T& self, stack_object value, Iter& pos) { | ||
| 20521 | return add_insert(meta::has_insert<T>(), L, self, value, pos); | ||
| 20522 | } | ||
| 20523 | |||
| 20524 | static detail::error_result add_push_back(std::false_type, lua_State* L, T& self, stack_object value) { | ||
| 20525 | return add_insert(meta::has_insert<T>(), L, self, value); | ||
| 20526 | } | ||
| 20527 | |||
| 20528 | template <typename Iter> | ||
| 20529 | static detail::error_result add_associative(std::true_type, lua_State* L, T& self, stack_object key, Iter& pos) { | ||
| 20530 | if constexpr (meta::has_insert<T>::value) { | ||
| 20531 | self.insert(pos, value_type(key.as<K>(), stack::unqualified_get<V>(L, 3))); | ||
| 20532 | return {}; | ||
| 20533 | } | ||
| 20534 | else { | ||
| 20535 | (void)L; | ||
| 20536 | (void)self; | ||
| 20537 | (void)key; | ||
| 20538 | (void)pos; | ||
| 20539 | return detail::error_result( | ||
| 20540 | "cannot call 'insert' on '%s': there is no 'insert' function on this associative type", detail::demangle<T>().c_str()); | ||
| 20541 | } | ||
| 20542 | } | ||
| 20543 | |||
| 20544 | static detail::error_result add_associative(std::true_type, lua_State* L, T& self, stack_object key) { | ||
| 20545 | auto pos = deferred_uc::end(L, self); | ||
| 20546 | return add_associative(std::true_type(), L, self, std::move(key), pos); | ||
| 20547 | } | ||
| 20548 | |||
| 20549 | template <typename Iter> | ||
| 20550 | static detail::error_result add_associative(std::false_type, lua_State* L, T& self, stack_object value, Iter& pos) { | ||
| 20551 | return add_push_back(meta::has_push_back<T>(), L, self, value, pos); | ||
| 20552 | } | ||
| 20553 | |||
| 20554 | static detail::error_result add_associative(std::false_type, lua_State* L, T& self, stack_object value) { | ||
| 20555 | return add_push_back(meta::has_push_back<T>(), L, self, value); | ||
| 20556 | } | ||
| 20557 | |||
| 20558 | template <typename Iter> | ||
| 20559 | static detail::error_result add_copyable(std::true_type, lua_State* L, T& self, stack_object value, Iter& pos) { | ||
| 20560 | return add_associative(is_associative(), L, self, std::move(value), pos); | ||
| 20561 | } | ||
| 20562 | |||
| 20563 | static detail::error_result add_copyable(std::true_type, lua_State* L, T& self, stack_object value) { | ||
| 20564 | return add_associative(is_associative(), L, self, value); | ||
| 20565 | } | ||
| 20566 | |||
| 20567 | template <typename Iter> | ||
| 20568 | static detail::error_result add_copyable(std::false_type, lua_State* L, T& self, stack_object value, Iter&) { | ||
| 20569 | return add_copyable(std::false_type(), L, self, std::move(value)); | ||
| 20570 | } | ||
| 20571 | |||
| 20572 | static detail::error_result add_copyable(std::false_type, lua_State*, T&, stack_object) { | ||
| 20573 | return detail::error_result("cannot call 'add' on '%s': value_type is non-copyable", detail::demangle<T>().data()); | ||
| 20574 | } | ||
| 20575 | |||
| 20576 | static detail::error_result insert_lookup(std::true_type, lua_State* L, T& self, stack_object, stack_object value) { | ||
| 20577 | // TODO: should we warn or error about someone calling insert on an ordered / lookup container with no associativity? | ||
| 20578 | return add_copyable(std::true_type(), L, self, std::move(value)); | ||
| 20579 | } | ||
| 20580 | |||
| 20581 | static detail::error_result insert_lookup(std::false_type, lua_State* L, T& self, stack_object where, stack_object value) { | ||
| 20582 | auto it = deferred_uc::begin(L, self); | ||
| 20583 | auto key = where.as<K>(); | ||
| 20584 | key += deferred_uc::index_adjustment(L, self); | ||
| 20585 | std::advance(it, key); | ||
| 20586 | self.insert(it, value.as<V>()); | ||
| 20587 | return {}; | ||
| 20588 | } | ||
| 20589 | |||
| 20590 | static detail::error_result insert_after_has(std::true_type, lua_State* L, T& self, stack_object where, stack_object value) { | ||
| 20591 | auto key = where.as<K>(); | ||
| 20592 | auto backit = self.before_begin(); | ||
| 20593 | { | ||
| 20594 | key += deferred_uc::index_adjustment(L, self); | ||
| 20595 | auto e = deferred_uc::end(L, self); | ||
| 20596 | for (auto it = deferred_uc::begin(L, self); key > 0; ++backit, ++it, --key) { | ||
| 20597 | if (backit == e) { | ||
| 20598 | return detail::error_result("sol: out of bounds (too big) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 20599 | } | ||
| 20600 | } | ||
| 20601 | } | ||
| 20602 | self.insert_after(backit, value.as<V>()); | ||
| 20603 | return {}; | ||
| 20604 | } | ||
| 20605 | |||
| 20606 | static detail::error_result insert_after_has(std::false_type, lua_State*, T&, stack_object, stack_object) { | ||
| 20607 | return detail::error_result( | ||
| 20608 | "cannot call 'insert' on '%s': no suitable or similar functionality detected on this container", detail::demangle<T>().data()); | ||
| 20609 | } | ||
| 20610 | |||
| 20611 | static detail::error_result insert_has(std::true_type, lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20612 | return insert_lookup(meta::any<is_associative, is_lookup>(), L, self, std::move(key), std::move(value)); | ||
| 20613 | } | ||
| 20614 | |||
| 20615 | static detail::error_result insert_has(std::false_type, lua_State* L, T& self, stack_object where, stack_object value) { | ||
| 20616 | return insert_after_has(meta::has_insert_after<T>(), L, self, where, value); | ||
| 20617 | } | ||
| 20618 | |||
| 20619 | static detail::error_result insert_copyable(std::true_type, lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20620 | return insert_has(meta::has_insert<T>(), L, self, std::move(key), std::move(value)); | ||
| 20621 | } | ||
| 20622 | |||
| 20623 | static detail::error_result insert_copyable(std::false_type, lua_State*, T&, stack_object, stack_object) { | ||
| 20624 | return detail::error_result("cannot call 'insert' on '%s': value_type is non-copyable", detail::demangle<T>().data()); | ||
| 20625 | } | ||
| 20626 | |||
| 20627 | static detail::error_result erase_integral(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20628 | auto it = deferred_uc::begin(L, self); | ||
| 20629 | key += deferred_uc::index_adjustment(L, self); | ||
| 20630 | std::advance(it, key); | ||
| 20631 | self.erase(it); | ||
| 20632 | |||
| 20633 | return {}; | ||
| 20634 | } | ||
| 20635 | |||
| 20636 | static detail::error_result erase_integral(std::false_type, lua_State* L, T& self, const K& key) { | ||
| 20637 | auto fx = [&](const value_type& r) -> bool { return key == r; }; | ||
| 20638 | auto e = deferred_uc::end(L, self); | ||
| 20639 | auto it = std::find_if(deferred_uc::begin(L, self), e, std::ref(fx)); | ||
| 20640 | if (it == e) { | ||
| 20641 | return {}; | ||
| 20642 | } | ||
| 20643 | self.erase(it); | ||
| 20644 | |||
| 20645 | return {}; | ||
| 20646 | } | ||
| 20647 | |||
| 20648 | static detail::error_result erase_associative_lookup(std::true_type, lua_State*, T& self, const K& key) { | ||
| 20649 | self.erase(key); | ||
| 20650 | return {}; | ||
| 20651 | } | ||
| 20652 | |||
| 20653 | static detail::error_result erase_associative_lookup(std::false_type, lua_State* L, T& self, K& key) { | ||
| 20654 | return erase_integral(std::is_integral<K>(), L, self, key); | ||
| 20655 | } | ||
| 20656 | |||
| 20657 | static detail::error_result erase_after_has(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20658 | auto backit = self.before_begin(); | ||
| 20659 | { | ||
| 20660 | key += deferred_uc::index_adjustment(L, self); | ||
| 20661 | auto e = deferred_uc::end(L, self); | ||
| 20662 | for (auto it = deferred_uc::begin(L, self); key > 0; ++backit, ++it, --key) { | ||
| 20663 | if (backit == e) { | ||
| 20664 | return detail::error_result("sol: out of bounds for erase on '%s'", detail::demangle<T>().c_str()); | ||
| 20665 | } | ||
| 20666 | } | ||
| 20667 | } | ||
| 20668 | self.erase_after(backit); | ||
| 20669 | return {}; | ||
| 20670 | } | ||
| 20671 | |||
| 20672 | static detail::error_result erase_after_has(std::false_type, lua_State*, T&, const K&) { | ||
| 20673 | return detail::error_result("sol: cannot call erase on '%s'", detail::demangle<T>().c_str()); | ||
| 20674 | } | ||
| 20675 | |||
| 20676 | static detail::error_result erase_key_has(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20677 | return erase_associative_lookup(meta::any<is_associative, is_lookup>(), L, self, key); | ||
| 20678 | } | ||
| 20679 | |||
| 20680 | static detail::error_result erase_key_has(std::false_type, lua_State* L, T& self, K& key) { | ||
| 20681 | return erase_after_has(has_erase_after<T>(), L, self, key); | ||
| 20682 | } | ||
| 20683 | |||
| 20684 | static detail::error_result erase_has(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20685 | return erase_associative_lookup(meta::any<is_associative, is_lookup>(), L, self, key); | ||
| 20686 | } | ||
| 20687 | |||
| 20688 | static detail::error_result erase_has(std::false_type, lua_State* L, T& self, K& key) { | ||
| 20689 | return erase_key_has(has_erase_key<T>(), L, self, key); | ||
| 20690 | } | ||
| 20691 | |||
| 20692 | static auto size_has(std::false_type, lua_State* L, T& self) { | ||
| 20693 | return std::distance(deferred_uc::begin(L, self), deferred_uc::end(L, self)); | ||
| 20694 | } | ||
| 20695 | |||
| 20696 | static auto size_has(std::true_type, lua_State*, T& self) { | ||
| 20697 | return self.size(); | ||
| 20698 | } | ||
| 20699 | |||
| 20700 | static void clear_has(std::true_type, lua_State*, T& self) { | ||
| 20701 | self.clear(); | ||
| 20702 | } | ||
| 20703 | |||
| 20704 | static void clear_has(std::false_type, lua_State* L, T&) { | ||
| 20705 | luaL_error(L, "sol: cannot call clear on '%s'", detail::demangle<T>().c_str()); | ||
| 20706 | } | ||
| 20707 | |||
| 20708 | static bool empty_has(std::true_type, lua_State*, T& self) { | ||
| 20709 | return self.empty(); | ||
| 20710 | } | ||
| 20711 | |||
| 20712 | static bool empty_has(std::false_type, lua_State* L, T& self) { | ||
| 20713 | return deferred_uc::begin(L, self) == deferred_uc::end(L, self); | ||
| 20714 | } | ||
| 20715 | |||
| 20716 | static detail::error_result get_associative_find(std::true_type, lua_State* L, T& self, K& key) { | ||
| 20717 | auto it = self.find(key); | ||
| 20718 | if (it == deferred_uc::end(L, self)) { | ||
| 20719 | stack::push(L, lua_nil); | ||
| 20720 | return {}; | ||
| 20721 | } | ||
| 20722 | return get_associative(std::true_type(), L, it); | ||
| 20723 | } | ||
| 20724 | |||
| 20725 | static detail::error_result get_associative_find(std::false_type, lua_State* L, T& self, K& key) { | ||
| 20726 | return get_it(is_linear_integral(), L, self, key); | ||
| 20727 | } | ||
| 20728 | |||
| 20729 | static detail::error_result get_start(lua_State* L, T& self, K& key) { | ||
| 20730 | return get_associative_find(std::integral_constant < bool, is_associative::value&& has_find<T>::value > (), L, self, key); | ||
| 20731 | } | ||
| 20732 | |||
| 20733 | static detail::error_result set_start(lua_State* L, T& self, stack_object key, stack_object value) { | ||
| 20734 | return set_it(is_linear_integral(), L, self, std::move(key), std::move(value)); | ||
| 20735 | } | ||
| 20736 | |||
| 20737 | static std::size_t size_start(lua_State* L, T& self) { | ||
| 20738 | return size_has(meta::has_size<T>(), L, self); | ||
| 20739 | } | ||
| 20740 | |||
| 20741 | static void clear_start(lua_State* L, T& self) { | ||
| 20742 | clear_has(has_clear<T>(), L, self); | ||
| 20743 | } | ||
| 20744 | |||
| 20745 | static bool empty_start(lua_State* L, T& self) { | ||
| 20746 | return empty_has(has_empty<T>(), L, self); | ||
| 20747 | } | ||
| 20748 | |||
| 20749 | static detail::error_result erase_start(lua_State* L, T& self, K& key) { | ||
| 20750 | return erase_has(has_erase<T>(), L, self, key); | ||
| 20751 | } | ||
| 20752 | |||
| 20753 | template <bool ip> | ||
| 20754 | static int next_associative(std::true_type, lua_State* L) { | ||
| 20755 | iter& i = stack::unqualified_get<user<iter>>(L, 1); | ||
| 20756 | auto& source = i.source; | ||
| 20757 | auto& it = i.it; | ||
| 20758 | if (it == deferred_uc::end(L, source)) { | ||
| 20759 | return stack::push(L, lua_nil); | ||
| 20760 | } | ||
| 20761 | int p; | ||
| 20762 | if constexpr (ip) { | ||
| 20763 | ++i.i; | ||
| 20764 | p = stack::push_reference(L, i.i); | ||
| 20765 | } | ||
| 20766 | else { | ||
| 20767 | p = stack::push_reference(L, it->first); | ||
| 20768 | } | ||
| 20769 | p += stack::stack_detail::push_reference<push_type>(L, detail::deref_move_only(it->second)); | ||
| 20770 | std::advance(it, 1); | ||
| 20771 | return p; | ||
| 20772 | } | ||
| 20773 | |||
| 20774 | template <bool> | ||
| 20775 | static int next_associative(std::false_type, lua_State* L) { | ||
| 20776 | iter& i = stack::unqualified_get<user<iter>>(L, 1); | ||
| 20777 | auto& source = i.source; | ||
| 20778 | auto& it = i.it; | ||
| 20779 | next_K k = stack::unqualified_get<next_K>(L, 2); | ||
| 20780 | if (it == deferred_uc::end(L, source)) { | ||
| 20781 | return stack::push(L, lua_nil); | ||
| 20782 | } | ||
| 20783 | int p; | ||
| 20784 | if constexpr (std::is_integral_v<next_K>) { | ||
| 20785 | p = stack::push_reference(L, k + 1); | ||
| 20786 | } | ||
| 20787 | else { | ||
| 20788 | p = stack::stack_detail::push_reference(L, k + 1); | ||
| 20789 | } | ||
| 20790 | p += stack::stack_detail::push_reference<push_type>(L, detail::deref_move_only(*it)); | ||
| 20791 | std::advance(it, 1); | ||
| 20792 | return p; | ||
| 20793 | } | ||
| 20794 | |||
| 20795 | template <bool ip> | ||
| 20796 | static int next_iter(lua_State* L) { | ||
| 20797 | typedef meta::any<is_associative, meta::all<is_lookup, meta::neg<is_matched_lookup>>> is_assoc; | ||
| 20798 | return next_associative<ip>(is_assoc(), L); | ||
| 20799 | } | ||
| 20800 | |||
| 20801 | template <bool ip> | ||
| 20802 | static int pairs_associative(std::true_type, lua_State* L) { | ||
| 20803 | auto& src = get_src(L); | ||
| 20804 | stack::push(L, next_iter<ip>); | ||
| 20805 | stack::push<user<iter>>(L, src, deferred_uc::begin(L, src)); | ||
| 20806 | stack::push(L, lua_nil); | ||
| 20807 | return 3; | ||
| 20808 | } | ||
| 20809 | |||
| 20810 | template <bool ip> | ||
| 20811 | static int pairs_associative(std::false_type, lua_State* L) { | ||
| 20812 | auto& src = get_src(L); | ||
| 20813 | stack::push(L, next_iter<ip>); | ||
| 20814 | stack::push<user<iter>>(L, src, deferred_uc::begin(L, src)); | ||
| 20815 | stack::push(L, 0); | ||
| 20816 | return 3; | ||
| 20817 | } | ||
| 20818 | |||
| 20819 | public: | ||
| 20820 | static int at(lua_State* L) { | ||
| 20821 | auto& self = get_src(L); | ||
| 20822 | detail::error_result er; | ||
| 20823 | { | ||
| 20824 | std::ptrdiff_t pos = stack::unqualified_get<std::ptrdiff_t>(L, 2); | ||
| 20825 | er = at_start(L, self, pos); | ||
| 20826 | } | ||
| 20827 | return handle_errors(L, er); | ||
| 20828 | } | ||
| 20829 | |||
| 20830 | static int get(lua_State* L) { | ||
| 20831 | auto& self = get_src(L); | ||
| 20832 | detail::error_result er; | ||
| 20833 | { | ||
| 20834 | decltype(auto) key = stack::unqualified_get<K>(L); | ||
| 20835 | er = get_start(L, self, key); | ||
| 20836 | } | ||
| 20837 | return handle_errors(L, er); | ||
| 20838 | } | ||
| 20839 | |||
| 20840 | static int index_get(lua_State* L) { | ||
| 20841 | return get(L); | ||
| 20842 | } | ||
| 20843 | |||
| 20844 | static int set(lua_State* L) { | ||
| 20845 | stack_object value = stack_object(L, raw_index(3)); | ||
| 20846 | if constexpr (is_linear_integral::value) { | ||
| 20847 | // for non-associative containers, | ||
| 20848 | // erasure only happens if it is the | ||
| 20849 | // last index in the container | ||
| 20850 | auto key = stack::get<K>(L, 2); | ||
| 20851 | auto self_size = deferred_uc::size(L); | ||
| 20852 | if (key == static_cast<K>(self_size)) { | ||
| 20853 | if (type_of(L, 3) == type::lua_nil) { | ||
| 20854 | return erase(L); | ||
| 20855 | } | ||
| 20856 | } | ||
| 20857 | } | ||
| 20858 | else { | ||
| 20859 | if (type_of(L, 3) == type::lua_nil) { | ||
| 20860 | return erase(L); | ||
| 20861 | } | ||
| 20862 | } | ||
| 20863 | auto& self = get_src(L); | ||
| 20864 | detail::error_result er = set_start(L, self, stack_object(L, raw_index(2)), std::move(value)); | ||
| 20865 | return handle_errors(L, er); | ||
| 20866 | } | ||
| 20867 | |||
| 20868 | static int index_set(lua_State* L) { | ||
| 20869 | return set(L); | ||
| 20870 | } | ||
| 20871 | |||
| 20872 | static int add(lua_State* L) { | ||
| 20873 | auto& self = get_src(L); | ||
| 20874 | detail::error_result er = add_copyable(is_copyable(), L, self, stack_object(L, raw_index(2))); | ||
| 20875 | return handle_errors(L, er); | ||
| 20876 | } | ||
| 20877 | |||
| 20878 | static int insert(lua_State* L) { | ||
| 20879 | auto& self = get_src(L); | ||
| 20880 | detail::error_result er = insert_copyable(is_copyable(), L, self, stack_object(L, raw_index(2)), stack_object(L, raw_index(3))); | ||
| 20881 | return handle_errors(L, er); | ||
| 20882 | } | ||
| 20883 | |||
| 20884 | static int find(lua_State* L) { | ||
| 20885 | auto& self = get_src(L); | ||
| 20886 | detail::error_result er = find_has(has_find<T>(), L, self); | ||
| 20887 | return handle_errors(L, er); | ||
| 20888 | } | ||
| 20889 | |||
| 20890 | static int index_of(lua_State* L) { | ||
| 20891 | auto& self = get_src(L); | ||
| 20892 | detail::error_result er = find_has<true>(has_find<T>(), L, self); | ||
| 20893 | return handle_errors(L, er); | ||
| 20894 | } | ||
| 20895 | |||
| 20896 | static iterator begin(lua_State*, T& self) { | ||
| 20897 | if constexpr (meta::has_begin_end_v<T>) { | ||
| 20898 | return self.begin(); | ||
| 20899 | } | ||
| 20900 | else { | ||
| 20901 | using std::begin; | ||
| 20902 | return begin(self); | ||
| 20903 | } | ||
| 20904 | } | ||
| 20905 | |||
| 20906 | static iterator end(lua_State*, T& self) { | ||
| 20907 | if constexpr (meta::has_begin_end_v<T>) { | ||
| 20908 | return self.end(); | ||
| 20909 | } | ||
| 20910 | else { | ||
| 20911 | using std::end; | ||
| 20912 | return end(self); | ||
| 20913 | } | ||
| 20914 | } | ||
| 20915 | |||
| 20916 | static int size(lua_State* L) { | ||
| 20917 | auto& self = get_src(L); | ||
| 20918 | std::size_t r = size_start(L, self); | ||
| 20919 | return stack::push(L, r); | ||
| 20920 | } | ||
| 20921 | |||
| 20922 | static int clear(lua_State* L) { | ||
| 20923 | auto& self = get_src(L); | ||
| 20924 | clear_start(L, self); | ||
| 20925 | return 0; | ||
| 20926 | } | ||
| 20927 | |||
| 20928 | static int erase(lua_State* L) { | ||
| 20929 | auto& self = get_src(L); | ||
| 20930 | detail::error_result er; | ||
| 20931 | { | ||
| 20932 | decltype(auto) key = stack::unqualified_get<K>(L, 2); | ||
| 20933 | er = erase_start(L, self, key); | ||
| 20934 | } | ||
| 20935 | return handle_errors(L, er); | ||
| 20936 | } | ||
| 20937 | |||
| 20938 | static int empty(lua_State* L) { | ||
| 20939 | auto& self = get_src(L); | ||
| 20940 | return stack::push(L, empty_start(L, self)); | ||
| 20941 | } | ||
| 20942 | |||
| 20943 | static std::ptrdiff_t index_adjustment(lua_State*, T&) { | ||
| 20944 | return static_cast<std::ptrdiff_t>((SOL_CONTAINER_START_INDEX_I_) == 0 ? 0 : -(SOL_CONTAINER_START_INDEX_I_)); | ||
| 20945 | } | ||
| 20946 | |||
| 20947 | static int pairs(lua_State* L) { | ||
| 20948 | typedef meta::any<is_associative, meta::all<is_lookup, meta::neg<is_matched_lookup>>> is_assoc; | ||
| 20949 | return pairs_associative<false>(is_assoc(), L); | ||
| 20950 | } | ||
| 20951 | |||
| 20952 | static int ipairs(lua_State* L) { | ||
| 20953 | typedef meta::any<is_associative, meta::all<is_lookup, meta::neg<is_matched_lookup>>> is_assoc; | ||
| 20954 | return pairs_associative<true>(is_assoc(), L); | ||
| 20955 | } | ||
| 20956 | |||
| 20957 | static int next(lua_State* L) { | ||
| 20958 | return stack::push(L, next_iter<false>); | ||
| 20959 | } | ||
| 20960 | }; | ||
| 20961 | |||
| 20962 | template <typename X> | ||
| 20963 | struct usertype_container_default<X, std::enable_if_t<std::is_array<std::remove_pointer_t<meta::unwrap_unqualified_t<X>>>::value>> { | ||
| 20964 | private: | ||
| 20965 | typedef std::remove_pointer_t<meta::unwrap_unqualified_t<X>> T; | ||
| 20966 | typedef usertype_container<X> deferred_uc; | ||
| 20967 | |||
| 20968 | public: | ||
| 20969 | typedef std::remove_extent_t<T> value_type; | ||
| 20970 | typedef value_type* iterator; | ||
| 20971 | |||
| 20972 | private: | ||
| 20973 | struct iter { | ||
| 20974 | T& source; | ||
| 20975 | iterator it; | ||
| 20976 | |||
| 20977 | iter(T& source, iterator it) : source(source), it(std::move(it)) { | ||
| 20978 | } | ||
| 20979 | }; | ||
| 20980 | |||
| 20981 | static auto& get_src(lua_State* L) { | ||
| 20982 | auto p = stack::unqualified_check_get<T*>(L, 1); | ||
| 20983 | #if SOL_IS_ON(SOL_SAFE_USERTYPE_I_) | ||
| 20984 | if (!p) { | ||
| 20985 | luaL_error(L, | ||
| 20986 | "sol: 'self' is not of type '%s' (pass 'self' as first argument with ':' or call on proper type)", | ||
| 20987 | detail::demangle<T>().c_str()); | ||
| 20988 | } | ||
| 20989 | if (p.value() == nullptr) { | ||
| 20990 | luaL_error( | ||
| 20991 | L, "sol: 'self' argument is nil (pass 'self' as first argument with ':' or call on a '%s' type)", detail::demangle<T>().c_str()); | ||
| 20992 | } | ||
| 20993 | #endif // Safe getting with error | ||
| 20994 | return *p.value(); | ||
| 20995 | } | ||
| 20996 | |||
| 20997 | static int find(std::true_type, lua_State* L) { | ||
| 20998 | T& self = get_src(L); | ||
| 20999 | decltype(auto) value = stack::unqualified_get<value_type>(L, 2); | ||
| 21000 | std::size_t N = std::extent<T>::value; | ||
| 21001 | for (std::size_t idx = 0; idx < N; ++idx) { | ||
| 21002 | using v_t = std::add_const_t<decltype(self[idx])>; | ||
| 21003 | v_t v = self[idx]; | ||
| 21004 | if (v == value) { | ||
| 21005 | idx -= deferred_uc::index_adjustment(L, self); | ||
| 21006 | return stack::push(L, idx); | ||
| 21007 | } | ||
| 21008 | } | ||
| 21009 | return stack::push(L, lua_nil); | ||
| 21010 | } | ||
| 21011 | |||
| 21012 | static int find(std::false_type, lua_State* L) { | ||
| 21013 | return luaL_error(L, "sol: cannot call 'find' on '%s': no supported comparison operator for the value type", detail::demangle<T>().c_str()); | ||
| 21014 | } | ||
| 21015 | |||
| 21016 | static int next_iter(lua_State* L) { | ||
| 21017 | iter& i = stack::unqualified_get<user<iter>>(L, 1); | ||
| 21018 | auto& source = i.source; | ||
| 21019 | auto& it = i.it; | ||
| 21020 | std::size_t k = stack::unqualified_get<std::size_t>(L, 2); | ||
| 21021 | if (it == deferred_uc::end(L, source)) { | ||
| 21022 | return 0; | ||
| 21023 | } | ||
| 21024 | int p; | ||
| 21025 | p = stack::push(L, k + 1); | ||
| 21026 | p += stack::push_reference(L, detail::deref_move_only(*it)); | ||
| 21027 | std::advance(it, 1); | ||
| 21028 | return p; | ||
| 21029 | } | ||
| 21030 | |||
| 21031 | public: | ||
| 21032 | static int clear(lua_State* L) { | ||
| 21033 | return luaL_error(L, "sol: cannot call 'clear' on type '%s': cannot remove all items from a fixed array", detail::demangle<T>().c_str()); | ||
| 21034 | } | ||
| 21035 | |||
| 21036 | static int erase(lua_State* L) { | ||
| 21037 | return luaL_error(L, "sol: cannot call 'erase' on type '%s': cannot remove an item from fixed arrays", detail::demangle<T>().c_str()); | ||
| 21038 | } | ||
| 21039 | |||
| 21040 | static int add(lua_State* L) { | ||
| 21041 | return luaL_error(L, "sol: cannot call 'add' on type '%s': cannot add to fixed arrays", detail::demangle<T>().c_str()); | ||
| 21042 | } | ||
| 21043 | |||
| 21044 | static int insert(lua_State* L) { | ||
| 21045 | return luaL_error(L, "sol: cannot call 'insert' on type '%s': cannot insert new entries into fixed arrays", detail::demangle<T>().c_str()); | ||
| 21046 | } | ||
| 21047 | |||
| 21048 | static int at(lua_State* L) { | ||
| 21049 | return get(L); | ||
| 21050 | } | ||
| 21051 | |||
| 21052 | static int get(lua_State* L) { | ||
| 21053 | T& self = get_src(L); | ||
| 21054 | std::ptrdiff_t idx = stack::unqualified_get<std::ptrdiff_t>(L, 2); | ||
| 21055 | idx += deferred_uc::index_adjustment(L, self); | ||
| 21056 | if (idx >= static_cast<std::ptrdiff_t>(std::extent<T>::value) || idx < 0) { | ||
| 21057 | return stack::push(L, lua_nil); | ||
| 21058 | } | ||
| 21059 | return stack::push_reference(L, detail::deref_move_only(self[idx])); | ||
| 21060 | } | ||
| 21061 | |||
| 21062 | static int index_get(lua_State* L) { | ||
| 21063 | return get(L); | ||
| 21064 | } | ||
| 21065 | |||
| 21066 | static int set(lua_State* L) { | ||
| 21067 | T& self = get_src(L); | ||
| 21068 | std::ptrdiff_t idx = stack::unqualified_get<std::ptrdiff_t>(L, 2); | ||
| 21069 | idx += deferred_uc::index_adjustment(L, self); | ||
| 21070 | if (idx >= static_cast<std::ptrdiff_t>(std::extent<T>::value)) { | ||
| 21071 | return luaL_error(L, "sol: index out of bounds (too big) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 21072 | } | ||
| 21073 | if (idx < 0) { | ||
| 21074 | return luaL_error(L, "sol: index out of bounds (too small) for set on '%s'", detail::demangle<T>().c_str()); | ||
| 21075 | } | ||
| 21076 | self[idx] = stack::unqualified_get<value_type>(L, 3); | ||
| 21077 | return 0; | ||
| 21078 | } | ||
| 21079 | |||
| 21080 | static int index_set(lua_State* L) { | ||
| 21081 | return set(L); | ||
| 21082 | } | ||
| 21083 | |||
| 21084 | static int index_of(lua_State* L) { | ||
| 21085 | return find(L); | ||
| 21086 | } | ||
| 21087 | |||
| 21088 | static int find(lua_State* L) { | ||
| 21089 | return find(meta::supports_op_equal<value_type, value_type>(), L); | ||
| 21090 | } | ||
| 21091 | |||
| 21092 | static int size(lua_State* L) { | ||
| 21093 | return stack::push(L, std::extent<T>::value); | ||
| 21094 | } | ||
| 21095 | |||
| 21096 | static int empty(lua_State* L) { | ||
| 21097 | return stack::push(L, std::extent<T>::value > 0); | ||
| 21098 | } | ||
| 21099 | |||
| 21100 | static int pairs(lua_State* L) { | ||
| 21101 | auto& src = get_src(L); | ||
| 21102 | stack::push(L, next_iter); | ||
| 21103 | stack::push<user<iter>>(L, src, deferred_uc::begin(L, src)); | ||
| 21104 | stack::push(L, 0); | ||
| 21105 | return 3; | ||
| 21106 | } | ||
| 21107 | |||
| 21108 | static int ipairs(lua_State* L) { | ||
| 21109 | return pairs(L); | ||
| 21110 | } | ||
| 21111 | |||
| 21112 | static int next(lua_State* L) { | ||
| 21113 | return stack::push(L, next_iter); | ||
| 21114 | } | ||
| 21115 | |||
| 21116 | static std::ptrdiff_t index_adjustment(lua_State*, T&) { | ||
| 21117 | return (SOL_CONTAINER_START_INDEX_I_) == 0 ? 0 : -(SOL_CONTAINER_START_INDEX_I_); | ||
| 21118 | } | ||
| 21119 | |||
| 21120 | static iterator begin(lua_State*, T& self) { | ||
| 21121 | return std::addressof(self[0]); | ||
| 21122 | } | ||
| 21123 | |||
| 21124 | static iterator end(lua_State*, T& self) { | ||
| 21125 | return std::addressof(self[0]) + std::extent<T>::value; | ||
| 21126 | } | ||
| 21127 | }; | ||
| 21128 | |||
| 21129 | template <typename X> | ||
| 21130 | struct usertype_container_default<usertype_container<X>> : usertype_container_default<X> {}; | ||
| 21131 | } // namespace container_detail | ||
| 21132 | |||
| 21133 | template <typename T> | ||
| 21134 | struct usertype_container : container_detail::usertype_container_default<T> {}; | ||
| 21135 | |||
| 21136 | } // namespace sol | ||
| 21137 | |||
| 21138 | // end of sol/usertype_container.hpp | ||
| 21139 | |||
| 21140 | #include <unordered_map> | ||
| 21141 | |||
| 21142 | namespace sol { | ||
| 21143 | |||
| 21144 | namespace container_detail { | ||
| 21145 | template <typename X> | ||
| 21146 | struct u_c_launch { | ||
| 21147 | using T = std::remove_pointer_t<meta::unqualified_t<X>>; | ||
| 21148 | using uc = usertype_container<T>; | ||
| 21149 | using default_uc = usertype_container_default<T>; | ||
| 21150 | |||
| 21151 | static inline int real_index_get_traits(std::true_type, lua_State* L) { | ||
| 21152 | return uc::index_get(L); | ||
| 21153 | } | ||
| 21154 | |||
| 21155 | static inline int real_index_get_traits(std::false_type, lua_State* L) { | ||
| 21156 | return default_uc::index_get(L); | ||
| 21157 | } | ||
| 21158 | |||
| 21159 | static inline int real_index_call(lua_State* L) { | ||
| 21160 | static const std::unordered_map<string_view, lua_CFunction> calls { | ||
| 21161 | { "at", &real_at_call }, | ||
| 21162 | { "get", &real_get_call }, | ||
| 21163 | { "set", &real_set_call }, | ||
| 21164 | { "size", &real_length_call }, | ||
| 21165 | { "add", &real_add_call }, | ||
| 21166 | { "empty", &real_empty_call }, | ||
| 21167 | { "insert", &real_insert_call }, | ||
| 21168 | { "clear", &real_clear_call }, | ||
| 21169 | { "find", &real_find_call }, | ||
| 21170 | { "index_of", &real_index_of_call }, | ||
| 21171 | { "erase", &real_erase_call }, | ||
| 21172 | { "pairs", &pairs_call }, | ||
| 21173 | { "next", &next_call }, | ||
| 21174 | }; | ||
| 21175 | auto maybenameview = stack::unqualified_check_get<string_view>(L, 2); | ||
| 21176 | if (maybenameview) { | ||
| 21177 | const string_view& name = *maybenameview; | ||
| 21178 | auto it = calls.find(name); | ||
| 21179 | if (it != calls.cend()) { | ||
| 21180 | return stack::push(L, it->second); | ||
| 21181 | } | ||
| 21182 | } | ||
| 21183 | return real_index_get_traits(container_detail::has_traits_index_get<uc>(), L); | ||
| 21184 | } | ||
| 21185 | |||
| 21186 | static inline int real_at_traits(std::true_type, lua_State* L) { | ||
| 21187 | return uc::at(L); | ||
| 21188 | } | ||
| 21189 | |||
| 21190 | static inline int real_at_traits(std::false_type, lua_State* L) { | ||
| 21191 | return default_uc::at(L); | ||
| 21192 | } | ||
| 21193 | |||
| 21194 | static inline int real_at_call(lua_State* L) { | ||
| 21195 | return real_at_traits(container_detail::has_traits_at<uc>(), L); | ||
| 21196 | } | ||
| 21197 | |||
| 21198 | static inline int real_get_traits(std::true_type, lua_State* L) { | ||
| 21199 | return uc::get(L); | ||
| 21200 | } | ||
| 21201 | |||
| 21202 | static inline int real_get_traits(std::false_type, lua_State* L) { | ||
| 21203 | return default_uc::get(L); | ||
| 21204 | } | ||
| 21205 | |||
| 21206 | static inline int real_get_call(lua_State* L) { | ||
| 21207 | return real_get_traits(container_detail::has_traits_get<uc>(), L); | ||
| 21208 | } | ||
| 21209 | |||
| 21210 | static inline int real_set_traits(std::true_type, lua_State* L) { | ||
| 21211 | return uc::set(L); | ||
| 21212 | } | ||
| 21213 | |||
| 21214 | static inline int real_set_traits(std::false_type, lua_State* L) { | ||
| 21215 | return default_uc::set(L); | ||
| 21216 | } | ||
| 21217 | |||
| 21218 | static inline int real_set_call(lua_State* L) { | ||
| 21219 | return real_set_traits(container_detail::has_traits_set<uc>(), L); | ||
| 21220 | } | ||
| 21221 | |||
| 21222 | static inline int real_index_set_traits(std::true_type, lua_State* L) { | ||
| 21223 | return uc::index_set(L); | ||
| 21224 | } | ||
| 21225 | |||
| 21226 | static inline int real_index_set_traits(std::false_type, lua_State* L) { | ||
| 21227 | return default_uc::index_set(L); | ||
| 21228 | } | ||
| 21229 | |||
| 21230 | static inline int real_new_index_call(lua_State* L) { | ||
| 21231 | return real_index_set_traits(container_detail::has_traits_index_set<uc>(), L); | ||
| 21232 | } | ||
| 21233 | |||
| 21234 | static inline int real_pairs_traits(std::true_type, lua_State* L) { | ||
| 21235 | return uc::pairs(L); | ||
| 21236 | } | ||
| 21237 | |||
| 21238 | static inline int real_pairs_traits(std::false_type, lua_State* L) { | ||
| 21239 | return default_uc::pairs(L); | ||
| 21240 | } | ||
| 21241 | |||
| 21242 | static inline int real_pairs_call(lua_State* L) { | ||
| 21243 | return real_pairs_traits(container_detail::has_traits_pairs<uc>(), L); | ||
| 21244 | } | ||
| 21245 | |||
| 21246 | static inline int real_ipairs_traits(std::true_type, lua_State* L) { | ||
| 21247 | return uc::ipairs(L); | ||
| 21248 | } | ||
| 21249 | |||
| 21250 | static inline int real_ipairs_traits(std::false_type, lua_State* L) { | ||
| 21251 | return default_uc::ipairs(L); | ||
| 21252 | } | ||
| 21253 | |||
| 21254 | static inline int real_ipairs_call(lua_State* L) { | ||
| 21255 | return real_ipairs_traits(container_detail::has_traits_ipairs<uc>(), L); | ||
| 21256 | } | ||
| 21257 | |||
| 21258 | static inline int real_next_traits(std::true_type, lua_State* L) { | ||
| 21259 | return uc::next(L); | ||
| 21260 | } | ||
| 21261 | |||
| 21262 | static inline int real_next_traits(std::false_type, lua_State* L) { | ||
| 21263 | return default_uc::next(L); | ||
| 21264 | } | ||
| 21265 | |||
| 21266 | static inline int real_next_call(lua_State* L) { | ||
| 21267 | return real_next_traits(container_detail::has_traits_next<uc>(), L); | ||
| 21268 | } | ||
| 21269 | |||
| 21270 | static inline int real_size_traits(std::true_type, lua_State* L) { | ||
| 21271 | return uc::size(L); | ||
| 21272 | } | ||
| 21273 | |||
| 21274 | static inline int real_size_traits(std::false_type, lua_State* L) { | ||
| 21275 | return default_uc::size(L); | ||
| 21276 | } | ||
| 21277 | |||
| 21278 | static inline int real_length_call(lua_State* L) { | ||
| 21279 | return real_size_traits(container_detail::has_traits_size<uc>(), L); | ||
| 21280 | } | ||
| 21281 | |||
| 21282 | static inline int real_add_traits(std::true_type, lua_State* L) { | ||
| 21283 | return uc::add(L); | ||
| 21284 | } | ||
| 21285 | |||
| 21286 | static inline int real_add_traits(std::false_type, lua_State* L) { | ||
| 21287 | return default_uc::add(L); | ||
| 21288 | } | ||
| 21289 | |||
| 21290 | static inline int real_add_call(lua_State* L) { | ||
| 21291 | return real_add_traits(container_detail::has_traits_add<uc>(), L); | ||
| 21292 | } | ||
| 21293 | |||
| 21294 | static inline int real_insert_traits(std::true_type, lua_State* L) { | ||
| 21295 | return uc::insert(L); | ||
| 21296 | } | ||
| 21297 | |||
| 21298 | static inline int real_insert_traits(std::false_type, lua_State* L) { | ||
| 21299 | return default_uc::insert(L); | ||
| 21300 | } | ||
| 21301 | |||
| 21302 | static inline int real_insert_call(lua_State* L) { | ||
| 21303 | return real_insert_traits(container_detail::has_traits_insert<uc>(), L); | ||
| 21304 | } | ||
| 21305 | |||
| 21306 | static inline int real_clear_traits(std::true_type, lua_State* L) { | ||
| 21307 | return uc::clear(L); | ||
| 21308 | } | ||
| 21309 | |||
| 21310 | static inline int real_clear_traits(std::false_type, lua_State* L) { | ||
| 21311 | return default_uc::clear(L); | ||
| 21312 | } | ||
| 21313 | |||
| 21314 | static inline int real_clear_call(lua_State* L) { | ||
| 21315 | return real_clear_traits(container_detail::has_traits_clear<uc>(), L); | ||
| 21316 | } | ||
| 21317 | |||
| 21318 | static inline int real_empty_traits(std::true_type, lua_State* L) { | ||
| 21319 | return uc::empty(L); | ||
| 21320 | } | ||
| 21321 | |||
| 21322 | static inline int real_empty_traits(std::false_type, lua_State* L) { | ||
| 21323 | return default_uc::empty(L); | ||
| 21324 | } | ||
| 21325 | |||
| 21326 | static inline int real_empty_call(lua_State* L) { | ||
| 21327 | return real_empty_traits(container_detail::has_traits_empty<uc>(), L); | ||
| 21328 | } | ||
| 21329 | |||
| 21330 | static inline int real_erase_traits(std::true_type, lua_State* L) { | ||
| 21331 | return uc::erase(L); | ||
| 21332 | } | ||
| 21333 | |||
| 21334 | static inline int real_erase_traits(std::false_type, lua_State* L) { | ||
| 21335 | return default_uc::erase(L); | ||
| 21336 | } | ||
| 21337 | |||
| 21338 | static inline int real_erase_call(lua_State* L) { | ||
| 21339 | return real_erase_traits(container_detail::has_traits_erase<uc>(), L); | ||
| 21340 | } | ||
| 21341 | |||
| 21342 | static inline int real_find_traits(std::true_type, lua_State* L) { | ||
| 21343 | return uc::find(L); | ||
| 21344 | } | ||
| 21345 | |||
| 21346 | static inline int real_find_traits(std::false_type, lua_State* L) { | ||
| 21347 | return default_uc::find(L); | ||
| 21348 | } | ||
| 21349 | |||
| 21350 | static inline int real_find_call(lua_State* L) { | ||
| 21351 | return real_find_traits(container_detail::has_traits_find<uc>(), L); | ||
| 21352 | } | ||
| 21353 | |||
| 21354 | static inline int real_index_of_call(lua_State* L) { | ||
| 21355 | if constexpr (container_detail::has_traits_index_of<uc>()) { | ||
| 21356 | return uc::index_of(L); | ||
| 21357 | } | ||
| 21358 | else { | ||
| 21359 | return default_uc::index_of(L); | ||
| 21360 | } | ||
| 21361 | } | ||
| 21362 | |||
| 21363 | static inline int add_call(lua_State* L) { | ||
| 21364 | return detail::typed_static_trampoline<decltype(&real_add_call), (&real_add_call)>(L); | ||
| 21365 | } | ||
| 21366 | |||
| 21367 | static inline int erase_call(lua_State* L) { | ||
| 21368 | return detail::typed_static_trampoline<decltype(&real_erase_call), (&real_erase_call)>(L); | ||
| 21369 | } | ||
| 21370 | |||
| 21371 | static inline int insert_call(lua_State* L) { | ||
| 21372 | return detail::typed_static_trampoline<decltype(&real_insert_call), (&real_insert_call)>(L); | ||
| 21373 | } | ||
| 21374 | |||
| 21375 | static inline int clear_call(lua_State* L) { | ||
| 21376 | return detail::typed_static_trampoline<decltype(&real_clear_call), (&real_clear_call)>(L); | ||
| 21377 | } | ||
| 21378 | |||
| 21379 | static inline int empty_call(lua_State* L) { | ||
| 21380 | return detail::typed_static_trampoline<decltype(&real_empty_call), (&real_empty_call)>(L); | ||
| 21381 | } | ||
| 21382 | |||
| 21383 | static inline int find_call(lua_State* L) { | ||
| 21384 | return detail::typed_static_trampoline<decltype(&real_find_call), (&real_find_call)>(L); | ||
| 21385 | } | ||
| 21386 | |||
| 21387 | static inline int index_of_call(lua_State* L) { | ||
| 21388 | return detail::typed_static_trampoline<decltype(&real_index_of_call), (&real_index_of_call)>(L); | ||
| 21389 | } | ||
| 21390 | |||
| 21391 | static inline int length_call(lua_State* L) { | ||
| 21392 | return detail::typed_static_trampoline<decltype(&real_length_call), (&real_length_call)>(L); | ||
| 21393 | } | ||
| 21394 | |||
| 21395 | static inline int pairs_call(lua_State* L) { | ||
| 21396 | return detail::typed_static_trampoline<decltype(&real_pairs_call), (&real_pairs_call)>(L); | ||
| 21397 | } | ||
| 21398 | |||
| 21399 | static inline int ipairs_call(lua_State* L) { | ||
| 21400 | return detail::typed_static_trampoline<decltype(&real_ipairs_call), (&real_ipairs_call)>(L); | ||
| 21401 | } | ||
| 21402 | |||
| 21403 | static inline int next_call(lua_State* L) { | ||
| 21404 | return detail::typed_static_trampoline<decltype(&real_next_call), (&real_next_call)>(L); | ||
| 21405 | } | ||
| 21406 | |||
| 21407 | static inline int at_call(lua_State* L) { | ||
| 21408 | return detail::typed_static_trampoline<decltype(&real_at_call), (&real_at_call)>(L); | ||
| 21409 | } | ||
| 21410 | |||
| 21411 | static inline int get_call(lua_State* L) { | ||
| 21412 | return detail::typed_static_trampoline<decltype(&real_get_call), (&real_get_call)>(L); | ||
| 21413 | } | ||
| 21414 | |||
| 21415 | static inline int set_call(lua_State* L) { | ||
| 21416 | return detail::typed_static_trampoline<decltype(&real_set_call), (&real_set_call)>(L); | ||
| 21417 | } | ||
| 21418 | |||
| 21419 | static inline int index_call(lua_State* L) { | ||
| 21420 | return detail::typed_static_trampoline<decltype(&real_index_call), (&real_index_call)>(L); | ||
| 21421 | } | ||
| 21422 | |||
| 21423 | static inline int new_index_call(lua_State* L) { | ||
| 21424 | return detail::typed_static_trampoline<decltype(&real_new_index_call), (&real_new_index_call)>(L); | ||
| 21425 | } | ||
| 21426 | }; | ||
| 21427 | } // namespace container_detail | ||
| 21428 | |||
| 21429 | namespace stack { | ||
| 21430 | namespace stack_detail { | ||
| 21431 | template <typename T, bool is_shim = false> | ||
| 21432 | struct metatable_setup { | ||
| 21433 | lua_State* L; | ||
| 21434 | |||
| 21435 | metatable_setup(lua_State* L) : L(L) { | ||
| 21436 | } | ||
| 21437 | |||
| 21438 | void operator()() { | ||
| 21439 | using meta_usertype_container | ||
| 21440 | = container_detail::u_c_launch<meta::conditional_t<is_shim, as_container_t<std::remove_pointer_t<T>>, std::remove_pointer_t<T>>>; | ||
| 21441 | static const char* metakey | ||
| 21442 | = is_shim ? &usertype_traits<as_container_t<std::remove_pointer_t<T>>>::metatable()[0] : &usertype_traits<T>::metatable()[0]; | ||
| 21443 | static const std::array<luaL_Reg, 20> reg = { { | ||
| 21444 | // clang-format off | ||
| 21445 | { "__pairs", &meta_usertype_container::pairs_call }, | ||
| 21446 | { "__ipairs", &meta_usertype_container::ipairs_call }, | ||
| 21447 | { "__len", &meta_usertype_container::length_call }, | ||
| 21448 | { "__index", &meta_usertype_container::index_call }, | ||
| 21449 | { "__newindex", &meta_usertype_container::new_index_call }, | ||
| 21450 | { "pairs", &meta_usertype_container::pairs_call }, | ||
| 21451 | { "next", &meta_usertype_container::next_call }, | ||
| 21452 | { "at", &meta_usertype_container::at_call }, | ||
| 21453 | { "get", &meta_usertype_container::get_call }, | ||
| 21454 | { "set", &meta_usertype_container::set_call }, | ||
| 21455 | { "size", &meta_usertype_container::length_call }, | ||
| 21456 | { "empty", &meta_usertype_container::empty_call }, | ||
| 21457 | { "clear", &meta_usertype_container::clear_call }, | ||
| 21458 | { "insert", &meta_usertype_container::insert_call }, | ||
| 21459 | { "add", &meta_usertype_container::add_call }, | ||
| 21460 | { "find", &meta_usertype_container::find_call }, | ||
| 21461 | { "index_of", &meta_usertype_container::index_of_call }, | ||
| 21462 | { "erase", &meta_usertype_container::erase_call }, | ||
| 21463 | std::is_pointer<T>::value ? luaL_Reg{ nullptr, nullptr } : luaL_Reg{ "__gc", &detail::usertype_alloc_destruct<T> }, | ||
| 21464 | { nullptr, nullptr } | ||
| 21465 | // clang-format on | ||
| 21466 | } }; | ||
| 21467 | |||
| 21468 | if (luaL_newmetatable(L, metakey) == 1) { | ||
| 21469 | luaL_setfuncs(L, reg.data(), 0); | ||
| 21470 | } | ||
| 21471 | lua_setmetatable(L, -2); | ||
| 21472 | } | ||
| 21473 | }; | ||
| 21474 | } // namespace stack_detail | ||
| 21475 | |||
| 21476 | template <typename T> | ||
| 21477 | struct unqualified_pusher<as_container_t<T>> { | ||
| 21478 | using C = meta::unqualified_t<T>; | ||
| 21479 | |||
| 21480 | static int push_lvalue(std::true_type, lua_State* L, const C& cont) { | ||
| 21481 | stack_detail::metatable_setup<C*, true> fx(L); | ||
| 21482 | return stack::push<detail::as_pointer_tag<const C>>(L, detail::with_function_tag(), fx, detail::ptr(cont)); | ||
| 21483 | } | ||
| 21484 | |||
| 21485 | static int push_lvalue(std::false_type, lua_State* L, const C& cont) { | ||
| 21486 | stack_detail::metatable_setup<C, true> fx(L); | ||
| 21487 | return stack::push<detail::as_value_tag<C>>(L, detail::with_function_tag(), fx, cont); | ||
| 21488 | } | ||
| 21489 | |||
| 21490 | static int push_rvalue(std::true_type, lua_State* L, C&& cont) { | ||
| 21491 | stack_detail::metatable_setup<C, true> fx(L); | ||
| 21492 | return stack::push<detail::as_value_tag<C>>(L, detail::with_function_tag(), fx, std::move(cont)); | ||
| 21493 | } | ||
| 21494 | |||
| 21495 | static int push_rvalue(std::false_type, lua_State* L, const C& cont) { | ||
| 21496 | return push_lvalue(std::is_lvalue_reference<T>(), L, cont); | ||
| 21497 | } | ||
| 21498 | |||
| 21499 | static int push(lua_State* L, const as_container_t<T>& as_cont) { | ||
| 21500 | return push_lvalue(std::is_lvalue_reference<T>(), L, as_cont.value()); | ||
| 21501 | } | ||
| 21502 | |||
| 21503 | static int push(lua_State* L, as_container_t<T>&& as_cont) { | ||
| 21504 | return push_rvalue(meta::all<std::is_rvalue_reference<T>, meta::neg<std::is_lvalue_reference<T>>>(), L, std::forward<T>(as_cont.value())); | ||
| 21505 | } | ||
| 21506 | }; | ||
| 21507 | |||
| 21508 | template <typename T> | ||
| 21509 | struct unqualified_pusher<as_container_t<T*>> { | ||
| 21510 | using C = std::add_pointer_t<meta::unqualified_t<std::remove_pointer_t<T>>>; | ||
| 21511 | |||
| 21512 | static int push(lua_State* L, T* cont) { | ||
| 21513 | stack_detail::metatable_setup<C> fx(L); | ||
| 21514 | return stack::push<detail::as_pointer_tag<T>>(L, detail::with_function_tag(), fx, cont); | ||
| 21515 | } | ||
| 21516 | }; | ||
| 21517 | |||
| 21518 | template <typename T> | ||
| 21519 | struct unqualified_pusher<T, std::enable_if_t<is_container_v<T>>> { | ||
| 21520 | using C = T; | ||
| 21521 | |||
| 21522 | template <typename... Args> | ||
| 21523 | static int push(lua_State* L, Args&&... args) { | ||
| 21524 | stack_detail::metatable_setup<C> fx(L); | ||
| 21525 | return stack::push<detail::as_value_tag<T>>(L, detail::with_function_tag(), fx, std::forward<Args>(args)...); | ||
| 21526 | } | ||
| 21527 | }; | ||
| 21528 | |||
| 21529 | template <typename T> | ||
| 21530 | struct unqualified_pusher<T*, std::enable_if_t<is_container_v<T>>> { | ||
| 21531 | using C = std::add_pointer_t<meta::unqualified_t<std::remove_pointer_t<T>>>; | ||
| 21532 | |||
| 21533 | static int push(lua_State* L, T* cont) { | ||
| 21534 | stack_detail::metatable_setup<C> fx(L); | ||
| 21535 | return stack::push<detail::as_pointer_tag<T>>(L, detail::with_function_tag(), fx, cont); | ||
| 21536 | } | ||
| 21537 | }; | ||
| 21538 | } // namespace stack | ||
| 21539 | |||
| 21540 | } // namespace sol | ||
| 21541 | |||
| 21542 | // end of sol/usertype_container_launch.hpp | ||
| 21543 | |||
| 21544 | #include <sstream> | ||
| 21545 | #include <type_traits> | ||
| 21546 | |||
| 21547 | namespace sol { | ||
| 21548 | namespace u_detail { | ||
| 21549 | constexpr const lua_Integer toplevel_magic = static_cast<lua_Integer>(0xCCC2CCC1); | ||
| 21550 | |||
| 21551 | constexpr const int environment_index = 1; | ||
| 21552 | constexpr const int usertype_storage_index = 2; | ||
| 21553 | constexpr const int usertype_storage_base_index = 3; | ||
| 21554 | constexpr const int exact_function_index = 4; | ||
| 21555 | constexpr const int magic_index = 5; | ||
| 21556 | |||
| 21557 | constexpr const int simple_usertype_storage_index = 2; | ||
| 21558 | constexpr const int index_function_index = 3; | ||
| 21559 | constexpr const int new_index_function_index = 4; | ||
| 21560 | |||
| 21561 | constexpr const int base_walking_failed_index = -32467; | ||
| 21562 | constexpr const int lookup_failed_index = -42469; | ||
| 21563 | |||
| 21564 | enum class submetatable_type { | ||
| 21565 | // must be sequential | ||
| 21566 | value, | ||
| 21567 | reference, | ||
| 21568 | unique, | ||
| 21569 | const_reference, | ||
| 21570 | const_value, | ||
| 21571 | // must be LAST! | ||
| 21572 | named | ||
| 21573 | }; | ||
| 21574 | |||
| 21575 | inline auto make_string_view(string_view s) { | ||
| 21576 | return s; | ||
| 21577 | } | ||
| 21578 | |||
| 21579 | inline auto make_string_view(call_construction) { | ||
| 21580 | return string_view(to_string(meta_function::call_function)); | ||
| 21581 | } | ||
| 21582 | |||
| 21583 | inline auto make_string_view(meta_function mf) { | ||
| 21584 | return string_view(to_string(mf)); | ||
| 21585 | } | ||
| 21586 | |||
| 21587 | inline auto make_string_view(base_classes_tag) { | ||
| 21588 | return string_view(detail::base_class_cast_key()); | ||
| 21589 | } | ||
| 21590 | |||
| 21591 | template <typename Arg> | ||
| 21592 | inline std::string make_string(Arg&& arg) { | ||
| 21593 | string_view s = make_string_view(arg); | ||
| 21594 | return std::string(s.data(), s.size()); | ||
| 21595 | } | ||
| 21596 | |||
| 21597 | inline int is_indexer(string_view s) { | ||
| 21598 | if (s == to_string(meta_function::index)) { | ||
| 21599 | return 1; | ||
| 21600 | } | ||
| 21601 | else if (s == to_string(meta_function::new_index)) { | ||
| 21602 | return 2; | ||
| 21603 | } | ||
| 21604 | return 0; | ||
| 21605 | } | ||
| 21606 | |||
| 21607 | inline int is_indexer(meta_function mf) { | ||
| 21608 | if (mf == meta_function::index) { | ||
| 21609 | return 1; | ||
| 21610 | } | ||
| 21611 | else if (mf == meta_function::new_index) { | ||
| 21612 | return 2; | ||
| 21613 | } | ||
| 21614 | return 0; | ||
| 21615 | } | ||
| 21616 | |||
| 21617 | inline int is_indexer(call_construction) { | ||
| 21618 | return 0; | ||
| 21619 | } | ||
| 21620 | } // namespace u_detail | ||
| 21621 | |||
| 21622 | namespace detail { | ||
| 21623 | |||
| 21624 | template <typename T, typename IFx, typename Fx> | ||
| 21625 | inline void insert_default_registrations(IFx&& ifx, Fx&& fx) { | ||
| 21626 | (void)ifx; | ||
| 21627 | (void)fx; | ||
| 21628 | if constexpr (is_automagical<T>::value) { | ||
| 21629 | if (fx(meta_function::less_than)) { | ||
| 21630 | if constexpr (meta::supports_op_less<T>::value) { | ||
| 21631 | lua_CFunction f = &comparsion_operator_wrap<T, std::less<>>; | ||
| 21632 | ifx(meta_function::less_than, f); | ||
| 21633 | } | ||
| 21634 | } | ||
| 21635 | if (fx(meta_function::less_than_or_equal_to)) { | ||
| 21636 | if constexpr (meta::supports_op_less_equal<T>::value) { | ||
| 21637 | lua_CFunction f = &comparsion_operator_wrap<T, std::less_equal<>>; | ||
| 21638 | ifx(meta_function::less_than_or_equal_to, f); | ||
| 21639 | } | ||
| 21640 | } | ||
| 21641 | if (fx(meta_function::equal_to)) { | ||
| 21642 | if constexpr (meta::supports_op_equal<T>::value) { | ||
| 21643 | lua_CFunction f = &comparsion_operator_wrap<T, std::equal_to<>>; | ||
| 21644 | ifx(meta_function::equal_to, f); | ||
| 21645 | } | ||
| 21646 | else { | ||
| 21647 | lua_CFunction f = &comparsion_operator_wrap<T, no_comp>; | ||
| 21648 | ifx(meta_function::equal_to, f); | ||
| 21649 | } | ||
| 21650 | } | ||
| 21651 | if (fx(meta_function::pairs)) { | ||
| 21652 | ifx(meta_function::pairs, &container_detail::u_c_launch<as_container_t<T>>::pairs_call); | ||
| 21653 | } | ||
| 21654 | if (fx(meta_function::length)) { | ||
| 21655 | if constexpr (meta::has_size<const T>::value || meta::has_size<T>::value) { | ||
| 21656 | auto f = &default_size<T>; | ||
| 21657 | ifx(meta_function::length, f); | ||
| 21658 | } | ||
| 21659 | } | ||
| 21660 | if (fx(meta_function::to_string)) { | ||
| 21661 | if constexpr (is_to_stringable<T>::value) { | ||
| 21662 | auto f = &detail::static_trampoline<&default_to_string<T>>; | ||
| 21663 | ifx(meta_function::to_string, f); | ||
| 21664 | } | ||
| 21665 | } | ||
| 21666 | if (fx(meta_function::call_function)) { | ||
| 21667 | if constexpr (meta::has_deducible_signature<T>::value) { | ||
| 21668 | auto f = &c_call<decltype(&T::operator()), &T::operator()>; | ||
| 21669 | ifx(meta_function::call_function, f); | ||
| 21670 | } | ||
| 21671 | } | ||
| 21672 | } | ||
| 21673 | } | ||
| 21674 | } // namespace detail | ||
| 21675 | |||
| 21676 | namespace stack { namespace stack_detail { | ||
| 21677 | template <typename X> | ||
| 21678 | void set_undefined_methods_on(stack_reference t) { | ||
| 21679 | using T = std::remove_pointer_t<X>; | ||
| 21680 | |||
| 21681 | lua_State* L = t.lua_state(); | ||
| 21682 | |||
| 21683 | t.push(); | ||
| 21684 | |||
| 21685 | detail::lua_reg_table l{}; | ||
| 21686 | int index = 0; | ||
| 21687 | detail::indexed_insert insert_fx(l, index); | ||
| 21688 | detail::insert_default_registrations<T>(insert_fx, detail::property_always_true); | ||
| 21689 | if constexpr (!std::is_pointer_v<X>) { | ||
| 21690 | l[index] = luaL_Reg{ to_string(meta_function::garbage_collect).c_str(), detail::make_destructor<T>() }; | ||
| 21691 | } | ||
| 21692 | luaL_setfuncs(L, l, 0); | ||
| 21693 | |||
| 21694 | // __type table | ||
| 21695 | lua_createtable(L, 0, 2); | ||
| 21696 | const std::string& name = detail::demangle<T>(); | ||
| 21697 | lua_pushlstring(L, name.c_str(), name.size()); | ||
| 21698 | lua_setfield(L, -2, "name"); | ||
| 21699 | lua_CFunction is_func = &detail::is_check<T>; | ||
| 21700 | lua_pushcclosure(L, is_func, 0); | ||
| 21701 | lua_setfield(L, -2, "is"); | ||
| 21702 | lua_setfield(L, t.stack_index(), to_string(meta_function::type).c_str()); | ||
| 21703 | |||
| 21704 | t.pop(); | ||
| 21705 | } | ||
| 21706 | }} // namespace stack::stack_detail | ||
| 21707 | } // namespace sol | ||
| 21708 | |||
| 21709 | // end of sol/usertype_core.hpp | ||
| 21710 | |||
| 21711 | // beginning of sol/usertype_storage.hpp | ||
| 21712 | |||
| 21713 | #include <bitset> | ||
| 21714 | #include <unordered_map> | ||
| 21715 | |||
| 21716 | namespace sol { namespace u_detail { | ||
| 21717 | |||
| 21718 | struct usertype_storage_base; | ||
| 21719 | template <typename T> | ||
| 21720 | struct usertype_storage; | ||
| 21721 | |||
| 21722 | optional<usertype_storage_base&> maybe_get_usertype_storage_base(lua_State* L, int index); | ||
| 21723 | usertype_storage_base& get_usertype_storage_base(lua_State* L, const char* gcmetakey); | ||
| 21724 | template <typename T> | ||
| 21725 | optional<usertype_storage<T>&> maybe_get_usertype_storage(lua_State* L); | ||
| 21726 | template <typename T> | ||
| 21727 | usertype_storage<T>& get_usertype_storage(lua_State* L); | ||
| 21728 | |||
| 21729 | using index_call_function = int(lua_State*, void*); | ||
| 21730 | using change_indexing_mem_func | ||
| 21731 | = void (usertype_storage_base::*)(lua_State*, submetatable_type, void*, stack_reference&, lua_CFunction, lua_CFunction, lua_CFunction, lua_CFunction); | ||
| 21732 | |||
| 21733 | struct index_call_storage { | ||
| 21734 | index_call_function* index; | ||
| 21735 | index_call_function* new_index; | ||
| 21736 | void* binding_data; | ||
| 21737 | }; | ||
| 21738 | |||
| 21739 | struct new_index_call_storage : index_call_storage { | ||
| 21740 | void* new_binding_data; | ||
| 21741 | }; | ||
| 21742 | |||
| 21743 | struct binding_base { | ||
| 21744 | virtual void* data() = 0; | ||
| 21745 | virtual ~binding_base() { | ||
| 21746 | } | ||
| 21747 | }; | ||
| 21748 | |||
| 21749 | template <typename K, typename Fq, typename T = void> | ||
| 21750 | struct binding : binding_base { | ||
| 21751 | using uF = meta::unqualified_t<Fq>; | ||
| 21752 | using F = meta::conditional_t<meta::is_c_str_of_v<uF, char> | ||
| 21753 | #ifdef __cpp_char8_t | ||
| 21754 | || meta::is_c_str_of_v<uF, char8_t> | ||
| 21755 | #endif | ||
| 21756 | || meta::is_c_str_of_v<uF, char16_t> || meta::is_c_str_of_v<uF, char32_t> || meta::is_c_str_of_v<uF, wchar_t>, | ||
| 21757 | std::add_pointer_t<std::add_const_t<std::remove_all_extents_t<Fq>>>, std::decay_t<Fq>>; | ||
| 21758 | F data_; | ||
| 21759 | |||
| 21760 | template <typename... Args> | ||
| 21761 | binding(Args&&... args) : data_(std::forward<Args>(args)...) { | ||
| 21762 | } | ||
| 21763 | |||
| 21764 | virtual void* data() override { | ||
| 21765 | return static_cast<void*>(std::addressof(data_)); | ||
| 21766 | } | ||
| 21767 | |||
| 21768 | template <bool is_index = true, bool is_variable = false> | ||
| 21769 | static inline int call_with_(lua_State* L, void* target) { | ||
| 21770 | constexpr int boost = !detail::is_non_factory_constructor<F>::value && std::is_same<K, call_construction>::value ? 1 : 0; | ||
| 21771 | auto& f = *static_cast<F*>(target); | ||
| 21772 | return call_detail::call_wrapped<T, is_index, is_variable, boost>(L, f); | ||
| 21773 | } | ||
| 21774 | |||
| 21775 | template <bool is_index = true, bool is_variable = false> | ||
| 21776 | static inline int call_(lua_State* L) { | ||
| 21777 | void* f = stack::get<void*>(L, upvalue_index(usertype_storage_index)); | ||
| 21778 | return call_with_<is_index, is_variable>(L, f); | ||
| 21779 | } | ||
| 21780 | |||
| 21781 | template <bool is_index = true, bool is_variable = false> | ||
| 21782 | static inline int call(lua_State* L) { | ||
| 21783 | int r = detail::typed_static_trampoline<decltype(&call_<is_index, is_variable>), (&call_<is_index, is_variable>)>(L); | ||
| 21784 | if constexpr (meta::is_specialization_of_v<uF, yielding_t>) { | ||
| 21785 | return lua_yield(L, r); | ||
| 21786 | } | ||
| 21787 | else { | ||
| 21788 | return r; | ||
| 21789 | } | ||
| 21790 | } | ||
| 21791 | |||
| 21792 | template <bool is_index = true, bool is_variable = false> | ||
| 21793 | static inline int index_call_with_(lua_State* L, void* target) { | ||
| 21794 | if constexpr (!is_variable) { | ||
| 21795 | if constexpr (is_lua_c_function_v<std::decay_t<F>>) { | ||
| 21796 | auto& f = *static_cast<std::decay_t<F>*>(target); | ||
| 21797 | return stack::push(L, f); | ||
| 21798 | } | ||
| 21799 | else { | ||
| 21800 | // set up upvalues | ||
| 21801 | // for a chained call | ||
| 21802 | int upvalues = 0; | ||
| 21803 | upvalues += stack::push(L, nullptr); | ||
| 21804 | upvalues += stack::push(L, target); | ||
| 21805 | auto cfunc = &call<is_index, is_variable>; | ||
| 21806 | return stack::push(L, c_closure(cfunc, upvalues)); | ||
| 21807 | } | ||
| 21808 | } | ||
| 21809 | else { | ||
| 21810 | constexpr int boost = !detail::is_non_factory_constructor<F>::value && std::is_same<K, call_construction>::value ? 1 : 0; | ||
| 21811 | auto& f = *static_cast<F*>(target); | ||
| 21812 | return call_detail::call_wrapped<T, is_index, is_variable, boost>(L, f); | ||
| 21813 | } | ||
| 21814 | } | ||
| 21815 | |||
| 21816 | template <bool is_index = true, bool is_variable = false> | ||
| 21817 | static inline int index_call_(lua_State* L) { | ||
| 21818 | void* f = stack::get<void*>(L, upvalue_index(usertype_storage_index)); | ||
| 21819 | return index_call_with_<is_index, is_variable>(L, f); | ||
| 21820 | } | ||
| 21821 | |||
| 21822 | template <bool is_index = true, bool is_variable = false> | ||
| 21823 | static inline int index_call(lua_State* L) { | ||
| 21824 | int r = detail::typed_static_trampoline<decltype(&index_call_<is_index, is_variable>), (&index_call_<is_index, is_variable>)>(L); | ||
| 21825 | if constexpr (meta::is_specialization_of_v<uF, yielding_t>) { | ||
| 21826 | return lua_yield(L, r); | ||
| 21827 | } | ||
| 21828 | else { | ||
| 21829 | return r; | ||
| 21830 | } | ||
| 21831 | } | ||
| 21832 | }; | ||
| 21833 | |||
| 21834 | inline int index_fail(lua_State* L) { | ||
| 21835 | if (lua_getmetatable(L, 1) == 1) { | ||
| 21836 | int metatarget = lua_gettop(L); | ||
| 21837 | stack::get_field<false, true>(L, stack_reference(L, raw_index(2)), metatarget); | ||
| 21838 | return 1; | ||
| 21839 | } | ||
| 21840 | // With runtime extensibility, we can't | ||
| 21841 | // hard-error things. They have to | ||
| 21842 | // return nil, like regular table types | ||
| 21843 | return stack::push(L, lua_nil); | ||
| 21844 | } | ||
| 21845 | |||
| 21846 | inline int index_target_fail(lua_State* L, void*) { | ||
| 21847 | return index_fail(L); | ||
| 21848 | } | ||
| 21849 | |||
| 21850 | inline int new_index_fail(lua_State* L) { | ||
| 21851 | return luaL_error(L, "sol: cannot set (new_index) into this object: no defined new_index operation on usertype"); | ||
| 21852 | } | ||
| 21853 | |||
| 21854 | inline int new_index_target_fail(lua_State* L, void*) { | ||
| 21855 | return new_index_fail(L); | ||
| 21856 | } | ||
| 21857 | |||
| 21858 | struct string_for_each_metatable_func { | ||
| 21859 | bool is_destruction = false; | ||
| 21860 | bool is_index = false; | ||
| 21861 | bool is_new_index = false; | ||
| 21862 | bool is_static_index = false; | ||
| 21863 | bool is_static_new_index = false; | ||
| 21864 | bool poison_indexing = false; | ||
| 21865 | bool is_unqualified_lua_CFunction = false; | ||
| 21866 | bool is_unqualified_lua_reference = false; | ||
| 21867 | std::string* p_key = nullptr; | ||
| 21868 | reference* p_binding_ref = nullptr; | ||
| 21869 | lua_CFunction call_func = nullptr; | ||
| 21870 | index_call_storage* p_ics = nullptr; | ||
| 21871 | usertype_storage_base* p_usb = nullptr; | ||
| 21872 | void* p_derived_usb = nullptr; | ||
| 21873 | lua_CFunction idx_call = nullptr, new_idx_call = nullptr, meta_idx_call = nullptr, meta_new_idx_call = nullptr; | ||
| 21874 | change_indexing_mem_func change_indexing; | ||
| 21875 | |||
| 21876 | void operator()(lua_State* L, submetatable_type smt, reference& fast_index_table) { | ||
| 21877 | std::string& key = *p_key; | ||
| 21878 | usertype_storage_base& usb = *p_usb; | ||
| 21879 | index_call_storage& ics = *p_ics; | ||
| 21880 | |||
| 21881 | if (smt == submetatable_type::named) { | ||
| 21882 | // do not override __call or | ||
| 21883 | // other specific meta functions on named metatable: | ||
| 21884 | // we need that for call construction | ||
| 21885 | // and other amenities | ||
| 21886 | return; | ||
| 21887 | } | ||
| 21888 | int fast_index_table_push = fast_index_table.push(); | ||
| 21889 | stack_reference t(L, -fast_index_table_push); | ||
| 21890 | if (poison_indexing) { | ||
| 21891 | (usb.*change_indexing)(L, smt, p_derived_usb, t, idx_call, new_idx_call, meta_idx_call, meta_new_idx_call); | ||
| 21892 | } | ||
| 21893 | if (is_destruction | ||
| 21894 | && (smt == submetatable_type::reference || smt == submetatable_type::const_reference || smt == submetatable_type::named | ||
| 21895 | || smt == submetatable_type::unique)) { | ||
| 21896 | // gc does not apply to us here | ||
| 21897 | // for reference types (raw T*, std::ref) | ||
| 21898 | // for the named metatable itself, | ||
| 21899 | // or for unique_usertypes, which do their own custom destruction | ||
| 21900 | t.pop(); | ||
| 21901 | return; | ||
| 21902 | } | ||
| 21903 | if (is_index || is_new_index || is_static_index || is_static_new_index) { | ||
| 21904 | // do not serialize the new_index and index functions here directly | ||
| 21905 | // we control those... | ||
| 21906 | t.pop(); | ||
| 21907 | return; | ||
| 21908 | } | ||
| 21909 | if (is_unqualified_lua_CFunction) { | ||
| 21910 | stack::set_field<false, true>(L, key, call_func, t.stack_index()); | ||
| 21911 | } | ||
| 21912 | else if (is_unqualified_lua_reference) { | ||
| 21913 | reference& binding_ref = *p_binding_ref; | ||
| 21914 | stack::set_field<false, true>(L, key, binding_ref, t.stack_index()); | ||
| 21915 | } | ||
| 21916 | else { | ||
| 21917 | stack::set_field<false, true>(L, key, make_closure(call_func, nullptr, ics.binding_data), t.stack_index()); | ||
| 21918 | } | ||
| 21919 | t.pop(); | ||
| 21920 | } | ||
| 21921 | }; | ||
| 21922 | |||
| 21923 | struct lua_reference_func { | ||
| 21924 | reference key; | ||
| 21925 | reference value; | ||
| 21926 | |||
| 21927 | void operator()(lua_State* L, submetatable_type smt, reference& fast_index_table) { | ||
| 21928 | if (smt == submetatable_type::named) { | ||
| 21929 | return; | ||
| 21930 | } | ||
| 21931 | int fast_index_table_push = fast_index_table.push(); | ||
| 21932 | stack_reference t(L, -fast_index_table_push); | ||
| 21933 | stack::set_field<false, true>(L, key, value, t.stack_index()); | ||
| 21934 | t.pop(); | ||
| 21935 | } | ||
| 21936 | }; | ||
| 21937 | |||
| 21938 | struct update_bases_func { | ||
| 21939 | detail::inheritance_check_function base_class_check_func; | ||
| 21940 | detail::inheritance_cast_function base_class_cast_func; | ||
| 21941 | lua_CFunction idx_call, new_idx_call, meta_idx_call, meta_new_idx_call; | ||
| 21942 | usertype_storage_base* p_usb; | ||
| 21943 | void* p_derived_usb; | ||
| 21944 | change_indexing_mem_func change_indexing; | ||
| 21945 | |||
| 21946 | void operator()(lua_State* L, submetatable_type smt, reference& fast_index_table) { | ||
| 21947 | int fast_index_table_push = fast_index_table.push(); | ||
| 21948 | stack_reference t(L, -fast_index_table_push); | ||
| 21949 | stack::set_field(L, detail::base_class_check_key(), reinterpret_cast<void*>(base_class_check_func), t.stack_index()); | ||
| 21950 | stack::set_field(L, detail::base_class_cast_key(), reinterpret_cast<void*>(base_class_cast_func), t.stack_index()); | ||
| 21951 | // change indexing, forcefully | ||
| 21952 | (p_usb->*change_indexing)(L, smt, p_derived_usb, t, idx_call, new_idx_call, meta_idx_call, meta_new_idx_call); | ||
| 21953 | t.pop(); | ||
| 21954 | } | ||
| 21955 | }; | ||
| 21956 | |||
| 21957 | struct binding_data_equals { | ||
| 21958 | void* binding_data; | ||
| 21959 | |||
| 21960 | binding_data_equals(void* b) : binding_data(b) { | ||
| 21961 | } | ||
| 21962 | |||
| 21963 | bool operator()(const std::unique_ptr<binding_base>& ptr) const { | ||
| 21964 | return binding_data == ptr->data(); | ||
| 21965 | } | ||
| 21966 | }; | ||
| 21967 | |||
| 21968 | struct usertype_storage_base { | ||
| 21969 | public: | ||
| 21970 | std::vector<std::unique_ptr<binding_base>> storage; | ||
| 21971 | std::vector<std::unique_ptr<char[]>> string_keys_storage; | ||
| 21972 | std::unordered_map<string_view, index_call_storage> string_keys; | ||
| 21973 | std::unordered_map<reference, reference, reference_hash, reference_equals> auxiliary_keys; | ||
| 21974 | reference value_index_table; | ||
| 21975 | reference reference_index_table; | ||
| 21976 | reference unique_index_table; | ||
| 21977 | reference const_reference_index_table; | ||
| 21978 | reference const_value_index_table; | ||
| 21979 | reference named_index_table; | ||
| 21980 | reference type_table; | ||
| 21981 | reference gc_names_table; | ||
| 21982 | reference named_metatable; | ||
| 21983 | new_index_call_storage base_index; | ||
| 21984 | new_index_call_storage static_base_index; | ||
| 21985 | bool is_using_index; | ||
| 21986 | bool is_using_new_index; | ||
| 21987 | std::bitset<64> properties; | ||
| 21988 | |||
| 21989 | usertype_storage_base(lua_State* L) | ||
| 21990 | : storage() | ||
| 21991 | , string_keys() | ||
| 21992 | , auxiliary_keys() | ||
| 21993 | , value_index_table() | ||
| 21994 | , reference_index_table() | ||
| 21995 | , unique_index_table() | ||
| 21996 | , const_reference_index_table() | ||
| 21997 | , type_table(make_reference(L, create)) | ||
| 21998 | , gc_names_table(make_reference(L, create)) | ||
| 21999 | , named_metatable(make_reference(L, create)) | ||
| 22000 | , base_index() | ||
| 22001 | , static_base_index() | ||
| 22002 | , is_using_index(false) | ||
| 22003 | , is_using_new_index(false) | ||
| 22004 | , properties() { | ||
| 22005 | base_index.binding_data = nullptr; | ||
| 22006 | base_index.index = index_target_fail; | ||
| 22007 | base_index.new_index = new_index_target_fail; | ||
| 22008 | base_index.new_binding_data = nullptr; | ||
| 22009 | static_base_index.binding_data = nullptr; | ||
| 22010 | static_base_index.index = index_target_fail; | ||
| 22011 | static_base_index.new_binding_data = this; | ||
| 22012 | static_base_index.new_index = new_index_target_set; | ||
| 22013 | } | ||
| 22014 | |||
| 22015 | template <typename Fx> | ||
| 22016 | void for_each_table(lua_State* L, Fx&& fx) { | ||
| 22017 | for (int i = 0; i < 6; ++i) { | ||
| 22018 | submetatable_type smt = static_cast<submetatable_type>(i); | ||
| 22019 | reference* p_fast_index_table = nullptr; | ||
| 22020 | switch (smt) { | ||
| 22021 | case submetatable_type::const_value: | ||
| 22022 | p_fast_index_table = &this->const_value_index_table; | ||
| 22023 | break; | ||
| 22024 | case submetatable_type::reference: | ||
| 22025 | p_fast_index_table = &this->reference_index_table; | ||
| 22026 | break; | ||
| 22027 | case submetatable_type::unique: | ||
| 22028 | p_fast_index_table = &this->unique_index_table; | ||
| 22029 | break; | ||
| 22030 | case submetatable_type::const_reference: | ||
| 22031 | p_fast_index_table = &this->const_reference_index_table; | ||
| 22032 | break; | ||
| 22033 | case submetatable_type::named: | ||
| 22034 | p_fast_index_table = &this->named_index_table; | ||
| 22035 | break; | ||
| 22036 | case submetatable_type::value: | ||
| 22037 | default: | ||
| 22038 | p_fast_index_table = &this->value_index_table; | ||
| 22039 | break; | ||
| 22040 | } | ||
| 22041 | fx(L, smt, *p_fast_index_table); | ||
| 22042 | } | ||
| 22043 | } | ||
| 22044 | |||
| 22045 | void add_entry(string_view sv, index_call_storage ics) { | ||
| 22046 | string_keys_storage.emplace_back(new char[sv.size()]); | ||
| 22047 | std::unique_ptr<char[]>& sv_storage = string_keys_storage.back(); | ||
| 22048 | std::memcpy(sv_storage.get(), sv.data(), sv.size()); | ||
| 22049 | string_view stored_sv(sv_storage.get(), sv.size()); | ||
| 22050 | string_keys.insert_or_assign(std::move(stored_sv), std::move(ics)); | ||
| 22051 | } | ||
| 22052 | |||
| 22053 | template <typename T, typename... Bases> | ||
| 22054 | void update_bases(lua_State* L, bases<Bases...>) { | ||
| 22055 | static_assert(sizeof(void*) <= sizeof(detail::inheritance_check_function), | ||
| 22056 | "The size of this data pointer is too small to fit the inheritance checking function: Please file " | ||
| 22057 | "a bug report."); | ||
| 22058 | static_assert(sizeof(void*) <= sizeof(detail::inheritance_cast_function), | ||
| 22059 | "The size of this data pointer is too small to fit the inheritance checking function: Please file " | ||
| 22060 | "a bug report."); | ||
| 22061 | static_assert(!meta::any_same<T, Bases...>::value, "base classes cannot list the original class as part of the bases"); | ||
| 22062 | if constexpr (sizeof...(Bases) < 1) { | ||
| 22063 | return; | ||
| 22064 | } | ||
| 22065 | |||
| 22066 | (void)detail::swallow { 0, ((weak_derive<Bases>::value = true), 0)... }; | ||
| 22067 | |||
| 22068 | void* derived_this = static_cast<void*>(static_cast<usertype_storage<T>*>(this)); | ||
| 22069 | |||
| 22070 | update_bases_func for_each_fx; | ||
| 22071 | for_each_fx.base_class_check_func = &detail::inheritance<T>::template type_check_with<Bases...>; | ||
| 22072 | for_each_fx.base_class_cast_func = &detail::inheritance<T>::template type_cast_with<Bases...>; | ||
| 22073 | for_each_fx.idx_call = &usertype_storage<T>::template index_call_with_bases<false, Bases...>; | ||
| 22074 | for_each_fx.new_idx_call = &usertype_storage<T>::template index_call_with_bases<true, Bases...>; | ||
| 22075 | for_each_fx.meta_idx_call = &usertype_storage<T>::template meta_index_call_with_bases<false, Bases...>; | ||
| 22076 | for_each_fx.meta_new_idx_call = &usertype_storage<T>::template meta_index_call_with_bases<true, Bases...>; | ||
| 22077 | for_each_fx.p_usb = this; | ||
| 22078 | for_each_fx.p_derived_usb = derived_this; | ||
| 22079 | for_each_fx.change_indexing = &usertype_storage_base::change_indexing; | ||
| 22080 | for_each_fx.p_derived_usb = derived_this; | ||
| 22081 | this->for_each_table(L, for_each_fx); | ||
| 22082 | } | ||
| 22083 | |||
| 22084 | void clear() { | ||
| 22085 | if (value_index_table.valid()) { | ||
| 22086 | stack::clear(value_index_table); | ||
| 22087 | } | ||
| 22088 | if (reference_index_table.valid()) { | ||
| 22089 | stack::clear(reference_index_table); | ||
| 22090 | } | ||
| 22091 | if (unique_index_table.valid()) { | ||
| 22092 | stack::clear(unique_index_table); | ||
| 22093 | } | ||
| 22094 | if (const_reference_index_table.valid()) { | ||
| 22095 | stack::clear(const_reference_index_table); | ||
| 22096 | } | ||
| 22097 | if (const_value_index_table.valid()) { | ||
| 22098 | stack::clear(const_value_index_table); | ||
| 22099 | } | ||
| 22100 | if (named_index_table.valid()) { | ||
| 22101 | stack::clear(named_index_table); | ||
| 22102 | } | ||
| 22103 | if (type_table.valid()) { | ||
| 22104 | stack::clear(type_table); | ||
| 22105 | } | ||
| 22106 | if (gc_names_table.valid()) { | ||
| 22107 | stack::clear(gc_names_table); | ||
| 22108 | } | ||
| 22109 | if (named_metatable.valid()) { | ||
| 22110 | lua_State* L = named_metatable.lua_state(); | ||
| 22111 | auto pp = stack::push_pop(named_metatable); | ||
| 22112 | int named_metatable_index = pp.index_of(named_metatable); | ||
| 22113 | if (lua_getmetatable(L, named_metatable_index) == 1) { | ||
| 22114 | stack::clear(L, absolute_index(L, -1)); | ||
| 22115 | } | ||
| 22116 | stack::clear(named_metatable); | ||
| 22117 | } | ||
| 22118 | |||
| 22119 | value_index_table = lua_nil; | ||
| 22120 | reference_index_table = lua_nil; | ||
| 22121 | unique_index_table = lua_nil; | ||
| 22122 | const_reference_index_table = lua_nil; | ||
| 22123 | const_value_index_table = lua_nil; | ||
| 22124 | named_index_table = lua_nil; | ||
| 22125 | type_table = lua_nil; | ||
| 22126 | gc_names_table = lua_nil; | ||
| 22127 | named_metatable = lua_nil; | ||
| 22128 | |||
| 22129 | storage.clear(); | ||
| 22130 | string_keys.clear(); | ||
| 22131 | auxiliary_keys.clear(); | ||
| 22132 | } | ||
| 22133 | |||
| 22134 | template <bool is_new_index, typename Base> | ||
| 22135 | static void base_walk_index(lua_State* L, usertype_storage_base& self, bool& keep_going, int& base_result) { | ||
| 22136 | using bases = typename base<Base>::type; | ||
| 22137 | if (!keep_going) { | ||
| 22138 | return; | ||
| 22139 | } | ||
| 22140 | (void)L; | ||
| 22141 | (void)self; | ||
| 22142 | #if SOL_IS_ON(SOL_USE_UNSAFE_BASE_LOOKUP_I_) | ||
| 22143 | usertype_storage_base& base_storage = get_usertype_storage<Base>(L); | ||
| 22144 | base_result = self_index_call<is_new_index, true>(bases(), L, base_storage); | ||
| 22145 | #else | ||
| 22146 | optional<usertype_storage<Base>&> maybe_base_storage = maybe_get_usertype_storage<Base>(L); | ||
| 22147 | if (static_cast<bool>(maybe_base_storage)) { | ||
| 22148 | base_result = self_index_call<is_new_index, true>(bases(), L, *maybe_base_storage); | ||
| 22149 | keep_going = base_result == base_walking_failed_index; | ||
| 22150 | } | ||
| 22151 | #endif // Fast versus slow, safe base lookup | ||
| 22152 | } | ||
| 22153 | |||
| 22154 | template <bool is_new_index = false, bool base_walking = false, bool from_named_metatable = false, typename... Bases> | ||
| 22155 | static inline int self_index_call(types<Bases...>, lua_State* L, usertype_storage_base& self) { | ||
| 22156 | type k_type = stack::get<type>(L, 2); | ||
| 22157 | if (k_type == type::string) { | ||
| 22158 | index_call_storage* target = nullptr; | ||
| 22159 | { | ||
| 22160 | string_view k = stack::get<string_view>(L, 2); | ||
| 22161 | auto it = self.string_keys.find(k); | ||
| 22162 | if (it != self.string_keys.cend()) { | ||
| 22163 | target = &it->second; | ||
| 22164 | } | ||
| 22165 | } | ||
| 22166 | if (target != nullptr) { | ||
| 22167 | // let the target decide what to do | ||
| 22168 | if constexpr (is_new_index) { | ||
| 22169 | return (target->new_index)(L, target->binding_data); | ||
| 22170 | } | ||
| 22171 | else { | ||
| 22172 | return (target->index)(L, target->binding_data); | ||
| 22173 | } | ||
| 22174 | } | ||
| 22175 | } | ||
| 22176 | else if (k_type != type::lua_nil && k_type != type::none) { | ||
| 22177 | reference* target = nullptr; | ||
| 22178 | { | ||
| 22179 | stack_reference k = stack::get<stack_reference>(L, 2); | ||
| 22180 | auto it = self.auxiliary_keys.find(k); | ||
| 22181 | if (it != self.auxiliary_keys.cend()) { | ||
| 22182 | target = &it->second; | ||
| 22183 | } | ||
| 22184 | } | ||
| 22185 | if (target != nullptr) { | ||
| 22186 | if constexpr (is_new_index) { | ||
| 22187 | // set value and return | ||
| 22188 | *target = reference(L, 3); | ||
| 22189 | return 0; | ||
| 22190 | } | ||
| 22191 | else { | ||
| 22192 | // push target to return | ||
| 22193 | // what we found | ||
| 22194 | return stack::push(L, *target); | ||
| 22195 | } | ||
| 22196 | } | ||
| 22197 | } | ||
| 22198 | |||
| 22199 | // retrieve bases and walk through them. | ||
| 22200 | bool keep_going = true; | ||
| 22201 | int base_result; | ||
| 22202 | (void)keep_going; | ||
| 22203 | (void)base_result; | ||
| 22204 | (void)detail::swallow { 1, (base_walk_index<is_new_index, Bases>(L, self, keep_going, base_result), 1)... }; | ||
| 22205 | if constexpr (sizeof...(Bases) > 0) { | ||
| 22206 | if (!keep_going) { | ||
| 22207 | return base_result; | ||
| 22208 | } | ||
| 22209 | } | ||
| 22210 | if constexpr (base_walking) { | ||
| 22211 | // if we're JUST base-walking then don't index-fail, just | ||
| 22212 | // return the false bits | ||
| 22213 | return base_walking_failed_index; | ||
| 22214 | } | ||
| 22215 | else if constexpr (from_named_metatable) { | ||
| 22216 | if constexpr (is_new_index) { | ||
| 22217 | return self.static_base_index.new_index(L, self.static_base_index.new_binding_data); | ||
| 22218 | } | ||
| 22219 | else { | ||
| 22220 | return self.static_base_index.index(L, self.static_base_index.binding_data); | ||
| 22221 | } | ||
| 22222 | } | ||
| 22223 | else { | ||
| 22224 | if constexpr (is_new_index) { | ||
| 22225 | return self.base_index.new_index(L, self.base_index.new_binding_data); | ||
| 22226 | } | ||
| 22227 | else { | ||
| 22228 | return self.base_index.index(L, self.base_index.binding_data); | ||
| 22229 | } | ||
| 22230 | } | ||
| 22231 | } | ||
| 22232 | |||
| 22233 | void change_indexing(lua_State* L, submetatable_type submetatable, void* derived_this, stack_reference& t, lua_CFunction index, | ||
| 22234 | lua_CFunction new_index, lua_CFunction meta_index, lua_CFunction meta_new_index) { | ||
| 22235 | usertype_storage_base& this_base = *this; | ||
| 22236 | void* base_this = static_cast<void*>(&this_base); | ||
| 22237 | |||
| 22238 | this->is_using_index |= true; | ||
| 22239 | this->is_using_new_index |= true; | ||
| 22240 | if (submetatable == submetatable_type::named) { | ||
| 22241 | stack::set_field(L, metatable_key, named_index_table, t.stack_index()); | ||
| 22242 | stack_reference stack_metametatable(L, -named_metatable.push()); | ||
| 22243 | stack::set_field<false, true>(L, | ||
| 22244 | meta_function::index, | ||
| 22245 | make_closure(meta_index, nullptr, derived_this, base_this, nullptr, toplevel_magic), | ||
| 22246 | stack_metametatable.stack_index()); | ||
| 22247 | stack::set_field<false, true>(L, | ||
| 22248 | meta_function::new_index, | ||
| 22249 | make_closure(meta_new_index, nullptr, derived_this, base_this, nullptr, toplevel_magic), | ||
| 22250 | stack_metametatable.stack_index()); | ||
| 22251 | stack_metametatable.pop(); | ||
| 22252 | } | ||
| 22253 | else { | ||
| 22254 | stack::set_field<false, true>( | ||
| 22255 | L, meta_function::index, make_closure(index, nullptr, derived_this, base_this, nullptr, toplevel_magic), t.stack_index()); | ||
| 22256 | stack::set_field<false, true>( | ||
| 22257 | L, meta_function::new_index, make_closure(new_index, nullptr, derived_this, base_this, nullptr, toplevel_magic), t.stack_index()); | ||
| 22258 | } | ||
| 22259 | } | ||
| 22260 | |||
| 22261 | template <typename T = void, typename Key, typename Value> | ||
| 22262 | void set(lua_State* L, Key&& key, Value&& value); | ||
| 22263 | |||
| 22264 | static int new_index_target_set(lua_State* L, void* target) { | ||
| 22265 | usertype_storage_base& self = *static_cast<usertype_storage_base*>(target); | ||
| 22266 | self.set(L, reference(L, raw_index(2)), reference(L, raw_index(3))); | ||
| 22267 | return 0; | ||
| 22268 | } | ||
| 22269 | }; | ||
| 22270 | |||
| 22271 | template <typename T> | ||
| 22272 | struct usertype_storage : usertype_storage_base { | ||
| 22273 | |||
| 22274 | using usertype_storage_base::usertype_storage_base; | ||
| 22275 | |||
| 22276 | template <bool is_new_index, bool from_named_metatable> | ||
| 22277 | static inline int index_call_(lua_State* L) { | ||
| 22278 | using bases = typename base<T>::type; | ||
| 22279 | usertype_storage_base& self = stack::get<light<usertype_storage_base>>(L, upvalue_index(usertype_storage_index)); | ||
| 22280 | return self_index_call<is_new_index, false, from_named_metatable>(bases(), L, self); | ||
| 22281 | } | ||
| 22282 | |||
| 22283 | template <bool is_new_index, bool from_named_metatable, typename... Bases> | ||
| 22284 | static inline int index_call_with_bases_(lua_State* L) { | ||
| 22285 | using bases = types<Bases...>; | ||
| 22286 | usertype_storage_base& self = stack::get<light<usertype_storage_base>>(L, upvalue_index(usertype_storage_index)); | ||
| 22287 | return self_index_call<is_new_index, false, from_named_metatable>(bases(), L, self); | ||
| 22288 | } | ||
| 22289 | |||
| 22290 | template <bool is_new_index> | ||
| 22291 | static inline int index_call(lua_State* L) { | ||
| 22292 | return detail::static_trampoline<&index_call_<is_new_index, false>>(L); | ||
| 22293 | } | ||
| 22294 | |||
| 22295 | template <bool is_new_index, typename... Bases> | ||
| 22296 | static inline int index_call_with_bases(lua_State* L) { | ||
| 22297 | return detail::static_trampoline<&index_call_with_bases_<is_new_index, false, Bases...>>(L); | ||
| 22298 | } | ||
| 22299 | |||
| 22300 | template <bool is_new_index> | ||
| 22301 | static inline int meta_index_call(lua_State* L) { | ||
| 22302 | return detail::static_trampoline<&index_call_<is_new_index, true>>(L); | ||
| 22303 | } | ||
| 22304 | |||
| 22305 | template <bool is_new_index, typename... Bases> | ||
| 22306 | static inline int meta_index_call_with_bases(lua_State* L) { | ||
| 22307 | return detail::static_trampoline<&index_call_with_bases_<is_new_index, true, Bases...>>(L); | ||
| 22308 | } | ||
| 22309 | |||
| 22310 | template <typename Key, typename Value> | ||
| 22311 | inline void set(lua_State* L, Key&& key, Value&& value); | ||
| 22312 | }; | ||
| 22313 | |||
| 22314 | template <typename T> | ||
| 22315 | inline int destruct_usertype_storage(lua_State* L) { | ||
| 22316 | return detail::user_alloc_destruct<usertype_storage<T>>(L); | ||
| 22317 | } | ||
| 22318 | |||
| 22319 | template <typename T, typename Key, typename Value> | ||
| 22320 | void usertype_storage_base::set(lua_State* L, Key&& key, Value&& value) { | ||
| 22321 | using ValueU = meta::unwrap_unqualified_t<Value>; | ||
| 22322 | using KeyU = meta::unwrap_unqualified_t<Key>; | ||
| 22323 | using Binding = binding<KeyU, ValueU, T>; | ||
| 22324 | using is_var_bind = is_variable_binding<ValueU>; | ||
| 22325 | if constexpr (std::is_same_v<KeyU, call_construction>) { | ||
| 22326 | (void)key; | ||
| 22327 | std::unique_ptr<Binding> p_binding = std::make_unique<Binding>(std::forward<Value>(value)); | ||
| 22328 | Binding& b = *p_binding; | ||
| 22329 | this->storage.push_back(std::move(p_binding)); | ||
| 22330 | |||
| 22331 | this->named_index_table.push(); | ||
| 22332 | absolute_index metametatable_index(L, -1); | ||
| 22333 | stack::push(L, nullptr); | ||
| 22334 | stack::push(L, b.data()); | ||
| 22335 | lua_CFunction target_func = &b.template call<false, false>; | ||
| 22336 | lua_pushcclosure(L, target_func, 2); | ||
| 22337 | lua_setfield(L, metametatable_index, to_string(meta_function::call).c_str()); | ||
| 22338 | this->named_index_table.pop(); | ||
| 22339 | } | ||
| 22340 | else if constexpr (std::is_same_v<KeyU, base_classes_tag>) { | ||
| 22341 | (void)key; | ||
| 22342 | this->update_bases<T>(L, std::forward<Value>(value)); | ||
| 22343 | } | ||
| 22344 | else if constexpr ((meta::is_string_like_or_constructible<KeyU>::value || std::is_same_v<KeyU, meta_function>)) { | ||
| 22345 | std::string s = u_detail::make_string(std::forward<Key>(key)); | ||
| 22346 | auto storage_it = this->storage.end(); | ||
| 22347 | auto string_it = this->string_keys.find(s); | ||
| 22348 | if (string_it != this->string_keys.cend()) { | ||
| 22349 | const auto& binding_data = string_it->second.binding_data; | ||
| 22350 | storage_it = std::find_if(this->storage.begin(), this->storage.end(), binding_data_equals(binding_data)); | ||
| 22351 | this->string_keys.erase(string_it); | ||
| 22352 | } | ||
| 22353 | |||
| 22354 | std::unique_ptr<Binding> p_binding = std::make_unique<Binding>(std::forward<Value>(value)); | ||
| 22355 | Binding& b = *p_binding; | ||
| 22356 | if (storage_it != this->storage.cend()) { | ||
| 22357 | *storage_it = std::move(p_binding); | ||
| 22358 | } | ||
| 22359 | else { | ||
| 22360 | this->storage.push_back(std::move(p_binding)); | ||
| 22361 | } | ||
| 22362 | |||
| 22363 | bool is_index = (s == to_string(meta_function::index)); | ||
| 22364 | bool is_new_index = (s == to_string(meta_function::new_index)); | ||
| 22365 | bool is_static_index = (s == to_string(meta_function::static_index)); | ||
| 22366 | bool is_static_new_index = (s == to_string(meta_function::static_new_index)); | ||
| 22367 | bool is_destruction = s == to_string(meta_function::garbage_collect); | ||
| 22368 | bool poison_indexing = (!is_using_index || !is_using_new_index) && (is_var_bind::value || is_index || is_new_index); | ||
| 22369 | void* derived_this = static_cast<void*>(static_cast<usertype_storage<T>*>(this)); | ||
| 22370 | index_call_storage ics; | ||
| 22371 | ics.binding_data = b.data(); | ||
| 22372 | ics.index = is_index || is_static_index ? &Binding::template call_with_<true, is_var_bind::value> | ||
| 22373 | : &Binding::template index_call_with_<true, is_var_bind::value>; | ||
| 22374 | ics.new_index = is_new_index || is_static_new_index ? &Binding::template call_with_<false, is_var_bind::value> | ||
| 22375 | : &Binding::template index_call_with_<false, is_var_bind::value>; | ||
| 22376 | |||
| 22377 | string_for_each_metatable_func for_each_fx; | ||
| 22378 | for_each_fx.is_destruction = is_destruction; | ||
| 22379 | for_each_fx.is_index = is_index; | ||
| 22380 | for_each_fx.is_new_index = is_new_index; | ||
| 22381 | for_each_fx.is_static_index = is_static_index; | ||
| 22382 | for_each_fx.is_static_new_index = is_static_new_index; | ||
| 22383 | for_each_fx.poison_indexing = poison_indexing; | ||
| 22384 | for_each_fx.p_key = &s; | ||
| 22385 | for_each_fx.p_ics = &ics; | ||
| 22386 | if constexpr (is_lua_c_function_v<ValueU>) { | ||
| 22387 | for_each_fx.is_unqualified_lua_CFunction = true; | ||
| 22388 | for_each_fx.call_func = *static_cast<lua_CFunction*>(ics.binding_data); | ||
| 22389 | } | ||
| 22390 | else if constexpr (is_lua_reference_or_proxy_v<ValueU>) { | ||
| 22391 | for_each_fx.is_unqualified_lua_reference = true; | ||
| 22392 | for_each_fx.p_binding_ref = static_cast<reference*>(ics.binding_data); | ||
| 22393 | } | ||
| 22394 | else { | ||
| 22395 | for_each_fx.call_func = &b.template call<false, is_var_bind::value>; | ||
| 22396 | } | ||
| 22397 | for_each_fx.p_usb = this; | ||
| 22398 | for_each_fx.p_derived_usb = derived_this; | ||
| 22399 | for_each_fx.idx_call = &usertype_storage<T>::template index_call<false>; | ||
| 22400 | for_each_fx.new_idx_call = &usertype_storage<T>::template index_call<true>; | ||
| 22401 | for_each_fx.meta_idx_call = &usertype_storage<T>::template meta_index_call<false>; | ||
| 22402 | for_each_fx.meta_new_idx_call = &usertype_storage<T>::template meta_index_call<true>; | ||
| 22403 | for_each_fx.change_indexing = &usertype_storage_base::change_indexing; | ||
| 22404 | // set base index and base new_index | ||
| 22405 | // functions here | ||
| 22406 | if (is_index) { | ||
| 22407 | this->base_index.index = ics.index; | ||
| 22408 | this->base_index.binding_data = ics.binding_data; | ||
| 22409 | } | ||
| 22410 | if (is_new_index) { | ||
| 22411 | this->base_index.new_index = ics.new_index; | ||
| 22412 | this->base_index.new_binding_data = ics.binding_data; | ||
| 22413 | } | ||
| 22414 | if (is_static_index) { | ||
| 22415 | this->static_base_index.index = ics.index; | ||
| 22416 | this->static_base_index.binding_data = ics.binding_data; | ||
| 22417 | } | ||
| 22418 | if (is_static_new_index) { | ||
| 22419 | this->static_base_index.new_index = ics.new_index; | ||
| 22420 | this->static_base_index.new_binding_data = ics.binding_data; | ||
| 22421 | } | ||
| 22422 | this->for_each_table(L, for_each_fx); | ||
| 22423 | this->add_entry(s, std::move(ics)); | ||
| 22424 | } | ||
| 22425 | else { | ||
| 22426 | // the reference-based implementation might compare poorly and hash | ||
| 22427 | // poorly in some cases... | ||
| 22428 | if constexpr (is_lua_reference_v<KeyU> && is_lua_reference_v<ValueU>) { | ||
| 22429 | if (key.get_type() == type::string) { | ||
| 22430 | stack::push(L, key); | ||
| 22431 | std::string string_key = stack::pop<std::string>(L); | ||
| 22432 | this->set<T>(L, string_key, std::forward<Value>(value)); | ||
| 22433 | } | ||
| 22434 | else { | ||
| 22435 | lua_reference_func ref_additions_fx { key, value }; | ||
| 22436 | |||
| 22437 | this->for_each_table(L, ref_additions_fx); | ||
| 22438 | this->auxiliary_keys.insert_or_assign(std::forward<Key>(key), std::forward<Value>(value)); | ||
| 22439 | } | ||
| 22440 | } | ||
| 22441 | else { | ||
| 22442 | reference ref_key = make_reference(L, std::forward<Key>(key)); | ||
| 22443 | reference ref_value = make_reference(L, std::forward<Value>(value)); | ||
| 22444 | lua_reference_func ref_additions_fx { key, value }; | ||
| 22445 | |||
| 22446 | this->for_each_table(L, ref_additions_fx); | ||
| 22447 | this->auxiliary_keys.insert_or_assign(std::move(ref_key), std::move(ref_value)); | ||
| 22448 | } | ||
| 22449 | } | ||
| 22450 | } | ||
| 22451 | |||
| 22452 | template <typename T> | ||
| 22453 | template <typename Key, typename Value> | ||
| 22454 | void usertype_storage<T>::set(lua_State* L, Key&& key, Value&& value) { | ||
| 22455 | static_cast<usertype_storage_base&>(*this).set<T>(L, std::forward<Key>(key), std::forward<Value>(value)); | ||
| 22456 | } | ||
| 22457 | |||
| 22458 | template <typename T> | ||
| 22459 | inline usertype_storage<T>& create_usertype_storage(lua_State* L) { | ||
| 22460 | const char* gcmetakey = &usertype_traits<T>::gc_table()[0]; | ||
| 22461 | |||
| 22462 | // Make sure userdata's memory is properly in lua first, | ||
| 22463 | // otherwise all the light userdata we make later will become invalid | ||
| 22464 | int usertype_storage_push_count = stack::push<user<usertype_storage<T>>>(L, no_metatable, L); | ||
| 22465 | stack_reference usertype_storage_ref(L, -usertype_storage_push_count); | ||
| 22466 | |||
| 22467 | // create and push onto the stack a table to use as metatable for this GC | ||
| 22468 | // we create a metatable to attach to the regular gc_table | ||
| 22469 | // so that the destructor is called for the usertype storage | ||
| 22470 | int usertype_storage_metatabe_count = stack::push(L, new_table(0, 1)); | ||
| 22471 | stack_reference usertype_storage_metatable(L, -usertype_storage_metatabe_count); | ||
| 22472 | // set the destruction routine on the metatable | ||
| 22473 | stack::set_field(L, meta_function::garbage_collect, &destruct_usertype_storage<T>, usertype_storage_metatable.stack_index()); | ||
| 22474 | // set the metatable on the usertype storage userdata | ||
| 22475 | stack::set_field(L, metatable_key, usertype_storage_metatable, usertype_storage_ref.stack_index()); | ||
| 22476 | usertype_storage_metatable.pop(); | ||
| 22477 | |||
| 22478 | // set the usertype storage and its metatable | ||
| 22479 | // into the global table... | ||
| 22480 | stack::set_field<true>(L, gcmetakey, usertype_storage_ref); | ||
| 22481 | usertype_storage_ref.pop(); | ||
| 22482 | |||
| 22483 | // then retrieve the lua-stored version so we have a well-pinned | ||
| 22484 | // reference that does not die | ||
| 22485 | stack::get_field<true>(L, gcmetakey); | ||
| 22486 | usertype_storage<T>& target_umt = stack::pop<user<usertype_storage<T>>>(L); | ||
| 22487 | return target_umt; | ||
| 22488 | } | ||
| 22489 | |||
| 22490 | inline optional<usertype_storage_base&> maybe_get_usertype_storage_base(lua_State* L, int index) { | ||
| 22491 | stack::record tracking; | ||
| 22492 | if (!stack::check<user<usertype_storage_base>>(L, index)) { | ||
| 22493 | return nullopt; | ||
| 22494 | } | ||
| 22495 | usertype_storage_base& target_umt = stack::stack_detail::unchecked_unqualified_get<user<usertype_storage_base>>(L, -1, tracking); | ||
| 22496 | return target_umt; | ||
| 22497 | } | ||
| 22498 | |||
| 22499 | inline optional<usertype_storage_base&> maybe_get_usertype_storage_base(lua_State* L, const char* gcmetakey) { | ||
| 22500 | stack::get_field<true>(L, gcmetakey); | ||
| 22501 | auto maybe_storage = maybe_get_usertype_storage_base(L, lua_gettop(L)); | ||
| 22502 | lua_pop(L, 1); | ||
| 22503 | return maybe_storage; | ||
| 22504 | } | ||
| 22505 | |||
| 22506 | inline usertype_storage_base& get_usertype_storage_base(lua_State* L, const char* gcmetakey) { | ||
| 22507 | stack::get_field<true>(L, gcmetakey); | ||
| 22508 | stack::record tracking; | ||
| 22509 | usertype_storage_base& target_umt = stack::stack_detail::unchecked_unqualified_get<user<usertype_storage_base>>(L, -1, tracking); | ||
| 22510 | lua_pop(L, 1); | ||
| 22511 | return target_umt; | ||
| 22512 | } | ||
| 22513 | |||
| 22514 | template <typename T> | ||
| 22515 | inline optional<usertype_storage<T>&> maybe_get_usertype_storage(lua_State* L) { | ||
| 22516 | const char* gcmetakey = &usertype_traits<T>::gc_table()[0]; | ||
| 22517 | stack::get_field<true>(L, gcmetakey); | ||
| 22518 | int target = lua_gettop(L); | ||
| 22519 | if (!stack::check<user<usertype_storage<T>>>(L, target)) { | ||
| 22520 | return nullopt; | ||
| 22521 | } | ||
| 22522 | usertype_storage<T>& target_umt = stack::pop<user<usertype_storage<T>>>(L); | ||
| 22523 | return target_umt; | ||
| 22524 | } | ||
| 22525 | |||
| 22526 | template <typename T> | ||
| 22527 | inline usertype_storage<T>& get_usertype_storage(lua_State* L) { | ||
| 22528 | const char* gcmetakey = &usertype_traits<T>::gc_table()[0]; | ||
| 22529 | stack::get_field<true>(L, gcmetakey); | ||
| 22530 | usertype_storage<T>& target_umt = stack::pop<user<usertype_storage<T>>>(L); | ||
| 22531 | return target_umt; | ||
| 22532 | } | ||
| 22533 | |||
| 22534 | template <typename T> | ||
| 22535 | inline void delete_usertype_storage(lua_State* L) { | ||
| 22536 | using u_traits = usertype_traits<T>; | ||
| 22537 | #if 0 | ||
| 22538 | using u_const_traits = usertype_traits<const T>; | ||
| 22539 | using u_unique_traits = usertype_traits<detail::unique_usertype<T>>; | ||
| 22540 | using u_ref_traits = usertype_traits<T*>; | ||
| 22541 | using u_const_ref_traits = usertype_traits<T const*>; | ||
| 22542 | #endif | ||
| 22543 | using uts = usertype_storage<T>; | ||
| 22544 | |||
| 22545 | const char* gcmetakey = &u_traits::gc_table()[0]; | ||
| 22546 | stack::get_field<true>(L, gcmetakey); | ||
| 22547 | if (!stack::check<user<uts>>(L)) { | ||
| 22548 | lua_pop(L, 1); | ||
| 22549 | return; | ||
| 22550 | } | ||
| 22551 | usertype_storage<T>& target_umt = stack::pop<user<usertype_storage<T>>>(L); | ||
| 22552 | target_umt.clear(); | ||
| 22553 | |||
| 22554 | // get the registry | ||
| 22555 | #if 0 | ||
| 22556 | stack_reference registry(L, raw_index(LUA_REGISTRYINDEX)); | ||
| 22557 | registry.push(); | ||
| 22558 | // eliminate all named entries for this usertype | ||
| 22559 | // in the registry (luaL_newmetatable does | ||
| 22560 | // [name] = new table | ||
| 22561 | // in registry upon creation | ||
| 22562 | stack::set_field(L, &u_traits::metatable()[0], lua_nil, registry.stack_index()); | ||
| 22563 | stack::set_field(L, &u_const_traits::metatable()[0], lua_nil, registry.stack_index()); | ||
| 22564 | stack::set_field(L, &u_const_ref_traits::metatable()[0], lua_nil, registry.stack_index()); | ||
| 22565 | stack::set_field(L, &u_ref_traits::metatable()[0], lua_nil, registry.stack_index()); | ||
| 22566 | stack::set_field(L, &u_unique_traits::metatable()[0], lua_nil, registry.stack_index()); | ||
| 22567 | registry.pop(); | ||
| 22568 | #endif // Registry Cleanout | ||
| 22569 | |||
| 22570 | stack::set_field<true>(L, gcmetakey, lua_nil); | ||
| 22571 | } | ||
| 22572 | |||
| 22573 | template <typename T> | ||
| 22574 | inline int register_usertype(lua_State* L, automagic_enrollments enrollments = {}) { | ||
| 22575 | using u_traits = usertype_traits<T>; | ||
| 22576 | using u_const_traits = usertype_traits<const T>; | ||
| 22577 | using u_unique_traits = usertype_traits<detail::unique_usertype<T>>; | ||
| 22578 | using u_ref_traits = usertype_traits<T*>; | ||
| 22579 | using u_const_ref_traits = usertype_traits<T const*>; | ||
| 22580 | using uts = usertype_storage<T>; | ||
| 22581 | |||
| 22582 | // always have __new_index point to usertype_storage method | ||
| 22583 | // have __index always point to regular fast-lookup | ||
| 22584 | // meta_method table | ||
| 22585 | // if __new_index is invoked, runtime-swap | ||
| 22586 | // to slow __index if necessary | ||
| 22587 | // (no speed penalty because function calls | ||
| 22588 | // are all read-only -- only depend on __index | ||
| 22589 | // to retrieve function and then call happens VIA Lua) | ||
| 22590 | |||
| 22591 | // __type entry: | ||
| 22592 | // table contains key -> value lookup, | ||
| 22593 | // where key is entry in metatable | ||
| 22594 | // and value is type information as a string as | ||
| 22595 | // best as we can give it | ||
| 22596 | |||
| 22597 | // name entry: | ||
| 22598 | // string that contains raw class name, | ||
| 22599 | // as defined from C++ | ||
| 22600 | |||
| 22601 | // is entry: | ||
| 22602 | // checks if argument supplied is of type T | ||
| 22603 | |||
| 22604 | // __storage entry: | ||
| 22605 | // a light userdata pointing to the storage | ||
| 22606 | // mostly to enable this new abstraction | ||
| 22607 | // to not require the type name `T` | ||
| 22608 | // to get at the C++ usertype storage within | ||
| 22609 | |||
| 22610 | // we then let typical definitions potentially override these intrinsics | ||
| 22611 | // it's the user's fault if they override things or screw them up: | ||
| 22612 | // these names have been reserved and documented since sol3 | ||
| 22613 | |||
| 22614 | // STEP 0: tell the old usertype (if it exists) | ||
| 22615 | // to fuck off | ||
| 22616 | delete_usertype_storage<T>(L); | ||
| 22617 | |||
| 22618 | // STEP 1: Create backing store for usertype storage | ||
| 22619 | // Pretty much the most important step. | ||
| 22620 | // STEP 2: Create Lua tables used for fast method indexing. | ||
| 22621 | // This is done inside of the storage table's constructor | ||
| 22622 | usertype_storage<T>& storage = create_usertype_storage<T>(L); | ||
| 22623 | usertype_storage_base& base_storage = storage; | ||
| 22624 | void* light_storage = static_cast<void*>(&storage); | ||
| 22625 | void* light_base_storage = static_cast<void*>(&base_storage); | ||
| 22626 | |||
| 22627 | // STEP 3: set up GC escape hatch table entirely | ||
| 22628 | storage.gc_names_table.push(); | ||
| 22629 | stack_reference gnt(L, -1); | ||
| 22630 | stack::set_field(L, submetatable_type::named, &u_traits::gc_table()[0], gnt.stack_index()); | ||
| 22631 | stack::set_field(L, submetatable_type::const_value, &u_const_traits::metatable()[0], gnt.stack_index()); | ||
| 22632 | stack::set_field(L, submetatable_type::const_reference, &u_const_ref_traits::metatable()[0], gnt.stack_index()); | ||
| 22633 | stack::set_field(L, submetatable_type::reference, &u_ref_traits::metatable()[0], gnt.stack_index()); | ||
| 22634 | stack::set_field(L, submetatable_type::unique, &u_unique_traits::metatable()[0], gnt.stack_index()); | ||
| 22635 | stack::set_field(L, submetatable_type::value, &u_traits::metatable()[0], gnt.stack_index()); | ||
| 22636 | gnt.pop(); | ||
| 22637 | |||
| 22638 | // STEP 4: add some useful information to the type table | ||
| 22639 | stack_reference stacked_type_table(L, -storage.type_table.push()); | ||
| 22640 | stack::set_field(L, "name", detail::demangle<T>(), stacked_type_table.stack_index()); | ||
| 22641 | stack::set_field(L, "is", &detail::is_check<T>, stacked_type_table.stack_index()); | ||
| 22642 | stacked_type_table.pop(); | ||
| 22643 | |||
| 22644 | // STEP 5: create and hook up metatable, | ||
| 22645 | // add intrinsics | ||
| 22646 | // this one is the actual meta-handling table, | ||
| 22647 | // the next one will be the one for | ||
| 22648 | int for_each_backing_metatable_calls = 0; | ||
| 22649 | auto for_each_backing_metatable = [&](lua_State* L, submetatable_type smt, reference& fast_index_table) { | ||
| 22650 | // Pointer types, AKA "references" from C++ | ||
| 22651 | const char* metakey = nullptr; | ||
| 22652 | switch (smt) { | ||
| 22653 | case submetatable_type::const_value: | ||
| 22654 | metakey = &u_const_traits::metatable()[0]; | ||
| 22655 | break; | ||
| 22656 | case submetatable_type::reference: | ||
| 22657 | metakey = &u_ref_traits::metatable()[0]; | ||
| 22658 | break; | ||
| 22659 | case submetatable_type::unique: | ||
| 22660 | metakey = &u_unique_traits::metatable()[0]; | ||
| 22661 | break; | ||
| 22662 | case submetatable_type::const_reference: | ||
| 22663 | metakey = &u_const_ref_traits::metatable()[0]; | ||
| 22664 | break; | ||
| 22665 | case submetatable_type::named: | ||
| 22666 | metakey = &u_traits::user_metatable()[0]; | ||
| 22667 | break; | ||
| 22668 | case submetatable_type::value: | ||
| 22669 | default: | ||
| 22670 | metakey = &u_traits::metatable()[0]; | ||
| 22671 | break; | ||
| 22672 | } | ||
| 22673 | |||
| 22674 | luaL_newmetatable(L, metakey); | ||
| 22675 | if (smt == submetatable_type::named) { | ||
| 22676 | // the named table itself | ||
| 22677 | // gets the associated name value | ||
| 22678 | storage.named_metatable = reference(L, -1); | ||
| 22679 | lua_pop(L, 1); | ||
| 22680 | // but the thing we perform the methods on | ||
| 22681 | // is still the metatable of the named | ||
| 22682 | // table | ||
| 22683 | lua_createtable(L, 0, 6); | ||
| 22684 | } | ||
| 22685 | stack_reference t(L, -1); | ||
| 22686 | fast_index_table = reference(t); | ||
| 22687 | stack::set_field<false, true>(L, meta_function::type, storage.type_table, t.stack_index()); | ||
| 22688 | if constexpr (std::is_destructible_v<T>) { | ||
| 22689 | // destructible: serialize default | ||
| 22690 | // destructor here | ||
| 22691 | switch (smt) { | ||
| 22692 | case submetatable_type::const_reference: | ||
| 22693 | case submetatable_type::reference: | ||
| 22694 | case submetatable_type::named: | ||
| 22695 | break; | ||
| 22696 | case submetatable_type::unique: | ||
| 22697 | stack::set_field<false, true>(L, meta_function::garbage_collect, &detail::unique_destruct<T>, t.stack_index()); | ||
| 22698 | break; | ||
| 22699 | case submetatable_type::value: | ||
| 22700 | case submetatable_type::const_value: | ||
| 22701 | default: | ||
| 22702 | stack::set_field<false, true>(L, meta_function::garbage_collect, detail::make_destructor<T>(), t.stack_index()); | ||
| 22703 | break; | ||
| 22704 | } | ||
| 22705 | } | ||
| 22706 | else { | ||
| 22707 | // not destructible: serialize a | ||
| 22708 | // "hey you messed up" | ||
| 22709 | // destructor | ||
| 22710 | switch (smt) { | ||
| 22711 | case submetatable_type::const_reference: | ||
| 22712 | case submetatable_type::reference: | ||
| 22713 | case submetatable_type::named: | ||
| 22714 | break; | ||
| 22715 | case submetatable_type::unique: | ||
| 22716 | stack::set_field<false, true>(L, meta_function::garbage_collect, &detail::cannot_destruct<T>, t.stack_index()); | ||
| 22717 | break; | ||
| 22718 | case submetatable_type::value: | ||
| 22719 | case submetatable_type::const_value: | ||
| 22720 | default: | ||
| 22721 | stack::set_field<false, true>(L, meta_function::garbage_collect, &detail::cannot_destruct<T>, t.stack_index()); | ||
| 22722 | break; | ||
| 22723 | } | ||
| 22724 | } | ||
| 22725 | |||
| 22726 | static_assert(sizeof(void*) <= sizeof(detail::inheritance_check_function), | ||
| 22727 | "The size of this data pointer is too small to fit the inheritance checking function: file a bug " | ||
| 22728 | "report."); | ||
| 22729 | static_assert(sizeof(void*) <= sizeof(detail::inheritance_cast_function), | ||
| 22730 | "The size of this data pointer is too small to fit the inheritance checking function: file a bug " | ||
| 22731 | "report."); | ||
| 22732 | stack::set_field<false, true>(L, detail::base_class_check_key(), reinterpret_cast<void*>(&detail::inheritance<T>::type_check), t.stack_index()); | ||
| 22733 | stack::set_field<false, true>(L, detail::base_class_cast_key(), reinterpret_cast<void*>(&detail::inheritance<T>::type_cast), t.stack_index()); | ||
| 22734 | |||
| 22735 | auto prop_fx = detail::properties_enrollment_allowed(for_each_backing_metatable_calls, storage.properties, enrollments); | ||
| 22736 | auto insert_fx = [&L, &t, &storage](meta_function mf, lua_CFunction reg) { | ||
| 22737 | stack::set_field<false, true>(L, mf, reg, t.stack_index()); | ||
| 22738 | storage.properties[static_cast<int>(mf)] = true; | ||
| 22739 | }; | ||
| 22740 | detail::insert_default_registrations<T>(insert_fx, prop_fx); | ||
| 22741 | |||
| 22742 | // There are no variables, so serialize the fast function stuff | ||
| 22743 | // be sure to reset the index stuff to the non-fast version | ||
| 22744 | // if the user ever adds something later! | ||
| 22745 | if (smt == submetatable_type::named) { | ||
| 22746 | // add escape hatch storage pointer and gc names | ||
| 22747 | stack::set_field<false, true>(L, meta_function::storage, light_base_storage, t.stack_index()); | ||
| 22748 | stack::set_field<false, true>(L, meta_function::gc_names, storage.gc_names_table, t.stack_index()); | ||
| 22749 | |||
| 22750 | // fancy new_indexing when using the named table | ||
| 22751 | { | ||
| 22752 | absolute_index named_metatable_index(L, -storage.named_metatable.push()); | ||
| 22753 | stack::set_field<false, true>(L, metatable_key, t, named_metatable_index); | ||
| 22754 | storage.named_metatable.pop(); | ||
| 22755 | } | ||
| 22756 | stack_reference stack_metametatable(L, -storage.named_index_table.push()); | ||
| 22757 | stack::set_field<false, true>(L, | ||
| 22758 | meta_function::index, | ||
| 22759 | make_closure(uts::template meta_index_call<false>, nullptr, light_storage, light_base_storage, nullptr, toplevel_magic), | ||
| 22760 | stack_metametatable.stack_index()); | ||
| 22761 | stack::set_field<false, true>(L, | ||
| 22762 | meta_function::new_index, | ||
| 22763 | make_closure(uts::template meta_index_call<true>, nullptr, light_storage, light_base_storage, nullptr, toplevel_magic), | ||
| 22764 | stack_metametatable.stack_index()); | ||
| 22765 | stack_metametatable.pop(); | ||
| 22766 | } | ||
| 22767 | else { | ||
| 22768 | // otherwise just plain for index, | ||
| 22769 | // and elaborated for new_index | ||
| 22770 | stack::set_field<false, true>(L, meta_function::index, t, t.stack_index()); | ||
| 22771 | stack::set_field<false, true>(L, | ||
| 22772 | meta_function::new_index, | ||
| 22773 | make_closure(uts::template index_call<true>, nullptr, light_storage, light_base_storage, nullptr, toplevel_magic), | ||
| 22774 | t.stack_index()); | ||
| 22775 | storage.is_using_new_index = true; | ||
| 22776 | } | ||
| 22777 | |||
| 22778 | ++for_each_backing_metatable_calls; | ||
| 22779 | fast_index_table = reference(L, t); | ||
| 22780 | t.pop(); | ||
| 22781 | }; | ||
| 22782 | |||
| 22783 | storage.for_each_table(L, for_each_backing_metatable); | ||
| 22784 | |||
| 22785 | // can only use set AFTER we initialize all the metatables | ||
| 22786 | if constexpr (std::is_default_constructible_v<T>) { | ||
| 22787 | if (enrollments.default_constructor) { | ||
| 22788 | storage.set(L, meta_function::construct, constructors<T()>()); | ||
| 22789 | } | ||
| 22790 | } | ||
| 22791 | |||
| 22792 | // return the named metatable we want names linked into | ||
| 22793 | storage.named_metatable.push(); | ||
| 22794 | return 1; | ||
| 22795 | } | ||
| 22796 | }} // namespace sol::u_detail | ||
| 22797 | |||
| 22798 | // end of sol/usertype_storage.hpp | ||
| 22799 | |||
| 22800 | // beginning of sol/usertype_proxy.hpp | ||
| 22801 | |||
| 22802 | namespace sol { | ||
| 22803 | template <typename Table, typename Key> | ||
| 22804 | struct usertype_proxy : public proxy_base<usertype_proxy<Table, Key>> { | ||
| 22805 | private: | ||
| 22806 | using key_type = detail::proxy_key_t<Key>; | ||
| 22807 | |||
| 22808 | template <typename T, std::size_t... I> | ||
| 22809 | decltype(auto) tuple_get(std::index_sequence<I...>) const & { | ||
| 22810 | return tbl.template traverse_get<T>(std::get<I>(key)...); | ||
| 22811 | } | ||
| 22812 | |||
| 22813 | template <typename T, std::size_t... I> | ||
| 22814 | decltype(auto) tuple_get(std::index_sequence<I...>) && { | ||
| 22815 | return tbl.template traverse_get<T>(std::get<I>(std::move(key))...); | ||
| 22816 | } | ||
| 22817 | |||
| 22818 | template <std::size_t... I, typename T> | ||
| 22819 | void tuple_set(std::index_sequence<I...>, T&& value) & { | ||
| 22820 | if constexpr (sizeof...(I) > 1) { | ||
| 22821 | tbl.traverse_set(std::get<I>(key)..., std::forward<T>(value)); | ||
| 22822 | } | ||
| 22823 | else { | ||
| 22824 | tbl.set(std::get<I>(key)..., std::forward<T>(value)); | ||
| 22825 | } | ||
| 22826 | } | ||
| 22827 | |||
| 22828 | template <std::size_t... I, typename T> | ||
| 22829 | void tuple_set(std::index_sequence<I...>, T&& value) && { | ||
| 22830 | if constexpr (sizeof...(I) > 1) { | ||
| 22831 | tbl.traverse_set(std::get<I>(std::move(key))..., std::forward<T>(value)); | ||
| 22832 | } | ||
| 22833 | else { | ||
| 22834 | tbl.set(std::get<I>(std::move(key))..., std::forward<T>(value)); | ||
| 22835 | } | ||
| 22836 | } | ||
| 22837 | |||
| 22838 | public: | ||
| 22839 | Table tbl; | ||
| 22840 | key_type key; | ||
| 22841 | |||
| 22842 | template <typename T> | ||
| 22843 | usertype_proxy(Table table, T&& k) | ||
| 22844 | : tbl(table), key(std::forward<T>(k)) { | ||
| 22845 | } | ||
| 22846 | |||
| 22847 | template <typename T> | ||
| 22848 | usertype_proxy& set(T&& item) & { | ||
| 22849 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 22850 | tuple_set(idx_seq(), std::forward<T>(item)); | ||
| 22851 | return *this; | ||
| 22852 | } | ||
| 22853 | |||
| 22854 | template <typename T> | ||
| 22855 | usertype_proxy&& set(T&& item) && { | ||
| 22856 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 22857 | std::move(*this).tuple_set(idx_seq(), std::forward<T>(item)); | ||
| 22858 | return std::move(*this); | ||
| 22859 | } | ||
| 22860 | |||
| 22861 | template <typename T> | ||
| 22862 | usertype_proxy& operator=(T&& other) & { | ||
| 22863 | return set(std::forward<T>(other)); | ||
| 22864 | } | ||
| 22865 | |||
| 22866 | template <typename T> | ||
| 22867 | usertype_proxy&& operator=(T&& other) && { | ||
| 22868 | return std::move(*this).set(std::forward<T>(other)); | ||
| 22869 | } | ||
| 22870 | |||
| 22871 | template <typename T> | ||
| 22872 | usertype_proxy& operator=(std::initializer_list<T> other) & { | ||
| 22873 | return set(std::move(other)); | ||
| 22874 | } | ||
| 22875 | |||
| 22876 | template <typename T> | ||
| 22877 | usertype_proxy&& operator=(std::initializer_list<T> other) && { | ||
| 22878 | return std::move(*this).set(std::move(other)); | ||
| 22879 | } | ||
| 22880 | |||
| 22881 | template <typename T> | ||
| 22882 | decltype(auto) get() const& { | ||
| 22883 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 22884 | return tuple_get<T>(idx_seq()); | ||
| 22885 | } | ||
| 22886 | |||
| 22887 | template <typename T> | ||
| 22888 | decltype(auto) get() && { | ||
| 22889 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 22890 | return std::move(*this).template tuple_get<T>(idx_seq()); | ||
| 22891 | } | ||
| 22892 | |||
| 22893 | template <typename K> | ||
| 22894 | decltype(auto) operator[](K&& k) const& { | ||
| 22895 | auto keys = meta::tuplefy(key, std::forward<K>(k)); | ||
| 22896 | return usertype_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 22897 | } | ||
| 22898 | |||
| 22899 | template <typename K> | ||
| 22900 | decltype(auto) operator[](K&& k) & { | ||
| 22901 | auto keys = meta::tuplefy(key, std::forward<K>(k)); | ||
| 22902 | return usertype_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 22903 | } | ||
| 22904 | |||
| 22905 | template <typename K> | ||
| 22906 | decltype(auto) operator[](K&& k) && { | ||
| 22907 | auto keys = meta::tuplefy(std::move(key), std::forward<K>(k)); | ||
| 22908 | return usertype_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 22909 | } | ||
| 22910 | |||
| 22911 | template <typename... Ret, typename... Args> | ||
| 22912 | decltype(auto) call(Args&&... args) { | ||
| 22913 | #if !defined(__clang__) && defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 191200000 | ||
| 22914 | // MSVC is ass sometimes | ||
| 22915 | return get<function>().call<Ret...>(std::forward<Args>(args)...); | ||
| 22916 | #else | ||
| 22917 | return get<function>().template call<Ret...>(std::forward<Args>(args)...); | ||
| 22918 | #endif | ||
| 22919 | } | ||
| 22920 | |||
| 22921 | template <typename... Args> | ||
| 22922 | decltype(auto) operator()(Args&&... args) { | ||
| 22923 | return call<>(std::forward<Args>(args)...); | ||
| 22924 | } | ||
| 22925 | |||
| 22926 | bool valid() const { | ||
| 22927 | auto pp = stack::push_pop(tbl); | ||
| 22928 | auto p = stack::probe_get_field<std::is_same<meta::unqualified_t<Table>, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); | ||
| 22929 | lua_pop(lua_state(), p.levels); | ||
| 22930 | return p; | ||
| 22931 | } | ||
| 22932 | |||
| 22933 | int push() const noexcept { | ||
| 22934 | return push(this->lua_state()); | ||
| 22935 | } | ||
| 22936 | |||
| 22937 | int push(lua_State* L) const noexcept { | ||
| 22938 | return get<reference>().push(L); | ||
| 22939 | } | ||
| 22940 | |||
| 22941 | type get_type() const { | ||
| 22942 | type t = type::none; | ||
| 22943 | auto pp = stack::push_pop(tbl); | ||
| 22944 | auto p = stack::probe_get_field<std::is_same<meta::unqualified_t<Table>, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); | ||
| 22945 | if (p) { | ||
| 22946 | t = type_of(lua_state(), -1); | ||
| 22947 | } | ||
| 22948 | lua_pop(lua_state(), p.levels); | ||
| 22949 | return t; | ||
| 22950 | } | ||
| 22951 | |||
| 22952 | lua_State* lua_state() const { | ||
| 22953 | return tbl.lua_state(); | ||
| 22954 | } | ||
| 22955 | }; | ||
| 22956 | } // namespace sol | ||
| 22957 | |||
| 22958 | // end of sol/usertype_proxy.hpp | ||
| 22959 | |||
| 22960 | // beginning of sol/metatable.hpp | ||
| 22961 | |||
| 22962 | // beginning of sol/table_core.hpp | ||
| 22963 | |||
| 22964 | // beginning of sol/table_proxy.hpp | ||
| 22965 | |||
| 22966 | namespace sol { | ||
| 22967 | |||
| 22968 | template <typename Table, typename Key> | ||
| 22969 | struct table_proxy : public proxy_base<table_proxy<Table, Key>> { | ||
| 22970 | private: | ||
| 22971 | using key_type = detail::proxy_key_t<Key>; | ||
| 22972 | |||
| 22973 | template <typename T, std::size_t... I> | ||
| 22974 | decltype(auto) tuple_get(std::index_sequence<I...>) const& { | ||
| 22975 | return tbl.template traverse_get<T>(std::get<I>(key)...); | ||
| 22976 | } | ||
| 22977 | |||
| 22978 | template <typename T, std::size_t... I> | ||
| 22979 | decltype(auto) tuple_get(std::index_sequence<I...>) && { | ||
| 22980 | return tbl.template traverse_get<T>(std::get<I>(std::move(key))...); | ||
| 22981 | } | ||
| 22982 | |||
| 22983 | template <std::size_t... I, typename T> | ||
| 22984 | void tuple_set(std::index_sequence<I...>, T&& value) & { | ||
| 22985 | tbl.traverse_set(std::get<I>(key)..., std::forward<T>(value)); | ||
| 22986 | } | ||
| 22987 | |||
| 22988 | template <std::size_t... I, typename T> | ||
| 22989 | void tuple_set(std::index_sequence<I...>, T&& value) && { | ||
| 22990 | tbl.traverse_set(std::get<I>(std::move(key))..., std::forward<T>(value)); | ||
| 22991 | } | ||
| 22992 | |||
| 22993 | auto setup_table(std::true_type) { | ||
| 22994 | auto p = stack::probe_get_field<std::is_same_v<meta::unqualified_t<Table>, global_table>>(lua_state(), key, tbl.stack_index()); | ||
| 22995 | lua_pop(lua_state(), p.levels); | ||
| 22996 | return p; | ||
| 22997 | } | ||
| 22998 | |||
| 22999 | bool is_valid(std::false_type) { | ||
| 23000 | auto pp = stack::push_pop(tbl); | ||
| 23001 | auto p = stack::probe_get_field<std::is_same_v<meta::unqualified_t<Table>, global_table>>(lua_state(), key, lua_gettop(lua_state())); | ||
| 23002 | lua_pop(lua_state(), p.levels); | ||
| 23003 | return p; | ||
| 23004 | } | ||
| 23005 | |||
| 23006 | public: | ||
| 23007 | Table tbl; | ||
| 23008 | key_type key; | ||
| 23009 | |||
| 23010 | template <typename T> | ||
| 23011 | table_proxy(Table table, T&& k) : tbl(table), key(std::forward<T>(k)) { | ||
| 23012 | } | ||
| 23013 | |||
| 23014 | template <typename T> | ||
| 23015 | table_proxy& set(T&& item) & { | ||
| 23016 | tuple_set(std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>(), std::forward<T>(item)); | ||
| 23017 | return *this; | ||
| 23018 | } | ||
| 23019 | |||
| 23020 | template <typename T> | ||
| 23021 | table_proxy&& set(T&& item) && { | ||
| 23022 | tuple_set(std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>(), std::forward<T>(item)); | ||
| 23023 | return std::move(*this); | ||
| 23024 | } | ||
| 23025 | |||
| 23026 | template <typename... Args> | ||
| 23027 | table_proxy& set_function(Args&&... args) & { | ||
| 23028 | tbl.set_function(key, std::forward<Args>(args)...); | ||
| 23029 | return *this; | ||
| 23030 | } | ||
| 23031 | |||
| 23032 | template <typename... Args> | ||
| 23033 | table_proxy&& set_function(Args&&... args) && { | ||
| 23034 | tbl.set_function(std::move(key), std::forward<Args>(args)...); | ||
| 23035 | return std::move(*this); | ||
| 23036 | } | ||
| 23037 | |||
| 23038 | template <typename T> | ||
| 23039 | table_proxy& operator=(T&& other) & { | ||
| 23040 | using Tu = meta::unwrap_unqualified_t<T>; | ||
| 23041 | if constexpr (!is_lua_reference_or_proxy_v<Tu> && meta::is_callable_v<Tu>) { | ||
| 23042 | return set_function(std::forward<T>(other)); | ||
| 23043 | } | ||
| 23044 | else { | ||
| 23045 | return set(std::forward<T>(other)); | ||
| 23046 | } | ||
| 23047 | } | ||
| 23048 | |||
| 23049 | template <typename T> | ||
| 23050 | table_proxy&& operator=(T&& other) && { | ||
| 23051 | using Tu = meta::unwrap_unqualified_t<T>; | ||
| 23052 | if constexpr (!is_lua_reference_or_proxy_v<Tu> && meta::is_callable_v<Tu>) { | ||
| 23053 | return std::move(*this).set_function(std::forward<T>(other)); | ||
| 23054 | } | ||
| 23055 | else { | ||
| 23056 | return std::move(*this).set(std::forward<T>(other)); | ||
| 23057 | } | ||
| 23058 | } | ||
| 23059 | |||
| 23060 | template <typename T> | ||
| 23061 | table_proxy& operator=(std::initializer_list<T> other) & { | ||
| 23062 | return set(std::move(other)); | ||
| 23063 | } | ||
| 23064 | |||
| 23065 | template <typename T> | ||
| 23066 | table_proxy&& operator=(std::initializer_list<T> other) && { | ||
| 23067 | return std::move(*this).set(std::move(other)); | ||
| 23068 | } | ||
| 23069 | |||
| 23070 | template <typename T> | ||
| 23071 | decltype(auto) get() const& { | ||
| 23072 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 23073 | return tuple_get<T>(idx_seq()); | ||
| 23074 | } | ||
| 23075 | |||
| 23076 | template <typename T> | ||
| 23077 | decltype(auto) get() && { | ||
| 23078 | using idx_seq = std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<key_type>>>; | ||
| 23079 | return std::move(*this).template tuple_get<T>(idx_seq()); | ||
| 23080 | } | ||
| 23081 | |||
| 23082 | template <typename T> | ||
| 23083 | decltype(auto) get_or(T&& otherwise) const { | ||
| 23084 | typedef decltype(get<T>()) U; | ||
| 23085 | optional<U> option = get<optional<U>>(); | ||
| 23086 | if (option) { | ||
| 23087 | return static_cast<U>(option.value()); | ||
| 23088 | } | ||
| 23089 | return static_cast<U>(std::forward<T>(otherwise)); | ||
| 23090 | } | ||
| 23091 | |||
| 23092 | template <typename T, typename D> | ||
| 23093 | decltype(auto) get_or(D&& otherwise) const { | ||
| 23094 | optional<T> option = get<optional<T>>(); | ||
| 23095 | if (option) { | ||
| 23096 | return static_cast<T>(option.value()); | ||
| 23097 | } | ||
| 23098 | return static_cast<T>(std::forward<D>(otherwise)); | ||
| 23099 | } | ||
| 23100 | |||
| 23101 | template <typename T> | ||
| 23102 | decltype(auto) get_or_create() { | ||
| 23103 | return get_or_create<T>(new_table()); | ||
| 23104 | } | ||
| 23105 | |||
| 23106 | template <typename T, typename Otherwise> | ||
| 23107 | decltype(auto) get_or_create(Otherwise&& other) { | ||
| 23108 | if (!this->valid()) { | ||
| 23109 | this->set(std::forward<Otherwise>(other)); | ||
| 23110 | } | ||
| 23111 | return get<T>(); | ||
| 23112 | } | ||
| 23113 | |||
| 23114 | template <typename K> | ||
| 23115 | decltype(auto) operator[](K&& k) const& { | ||
| 23116 | auto keys = meta::tuplefy(key, std::forward<K>(k)); | ||
| 23117 | return table_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 23118 | } | ||
| 23119 | |||
| 23120 | template <typename K> | ||
| 23121 | decltype(auto) operator[](K&& k) & { | ||
| 23122 | auto keys = meta::tuplefy(key, std::forward<K>(k)); | ||
| 23123 | return table_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 23124 | } | ||
| 23125 | |||
| 23126 | template <typename K> | ||
| 23127 | decltype(auto) operator[](K&& k) && { | ||
| 23128 | auto keys = meta::tuplefy(std::move(key), std::forward<K>(k)); | ||
| 23129 | return table_proxy<Table, decltype(keys)>(tbl, std::move(keys)); | ||
| 23130 | } | ||
| 23131 | |||
| 23132 | template <typename... Ret, typename... Args> | ||
| 23133 | decltype(auto) call(Args&&... args) { | ||
| 23134 | lua_State* L = this->lua_state(); | ||
| 23135 | push(L); | ||
| 23136 | int idx = lua_gettop(L); | ||
| 23137 | stack_aligned_function func(L, idx); | ||
| 23138 | return func.call<Ret...>(std::forward<Args>(args)...); | ||
| 23139 | } | ||
| 23140 | |||
| 23141 | template <typename... Args> | ||
| 23142 | decltype(auto) operator()(Args&&... args) { | ||
| 23143 | return call<>(std::forward<Args>(args)...); | ||
| 23144 | } | ||
| 23145 | |||
| 23146 | bool valid() const { | ||
| 23147 | auto pp = stack::push_pop(tbl); | ||
| 23148 | auto p = stack::probe_get_field<std::is_same<meta::unqualified_t<Table>, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); | ||
| 23149 | lua_pop(lua_state(), p.levels); | ||
| 23150 | return p; | ||
| 23151 | } | ||
| 23152 | |||
| 23153 | int push() const noexcept { | ||
| 23154 | return push(this->lua_state()); | ||
| 23155 | } | ||
| 23156 | |||
| 23157 | int push(lua_State* L) const noexcept { | ||
| 23158 | if constexpr (std::is_same_v<meta::unqualified_t<Table>, global_table> || is_stack_table_v<meta::unqualified_t<Table>>) { | ||
| 23159 | auto pp = stack::push_pop<true>(tbl); | ||
| 23160 | int tableindex = pp.index_of(tbl); | ||
| 23161 | int top_index = lua_gettop(L); | ||
| 23162 | stack::get_field<true>(lua_state(), key, tableindex); | ||
| 23163 | lua_replace(L, top_index + 1); | ||
| 23164 | lua_settop(L, top_index + 1); | ||
| 23165 | } | ||
| 23166 | else { | ||
| 23167 | auto pp = stack::push_pop<false>(tbl); | ||
| 23168 | int tableindex = pp.index_of(tbl); | ||
| 23169 | int aftertableindex = lua_gettop(L); | ||
| 23170 | stack::get_field<false>(lua_state(), key, tableindex); | ||
| 23171 | lua_replace(L, tableindex); | ||
| 23172 | lua_settop(L, aftertableindex + 1); | ||
| 23173 | } | ||
| 23174 | return 1; | ||
| 23175 | } | ||
| 23176 | |||
| 23177 | type get_type() const { | ||
| 23178 | type t = type::none; | ||
| 23179 | auto pp = stack::push_pop(tbl); | ||
| 23180 | auto p = stack::probe_get_field<std::is_same<meta::unqualified_t<Table>, global_table>::value>(lua_state(), key, lua_gettop(lua_state())); | ||
| 23181 | if (p) { | ||
| 23182 | t = type_of(lua_state(), -1); | ||
| 23183 | } | ||
| 23184 | lua_pop(lua_state(), p.levels); | ||
| 23185 | return t; | ||
| 23186 | } | ||
| 23187 | |||
| 23188 | lua_State* lua_state() const { | ||
| 23189 | return tbl.lua_state(); | ||
| 23190 | } | ||
| 23191 | |||
| 23192 | table_proxy& force() { | ||
| 23193 | if (!this->valid()) { | ||
| 23194 | this->set(new_table()); | ||
| 23195 | } | ||
| 23196 | return *this; | ||
| 23197 | } | ||
| 23198 | }; | ||
| 23199 | |||
| 23200 | template <typename Table, typename Key, typename T> | ||
| 23201 | inline bool operator==(T&& left, const table_proxy<Table, Key>& right) { | ||
| 23202 | using G = decltype(stack::get<T>(nullptr, 0)); | ||
| 23203 | return right.template get<optional<G>>() == left; | ||
| 23204 | } | ||
| 23205 | |||
| 23206 | template <typename Table, typename Key, typename T> | ||
| 23207 | inline bool operator==(const table_proxy<Table, Key>& right, T&& left) { | ||
| 23208 | using G = decltype(stack::get<T>(nullptr, 0)); | ||
| 23209 | return right.template get<optional<G>>() == left; | ||
| 23210 | } | ||
| 23211 | |||
| 23212 | template <typename Table, typename Key, typename T> | ||
| 23213 | inline bool operator!=(T&& left, const table_proxy<Table, Key>& right) { | ||
| 23214 | using G = decltype(stack::get<T>(nullptr, 0)); | ||
| 23215 | return right.template get<optional<G>>() != left; | ||
| 23216 | } | ||
| 23217 | |||
| 23218 | template <typename Table, typename Key, typename T> | ||
| 23219 | inline bool operator!=(const table_proxy<Table, Key>& right, T&& left) { | ||
| 23220 | using G = decltype(stack::get<T>(nullptr, 0)); | ||
| 23221 | return right.template get<optional<G>>() != left; | ||
| 23222 | } | ||
| 23223 | |||
| 23224 | template <typename Table, typename Key> | ||
| 23225 | inline bool operator==(lua_nil_t, const table_proxy<Table, Key>& right) { | ||
| 23226 | return !right.valid(); | ||
| 23227 | } | ||
| 23228 | |||
| 23229 | template <typename Table, typename Key> | ||
| 23230 | inline bool operator==(const table_proxy<Table, Key>& right, lua_nil_t) { | ||
| 23231 | return !right.valid(); | ||
| 23232 | } | ||
| 23233 | |||
| 23234 | template <typename Table, typename Key> | ||
| 23235 | inline bool operator!=(lua_nil_t, const table_proxy<Table, Key>& right) { | ||
| 23236 | return right.valid(); | ||
| 23237 | } | ||
| 23238 | |||
| 23239 | template <typename Table, typename Key> | ||
| 23240 | inline bool operator!=(const table_proxy<Table, Key>& right, lua_nil_t) { | ||
| 23241 | return right.valid(); | ||
| 23242 | } | ||
| 23243 | |||
| 23244 | template <bool b> | ||
| 23245 | template <typename Super> | ||
| 23246 | basic_reference<b>& basic_reference<b>::operator=(proxy_base<Super>&& r) { | ||
| 23247 | basic_reference<b> v = r; | ||
| 23248 | this->operator=(std::move(v)); | ||
| 23249 | return *this; | ||
| 23250 | } | ||
| 23251 | |||
| 23252 | template <bool b> | ||
| 23253 | template <typename Super> | ||
| 23254 | basic_reference<b>& basic_reference<b>::operator=(const proxy_base<Super>& r) { | ||
| 23255 | basic_reference<b> v = r; | ||
| 23256 | this->operator=(std::move(v)); | ||
| 23257 | return *this; | ||
| 23258 | } | ||
| 23259 | |||
| 23260 | namespace stack { | ||
| 23261 | template <typename Table, typename Key> | ||
| 23262 | struct unqualified_pusher<table_proxy<Table, Key>> { | ||
| 23263 | static int push(lua_State* L, const table_proxy<Table, Key>& p) { | ||
| 23264 | return p.push(L); | ||
| 23265 | } | ||
| 23266 | }; | ||
| 23267 | } // namespace stack | ||
| 23268 | } // namespace sol | ||
| 23269 | |||
| 23270 | // end of sol/table_proxy.hpp | ||
| 23271 | |||
| 23272 | // beginning of sol/table_iterator.hpp | ||
| 23273 | |||
| 23274 | #include <iterator> | ||
| 23275 | |||
| 23276 | namespace sol { | ||
| 23277 | |||
| 23278 | template <typename reference_type> | ||
| 23279 | class basic_table_iterator { | ||
| 23280 | public: | ||
| 23281 | typedef object key_type; | ||
| 23282 | typedef object mapped_type; | ||
| 23283 | typedef std::pair<object, object> value_type; | ||
| 23284 | typedef std::input_iterator_tag iterator_category; | ||
| 23285 | typedef std::ptrdiff_t difference_type; | ||
| 23286 | typedef value_type* pointer; | ||
| 23287 | typedef value_type& reference; | ||
| 23288 | typedef const value_type& const_reference; | ||
| 23289 | |||
| 23290 | private: | ||
| 23291 | std::pair<object, object> kvp; | ||
| 23292 | reference_type ref; | ||
| 23293 | int tableidx = 0; | ||
| 23294 | int keyidx = 0; | ||
| 23295 | std::ptrdiff_t idx = 0; | ||
| 23296 | |||
| 23297 | public: | ||
| 23298 | basic_table_iterator() : keyidx(-1), idx(-1) { | ||
| 23299 | } | ||
| 23300 | |||
| 23301 | basic_table_iterator(reference_type x) : ref(std::move(x)) { | ||
| 23302 | ref.push(); | ||
| 23303 | tableidx = lua_gettop(ref.lua_state()); | ||
| 23304 | stack::push(ref.lua_state(), lua_nil); | ||
| 23305 | this->operator++(); | ||
| 23306 | if (idx == -1) { | ||
| 23307 | return; | ||
| 23308 | } | ||
| 23309 | --idx; | ||
| 23310 | } | ||
| 23311 | |||
| 23312 | basic_table_iterator& operator++() { | ||
| 23313 | if (idx == -1) | ||
| 23314 | return *this; | ||
| 23315 | |||
| 23316 | if (lua_next(ref.lua_state(), tableidx) == 0) { | ||
| 23317 | idx = -1; | ||
| 23318 | keyidx = -1; | ||
| 23319 | return *this; | ||
| 23320 | } | ||
| 23321 | ++idx; | ||
| 23322 | kvp.first = object(ref.lua_state(), -2); | ||
| 23323 | kvp.second = object(ref.lua_state(), -1); | ||
| 23324 | lua_pop(ref.lua_state(), 1); | ||
| 23325 | // leave key on the stack | ||
| 23326 | keyidx = lua_gettop(ref.lua_state()); | ||
| 23327 | return *this; | ||
| 23328 | } | ||
| 23329 | |||
| 23330 | basic_table_iterator operator++(int) { | ||
| 23331 | auto saved = *this; | ||
| 23332 | this->operator++(); | ||
| 23333 | return saved; | ||
| 23334 | } | ||
| 23335 | |||
| 23336 | reference operator*() { | ||
| 23337 | return kvp; | ||
| 23338 | } | ||
| 23339 | |||
| 23340 | const_reference operator*() const { | ||
| 23341 | return kvp; | ||
| 23342 | } | ||
| 23343 | |||
| 23344 | bool operator==(const basic_table_iterator& right) const { | ||
| 23345 | return idx == right.idx; | ||
| 23346 | } | ||
| 23347 | |||
| 23348 | bool operator!=(const basic_table_iterator& right) const { | ||
| 23349 | return idx != right.idx; | ||
| 23350 | } | ||
| 23351 | |||
| 23352 | ~basic_table_iterator() { | ||
| 23353 | if (keyidx != -1) { | ||
| 23354 | stack::remove(ref.lua_state(), keyidx, 1); | ||
| 23355 | } | ||
| 23356 | if (ref.lua_state() != nullptr && ref.valid()) { | ||
| 23357 | stack::remove(ref.lua_state(), tableidx, 1); | ||
| 23358 | } | ||
| 23359 | } | ||
| 23360 | }; | ||
| 23361 | |||
| 23362 | } // namespace sol | ||
| 23363 | |||
| 23364 | // end of sol/table_iterator.hpp | ||
| 23365 | |||
| 23366 | namespace sol { | ||
| 23367 | namespace detail { | ||
| 23368 | template <std::size_t n> | ||
| 23369 | struct clean { | ||
| 23370 | lua_State* L; | ||
| 23371 | clean(lua_State* luastate) : L(luastate) { | ||
| 23372 | } | ||
| 23373 | ~clean() { | ||
| 23374 | lua_pop(L, static_cast<int>(n)); | ||
| 23375 | } | ||
| 23376 | }; | ||
| 23377 | |||
| 23378 | struct ref_clean { | ||
| 23379 | lua_State* L; | ||
| 23380 | int& n; | ||
| 23381 | ref_clean(lua_State* luastate, int& n) : L(luastate), n(n) { | ||
| 23382 | } | ||
| 23383 | ~ref_clean() { | ||
| 23384 | lua_pop(L, static_cast<int>(n)); | ||
| 23385 | } | ||
| 23386 | }; | ||
| 23387 | |||
| 23388 | inline int fail_on_newindex(lua_State* L) { | ||
| 23389 | return luaL_error(L, "sol: cannot modify the elements of an enumeration table"); | ||
| 23390 | } | ||
| 23391 | |||
| 23392 | } // namespace detail | ||
| 23393 | |||
| 23394 | template <bool top_level, typename ref_t> | ||
| 23395 | class basic_table_core : public basic_object<ref_t> { | ||
| 23396 | private: | ||
| 23397 | using base_t = basic_object<ref_t>; | ||
| 23398 | |||
| 23399 | friend class state; | ||
| 23400 | friend class state_view; | ||
| 23401 | template <typename, typename> | ||
| 23402 | friend class basic_usertype; | ||
| 23403 | template <typename> | ||
| 23404 | friend class basic_metatable; | ||
| 23405 | |||
| 23406 | template <bool raw, typename... Ret, typename... Keys> | ||
| 23407 | decltype(auto) tuple_get(int table_index, Keys&&... keys) const { | ||
| 23408 | if constexpr (sizeof...(Ret) < 2) { | ||
| 23409 | return traverse_get_single_maybe_tuple<raw, Ret...>(table_index, std::forward<Keys>(keys)...); | ||
| 23410 | } | ||
| 23411 | else { | ||
| 23412 | using multi_ret = decltype(stack::pop<std::tuple<Ret...>>(nullptr)); | ||
| 23413 | return multi_ret(traverse_get_single_maybe_tuple<raw, Ret>(table_index, std::forward<Keys>(keys))...); | ||
| 23414 | } | ||
| 23415 | } | ||
| 23416 | |||
| 23417 | template <bool raw, typename Ret, size_t... I, typename Key> | ||
| 23418 | decltype(auto) traverse_get_single_tuple(int table_index, std::index_sequence<I...>, Key&& key) const { | ||
| 23419 | return traverse_get_single<raw, Ret>(table_index, std::get<I>(std::forward<Key>(key))...); | ||
| 23420 | } | ||
| 23421 | |||
| 23422 | template <bool raw, typename Ret, typename Key> | ||
| 23423 | decltype(auto) traverse_get_single_maybe_tuple(int table_index, Key&& key) const { | ||
| 23424 | if constexpr (meta::is_tuple_v<meta::unqualified_t<Key>>) { | ||
| 23425 | return traverse_get_single_tuple<raw, Ret>( | ||
| 23426 | table_index, std::make_index_sequence<std::tuple_size_v<meta::unqualified_t<Key>>>(), std::forward<Key>(key)); | ||
| 23427 | } | ||
| 23428 | else { | ||
| 23429 | return traverse_get_single<raw, Ret>(table_index, std::forward<Key>(key)); | ||
| 23430 | } | ||
| 23431 | } | ||
| 23432 | |||
| 23433 | template <bool raw, typename Ret, typename... Keys> | ||
| 23434 | decltype(auto) traverse_get_single(int table_index, Keys&&... keys) const { | ||
| 23435 | constexpr static bool global = top_level && (meta::count_for_to_pack_v<1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23436 | if constexpr (meta::is_optional_v<meta::unqualified_t<Ret>>) { | ||
| 23437 | int popcount = 0; | ||
| 23438 | detail::ref_clean c(base_t::lua_state(), popcount); | ||
| 23439 | return traverse_get_deep_optional<global, raw, detail::insert_mode::none, Ret>(popcount, table_index, std::forward<Keys>(keys)...); | ||
| 23440 | } | ||
| 23441 | else { | ||
| 23442 | detail::clean<sizeof...(Keys) - meta::count_for_pack_v<detail::is_insert_mode, meta::unqualified_t<Keys>...>> c(base_t::lua_state()); | ||
| 23443 | return traverse_get_deep<global, raw, detail::insert_mode::none, Ret>(table_index, std::forward<Keys>(keys)...); | ||
| 23444 | } | ||
| 23445 | } | ||
| 23446 | |||
| 23447 | template <bool raw, typename Pairs, std::size_t... I> | ||
| 23448 | void tuple_set(std::index_sequence<I...>, Pairs&& pairs) { | ||
| 23449 | constexpr static bool global = top_level | ||
| 23450 | && (meta::count_even_for_pack_v<meta::is_c_str, meta::unqualified_t<decltype(std::get<I * 2>(std::forward<Pairs>(pairs)))>...> > 0); | ||
| 23451 | auto pp = stack::push_pop<global>(*this); | ||
| 23452 | int table_index = pp.index_of(*this); | ||
| 23453 | lua_State* L = base_t::lua_state(); | ||
| 23454 | (void)table_index; | ||
| 23455 | (void)L; | ||
| 23456 | void(detail::swallow { (stack::set_field<(top_level), raw>( | ||
| 23457 | L, std::get<I * 2>(std::forward<Pairs>(pairs)), std::get<I * 2 + 1>(std::forward<Pairs>(pairs)), table_index), | ||
| 23458 | 0)... }); | ||
| 23459 | } | ||
| 23460 | |||
| 23461 | template <bool global, bool raw, detail::insert_mode mode, typename T, typename Key, typename... Keys> | ||
| 23462 | decltype(auto) traverse_get_deep(int table_index, Key&& key, Keys&&... keys) const { | ||
| 23463 | if constexpr (std::is_same_v<meta::unqualified_t<Key>, create_if_nil_t>) { | ||
| 23464 | (void)key; | ||
| 23465 | return traverse_get_deep<false, raw, static_cast<detail::insert_mode>(mode | detail::insert_mode::create_if_nil), T>( | ||
| 23466 | table_index, std::forward<Keys>(keys)...); | ||
| 23467 | } | ||
| 23468 | else { | ||
| 23469 | lua_State* L = base_t::lua_state(); | ||
| 23470 | stack::get_field<global, raw>(L, std::forward<Key>(key), table_index); | ||
| 23471 | if constexpr (sizeof...(Keys) > 0) { | ||
| 23472 | if constexpr ((mode & detail::insert_mode::create_if_nil) == detail::insert_mode::create_if_nil) { | ||
| 23473 | type t = type_of(L, -1); | ||
| 23474 | if (t == type::lua_nil || t == type::none) { | ||
| 23475 | lua_pop(L, 1); | ||
| 23476 | stack::push(L, new_table(0, 0)); | ||
| 23477 | } | ||
| 23478 | } | ||
| 23479 | return traverse_get_deep<false, raw, mode, T>(lua_gettop(L), std::forward<Keys>(keys)...); | ||
| 23480 | } | ||
| 23481 | else { | ||
| 23482 | if constexpr ((mode & detail::insert_mode::create_if_nil) == detail::insert_mode::create_if_nil) { | ||
| 23483 | type t = type_of(L, -1); | ||
| 23484 | if ((t == type::lua_nil || t == type::none) && (is_table_like_v<T>)) { | ||
| 23485 | lua_pop(L, 1); | ||
| 23486 | stack::push(L, new_table(0, 0)); | ||
| 23487 | } | ||
| 23488 | } | ||
| 23489 | return stack::get<T>(L); | ||
| 23490 | } | ||
| 23491 | } | ||
| 23492 | } | ||
| 23493 | |||
| 23494 | template <bool global, bool raw, detail::insert_mode mode, typename T, typename Key, typename... Keys> | ||
| 23495 | decltype(auto) traverse_get_deep_optional(int& popcount, int table_index, Key&& key, Keys&&... keys) const { | ||
| 23496 | if constexpr (std::is_same_v<meta::unqualified_t<Key>, create_if_nil_t>) { | ||
| 23497 | constexpr detail::insert_mode new_mode = static_cast<detail::insert_mode>(mode | detail::insert_mode::create_if_nil); | ||
| 23498 | (void)key; | ||
| 23499 | return traverse_get_deep_optional<global, raw, new_mode, T>(popcount, table_index, std::forward<Keys>(keys)...); | ||
| 23500 | } | ||
| 23501 | else if constexpr (std::is_same_v<meta::unqualified_t<Key>, update_if_empty_t>) { | ||
| 23502 | constexpr detail::insert_mode new_mode = static_cast<detail::insert_mode>(mode | detail::insert_mode::update_if_empty); | ||
| 23503 | (void)key; | ||
| 23504 | return traverse_get_deep_optional<global, raw, new_mode, T>(popcount, table_index, std::forward<Keys>(keys)...); | ||
| 23505 | } | ||
| 23506 | else if constexpr (std::is_same_v<meta::unqualified_t<Key>, override_value_t>) { | ||
| 23507 | constexpr detail::insert_mode new_mode = static_cast<detail::insert_mode>(mode | detail::insert_mode::override_value); | ||
| 23508 | (void)key; | ||
| 23509 | return traverse_get_deep_optional<global, raw, new_mode, T>(popcount, table_index, std::forward<Keys>(keys)...); | ||
| 23510 | } | ||
| 23511 | else { | ||
| 23512 | if constexpr (sizeof...(Keys) > 0) { | ||
| 23513 | lua_State* L = base_t::lua_state(); | ||
| 23514 | auto p = stack::probe_get_field<global, raw>(L, std::forward<Key>(key), table_index); | ||
| 23515 | popcount += p.levels; | ||
| 23516 | if (!p.success) { | ||
| 23517 | if constexpr ((mode & detail::insert_mode::create_if_nil) == detail::insert_mode::create_if_nil) { | ||
| 23518 | lua_pop(L, 1); | ||
| 23519 | constexpr bool is_seq = meta::count_for_to_pack_v<1, std::is_integral, Keys...> > 0; | ||
| 23520 | stack::push(L, new_table(static_cast<int>(is_seq), static_cast<int>(!is_seq))); | ||
| 23521 | stack::set_field<global, raw>(L, std::forward<Key>(key), stack_reference(L, -1), table_index); | ||
| 23522 | } | ||
| 23523 | else { | ||
| 23524 | return T(nullopt); | ||
| 23525 | } | ||
| 23526 | } | ||
| 23527 | return traverse_get_deep_optional<false, raw, mode, T>(popcount, lua_gettop(L), std::forward<Keys>(keys)...); | ||
| 23528 | } | ||
| 23529 | else { | ||
| 23530 | using R = decltype(stack::get<T>(nullptr)); | ||
| 23531 | using value_type = typename meta::unqualified_t<R>::value_type; | ||
| 23532 | lua_State* L = base_t::lua_state(); | ||
| 23533 | auto p = stack::probe_get_field<global, raw, value_type>(L, key, table_index); | ||
| 23534 | popcount += p.levels; | ||
| 23535 | if (!p.success) { | ||
| 23536 | if constexpr ((mode & detail::insert_mode::create_if_nil) == detail::insert_mode::create_if_nil) { | ||
| 23537 | lua_pop(L, 1); | ||
| 23538 | stack::push(L, new_table(0, 0)); | ||
| 23539 | stack::set_field<global, raw>(L, std::forward<Key>(key), stack_reference(L, -1), table_index); | ||
| 23540 | if (stack::check<value_type>(L, lua_gettop(L), no_panic)) { | ||
| 23541 | return stack::get<T>(L); | ||
| 23542 | } | ||
| 23543 | } | ||
| 23544 | return R(nullopt); | ||
| 23545 | } | ||
| 23546 | return stack::get<T>(L); | ||
| 23547 | } | ||
| 23548 | } | ||
| 23549 | } | ||
| 23550 | |||
| 23551 | template <bool global, bool raw, detail::insert_mode mode, typename Key, typename... Keys> | ||
| 23552 | void traverse_set_deep(int table_index, Key&& key, Keys&&... keys) const { | ||
| 23553 | using KeyU = meta::unqualified_t<Key>; | ||
| 23554 | if constexpr (std::is_same_v<KeyU, update_if_empty_t>) { | ||
| 23555 | (void)key; | ||
| 23556 | traverse_set_deep<global, raw, static_cast<detail::insert_mode>(mode | detail::insert_mode::update_if_empty)>( | ||
| 23557 | table_index, std::forward<Keys>(keys)...); | ||
| 23558 | } | ||
| 23559 | else if constexpr (std::is_same_v<KeyU, create_if_nil_t>) { | ||
| 23560 | (void)key; | ||
| 23561 | traverse_set_deep<global, raw, static_cast<detail::insert_mode>(mode | detail::insert_mode::create_if_nil)>( | ||
| 23562 | table_index, std::forward<Keys>(keys)...); | ||
| 23563 | } | ||
| 23564 | else if constexpr (std::is_same_v<KeyU, override_value_t>) { | ||
| 23565 | (void)key; | ||
| 23566 | traverse_set_deep<global, raw, static_cast<detail::insert_mode>(mode | detail::insert_mode::override_value)>( | ||
| 23567 | table_index, std::forward<Keys>(keys)...); | ||
| 23568 | } | ||
| 23569 | else { | ||
| 23570 | lua_State* L = base_t::lua_state(); | ||
| 23571 | if constexpr (sizeof...(Keys) == 1) { | ||
| 23572 | if constexpr ((mode & detail::insert_mode::update_if_empty) == detail::insert_mode::update_if_empty) { | ||
| 23573 | auto p = stack::probe_get_field<global, raw>(L, key, table_index); | ||
| 23574 | lua_pop(L, p.levels); | ||
| 23575 | if (!p.success) { | ||
| 23576 | stack::set_field<global, raw>(L, std::forward<Key>(key), std::forward<Keys>(keys)..., table_index); | ||
| 23577 | } | ||
| 23578 | } | ||
| 23579 | else { | ||
| 23580 | stack::set_field<global, raw>(L, std::forward<Key>(key), std::forward<Keys>(keys)..., table_index); | ||
| 23581 | } | ||
| 23582 | } | ||
| 23583 | else { | ||
| 23584 | if constexpr (mode != detail::insert_mode::none) { | ||
| 23585 | stack::get_field<global, raw>(L, key, table_index); | ||
| 23586 | type vt = type_of(L, -1); | ||
| 23587 | if constexpr ((mode & detail::insert_mode::update_if_empty) == detail::insert_mode::update_if_empty | ||
| 23588 | || (mode & detail::insert_mode::create_if_nil) == detail::insert_mode::create_if_nil) { | ||
| 23589 | if (vt == type::lua_nil || vt == type::none) { | ||
| 23590 | constexpr bool is_seq = meta::count_for_to_pack_v<1, std::is_integral, Keys...> > 0; | ||
| 23591 | lua_pop(L, 1); | ||
| 23592 | stack::push(L, new_table(static_cast<int>(is_seq), static_cast<int>(!is_seq))); | ||
| 23593 | stack::set_field<global, raw>(L, std::forward<Key>(key), stack_reference(L, -1), table_index); | ||
| 23594 | } | ||
| 23595 | } | ||
| 23596 | else { | ||
| 23597 | if (vt != type::table) { | ||
| 23598 | constexpr bool is_seq = meta::count_for_to_pack_v<1, std::is_integral, Keys...> > 0; | ||
| 23599 | lua_pop(L, 1); | ||
| 23600 | stack::push(L, new_table(static_cast<int>(is_seq), static_cast<int>(!is_seq))); | ||
| 23601 | stack::set_field<global, raw>(L, std::forward<Key>(key), stack_reference(L, -1), table_index); | ||
| 23602 | } | ||
| 23603 | } | ||
| 23604 | } | ||
| 23605 | else { | ||
| 23606 | stack::get_field<global, raw>(L, std::forward<Key>(key), table_index); | ||
| 23607 | } | ||
| 23608 | traverse_set_deep<false, raw, mode>(lua_gettop(L), std::forward<Keys>(keys)...); | ||
| 23609 | } | ||
| 23610 | } | ||
| 23611 | } | ||
| 23612 | |||
| 23613 | basic_table_core(lua_State* L, detail::global_tag t) noexcept : base_t(L, t) { | ||
| 23614 | } | ||
| 23615 | |||
| 23616 | protected: | ||
| 23617 | basic_table_core(detail::no_safety_tag, lua_nil_t n) : base_t(n) { | ||
| 23618 | } | ||
| 23619 | basic_table_core(detail::no_safety_tag, lua_State* L, int index) : base_t(L, index) { | ||
| 23620 | } | ||
| 23621 | basic_table_core(detail::no_safety_tag, lua_State* L, ref_index index) : base_t(L, index) { | ||
| 23622 | } | ||
| 23623 | template <typename T, | ||
| 23624 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_table_core>>, meta::neg<std::is_same<ref_t, stack_reference>>, | ||
| 23625 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 23626 | basic_table_core(detail::no_safety_tag, T&& r) noexcept : base_t(std::forward<T>(r)) { | ||
| 23627 | } | ||
| 23628 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 23629 | basic_table_core(detail::no_safety_tag, lua_State* L, T&& r) noexcept : base_t(L, std::forward<T>(r)) { | ||
| 23630 | } | ||
| 23631 | |||
| 23632 | public: | ||
| 23633 | using iterator = basic_table_iterator<ref_t>; | ||
| 23634 | using const_iterator = iterator; | ||
| 23635 | |||
| 23636 | using base_t::lua_state; | ||
| 23637 | |||
| 23638 | basic_table_core() noexcept = default; | ||
| 23639 | basic_table_core(const basic_table_core&) = default; | ||
| 23640 | basic_table_core(basic_table_core&&) = default; | ||
| 23641 | basic_table_core& operator=(const basic_table_core&) = default; | ||
| 23642 | basic_table_core& operator=(basic_table_core&&) = default; | ||
| 23643 | basic_table_core(const stack_reference& r) : basic_table_core(r.lua_state(), r.stack_index()) { | ||
| 23644 | } | ||
| 23645 | basic_table_core(stack_reference&& r) : basic_table_core(r.lua_state(), r.stack_index()) { | ||
| 23646 | } | ||
| 23647 | template <typename T, meta::enable_any<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 23648 | basic_table_core(lua_State* L, T&& r) : base_t(L, std::forward<T>(r)) { | ||
| 23649 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 23650 | auto pp = stack::push_pop(*this); | ||
| 23651 | int table_index = pp.index_of(*this); | ||
| 23652 | constructor_handler handler {}; | ||
| 23653 | stack::check<basic_table_core>(lua_state(), table_index, handler); | ||
| 23654 | #endif // Safety | ||
| 23655 | } | ||
| 23656 | basic_table_core(lua_State* L, const new_table& nt) : base_t(L, -stack::push(L, nt)) { | ||
| 23657 | if (!is_stack_based<meta::unqualified_t<ref_t>>::value) { | ||
| 23658 | lua_pop(L, 1); | ||
| 23659 | } | ||
| 23660 | } | ||
| 23661 | basic_table_core(lua_State* L, int index = -1) : basic_table_core(detail::no_safety, L, index) { | ||
| 23662 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 23663 | constructor_handler handler {}; | ||
| 23664 | stack::check<basic_table_core>(L, index, handler); | ||
| 23665 | #endif // Safety | ||
| 23666 | } | ||
| 23667 | basic_table_core(lua_State* L, ref_index index) : basic_table_core(detail::no_safety, L, index) { | ||
| 23668 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 23669 | auto pp = stack::push_pop(*this); | ||
| 23670 | int table_index = pp.index_of(*this); | ||
| 23671 | constructor_handler handler {}; | ||
| 23672 | stack::check<basic_table_core>(lua_state(), table_index, handler); | ||
| 23673 | #endif // Safety | ||
| 23674 | } | ||
| 23675 | template <typename T, | ||
| 23676 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_table_core>>, meta::neg<std::is_same<ref_t, stack_reference>>, | ||
| 23677 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 23678 | basic_table_core(T&& r) noexcept : basic_table_core(detail::no_safety, std::forward<T>(r)) { | ||
| 23679 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 23680 | if (!is_table<meta::unqualified_t<T>>::value) { | ||
| 23681 | auto pp = stack::push_pop(*this); | ||
| 23682 | int table_index = pp.index_of(*this); | ||
| 23683 | constructor_handler handler {}; | ||
| 23684 | stack::check<basic_table_core>(lua_state(), table_index, handler); | ||
| 23685 | } | ||
| 23686 | #endif // Safety | ||
| 23687 | } | ||
| 23688 | basic_table_core(lua_nil_t r) noexcept : basic_table_core(detail::no_safety, r) { | ||
| 23689 | } | ||
| 23690 | |||
| 23691 | iterator begin() const { | ||
| 23692 | if (this->get_type() == type::table) { | ||
| 23693 | return iterator(*this); | ||
| 23694 | } | ||
| 23695 | return iterator(); | ||
| 23696 | } | ||
| 23697 | |||
| 23698 | iterator end() const { | ||
| 23699 | return iterator(); | ||
| 23700 | } | ||
| 23701 | |||
| 23702 | const_iterator cbegin() const { | ||
| 23703 | return begin(); | ||
| 23704 | } | ||
| 23705 | |||
| 23706 | const_iterator cend() const { | ||
| 23707 | return end(); | ||
| 23708 | } | ||
| 23709 | |||
| 23710 | void clear() { | ||
| 23711 | auto pp = stack::push_pop<false>(*this); | ||
| 23712 | int table_index = pp.index_of(*this); | ||
| 23713 | stack::clear(lua_state(), table_index); | ||
| 23714 | } | ||
| 23715 | |||
| 23716 | template <typename... Ret, typename... Keys> | ||
| 23717 | decltype(auto) get(Keys&&... keys) const { | ||
| 23718 | static_assert(sizeof...(Keys) == sizeof...(Ret), "number of keys and number of return types do not match"); | ||
| 23719 | constexpr static bool global = meta::all<meta::boolean<top_level>, meta::is_c_str<meta::unqualified_t<Keys>>...>::value; | ||
| 23720 | auto pp = stack::push_pop<global>(*this); | ||
| 23721 | int table_index = pp.index_of(*this); | ||
| 23722 | return tuple_get<false, Ret...>(table_index, std::forward<Keys>(keys)...); | ||
| 23723 | } | ||
| 23724 | |||
| 23725 | template <typename T, typename Key> | ||
| 23726 | decltype(auto) get_or(Key&& key, T&& otherwise) const { | ||
| 23727 | typedef decltype(get<T>("")) U; | ||
| 23728 | optional<U> option = get<optional<U>>(std::forward<Key>(key)); | ||
| 23729 | if (option) { | ||
| 23730 | return static_cast<U>(option.value()); | ||
| 23731 | } | ||
| 23732 | return static_cast<U>(std::forward<T>(otherwise)); | ||
| 23733 | } | ||
| 23734 | |||
| 23735 | template <typename T, typename Key, typename D> | ||
| 23736 | decltype(auto) get_or(Key&& key, D&& otherwise) const { | ||
| 23737 | optional<T> option = get<optional<T>>(std::forward<Key>(key)); | ||
| 23738 | if (option) { | ||
| 23739 | return static_cast<T>(option.value()); | ||
| 23740 | } | ||
| 23741 | return static_cast<T>(std::forward<D>(otherwise)); | ||
| 23742 | } | ||
| 23743 | |||
| 23744 | template <typename T, typename... Keys> | ||
| 23745 | decltype(auto) traverse_get(Keys&&... keys) const { | ||
| 23746 | static_assert(sizeof...(Keys) > 0, "must pass at least 1 key to get"); | ||
| 23747 | constexpr static bool global = top_level && (meta::count_for_to_pack_v<1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23748 | auto pp = stack::push_pop<global>(*this); | ||
| 23749 | int table_index = pp.index_of(*this); | ||
| 23750 | return traverse_get_single<false, T>(table_index, std::forward<Keys>(keys)...); | ||
| 23751 | } | ||
| 23752 | |||
| 23753 | template <typename... Keys> | ||
| 23754 | basic_table_core& traverse_set(Keys&&... keys) { | ||
| 23755 | static_assert(sizeof...(Keys) > 1, "must pass at least 1 key and 1 value to set"); | ||
| 23756 | constexpr static bool global | ||
| 23757 | = top_level && (meta::count_when_for_to_pack_v<detail::is_not_insert_mode, 1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23758 | auto pp = stack::push_pop<global>(*this); | ||
| 23759 | int table_index = pp.index_of(*this); | ||
| 23760 | lua_State* L = base_t::lua_state(); | ||
| 23761 | auto pn = stack::pop_n(L, static_cast<int>(sizeof...(Keys) - 2 - meta::count_for_pack_v<detail::is_insert_mode, meta::unqualified_t<Keys>...>)); | ||
| 23762 | traverse_set_deep<top_level, false, detail::insert_mode::none>(table_index, std::forward<Keys>(keys)...); | ||
| 23763 | return *this; | ||
| 23764 | } | ||
| 23765 | |||
| 23766 | template <typename... Args> | ||
| 23767 | basic_table_core& set(Args&&... args) { | ||
| 23768 | if constexpr (sizeof...(Args) == 2) { | ||
| 23769 | traverse_set(std::forward<Args>(args)...); | ||
| 23770 | } | ||
| 23771 | else { | ||
| 23772 | tuple_set<false>(std::make_index_sequence<sizeof...(Args) / 2>(), std::forward_as_tuple(std::forward<Args>(args)...)); | ||
| 23773 | } | ||
| 23774 | return *this; | ||
| 23775 | } | ||
| 23776 | |||
| 23777 | template <typename... Ret, typename... Keys> | ||
| 23778 | decltype(auto) raw_get(Keys&&... keys) const { | ||
| 23779 | static_assert(sizeof...(Keys) == sizeof...(Ret), "number of keys and number of return types do not match"); | ||
| 23780 | constexpr static bool global = top_level && (meta::count_for_to_pack_v<1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23781 | auto pp = stack::push_pop<global>(*this); | ||
| 23782 | int table_index = pp.index_of(*this); | ||
| 23783 | return tuple_get<true, Ret...>(table_index, std::forward<Keys>(keys)...); | ||
| 23784 | } | ||
| 23785 | |||
| 23786 | template <typename T, typename Key> | ||
| 23787 | decltype(auto) raw_get_or(Key&& key, T&& otherwise) const { | ||
| 23788 | typedef decltype(raw_get<T>("")) U; | ||
| 23789 | optional<U> option = raw_get<optional<U>>(std::forward<Key>(key)); | ||
| 23790 | if (option) { | ||
| 23791 | return static_cast<U>(option.value()); | ||
| 23792 | } | ||
| 23793 | return static_cast<U>(std::forward<T>(otherwise)); | ||
| 23794 | } | ||
| 23795 | |||
| 23796 | template <typename T, typename Key, typename D> | ||
| 23797 | decltype(auto) raw_get_or(Key&& key, D&& otherwise) const { | ||
| 23798 | optional<T> option = raw_get<optional<T>>(std::forward<Key>(key)); | ||
| 23799 | if (option) { | ||
| 23800 | return static_cast<T>(option.value()); | ||
| 23801 | } | ||
| 23802 | return static_cast<T>(std::forward<D>(otherwise)); | ||
| 23803 | } | ||
| 23804 | |||
| 23805 | template <typename T, typename... Keys> | ||
| 23806 | decltype(auto) traverse_raw_get(Keys&&... keys) const { | ||
| 23807 | constexpr static bool global = top_level && (meta::count_for_to_pack_v<1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23808 | auto pp = stack::push_pop<global>(*this); | ||
| 23809 | int table_index = pp.index_of(*this); | ||
| 23810 | return traverse_get_single<true, T>(table_index, std::forward<Keys>(keys)...); | ||
| 23811 | } | ||
| 23812 | |||
| 23813 | template <typename... Keys> | ||
| 23814 | basic_table_core& traverse_raw_set(Keys&&... keys) { | ||
| 23815 | constexpr static bool global = top_level && (meta::count_for_to_pack_v<1, meta::is_c_str, meta::unqualified_t<Keys>...> > 0); | ||
| 23816 | auto pp = stack::push_pop<global>(*this); | ||
| 23817 | lua_State* L = base_t::lua_state(); | ||
| 23818 | auto pn = stack::pop_n(L, static_cast<int>(sizeof...(Keys) - 2 - meta::count_for_pack_v<detail::is_insert_mode, meta::unqualified_t<Keys>...>)); | ||
| 23819 | traverse_set_deep<top_level, true, false>(std::forward<Keys>(keys)...); | ||
| 23820 | return *this; | ||
| 23821 | } | ||
| 23822 | |||
| 23823 | template <typename... Args> | ||
| 23824 | basic_table_core& raw_set(Args&&... args) { | ||
| 23825 | tuple_set<true>(std::make_index_sequence<sizeof...(Args) / 2>(), std::forward_as_tuple(std::forward<Args>(args)...)); | ||
| 23826 | return *this; | ||
| 23827 | } | ||
| 23828 | |||
| 23829 | template <typename Class, typename Key> | ||
| 23830 | usertype<Class> new_usertype(Key&& key); | ||
| 23831 | |||
| 23832 | template <typename Class, typename Key> | ||
| 23833 | usertype<Class> new_usertype(Key&& key, automagic_enrollments enrollment); | ||
| 23834 | |||
| 23835 | template <typename Class, typename Key, typename Arg, typename... Args, | ||
| 23836 | typename = std::enable_if_t<!std::is_same_v<meta::unqualified_t<Arg>, automagic_enrollments>>> | ||
| 23837 | usertype<Class> new_usertype(Key&& key, Arg&& arg, Args&&... args); | ||
| 23838 | |||
| 23839 | template <bool read_only = true, typename... Args> | ||
| 23840 | table new_enum(const string_view& name, Args&&... args) { | ||
| 23841 | table target = create_with(std::forward<Args>(args)...); | ||
| 23842 | if (read_only) { | ||
| 23843 | table x = create_with(meta_function::new_index, detail::fail_on_newindex, meta_function::index, target); | ||
| 23844 | table shim = create_named(name, metatable_key, x); | ||
| 23845 | return shim; | ||
| 23846 | } | ||
| 23847 | else { | ||
| 23848 | set(name, target); | ||
| 23849 | return target; | ||
| 23850 | } | ||
| 23851 | } | ||
| 23852 | |||
| 23853 | template <typename T, bool read_only = true> | ||
| 23854 | table new_enum(const string_view& name, std::initializer_list<std::pair<string_view, T>> items) { | ||
| 23855 | table target = create(static_cast<int>(items.size()), static_cast<int>(0)); | ||
| 23856 | for (const auto& kvp : items) { | ||
| 23857 | target.set(kvp.first, kvp.second); | ||
| 23858 | } | ||
| 23859 | if constexpr (read_only) { | ||
| 23860 | table x = create_with(meta_function::new_index, detail::fail_on_newindex, meta_function::index, target); | ||
| 23861 | table shim = create_named(name, metatable_key, x); | ||
| 23862 | return shim; | ||
| 23863 | } | ||
| 23864 | else { | ||
| 23865 | set(name, target); | ||
| 23866 | return target; | ||
| 23867 | } | ||
| 23868 | } | ||
| 23869 | |||
| 23870 | template <typename Key = object, typename Value = object, typename Fx> | ||
| 23871 | void for_each(Fx&& fx) const { | ||
| 23872 | lua_State* L = base_t::lua_state(); | ||
| 23873 | if constexpr (std::is_invocable_v<Fx, Key, Value>) { | ||
| 23874 | auto pp = stack::push_pop(*this); | ||
| 23875 | int table_index = pp.index_of(*this); | ||
| 23876 | stack::push(L, lua_nil); | ||
| 23877 | while (lua_next(L, table_index)) { | ||
| 23878 | Key key(L, -2); | ||
| 23879 | Value value(L, -1); | ||
| 23880 | auto pn = stack::pop_n(L, 1); | ||
| 23881 | fx(key, value); | ||
| 23882 | } | ||
| 23883 | } | ||
| 23884 | else { | ||
| 23885 | auto pp = stack::push_pop(*this); | ||
| 23886 | int table_index = pp.index_of(*this); | ||
| 23887 | stack::push(L, lua_nil); | ||
| 23888 | while (lua_next(L, table_index)) { | ||
| 23889 | Key key(L, -2); | ||
| 23890 | Value value(L, -1); | ||
| 23891 | auto pn = stack::pop_n(L, 1); | ||
| 23892 | std::pair<Key&, Value&> keyvalue(key, value); | ||
| 23893 | fx(keyvalue); | ||
| 23894 | } | ||
| 23895 | } | ||
| 23896 | } | ||
| 23897 | |||
| 23898 | size_t size() const { | ||
| 23899 | auto pp = stack::push_pop(*this); | ||
| 23900 | int table_index = pp.index_of(*this); | ||
| 23901 | lua_State* L = base_t::lua_state(); | ||
| 23902 | lua_len(L, table_index); | ||
| 23903 | return stack::pop<size_t>(L); | ||
| 23904 | } | ||
| 23905 | |||
| 23906 | bool empty() const { | ||
| 23907 | return cbegin() == cend(); | ||
| 23908 | } | ||
| 23909 | |||
| 23910 | template <typename T> | ||
| 23911 | auto operator[](T&& key) & { | ||
| 23912 | return table_proxy<basic_table_core&, detail::proxy_key_t<T>>(*this, std::forward<T>(key)); | ||
| 23913 | } | ||
| 23914 | |||
| 23915 | template <typename T> | ||
| 23916 | auto operator[](T&& key) const& { | ||
| 23917 | return table_proxy<const basic_table_core&, detail::proxy_key_t<T>>(*this, std::forward<T>(key)); | ||
| 23918 | } | ||
| 23919 | |||
| 23920 | template <typename T> | ||
| 23921 | auto operator[](T&& key) && { | ||
| 23922 | return table_proxy<basic_table_core, detail::proxy_key_t<T>>(std::move(*this), std::forward<T>(key)); | ||
| 23923 | } | ||
| 23924 | |||
| 23925 | template <typename Sig, typename Key, typename... Args> | ||
| 23926 | basic_table_core& set_function(Key&& key, Args&&... args) { | ||
| 23927 | set_fx(types<Sig>(), std::forward<Key>(key), std::forward<Args>(args)...); | ||
| 23928 | return *this; | ||
| 23929 | } | ||
| 23930 | |||
| 23931 | template <typename Key, typename... Args> | ||
| 23932 | basic_table_core& set_function(Key&& key, Args&&... args) { | ||
| 23933 | set_fx(types<>(), std::forward<Key>(key), std::forward<Args>(args)...); | ||
| 23934 | return *this; | ||
| 23935 | } | ||
| 23936 | |||
| 23937 | template <typename... Args> | ||
| 23938 | basic_table_core& add(Args&&... args) { | ||
| 23939 | auto pp = stack::push_pop(*this); | ||
| 23940 | int table_index = pp.index_of(*this); | ||
| 23941 | lua_State* L = base_t::lua_state(); | ||
| 23942 | (void)detail::swallow { 0, (stack::set_ref(L, std::forward<Args>(args), table_index), 0)... }; | ||
| 23943 | return *this; | ||
| 23944 | } | ||
| 23945 | |||
| 23946 | private: | ||
| 23947 | template <typename R, typename... Args, typename Fx, typename Key, typename = std::invoke_result_t<Fx, Args...>> | ||
| 23948 | void set_fx(types<R(Args...)>, Key&& key, Fx&& fx) { | ||
| 23949 | set_resolved_function<R(Args...)>(std::forward<Key>(key), std::forward<Fx>(fx)); | ||
| 23950 | } | ||
| 23951 | |||
| 23952 | template <typename Fx, typename Key, meta::enable<meta::is_specialization_of<meta::unqualified_t<Fx>, overload_set>> = meta::enabler> | ||
| 23953 | void set_fx(types<>, Key&& key, Fx&& fx) { | ||
| 23954 | set(std::forward<Key>(key), std::forward<Fx>(fx)); | ||
| 23955 | } | ||
| 23956 | |||
| 23957 | template <typename Fx, typename Key, typename... Args, | ||
| 23958 | meta::disable<meta::is_specialization_of<meta::unqualified_t<Fx>, overload_set>> = meta::enabler> | ||
| 23959 | void set_fx(types<>, Key&& key, Fx&& fx, Args&&... args) { | ||
| 23960 | set(std::forward<Key>(key), as_function_reference(std::forward<Fx>(fx), std::forward<Args>(args)...)); | ||
| 23961 | } | ||
| 23962 | |||
| 23963 | template <typename... Sig, typename... Args, typename Key> | ||
| 23964 | void set_resolved_function(Key&& key, Args&&... args) { | ||
| 23965 | set(std::forward<Key>(key), as_function_reference<function_sig<Sig...>>(std::forward<Args>(args)...)); | ||
| 23966 | } | ||
| 23967 | |||
| 23968 | public: | ||
| 23969 | static inline table create(lua_State* L, int narr = 0, int nrec = 0) { | ||
| 23970 | lua_createtable(L, narr, nrec); | ||
| 23971 | table result(L); | ||
| 23972 | lua_pop(L, 1); | ||
| 23973 | return result; | ||
| 23974 | } | ||
| 23975 | |||
| 23976 | template <typename Key, typename Value, typename... Args> | ||
| 23977 | static inline table create(lua_State* L, int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 23978 | lua_createtable(L, narr, nrec); | ||
| 23979 | table result(L); | ||
| 23980 | result.set(std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 23981 | lua_pop(L, 1); | ||
| 23982 | return result; | ||
| 23983 | } | ||
| 23984 | |||
| 23985 | template <typename... Args> | ||
| 23986 | static inline table create_with(lua_State* L, Args&&... args) { | ||
| 23987 | static_assert(sizeof...(Args) % 2 == 0, "You must have an even number of arguments for a key, value ... list."); | ||
| 23988 | constexpr int narr = static_cast<int>(meta::count_odd_for_pack_v<std::is_integral, Args...>); | ||
| 23989 | return create(L, narr, static_cast<int>((sizeof...(Args) / 2) - narr), std::forward<Args>(args)...); | ||
| 23990 | } | ||
| 23991 | |||
| 23992 | table create(int narr = 0, int nrec = 0) { | ||
| 23993 | return create(base_t::lua_state(), narr, nrec); | ||
| 23994 | } | ||
| 23995 | |||
| 23996 | template <typename Key, typename Value, typename... Args> | ||
| 23997 | table create(int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 23998 | return create(base_t::lua_state(), narr, nrec, std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 23999 | } | ||
| 24000 | |||
| 24001 | template <typename Name> | ||
| 24002 | table create(Name&& name, int narr = 0, int nrec = 0) { | ||
| 24003 | table x = create(base_t::lua_state(), narr, nrec); | ||
| 24004 | this->set(std::forward<Name>(name), x); | ||
| 24005 | return x; | ||
| 24006 | } | ||
| 24007 | |||
| 24008 | template <typename Name, typename Key, typename Value, typename... Args> | ||
| 24009 | table create(Name&& name, int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 24010 | table x = create(base_t::lua_state(), narr, nrec, std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 24011 | this->set(std::forward<Name>(name), x); | ||
| 24012 | return x; | ||
| 24013 | } | ||
| 24014 | |||
| 24015 | template <typename... Args> | ||
| 24016 | table create_with(Args&&... args) { | ||
| 24017 | return create_with(base_t::lua_state(), std::forward<Args>(args)...); | ||
| 24018 | } | ||
| 24019 | |||
| 24020 | template <typename Name, typename... Args> | ||
| 24021 | table create_named(Name&& name, Args&&... args) { | ||
| 24022 | static const int narr = static_cast<int>(meta::count_even_for_pack_v<std::is_integral, Args...>); | ||
| 24023 | return create(std::forward<Name>(name), narr, (sizeof...(Args) / 2) - narr, std::forward<Args>(args)...); | ||
| 24024 | } | ||
| 24025 | }; | ||
| 24026 | } // namespace sol | ||
| 24027 | |||
| 24028 | // end of sol/table_core.hpp | ||
| 24029 | |||
| 24030 | namespace sol { | ||
| 24031 | |||
| 24032 | template <typename base_type> | ||
| 24033 | class basic_metatable : public basic_table<base_type> { | ||
| 24034 | typedef basic_table<base_type> base_t; | ||
| 24035 | friend class state; | ||
| 24036 | friend class state_view; | ||
| 24037 | |||
| 24038 | protected: | ||
| 24039 | basic_metatable(detail::no_safety_tag, lua_nil_t n) : base_t(n) { | ||
| 24040 | } | ||
| 24041 | basic_metatable(detail::no_safety_tag, lua_State* L, int index) : base_t(L, index) { | ||
| 24042 | } | ||
| 24043 | basic_metatable(detail::no_safety_tag, lua_State* L, ref_index index) : base_t(L, index) { | ||
| 24044 | } | ||
| 24045 | template <typename T, | ||
| 24046 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_metatable>>, meta::neg<std::is_same<base_type, stack_reference>>, | ||
| 24047 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24048 | basic_metatable(detail::no_safety_tag, T&& r) noexcept : base_t(std::forward<T>(r)) { | ||
| 24049 | } | ||
| 24050 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24051 | basic_metatable(detail::no_safety_tag, lua_State* L, T&& r) noexcept : base_t(L, std::forward<T>(r)) { | ||
| 24052 | } | ||
| 24053 | |||
| 24054 | public: | ||
| 24055 | using base_t::lua_state; | ||
| 24056 | |||
| 24057 | basic_metatable() noexcept = default; | ||
| 24058 | basic_metatable(const basic_metatable&) = default; | ||
| 24059 | basic_metatable(basic_metatable&&) = default; | ||
| 24060 | basic_metatable& operator=(const basic_metatable&) = default; | ||
| 24061 | basic_metatable& operator=(basic_metatable&&) = default; | ||
| 24062 | basic_metatable(const stack_reference& r) : basic_metatable(r.lua_state(), r.stack_index()) { | ||
| 24063 | } | ||
| 24064 | basic_metatable(stack_reference&& r) : basic_metatable(r.lua_state(), r.stack_index()) { | ||
| 24065 | } | ||
| 24066 | template <typename T, meta::enable_any<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24067 | basic_metatable(lua_State* L, T&& r) : base_t(L, std::forward<T>(r)) { | ||
| 24068 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24069 | auto pp = stack::push_pop(*this); | ||
| 24070 | constructor_handler handler{}; | ||
| 24071 | stack::check<basic_metatable>(lua_state(), -1, handler); | ||
| 24072 | #endif // Safety | ||
| 24073 | } | ||
| 24074 | basic_metatable(lua_State* L, int index = -1) : basic_metatable(detail::no_safety, L, index) { | ||
| 24075 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24076 | constructor_handler handler{}; | ||
| 24077 | stack::check<basic_metatable>(L, index, handler); | ||
| 24078 | #endif // Safety | ||
| 24079 | } | ||
| 24080 | basic_metatable(lua_State* L, ref_index index) : basic_metatable(detail::no_safety, L, index) { | ||
| 24081 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24082 | auto pp = stack::push_pop(*this); | ||
| 24083 | constructor_handler handler{}; | ||
| 24084 | stack::check<basic_metatable>(lua_state(), -1, handler); | ||
| 24085 | #endif // Safety | ||
| 24086 | } | ||
| 24087 | template <typename T, | ||
| 24088 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_metatable>>, meta::neg<std::is_same<base_type, stack_reference>>, | ||
| 24089 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24090 | basic_metatable(T&& r) noexcept : basic_metatable(detail::no_safety, std::forward<T>(r)) { | ||
| 24091 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24092 | if (!is_table<meta::unqualified_t<T>>::value) { | ||
| 24093 | auto pp = stack::push_pop(*this); | ||
| 24094 | constructor_handler handler{}; | ||
| 24095 | stack::check<basic_metatable>(base_t::lua_state(), -1, handler); | ||
| 24096 | } | ||
| 24097 | #endif // Safety | ||
| 24098 | } | ||
| 24099 | basic_metatable(lua_nil_t r) noexcept : basic_metatable(detail::no_safety, r) { | ||
| 24100 | } | ||
| 24101 | |||
| 24102 | template <typename Key, typename Value> | ||
| 24103 | void set(Key&& key, Value&& value); | ||
| 24104 | |||
| 24105 | void unregister() { | ||
| 24106 | using ustorage_base = u_detail::usertype_storage_base; | ||
| 24107 | |||
| 24108 | lua_State* L = this->lua_state(); | ||
| 24109 | |||
| 24110 | auto pp = stack::push_pop(*this); | ||
| 24111 | int top = lua_gettop(L); | ||
| 24112 | |||
| 24113 | stack_reference mt(L, -1); | ||
| 24114 | stack::get_field(L, meta_function::gc_names, mt.stack_index()); | ||
| 24115 | if (type_of(L, -1) != type::table) { | ||
| 24116 | return; | ||
| 24117 | } | ||
| 24118 | stack_reference gc_names_table(L, -1); | ||
| 24119 | stack::get_field(L, meta_function::storage, mt.stack_index()); | ||
| 24120 | if (type_of(L, -1) != type::lightuserdata) { | ||
| 24121 | return; | ||
| 24122 | } | ||
| 24123 | ustorage_base& base_storage = *static_cast<ustorage_base*>(stack::get<void*>(L, -1)); | ||
| 24124 | std::array<string_view, 6> registry_traits; | ||
| 24125 | for (std::size_t i = 0; i < registry_traits.size(); ++i) { | ||
| 24126 | u_detail::submetatable_type smt = static_cast<u_detail::submetatable_type>(i); | ||
| 24127 | stack::get_field<false, true>(L, smt, gc_names_table.stack_index()); | ||
| 24128 | registry_traits[i] = stack::get<string_view>(L, -1); | ||
| 24129 | } | ||
| 24130 | |||
| 24131 | // get the registry | ||
| 24132 | stack_reference registry(L, raw_index(LUA_REGISTRYINDEX)); | ||
| 24133 | registry.push(); | ||
| 24134 | // eliminate all named entries for this usertype | ||
| 24135 | // in the registry (luaL_newmetatable does | ||
| 24136 | // [name] = new table | ||
| 24137 | // in registry upon creation) | ||
| 24138 | for (std::size_t i = 0; i < registry_traits.size(); ++i) { | ||
| 24139 | u_detail::submetatable_type smt = static_cast<u_detail::submetatable_type>(i); | ||
| 24140 | const string_view& gcmetakey = registry_traits[i]; | ||
| 24141 | if (smt == u_detail::submetatable_type::named) { | ||
| 24142 | // use .data() to make it treat it like a c string, | ||
| 24143 | // which it is... | ||
| 24144 | stack::set_field<true>(L, gcmetakey.data(), lua_nil); | ||
| 24145 | } | ||
| 24146 | else { | ||
| 24147 | // do not change the values in the registry: they need to be present | ||
| 24148 | // no matter what, for safety's sake | ||
| 24149 | //stack::set_field(L, gcmetakey, lua_nil, registry.stack_index()); | ||
| 24150 | } | ||
| 24151 | } | ||
| 24152 | |||
| 24153 | // destroy all storage and tables | ||
| 24154 | base_storage.clear(); | ||
| 24155 | |||
| 24156 | // 6 strings from gc_names table, | ||
| 24157 | // + 1 registry, | ||
| 24158 | // + 1 gc_names table | ||
| 24159 | // + 1 light userdata of storage | ||
| 24160 | // + 1 registry | ||
| 24161 | // 10 total, 4 left since popping off 6 gc_names tables | ||
| 24162 | lua_settop(L, top); | ||
| 24163 | } | ||
| 24164 | }; | ||
| 24165 | |||
| 24166 | } // namespace sol | ||
| 24167 | |||
| 24168 | // end of sol/metatable.hpp | ||
| 24169 | |||
| 24170 | namespace sol { | ||
| 24171 | |||
| 24172 | template <typename T, typename base_type> | ||
| 24173 | class basic_usertype : private basic_metatable<base_type> { | ||
| 24174 | private: | ||
| 24175 | using base_t = basic_metatable<base_type>; | ||
| 24176 | using table_base_t = basic_table<base_type>; | ||
| 24177 | |||
| 24178 | template <typename> | ||
| 24179 | friend class basic_metatable; | ||
| 24180 | |||
| 24181 | template <bool, typename> | ||
| 24182 | friend class basic_table_core; | ||
| 24183 | |||
| 24184 | template <std::size_t... I, typename... Args> | ||
| 24185 | void tuple_set(std::index_sequence<I...>, std::tuple<Args...>&& args) { | ||
| 24186 | (void)args; | ||
| 24187 | (void)detail::swallow{ 0, | ||
| 24188 | (this->set(std::get<I * 2>(std::move(args)), std::get<I * 2 + 1>(std::move(args))), 0)... }; | ||
| 24189 | } | ||
| 24190 | |||
| 24191 | public: | ||
| 24192 | using base_t::base_t; | ||
| 24193 | |||
| 24194 | using base_t::pop; | ||
| 24195 | using base_t::push; | ||
| 24196 | using base_t::lua_state; | ||
| 24197 | using base_t::get; | ||
| 24198 | using base_t::set_function; | ||
| 24199 | using base_t::traverse_set; | ||
| 24200 | using base_t::traverse_get; | ||
| 24201 | using base_t::unregister; | ||
| 24202 | |||
| 24203 | template <typename Key, typename Value> | ||
| 24204 | void set(Key&& key, Value&& value) { | ||
| 24205 | optional<u_detail::usertype_storage<T>&> maybe_uts = u_detail::maybe_get_usertype_storage<T>(this->lua_state()); | ||
| 24206 | if (maybe_uts) { | ||
| 24207 | u_detail::usertype_storage<T>& uts = *maybe_uts; | ||
| 24208 | uts.set(this->lua_state(), std::forward<Key>(key), std::forward<Value>(value)); | ||
| 24209 | } | ||
| 24210 | else { | ||
| 24211 | using ValueU = meta::unqualified_t<Value>; | ||
| 24212 | // cannot get metatable: try regular table set? | ||
| 24213 | if constexpr (detail::is_non_factory_constructor_v<ValueU> || detail::is_policy_v<ValueU>) { | ||
| 24214 | // tag constructors so we don't get destroyed by lack of info | ||
| 24215 | table_base_t::set(std::forward<Key>(key), detail::tagged<T, Value>(std::forward<Value>(value))); | ||
| 24216 | } | ||
| 24217 | else { | ||
| 24218 | table_base_t::set(std::forward<Key>(key), std::forward<Value>(value)); | ||
| 24219 | } | ||
| 24220 | } | ||
| 24221 | } | ||
| 24222 | |||
| 24223 | template <typename Key> | ||
| 24224 | usertype_proxy<basic_usertype&, std::decay_t<Key>> operator[](Key&& key) { | ||
| 24225 | return usertype_proxy<basic_usertype&, std::decay_t<Key>>(*this, std::forward<Key>(key)); | ||
| 24226 | } | ||
| 24227 | |||
| 24228 | template <typename Key> | ||
| 24229 | usertype_proxy<const basic_usertype&, std::decay_t<Key>> operator[](Key&& key) const { | ||
| 24230 | return usertype_proxy<const basic_usertype&, std::decay_t<Key>>(*this, std::forward<Key>(key)); | ||
| 24231 | } | ||
| 24232 | }; | ||
| 24233 | |||
| 24234 | } // namespace sol | ||
| 24235 | |||
| 24236 | // end of sol/usertype.hpp | ||
| 24237 | |||
| 24238 | // beginning of sol/table.hpp | ||
| 24239 | |||
| 24240 | // beginning of sol/lua_table.hpp | ||
| 24241 | |||
| 24242 | namespace sol { | ||
| 24243 | |||
| 24244 | template <typename ref_t> | ||
| 24245 | struct basic_lua_table : basic_table_core<false, ref_t> { | ||
| 24246 | private: | ||
| 24247 | using base_t = basic_table_core<false, ref_t>; | ||
| 24248 | |||
| 24249 | friend class state; | ||
| 24250 | friend class state_view; | ||
| 24251 | |||
| 24252 | public: | ||
| 24253 | using base_t::lua_state; | ||
| 24254 | |||
| 24255 | basic_lua_table() noexcept = default; | ||
| 24256 | basic_lua_table(const basic_lua_table&) = default; | ||
| 24257 | basic_lua_table(basic_lua_table&&) = default; | ||
| 24258 | basic_lua_table& operator=(const basic_lua_table&) = default; | ||
| 24259 | basic_lua_table& operator=(basic_lua_table&&) = default; | ||
| 24260 | basic_lua_table(const stack_reference& r) : basic_lua_table(r.lua_state(), r.stack_index()) { | ||
| 24261 | } | ||
| 24262 | basic_lua_table(stack_reference&& r) : basic_lua_table(r.lua_state(), r.stack_index()) { | ||
| 24263 | } | ||
| 24264 | template <typename T, meta::enable_any<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24265 | basic_lua_table(lua_State* L, T&& r) : base_t(L, std::forward<T>(r)) { | ||
| 24266 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24267 | auto pp = stack::push_pop(*this); | ||
| 24268 | constructor_handler handler{}; | ||
| 24269 | stack::check<basic_lua_table>(lua_state(), -1, handler); | ||
| 24270 | #endif // Safety | ||
| 24271 | } | ||
| 24272 | basic_lua_table(lua_State* L, const new_table& nt) : base_t(L, nt) { | ||
| 24273 | if (!is_stack_based<meta::unqualified_t<ref_t>>::value) { | ||
| 24274 | lua_pop(L, 1); | ||
| 24275 | } | ||
| 24276 | } | ||
| 24277 | basic_lua_table(lua_State* L, int index = -1) : base_t(detail::no_safety, L, index) { | ||
| 24278 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24279 | constructor_handler handler{}; | ||
| 24280 | stack::check<basic_lua_table>(L, index, handler); | ||
| 24281 | #endif // Safety | ||
| 24282 | } | ||
| 24283 | basic_lua_table(lua_State* L, ref_index index) : base_t(detail::no_safety, L, index) { | ||
| 24284 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24285 | auto pp = stack::push_pop(*this); | ||
| 24286 | constructor_handler handler{}; | ||
| 24287 | stack::check<basic_lua_table>(lua_state(), -1, handler); | ||
| 24288 | #endif // Safety | ||
| 24289 | } | ||
| 24290 | template <typename T, | ||
| 24291 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_lua_table>>, meta::neg<std::is_same<ref_t, stack_reference>>, | ||
| 24292 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24293 | basic_lua_table(T&& r) noexcept : basic_lua_table(detail::no_safety, std::forward<T>(r)) { | ||
| 24294 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24295 | if (!is_table<meta::unqualified_t<T>>::value) { | ||
| 24296 | auto pp = stack::push_pop(*this); | ||
| 24297 | constructor_handler handler{}; | ||
| 24298 | stack::check<basic_lua_table>(lua_state(), -1, handler); | ||
| 24299 | } | ||
| 24300 | #endif // Safety | ||
| 24301 | } | ||
| 24302 | basic_lua_table(lua_nil_t r) noexcept : basic_lua_table(detail::no_safety, r) { | ||
| 24303 | } | ||
| 24304 | }; | ||
| 24305 | |||
| 24306 | } | ||
| 24307 | |||
| 24308 | // end of sol/lua_table.hpp | ||
| 24309 | |||
| 24310 | namespace sol { | ||
| 24311 | typedef table_core<false> table; | ||
| 24312 | |||
| 24313 | template <bool is_global, typename base_type> | ||
| 24314 | template <typename Class, typename Key> | ||
| 24315 | usertype<Class> basic_table_core<is_global, base_type>::new_usertype(Key&& key) { | ||
| 24316 | automagic_enrollments enrollments; | ||
| 24317 | return this->new_usertype<Class>(std::forward<Key>(key), std::move(enrollments)); | ||
| 24318 | } | ||
| 24319 | |||
| 24320 | template <bool is_global, typename base_type> | ||
| 24321 | template <typename Class, typename Key> | ||
| 24322 | usertype<Class> basic_table_core<is_global, base_type>::new_usertype(Key&& key, automagic_enrollments enrollments) { | ||
| 24323 | int mt_index = u_detail::register_usertype<Class>(this->lua_state(), std::move(enrollments)); | ||
| 24324 | usertype<Class> mt(this->lua_state(), -mt_index); | ||
| 24325 | lua_pop(this->lua_state(), 1); | ||
| 24326 | set(std::forward<Key>(key), mt); | ||
| 24327 | return mt; | ||
| 24328 | } | ||
| 24329 | |||
| 24330 | template <bool is_global, typename base_type> | ||
| 24331 | template <typename Class, typename Key, typename Arg, typename... Args, typename> | ||
| 24332 | usertype<Class> basic_table_core<is_global, base_type>::new_usertype(Key&& key, Arg&& arg, Args&&... args) { | ||
| 24333 | automagic_enrollments enrollments; | ||
| 24334 | enrollments.default_constructor = !detail::any_is_constructor_v<Arg, Args...>; | ||
| 24335 | enrollments.destructor = !detail::any_is_destructor_v<Arg, Args...>; | ||
| 24336 | usertype<Class> ut = this->new_usertype<Class>(std::forward<Key>(key), std::move(enrollments)); | ||
| 24337 | static_assert(sizeof...(Args) % 2 == static_cast<std::size_t>(!detail::any_is_constructor_v<Arg>), | ||
| 24338 | "you must pass an even number of arguments to new_usertype after first passing a constructor"); | ||
| 24339 | if constexpr (detail::any_is_constructor_v<Arg>) { | ||
| 24340 | ut.set(meta_function::construct, std::forward<Arg>(arg)); | ||
| 24341 | ut.tuple_set(std::make_index_sequence<(sizeof...(Args)) / 2>(), std::forward_as_tuple(std::forward<Args>(args)...)); | ||
| 24342 | } | ||
| 24343 | else { | ||
| 24344 | ut.tuple_set(std::make_index_sequence<(sizeof...(Args) + 1) / 2>(), std::forward_as_tuple(std::forward<Arg>(arg), std::forward<Args>(args)...)); | ||
| 24345 | } | ||
| 24346 | return ut; | ||
| 24347 | } | ||
| 24348 | |||
| 24349 | template <typename base_type> | ||
| 24350 | template <typename Key, typename Value> | ||
| 24351 | void basic_metatable<base_type>::set(Key&& key, Value&& value) { | ||
| 24352 | this->push(); | ||
| 24353 | lua_State* L = this->lua_state(); | ||
| 24354 | int target = lua_gettop(L); | ||
| 24355 | optional<u_detail::usertype_storage_base&> maybe_uts = u_detail::maybe_get_usertype_storage_base(L, target); | ||
| 24356 | lua_pop(L, 1); | ||
| 24357 | if (maybe_uts) { | ||
| 24358 | u_detail::usertype_storage_base& uts = *maybe_uts; | ||
| 24359 | uts.set(L, std::forward<Key>(key), std::forward<Value>(value)); | ||
| 24360 | } | ||
| 24361 | else { | ||
| 24362 | base_t::set(std::forward<Key>(key), std::forward<Value>(value)); | ||
| 24363 | } | ||
| 24364 | } | ||
| 24365 | |||
| 24366 | namespace stack { | ||
| 24367 | template <> | ||
| 24368 | struct unqualified_getter<metatable_key_t> { | ||
| 24369 | static table get(lua_State* L, int index = -1) { | ||
| 24370 | if (lua_getmetatable(L, index) == 0) { | ||
| 24371 | return table(L, ref_index(LUA_REFNIL)); | ||
| 24372 | } | ||
| 24373 | return table(L, -1); | ||
| 24374 | } | ||
| 24375 | }; | ||
| 24376 | } // namespace stack | ||
| 24377 | } // namespace sol | ||
| 24378 | |||
| 24379 | // end of sol/table.hpp | ||
| 24380 | |||
| 24381 | // beginning of sol/state.hpp | ||
| 24382 | |||
| 24383 | // beginning of sol/state_view.hpp | ||
| 24384 | |||
| 24385 | // beginning of sol/environment.hpp | ||
| 24386 | |||
| 24387 | namespace sol { | ||
| 24388 | |||
| 24389 | template <typename base_type> | ||
| 24390 | struct basic_environment : basic_table<base_type> { | ||
| 24391 | private: | ||
| 24392 | typedef basic_table<base_type> base_t; | ||
| 24393 | |||
| 24394 | public: | ||
| 24395 | using base_t::lua_state; | ||
| 24396 | |||
| 24397 | basic_environment() noexcept = default; | ||
| 24398 | basic_environment(const basic_environment&) = default; | ||
| 24399 | basic_environment(basic_environment&&) = default; | ||
| 24400 | basic_environment& operator=(const basic_environment&) = default; | ||
| 24401 | basic_environment& operator=(basic_environment&&) = default; | ||
| 24402 | basic_environment(const stack_reference& r) : basic_environment(r.lua_state(), r.stack_index()) { | ||
| 24403 | } | ||
| 24404 | basic_environment(stack_reference&& r) : basic_environment(r.lua_state(), r.stack_index()) { | ||
| 24405 | } | ||
| 24406 | |||
| 24407 | basic_environment(lua_State* L, new_table nt) : base_t(L, std::move(nt)) { | ||
| 24408 | } | ||
| 24409 | template <bool b> | ||
| 24410 | basic_environment(lua_State* L, new_table t, const basic_reference<b>& fallback) : basic_environment(L, std::move(t)) { | ||
| 24411 | stack_table mt(L, new_table(0, 1)); | ||
| 24412 | mt.set(meta_function::index, fallback); | ||
| 24413 | this->set(metatable_key, mt); | ||
| 24414 | mt.pop(); | ||
| 24415 | } | ||
| 24416 | |||
| 24417 | basic_environment(env_key_t, const stack_reference& extraction_target) | ||
| 24418 | : base_t(detail::no_safety, extraction_target.lua_state(), (stack::push_environment_of(extraction_target), -1)) { | ||
| 24419 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24420 | constructor_handler handler {}; | ||
| 24421 | stack::check<env_key_t>(this->lua_state(), -1, handler); | ||
| 24422 | #endif // Safety | ||
| 24423 | lua_pop(this->lua_state(), 2); | ||
| 24424 | } | ||
| 24425 | template <bool b> | ||
| 24426 | basic_environment(env_key_t, const basic_reference<b>& extraction_target) | ||
| 24427 | : base_t(detail::no_safety, extraction_target.lua_state(), (stack::push_environment_of(extraction_target), -1)) { | ||
| 24428 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24429 | constructor_handler handler {}; | ||
| 24430 | stack::check<env_key_t>(this->lua_state(), -1, handler); | ||
| 24431 | #endif // Safety | ||
| 24432 | lua_pop(this->lua_state(), 2); | ||
| 24433 | } | ||
| 24434 | basic_environment(lua_State* L, int index = -1) : base_t(detail::no_safety, L, index) { | ||
| 24435 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24436 | constructor_handler handler {}; | ||
| 24437 | stack::check<basic_environment>(L, index, handler); | ||
| 24438 | #endif // Safety | ||
| 24439 | } | ||
| 24440 | basic_environment(lua_State* L, ref_index index) : base_t(detail::no_safety, L, index) { | ||
| 24441 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24442 | auto pp = stack::push_pop(*this); | ||
| 24443 | constructor_handler handler {}; | ||
| 24444 | stack::check<basic_environment>(L, -1, handler); | ||
| 24445 | #endif // Safety | ||
| 24446 | } | ||
| 24447 | template <typename T, | ||
| 24448 | meta::enable<meta::neg<meta::any_same<meta::unqualified_t<T>, basic_environment>>, meta::neg<std::is_same<base_type, stack_reference>>, | ||
| 24449 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24450 | basic_environment(T&& r) noexcept : base_t(detail::no_safety, std::forward<T>(r)) { | ||
| 24451 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24452 | if (!is_environment<meta::unqualified_t<T>>::value) { | ||
| 24453 | auto pp = stack::push_pop(*this); | ||
| 24454 | constructor_handler handler {}; | ||
| 24455 | stack::check<basic_environment>(lua_state(), -1, handler); | ||
| 24456 | } | ||
| 24457 | #endif // Safety | ||
| 24458 | } | ||
| 24459 | basic_environment(lua_nil_t r) noexcept : base_t(detail::no_safety, r) { | ||
| 24460 | } | ||
| 24461 | |||
| 24462 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24463 | basic_environment(lua_State* L, T&& r) noexcept : base_t(detail::no_safety, L, std::forward<T>(r)) { | ||
| 24464 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 24465 | if (!is_environment<meta::unqualified_t<T>>::value) { | ||
| 24466 | auto pp = stack::push_pop(*this); | ||
| 24467 | constructor_handler handler {}; | ||
| 24468 | stack::check<basic_environment>(lua_state(), -1, handler); | ||
| 24469 | } | ||
| 24470 | #endif // Safety | ||
| 24471 | } | ||
| 24472 | |||
| 24473 | template <typename T> | ||
| 24474 | void set_on(const T& target) const { | ||
| 24475 | lua_State* L = target.lua_state(); | ||
| 24476 | auto pp = stack::push_pop(target); | ||
| 24477 | #if SOL_LUA_VESION_I_ < 502 | ||
| 24478 | // Use lua_setfenv | ||
| 24479 | this->push(); | ||
| 24480 | lua_setfenv(L, -2); | ||
| 24481 | #else | ||
| 24482 | // Use upvalues as explained in Lua 5.2 and beyond's manual | ||
| 24483 | this->push(); | ||
| 24484 | const char* name = lua_setupvalue(L, -2, 1); | ||
| 24485 | if (name == nullptr) { | ||
| 24486 | this->pop(); | ||
| 24487 | } | ||
| 24488 | #endif | ||
| 24489 | } | ||
| 24490 | }; | ||
| 24491 | |||
| 24492 | template <typename T, typename E> | ||
| 24493 | void set_environment(const basic_environment<E>& env, const T& target) { | ||
| 24494 | env.set_on(target); | ||
| 24495 | } | ||
| 24496 | |||
| 24497 | template <typename E = reference, typename T> | ||
| 24498 | basic_environment<E> get_environment(const T& target) { | ||
| 24499 | lua_State* L = target.lua_state(); | ||
| 24500 | auto pp = stack::pop_n(L, stack::push_environment_of(target)); | ||
| 24501 | return basic_environment<E>(L, -1); | ||
| 24502 | } | ||
| 24503 | |||
| 24504 | struct this_environment { | ||
| 24505 | optional<environment> env; | ||
| 24506 | |||
| 24507 | this_environment() : env(nullopt) { | ||
| 24508 | } | ||
| 24509 | this_environment(environment e) : env(std::move(e)) { | ||
| 24510 | } | ||
| 24511 | this_environment(const this_environment&) = default; | ||
| 24512 | this_environment(this_environment&&) = default; | ||
| 24513 | this_environment& operator=(const this_environment&) = default; | ||
| 24514 | this_environment& operator=(this_environment&&) = default; | ||
| 24515 | |||
| 24516 | explicit operator bool() const { | ||
| 24517 | return static_cast<bool>(env); | ||
| 24518 | } | ||
| 24519 | |||
| 24520 | operator optional<environment> &() { | ||
| 24521 | return env; | ||
| 24522 | } | ||
| 24523 | |||
| 24524 | operator const optional<environment> &() const { | ||
| 24525 | return env; | ||
| 24526 | } | ||
| 24527 | |||
| 24528 | operator environment&() { | ||
| 24529 | return env.value(); | ||
| 24530 | } | ||
| 24531 | |||
| 24532 | operator const environment&() const { | ||
| 24533 | return env.value(); | ||
| 24534 | } | ||
| 24535 | }; | ||
| 24536 | |||
| 24537 | namespace stack { | ||
| 24538 | template <> | ||
| 24539 | struct unqualified_getter<env_key_t> { | ||
| 24540 | static environment get(lua_State* L, int index, record& tracking) { | ||
| 24541 | tracking.use(1); | ||
| 24542 | return get_environment(stack_reference(L, raw_index(index))); | ||
| 24543 | } | ||
| 24544 | }; | ||
| 24545 | |||
| 24546 | template <> | ||
| 24547 | struct unqualified_getter<this_environment> { | ||
| 24548 | static this_environment get(lua_State* L, int, record& tracking) { | ||
| 24549 | tracking.use(0); | ||
| 24550 | lua_Debug info; | ||
| 24551 | // Level 0 means current function (this C function, which may or may not be useful for us?) | ||
| 24552 | // Level 1 means next call frame up the stack. (Can be nothing if function called directly from C++ with lua_p/call) | ||
| 24553 | int pre_stack_size = lua_gettop(L); | ||
| 24554 | if (lua_getstack(L, 1, &info) != 1) { | ||
| 24555 | if (lua_getstack(L, 0, &info) != 1) { | ||
| 24556 | lua_settop(L, pre_stack_size); | ||
| 24557 | return this_environment(); | ||
| 24558 | } | ||
| 24559 | } | ||
| 24560 | if (lua_getinfo(L, "f", &info) == 0) { | ||
| 24561 | lua_settop(L, pre_stack_size); | ||
| 24562 | return this_environment(); | ||
| 24563 | } | ||
| 24564 | |||
| 24565 | stack_reference f(L, -1); | ||
| 24566 | environment env(env_key, f); | ||
| 24567 | if (!env.valid()) { | ||
| 24568 | lua_settop(L, pre_stack_size); | ||
| 24569 | return this_environment(); | ||
| 24570 | } | ||
| 24571 | return this_environment(std::move(env)); | ||
| 24572 | } | ||
| 24573 | }; | ||
| 24574 | } // namespace stack | ||
| 24575 | } // namespace sol | ||
| 24576 | |||
| 24577 | // end of sol/environment.hpp | ||
| 24578 | |||
| 24579 | // beginning of sol/load_result.hpp | ||
| 24580 | |||
| 24581 | #include <cstdint> | ||
| 24582 | |||
| 24583 | namespace sol { | ||
| 24584 | struct load_result : public proxy_base<load_result> { | ||
| 24585 | private: | ||
| 24586 | lua_State* L; | ||
| 24587 | int index; | ||
| 24588 | int returncount; | ||
| 24589 | int popcount; | ||
| 24590 | load_status err; | ||
| 24591 | |||
| 24592 | public: | ||
| 24593 | load_result() noexcept = default; | ||
| 24594 | load_result(lua_State* Ls, int stackindex = -1, int retnum = 0, int popnum = 0, load_status lerr = load_status::ok) noexcept | ||
| 24595 | : L(Ls), index(stackindex), returncount(retnum), popcount(popnum), err(lerr) { | ||
| 24596 | } | ||
| 24597 | |||
| 24598 | // We do not want anyone to copy these around willy-nilly | ||
| 24599 | // Will likely break people, but also will probably get rid of quiet bugs that have | ||
| 24600 | // been lurking. (E.g., Vanilla Lua will just quietly discard over-pops and under-pops: | ||
| 24601 | // LuaJIT and other Lua engines will implode and segfault at random later times.) | ||
| 24602 | load_result(const load_result&) = delete; | ||
| 24603 | load_result& operator=(const load_result&) = delete; | ||
| 24604 | |||
| 24605 | load_result(load_result&& o) noexcept : L(o.L), index(o.index), returncount(o.returncount), popcount(o.popcount), err(o.err) { | ||
| 24606 | // Must be manual, otherwise destructor will screw us | ||
| 24607 | // return count being 0 is enough to keep things clean | ||
| 24608 | // but we will be thorough | ||
| 24609 | o.L = nullptr; | ||
| 24610 | o.index = 0; | ||
| 24611 | o.returncount = 0; | ||
| 24612 | o.popcount = 0; | ||
| 24613 | o.err = load_status::syntax; | ||
| 24614 | } | ||
| 24615 | load_result& operator=(load_result&& o) noexcept { | ||
| 24616 | L = o.L; | ||
| 24617 | index = o.index; | ||
| 24618 | returncount = o.returncount; | ||
| 24619 | popcount = o.popcount; | ||
| 24620 | err = o.err; | ||
| 24621 | // Must be manual, otherwise destructor will screw us | ||
| 24622 | // return count being 0 is enough to keep things clean | ||
| 24623 | // but we will be thorough | ||
| 24624 | o.L = nullptr; | ||
| 24625 | o.index = 0; | ||
| 24626 | o.returncount = 0; | ||
| 24627 | o.popcount = 0; | ||
| 24628 | o.err = load_status::syntax; | ||
| 24629 | return *this; | ||
| 24630 | } | ||
| 24631 | |||
| 24632 | load_status status() const noexcept { | ||
| 24633 | return err; | ||
| 24634 | } | ||
| 24635 | |||
| 24636 | bool valid() const noexcept { | ||
| 24637 | return status() == load_status::ok; | ||
| 24638 | } | ||
| 24639 | |||
| 24640 | template <typename T> | ||
| 24641 | T get() const { | ||
| 24642 | using UT = meta::unqualified_t<T>; | ||
| 24643 | if constexpr (meta::is_optional_v<UT>) { | ||
| 24644 | using ValueType = typename UT::value_type; | ||
| 24645 | if constexpr (std::is_same_v<ValueType, error>) { | ||
| 24646 | if (valid()) { | ||
| 24647 | return UT(nullopt); | ||
| 24648 | } | ||
| 24649 | return error(detail::direct_error, stack::get<std::string>(L, index)); | ||
| 24650 | } | ||
| 24651 | else { | ||
| 24652 | if (!valid()) { | ||
| 24653 | return UT(nullopt); | ||
| 24654 | } | ||
| 24655 | return stack::get<UT>(L, index); | ||
| 24656 | } | ||
| 24657 | } | ||
| 24658 | else { | ||
| 24659 | if constexpr (std::is_same_v<T, error>) { | ||
| 24660 | #if SOL_IS_ON(SOL_SAFE_PROXIES_I_) | ||
| 24661 | if (valid()) { | ||
| 24662 | type_panic_c_str(L, index, type_of(L, index), type::none, "expecting an error type (a string, from Lua)"); | ||
| 24663 | } | ||
| 24664 | #endif // Check proxy type's safety | ||
| 24665 | return error(detail::direct_error, stack::get<std::string>(L, index)); | ||
| 24666 | } | ||
| 24667 | else { | ||
| 24668 | #if SOL_IS_ON(SOL_SAFE_PROXIES_I_) | ||
| 24669 | if (!valid()) { | ||
| 24670 | type_panic_c_str(L, index, type_of(L, index), type::none); | ||
| 24671 | } | ||
| 24672 | #endif // Check proxy type's safety | ||
| 24673 | return stack::get<T>(L, index); | ||
| 24674 | } | ||
| 24675 | } | ||
| 24676 | } | ||
| 24677 | |||
| 24678 | template <typename... Ret, typename... Args> | ||
| 24679 | decltype(auto) call(Args&&... args) { | ||
| 24680 | #if !defined(__clang__) && defined(_MSC_FULL_VER) && _MSC_FULL_VER >= 191200000 | ||
| 24681 | // MSVC is ass sometimes | ||
| 24682 | return get<protected_function>().call<Ret...>(std::forward<Args>(args)...); | ||
| 24683 | #else | ||
| 24684 | return get<protected_function>().template call<Ret...>(std::forward<Args>(args)...); | ||
| 24685 | #endif | ||
| 24686 | } | ||
| 24687 | |||
| 24688 | template <typename... Args> | ||
| 24689 | decltype(auto) operator()(Args&&... args) { | ||
| 24690 | return call<>(std::forward<Args>(args)...); | ||
| 24691 | } | ||
| 24692 | |||
| 24693 | lua_State* lua_state() const noexcept { | ||
| 24694 | return L; | ||
| 24695 | }; | ||
| 24696 | int stack_index() const noexcept { | ||
| 24697 | return index; | ||
| 24698 | }; | ||
| 24699 | |||
| 24700 | ~load_result() { | ||
| 24701 | stack::remove(L, index, popcount); | ||
| 24702 | } | ||
| 24703 | }; | ||
| 24704 | } // namespace sol | ||
| 24705 | |||
| 24706 | // end of sol/load_result.hpp | ||
| 24707 | |||
| 24708 | // beginning of sol/state_handling.hpp | ||
| 24709 | |||
| 24710 | // beginning of sol/lua_value.hpp | ||
| 24711 | |||
| 24712 | namespace sol { | ||
| 24713 | struct lua_value { | ||
| 24714 | public: | ||
| 24715 | struct arr : detail::ebco<std::initializer_list<lua_value>> { | ||
| 24716 | private: | ||
| 24717 | using base_t = detail::ebco<std::initializer_list<lua_value>>; | ||
| 24718 | |||
| 24719 | public: | ||
| 24720 | using base_t::base_t; | ||
| 24721 | }; | ||
| 24722 | |||
| 24723 | private: | ||
| 24724 | template <typename T> | ||
| 24725 | using is_reference_or_lua_value_init_list | ||
| 24726 | = meta::any<meta::is_specialization_of<T, std::initializer_list>, std::is_same<T, reference>, std::is_same<T, arr>>; | ||
| 24727 | |||
| 24728 | template <typename T> | ||
| 24729 | using is_lua_value_single_constructible = meta::any<std::is_same<T, lua_value>, is_reference_or_lua_value_init_list<T>>; | ||
| 24730 | |||
| 24731 | static lua_State*& thread_local_lua_state() { | ||
| 24732 | #if SOL_IS_ON(SOL_USE_THREAD_LOCAL_I_) | ||
| 24733 | static thread_local lua_State* L = nullptr; | ||
| 24734 | #else | ||
| 24735 | static lua_State* L = nullptr; | ||
| 24736 | #endif | ||
| 24737 | return L; | ||
| 24738 | } | ||
| 24739 | |||
| 24740 | reference ref_value; | ||
| 24741 | |||
| 24742 | public: | ||
| 24743 | static void set_lua_state(lua_State* L) { | ||
| 24744 | thread_local_lua_state() = L; | ||
| 24745 | } | ||
| 24746 | |||
| 24747 | template <typename T, meta::disable<is_reference_or_lua_value_init_list<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24748 | lua_value(lua_State* L_, T&& value) : lua_value(((set_lua_state(L_)), std::forward<T>(value))) { | ||
| 24749 | } | ||
| 24750 | |||
| 24751 | template <typename T, meta::disable<is_lua_value_single_constructible<meta::unqualified_t<T>>> = meta::enabler> | ||
| 24752 | lua_value(T&& value) : ref_value(make_reference(thread_local_lua_state(), std::forward<T>(value))) { | ||
| 24753 | } | ||
| 24754 | |||
| 24755 | lua_value(lua_State* L_, std::initializer_list<std::pair<lua_value, lua_value>> il) | ||
| 24756 | : lua_value([&L_, &il]() { | ||
| 24757 | set_lua_state(L_); | ||
| 24758 | return std::move(il); | ||
| 24759 | }()) { | ||
| 24760 | } | ||
| 24761 | |||
| 24762 | lua_value(std::initializer_list<std::pair<lua_value, lua_value>> il) : ref_value(make_reference(thread_local_lua_state(), std::move(il))) { | ||
| 24763 | } | ||
| 24764 | |||
| 24765 | lua_value(lua_State* L_, arr il) | ||
| 24766 | : lua_value([&L_, &il]() { | ||
| 24767 | set_lua_state(L_); | ||
| 24768 | return std::move(il); | ||
| 24769 | }()) { | ||
| 24770 | } | ||
| 24771 | |||
| 24772 | lua_value(arr il) : ref_value(make_reference(thread_local_lua_state(), std::move(il.value()))) { | ||
| 24773 | } | ||
| 24774 | |||
| 24775 | lua_value(lua_State* L_, reference r) | ||
| 24776 | : lua_value([&L_, &r]() { | ||
| 24777 | set_lua_state(L_); | ||
| 24778 | return std::move(r); | ||
| 24779 | }()) { | ||
| 24780 | } | ||
| 24781 | |||
| 24782 | lua_value(reference r) : ref_value(std::move(r)) { | ||
| 24783 | } | ||
| 24784 | |||
| 24785 | lua_value(const lua_value&) noexcept = default; | ||
| 24786 | lua_value(lua_value&&) = default; | ||
| 24787 | lua_value& operator=(const lua_value&) = default; | ||
| 24788 | lua_value& operator=(lua_value&&) = default; | ||
| 24789 | |||
| 24790 | const reference& value() const& { | ||
| 24791 | return ref_value; | ||
| 24792 | } | ||
| 24793 | |||
| 24794 | reference& value() & { | ||
| 24795 | return ref_value; | ||
| 24796 | } | ||
| 24797 | |||
| 24798 | reference&& value() && { | ||
| 24799 | return std::move(ref_value); | ||
| 24800 | } | ||
| 24801 | |||
| 24802 | template <typename T> | ||
| 24803 | decltype(auto) as() const { | ||
| 24804 | ref_value.push(); | ||
| 24805 | return stack::pop<T>(ref_value.lua_state()); | ||
| 24806 | } | ||
| 24807 | |||
| 24808 | template <typename T> | ||
| 24809 | bool is() const { | ||
| 24810 | int r = ref_value.registry_index(); | ||
| 24811 | if (r == LUA_REFNIL) | ||
| 24812 | return meta::any_same<meta::unqualified_t<T>, lua_nil_t, nullopt_t, std::nullptr_t>::value ? true : false; | ||
| 24813 | if (r == LUA_NOREF) | ||
| 24814 | return false; | ||
| 24815 | auto pp = stack::push_pop(ref_value); | ||
| 24816 | return stack::check<T>(ref_value.lua_state(), -1, no_panic); | ||
| 24817 | } | ||
| 24818 | }; | ||
| 24819 | |||
| 24820 | using array_value = typename lua_value::arr; | ||
| 24821 | |||
| 24822 | namespace stack { | ||
| 24823 | template <> | ||
| 24824 | struct unqualified_pusher<lua_value> { | ||
| 24825 | static int push(lua_State* L, const lua_value& lv) { | ||
| 24826 | return stack::push(L, lv.value()); | ||
| 24827 | } | ||
| 24828 | |||
| 24829 | static int push(lua_State* L, lua_value&& lv) { | ||
| 24830 | return stack::push(L, std::move(lv).value()); | ||
| 24831 | } | ||
| 24832 | }; | ||
| 24833 | |||
| 24834 | template <> | ||
| 24835 | struct unqualified_getter<lua_value> { | ||
| 24836 | static lua_value get(lua_State* L, int index, record& tracking) { | ||
| 24837 | return lua_value(L, stack::get<reference>(L, index, tracking)); | ||
| 24838 | } | ||
| 24839 | }; | ||
| 24840 | } // namespace stack | ||
| 24841 | } // namespace sol | ||
| 24842 | |||
| 24843 | // end of sol/lua_value.hpp | ||
| 24844 | |||
| 24845 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 24846 | #include <iostream> | ||
| 24847 | #endif | ||
| 24848 | |||
| 24849 | namespace sol { | ||
| 24850 | inline void register_main_thread(lua_State* L) { | ||
| 24851 | #if SOL_LUA_VESION_I_ < 502 | ||
| 24852 | if (L == nullptr) { | ||
| 24853 | lua_pushnil(L); | ||
| 24854 | lua_setglobal(L, detail::default_main_thread_name()); | ||
| 24855 | return; | ||
| 24856 | } | ||
| 24857 | lua_pushthread(L); | ||
| 24858 | lua_setglobal(L, detail::default_main_thread_name()); | ||
| 24859 | #else | ||
| 24860 | (void)L; | ||
| 24861 | #endif | ||
| 24862 | } | ||
| 24863 | |||
| 24864 | inline int default_at_panic(lua_State* L) { | ||
| 24865 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 24866 | (void)L; | ||
| 24867 | return -1; | ||
| 24868 | #else | ||
| 24869 | size_t messagesize; | ||
| 24870 | const char* message = lua_tolstring(L, -1, &messagesize); | ||
| 24871 | if (message) { | ||
| 24872 | std::string err(message, messagesize); | ||
| 24873 | lua_settop(L, 0); | ||
| 24874 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 24875 | std::cerr << "[sol3] An error occurred and panic has been invoked: "; | ||
| 24876 | std::cerr << err; | ||
| 24877 | std::cerr << std::endl; | ||
| 24878 | #endif | ||
| 24879 | throw error(err); | ||
| 24880 | } | ||
| 24881 | lua_settop(L, 0); | ||
| 24882 | throw error(std::string("An unexpected error occurred and panic has been invoked")); | ||
| 24883 | #endif // Printing Errors | ||
| 24884 | } | ||
| 24885 | |||
| 24886 | inline int default_traceback_error_handler(lua_State* L) { | ||
| 24887 | std::string msg = "An unknown error has triggered the default error handler"; | ||
| 24888 | optional<string_view> maybetopmsg = stack::unqualified_check_get<string_view>(L, 1, no_panic); | ||
| 24889 | if (maybetopmsg) { | ||
| 24890 | const string_view& topmsg = maybetopmsg.value(); | ||
| 24891 | msg.assign(topmsg.data(), topmsg.size()); | ||
| 24892 | } | ||
| 24893 | luaL_traceback(L, L, msg.c_str(), 1); | ||
| 24894 | optional<string_view> maybetraceback = stack::unqualified_check_get<string_view>(L, -1, no_panic); | ||
| 24895 | if (maybetraceback) { | ||
| 24896 | const string_view& traceback = maybetraceback.value(); | ||
| 24897 | msg.assign(traceback.data(), traceback.size()); | ||
| 24898 | } | ||
| 24899 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 24900 | // std::cerr << "[sol3] An error occurred and was caught in traceback: "; | ||
| 24901 | // std::cerr << msg; | ||
| 24902 | // std::cerr << std::endl; | ||
| 24903 | #endif // Printing | ||
| 24904 | return stack::push(L, msg); | ||
| 24905 | } | ||
| 24906 | |||
| 24907 | inline void set_default_state(lua_State* L, lua_CFunction panic_function = &default_at_panic, | ||
| 24908 | lua_CFunction traceback_function = c_call<decltype(&default_traceback_error_handler), &default_traceback_error_handler>, | ||
| 24909 | exception_handler_function exf = detail::default_exception_handler) { | ||
| 24910 | lua_atpanic(L, panic_function); | ||
| 24911 | protected_function::set_default_handler(object(L, in_place, traceback_function)); | ||
| 24912 | set_default_exception_handler(L, exf); | ||
| 24913 | register_main_thread(L); | ||
| 24914 | stack::luajit_exception_handler(L); | ||
| 24915 | lua_value::set_lua_state(L); | ||
| 24916 | } | ||
| 24917 | |||
| 24918 | inline std::size_t total_memory_used(lua_State* L) { | ||
| 24919 | std::size_t kb = lua_gc(L, LUA_GCCOUNT, 0); | ||
| 24920 | kb *= 1024; | ||
| 24921 | kb += lua_gc(L, LUA_GCCOUNTB, 0); | ||
| 24922 | return kb; | ||
| 24923 | } | ||
| 24924 | |||
| 24925 | inline protected_function_result script_pass_on_error(lua_State*, protected_function_result result) { | ||
| 24926 | return result; | ||
| 24927 | } | ||
| 24928 | |||
| 24929 | inline protected_function_result script_throw_on_error(lua_State* L, protected_function_result result) { | ||
| 24930 | type t = type_of(L, result.stack_index()); | ||
| 24931 | std::string err = "sol: "; | ||
| 24932 | err += to_string(result.status()); | ||
| 24933 | err += " error"; | ||
| 24934 | #if SOL_IS_ON(SOL_EXCEPTIONS_I_) | ||
| 24935 | std::exception_ptr eptr = std::current_exception(); | ||
| 24936 | if (eptr) { | ||
| 24937 | err += " with a "; | ||
| 24938 | try { | ||
| 24939 | std::rethrow_exception(eptr); | ||
| 24940 | } | ||
| 24941 | catch (const std::exception& ex) { | ||
| 24942 | err += "std::exception -- "; | ||
| 24943 | err.append(ex.what()); | ||
| 24944 | } | ||
| 24945 | catch (const std::string& message) { | ||
| 24946 | err += "thrown message -- "; | ||
| 24947 | err.append(message); | ||
| 24948 | } | ||
| 24949 | catch (const char* message) { | ||
| 24950 | err += "thrown message -- "; | ||
| 24951 | err.append(message); | ||
| 24952 | } | ||
| 24953 | catch (...) { | ||
| 24954 | err.append("thrown but unknown type, cannot serialize into error message"); | ||
| 24955 | } | ||
| 24956 | } | ||
| 24957 | #endif // serialize exception information if possible | ||
| 24958 | if (t == type::string) { | ||
| 24959 | err += ": "; | ||
| 24960 | string_view serr = stack::unqualified_get<string_view>(L, result.stack_index()); | ||
| 24961 | err.append(serr.data(), serr.size()); | ||
| 24962 | } | ||
| 24963 | #if SOL_IS_ON(SOL_PRINT_ERRORS_I_) | ||
| 24964 | std::cerr << "[sol3] An error occurred and has been passed to an error handler: "; | ||
| 24965 | std::cerr << err; | ||
| 24966 | std::cerr << std::endl; | ||
| 24967 | #endif | ||
| 24968 | // replacing information of stack error into pfr | ||
| 24969 | int target = result.stack_index(); | ||
| 24970 | if (result.pop_count() > 0) { | ||
| 24971 | stack::remove(L, target, result.pop_count()); | ||
| 24972 | } | ||
| 24973 | stack::push(L, err); | ||
| 24974 | int top = lua_gettop(L); | ||
| 24975 | int towards = top - target; | ||
| 24976 | if (towards != 0) { | ||
| 24977 | lua_rotate(L, top, towards); | ||
| 24978 | } | ||
| 24979 | #if SOL_IS_OFF(SOL_EXCEPTIONS_I_) | ||
| 24980 | return result; | ||
| 24981 | #else | ||
| 24982 | // just throw our error | ||
| 24983 | throw error(detail::direct_error, err); | ||
| 24984 | #endif // If exceptions are allowed | ||
| 24985 | } | ||
| 24986 | |||
| 24987 | inline protected_function_result script_default_on_error(lua_State* L, protected_function_result pfr) { | ||
| 24988 | #if SOL_IS_ON(SOL_DEFAULT_PASS_ON_ERROR_I_) | ||
| 24989 | return script_pass_on_error(L, std::move(pfr)); | ||
| 24990 | #else | ||
| 24991 | return script_throw_on_error(L, std::move(pfr)); | ||
| 24992 | #endif | ||
| 24993 | } | ||
| 24994 | |||
| 24995 | namespace stack { | ||
| 24996 | inline error get_traceback_or_errors(lua_State* L) { | ||
| 24997 | int p = default_traceback_error_handler(L); | ||
| 24998 | sol::error err = stack::get<sol::error>(L, -p); | ||
| 24999 | lua_pop(L, p); | ||
| 25000 | return err; | ||
| 25001 | } | ||
| 25002 | } // namespace stack | ||
| 25003 | } // namespace sol | ||
| 25004 | |||
| 25005 | // end of sol/state_handling.hpp | ||
| 25006 | |||
| 25007 | #include <memory> | ||
| 25008 | #include <cstddef> | ||
| 25009 | |||
| 25010 | namespace sol { | ||
| 25011 | |||
| 25012 | class state_view { | ||
| 25013 | private: | ||
| 25014 | lua_State* L; | ||
| 25015 | table reg; | ||
| 25016 | global_table global; | ||
| 25017 | |||
| 25018 | optional<object> is_loaded_package(const std::string& key) { | ||
| 25019 | auto loaded = reg.traverse_get<optional<object>>("_LOADED", key); | ||
| 25020 | bool is53mod = loaded && !(loaded->is<bool>() && !loaded->as<bool>()); | ||
| 25021 | if (is53mod) | ||
| 25022 | return loaded; | ||
| 25023 | #if SOL_LUA_VESION_I_ <= 501 | ||
| 25024 | auto loaded51 = global.traverse_get<optional<object>>("package", "loaded", key); | ||
| 25025 | bool is51mod = loaded51 && !(loaded51->is<bool>() && !loaded51->as<bool>()); | ||
| 25026 | if (is51mod) | ||
| 25027 | return loaded51; | ||
| 25028 | #endif | ||
| 25029 | return nullopt; | ||
| 25030 | } | ||
| 25031 | |||
| 25032 | template <typename T> | ||
| 25033 | void ensure_package(const std::string& key, T&& sr) { | ||
| 25034 | #if SOL_LUA_VESION_I_ <= 501 | ||
| 25035 | auto pkg = global["package"]; | ||
| 25036 | if (!pkg.valid()) { | ||
| 25037 | pkg = create_table_with("loaded", create_table_with(key, sr)); | ||
| 25038 | } | ||
| 25039 | else { | ||
| 25040 | auto ld = pkg["loaded"]; | ||
| 25041 | if (!ld.valid()) { | ||
| 25042 | ld = create_table_with(key, sr); | ||
| 25043 | } | ||
| 25044 | else { | ||
| 25045 | ld[key] = sr; | ||
| 25046 | } | ||
| 25047 | } | ||
| 25048 | #endif | ||
| 25049 | auto loaded = reg["_LOADED"]; | ||
| 25050 | if (!loaded.valid()) { | ||
| 25051 | loaded = create_table_with(key, sr); | ||
| 25052 | } | ||
| 25053 | else { | ||
| 25054 | loaded[key] = sr; | ||
| 25055 | } | ||
| 25056 | } | ||
| 25057 | |||
| 25058 | template <typename Fx> | ||
| 25059 | object require_core(const std::string& key, Fx&& action, bool create_global = true) { | ||
| 25060 | optional<object> loaded = is_loaded_package(key); | ||
| 25061 | if (loaded && loaded->valid()) | ||
| 25062 | return std::move(*loaded); | ||
| 25063 | action(); | ||
| 25064 | stack_reference sr(L, -1); | ||
| 25065 | if (create_global) | ||
| 25066 | set(key, sr); | ||
| 25067 | ensure_package(key, sr); | ||
| 25068 | return stack::pop<object>(L); | ||
| 25069 | } | ||
| 25070 | |||
| 25071 | public: | ||
| 25072 | using iterator = typename global_table::iterator; | ||
| 25073 | using const_iterator = typename global_table::const_iterator; | ||
| 25074 | |||
| 25075 | state_view(lua_State* Ls) : L(Ls), reg(Ls, LUA_REGISTRYINDEX), global(Ls, detail::global_) { | ||
| 25076 | } | ||
| 25077 | |||
| 25078 | state_view(this_state Ls) : state_view(Ls.L) { | ||
| 25079 | } | ||
| 25080 | |||
| 25081 | lua_State* lua_state() const { | ||
| 25082 | return L; | ||
| 25083 | } | ||
| 25084 | |||
| 25085 | template <typename... Args> | ||
| 25086 | void open_libraries(Args&&... args) { | ||
| 25087 | static_assert(meta::all_same<lib, meta::unqualified_t<Args>...>::value, "all types must be libraries"); | ||
| 25088 | if constexpr (sizeof...(args) == 0) { | ||
| 25089 | luaL_openlibs(L); | ||
| 25090 | return; | ||
| 25091 | } | ||
| 25092 | else { | ||
| 25093 | lib libraries[1 + sizeof...(args)] = { lib::count, std::forward<Args>(args)... }; | ||
| 25094 | |||
| 25095 | for (auto&& library : libraries) { | ||
| 25096 | switch (library) { | ||
| 25097 | #if SOL_LUA_VESION_I_ <= 501 && defined(SOL_LUAJIT) | ||
| 25098 | case lib::coroutine: | ||
| 25099 | #endif // luajit opens coroutine base stuff | ||
| 25100 | case lib::base: | ||
| 25101 | luaL_requiref(L, "base", luaopen_base, 1); | ||
| 25102 | lua_pop(L, 1); | ||
| 25103 | break; | ||
| 25104 | case lib::package: | ||
| 25105 | luaL_requiref(L, "package", luaopen_package, 1); | ||
| 25106 | lua_pop(L, 1); | ||
| 25107 | break; | ||
| 25108 | #if !defined(SOL_LUAJIT) | ||
| 25109 | case lib::coroutine: | ||
| 25110 | #if SOL_LUA_VESION_I_ > 501 | ||
| 25111 | luaL_requiref(L, "coroutine", luaopen_coroutine, 1); | ||
| 25112 | lua_pop(L, 1); | ||
| 25113 | #endif // Lua 5.2+ only | ||
| 25114 | break; | ||
| 25115 | #endif // Not LuaJIT - comes builtin | ||
| 25116 | case lib::string: | ||
| 25117 | luaL_requiref(L, "string", luaopen_string, 1); | ||
| 25118 | lua_pop(L, 1); | ||
| 25119 | break; | ||
| 25120 | case lib::table: | ||
| 25121 | luaL_requiref(L, "table", luaopen_table, 1); | ||
| 25122 | lua_pop(L, 1); | ||
| 25123 | break; | ||
| 25124 | case lib::math: | ||
| 25125 | luaL_requiref(L, "math", luaopen_math, 1); | ||
| 25126 | lua_pop(L, 1); | ||
| 25127 | break; | ||
| 25128 | case lib::bit32: | ||
| 25129 | #ifdef SOL_LUAJIT | ||
| 25130 | luaL_requiref(L, "bit32", luaopen_bit, 1); | ||
| 25131 | lua_pop(L, 1); | ||
| 25132 | #elif (SOL_LUA_VESION_I_ == 502) || defined(LUA_COMPAT_BITLIB) || defined(LUA_COMPAT_5_2) | ||
| 25133 | luaL_requiref(L, "bit32", luaopen_bit32, 1); | ||
| 25134 | lua_pop(L, 1); | ||
| 25135 | #else | ||
| 25136 | #endif // Lua 5.2 only (deprecated in 5.3 (503)) (Can be turned on with Compat flags) | ||
| 25137 | break; | ||
| 25138 | case lib::io: | ||
| 25139 | luaL_requiref(L, "io", luaopen_io, 1); | ||
| 25140 | lua_pop(L, 1); | ||
| 25141 | break; | ||
| 25142 | case lib::os: | ||
| 25143 | luaL_requiref(L, "os", luaopen_os, 1); | ||
| 25144 | lua_pop(L, 1); | ||
| 25145 | break; | ||
| 25146 | case lib::debug: | ||
| 25147 | luaL_requiref(L, "debug", luaopen_debug, 1); | ||
| 25148 | lua_pop(L, 1); | ||
| 25149 | break; | ||
| 25150 | case lib::utf8: | ||
| 25151 | #if SOL_LUA_VESION_I_ > 502 && !defined(SOL_LUAJIT) | ||
| 25152 | luaL_requiref(L, "utf8", luaopen_utf8, 1); | ||
| 25153 | lua_pop(L, 1); | ||
| 25154 | #endif // Lua 5.3+ only | ||
| 25155 | break; | ||
| 25156 | case lib::ffi: | ||
| 25157 | #ifdef SOL_LUAJIT | ||
| 25158 | luaL_requiref(L, "ffi", luaopen_ffi, 1); | ||
| 25159 | lua_pop(L, 1); | ||
| 25160 | #endif // LuaJIT only | ||
| 25161 | break; | ||
| 25162 | case lib::jit: | ||
| 25163 | #ifdef SOL_LUAJIT | ||
| 25164 | luaL_requiref(L, "jit", luaopen_jit, 0); | ||
| 25165 | lua_pop(L, 1); | ||
| 25166 | #endif // LuaJIT Only | ||
| 25167 | break; | ||
| 25168 | case lib::count: | ||
| 25169 | default: | ||
| 25170 | break; | ||
| 25171 | } | ||
| 25172 | } | ||
| 25173 | } | ||
| 25174 | } | ||
| 25175 | |||
| 25176 | object require(const std::string& key, lua_CFunction open_function, bool create_global = true) { | ||
| 25177 | luaL_requiref(L, key.c_str(), open_function, create_global ? 1 : 0); | ||
| 25178 | return stack::pop<object>(L); | ||
| 25179 | } | ||
| 25180 | |||
| 25181 | object require_script(const std::string& key, const string_view& code, bool create_global = true, | ||
| 25182 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25183 | auto action = [this, &code, &chunkname, &mode]() { stack::script(L, code, chunkname, mode); }; | ||
| 25184 | return require_core(key, action, create_global); | ||
| 25185 | } | ||
| 25186 | |||
| 25187 | object require_file(const std::string& key, const std::string& filename, bool create_global = true, load_mode mode = load_mode::any) { | ||
| 25188 | auto action = [this, &filename, &mode]() { stack::script_file(L, filename, mode); }; | ||
| 25189 | return require_core(key, action, create_global); | ||
| 25190 | } | ||
| 25191 | |||
| 25192 | void clear_package_loaders() { | ||
| 25193 | optional<table> maybe_package = this->global["package"]; | ||
| 25194 | if (!maybe_package) { | ||
| 25195 | // package lib wasn't opened | ||
| 25196 | // open package lib | ||
| 25197 | return; | ||
| 25198 | } | ||
| 25199 | table& package = *maybe_package; | ||
| 25200 | // yay for version differences... | ||
| 25201 | // one day Lua 5.1 will die a peaceful death | ||
| 25202 | // and its old bones will find blissful rest | ||
| 25203 | auto loaders_proxy = package | ||
| 25204 | #if SOL_LUA_VESION_I_ < 502 | ||
| 25205 | ["loaders"] | ||
| 25206 | #else | ||
| 25207 | ["searchers"] | ||
| 25208 | #endif | ||
| 25209 | ; | ||
| 25210 | if (!loaders_proxy.valid()) { | ||
| 25211 | // nothing to clear | ||
| 25212 | return; | ||
| 25213 | } | ||
| 25214 | // we need to create the table for loaders | ||
| 25215 | // table does not exist, so create and move forward | ||
| 25216 | loaders_proxy = new_table(1, 0); | ||
| 25217 | } | ||
| 25218 | |||
| 25219 | template <typename Fx> | ||
| 25220 | void add_package_loader(Fx&& fx, bool clear_all_package_loaders = false) { | ||
| 25221 | optional<table> maybe_package = this->global["package"]; | ||
| 25222 | if (!maybe_package) { | ||
| 25223 | // package lib wasn't opened | ||
| 25224 | // open package lib | ||
| 25225 | return; | ||
| 25226 | } | ||
| 25227 | table& package = *maybe_package; | ||
| 25228 | // yay for version differences... | ||
| 25229 | // one day Lua 5.1 will die a peaceful death | ||
| 25230 | // and its old bones will find blissful rest | ||
| 25231 | auto loaders_proxy = package | ||
| 25232 | #if SOL_LUA_VESION_I_ < 502 | ||
| 25233 | ["loaders"] | ||
| 25234 | #else | ||
| 25235 | ["searchers"] | ||
| 25236 | #endif | ||
| 25237 | ; | ||
| 25238 | bool make_new_table = clear_all_package_loaders || !loaders_proxy.valid(); | ||
| 25239 | if (make_new_table) { | ||
| 25240 | // we need to create the table for loaders | ||
| 25241 | // table does not exist, so create and move forward | ||
| 25242 | loaders_proxy = new_table(1, 0); | ||
| 25243 | } | ||
| 25244 | optional<table> maybe_loaders = loaders_proxy; | ||
| 25245 | if (!maybe_loaders) { | ||
| 25246 | // loaders/searches | ||
| 25247 | // thing exists in package, but it | ||
| 25248 | // ain't a table or a table-alike...! | ||
| 25249 | return; | ||
| 25250 | } | ||
| 25251 | table loaders = loaders_proxy; | ||
| 25252 | loaders.add(std::forward<Fx>(fx)); | ||
| 25253 | } | ||
| 25254 | |||
| 25255 | template <typename E> | ||
| 25256 | protected_function_result do_reader(lua_Reader reader, void* data, const basic_environment<E>& env, | ||
| 25257 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25258 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25259 | const char* chunknametarget = detail::make_chunk_name("lua_Reader", chunkname, basechunkname); | ||
| 25260 | load_status x = static_cast<load_status>(lua_load(L, reader, data, chunknametarget, to_string(mode).c_str())); | ||
| 25261 | if (x != load_status::ok) { | ||
| 25262 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25263 | } | ||
| 25264 | stack_aligned_protected_function pf(L, -1); | ||
| 25265 | set_environment(env, pf); | ||
| 25266 | return pf(); | ||
| 25267 | } | ||
| 25268 | |||
| 25269 | protected_function_result do_reader( | ||
| 25270 | lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25271 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25272 | const char* chunknametarget = detail::make_chunk_name("lua_Reader", chunkname, basechunkname); | ||
| 25273 | load_status x = static_cast<load_status>(lua_load(L, reader, data, chunknametarget, to_string(mode).c_str())); | ||
| 25274 | if (x != load_status::ok) { | ||
| 25275 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25276 | } | ||
| 25277 | stack_aligned_protected_function pf(L, -1); | ||
| 25278 | return pf(); | ||
| 25279 | } | ||
| 25280 | |||
| 25281 | template <typename E> | ||
| 25282 | protected_function_result do_string(const string_view& code, const basic_environment<E>& env, | ||
| 25283 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25284 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25285 | const char* chunknametarget = detail::make_chunk_name(code, chunkname, basechunkname); | ||
| 25286 | load_status x = static_cast<load_status>(luaL_loadbufferx(L, code.data(), code.size(), chunknametarget, to_string(mode).c_str())); | ||
| 25287 | if (x != load_status::ok) { | ||
| 25288 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25289 | } | ||
| 25290 | stack_aligned_protected_function pf(L, -1); | ||
| 25291 | set_environment(env, pf); | ||
| 25292 | return pf(); | ||
| 25293 | } | ||
| 25294 | |||
| 25295 | protected_function_result do_string( | ||
| 25296 | const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25297 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25298 | const char* chunknametarget = detail::make_chunk_name(code, chunkname, basechunkname); | ||
| 25299 | load_status x = static_cast<load_status>(luaL_loadbufferx(L, code.data(), code.size(), chunknametarget, to_string(mode).c_str())); | ||
| 25300 | if (x != load_status::ok) { | ||
| 25301 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25302 | } | ||
| 25303 | stack_aligned_protected_function pf(L, -1); | ||
| 25304 | return pf(); | ||
| 25305 | } | ||
| 25306 | |||
| 25307 | template <typename E> | ||
| 25308 | protected_function_result do_file(const std::string& filename, const basic_environment<E>& env, load_mode mode = load_mode::any) { | ||
| 25309 | load_status x = static_cast<load_status>(luaL_loadfilex(L, filename.c_str(), to_string(mode).c_str())); | ||
| 25310 | if (x != load_status::ok) { | ||
| 25311 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25312 | } | ||
| 25313 | stack_aligned_protected_function pf(L, -1); | ||
| 25314 | set_environment(env, pf); | ||
| 25315 | return pf(); | ||
| 25316 | } | ||
| 25317 | |||
| 25318 | protected_function_result do_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25319 | load_status x = static_cast<load_status>(luaL_loadfilex(L, filename.c_str(), to_string(mode).c_str())); | ||
| 25320 | if (x != load_status::ok) { | ||
| 25321 | return protected_function_result(L, absolute_index(L, -1), 0, 1, static_cast<call_status>(x)); | ||
| 25322 | } | ||
| 25323 | stack_aligned_protected_function pf(L, -1); | ||
| 25324 | return pf(); | ||
| 25325 | } | ||
| 25326 | |||
| 25327 | template <typename Fx, | ||
| 25328 | meta::disable_any<meta::is_string_constructible<meta::unqualified_t<Fx>>, | ||
| 25329 | meta::is_specialization_of<meta::unqualified_t<Fx>, basic_environment>> = meta::enabler> | ||
| 25330 | protected_function_result safe_script( | ||
| 25331 | lua_Reader reader, void* data, Fx&& on_error, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25332 | protected_function_result pfr = do_reader(reader, data, chunkname, mode); | ||
| 25333 | if (!pfr.valid()) { | ||
| 25334 | return on_error(L, std::move(pfr)); | ||
| 25335 | } | ||
| 25336 | return pfr; | ||
| 25337 | } | ||
| 25338 | |||
| 25339 | protected_function_result safe_script( | ||
| 25340 | lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25341 | return safe_script(reader, data, script_default_on_error, chunkname, mode); | ||
| 25342 | } | ||
| 25343 | |||
| 25344 | template <typename Fx, | ||
| 25345 | meta::disable_any<meta::is_string_constructible<meta::unqualified_t<Fx>>, | ||
| 25346 | meta::is_specialization_of<meta::unqualified_t<Fx>, basic_environment>> = meta::enabler> | ||
| 25347 | protected_function_result safe_script( | ||
| 25348 | const string_view& code, Fx&& on_error, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25349 | protected_function_result pfr = do_string(code, chunkname, mode); | ||
| 25350 | if (!pfr.valid()) { | ||
| 25351 | return on_error(L, std::move(pfr)); | ||
| 25352 | } | ||
| 25353 | return pfr; | ||
| 25354 | } | ||
| 25355 | |||
| 25356 | template <typename Fx, typename E> | ||
| 25357 | protected_function_result safe_script(const string_view& code, const basic_environment<E>& env, Fx&& on_error, | ||
| 25358 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25359 | protected_function_result pfr = do_string(code, env, chunkname, mode); | ||
| 25360 | if (!pfr.valid()) { | ||
| 25361 | return on_error(L, std::move(pfr)); | ||
| 25362 | } | ||
| 25363 | return pfr; | ||
| 25364 | } | ||
| 25365 | |||
| 25366 | template <typename E> | ||
| 25367 | protected_function_result safe_script(const string_view& code, const basic_environment<E>& env, | ||
| 25368 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25369 | return safe_script(code, env, script_default_on_error, chunkname, mode); | ||
| 25370 | } | ||
| 25371 | |||
| 25372 | protected_function_result safe_script( | ||
| 25373 | const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25374 | return safe_script(code, script_default_on_error, chunkname, mode); | ||
| 25375 | } | ||
| 25376 | |||
| 25377 | template <typename Fx, | ||
| 25378 | meta::disable_any<meta::is_string_constructible<meta::unqualified_t<Fx>>, | ||
| 25379 | meta::is_specialization_of<meta::unqualified_t<Fx>, basic_environment>> = meta::enabler> | ||
| 25380 | protected_function_result safe_script_file(const std::string& filename, Fx&& on_error, load_mode mode = load_mode::any) { | ||
| 25381 | protected_function_result pfr = do_file(filename, mode); | ||
| 25382 | if (!pfr.valid()) { | ||
| 25383 | return on_error(L, std::move(pfr)); | ||
| 25384 | } | ||
| 25385 | return pfr; | ||
| 25386 | } | ||
| 25387 | |||
| 25388 | template <typename Fx, typename E> | ||
| 25389 | protected_function_result safe_script_file( | ||
| 25390 | const std::string& filename, const basic_environment<E>& env, Fx&& on_error, load_mode mode = load_mode::any) { | ||
| 25391 | protected_function_result pfr = do_file(filename, env, mode); | ||
| 25392 | if (!pfr.valid()) { | ||
| 25393 | return on_error(L, std::move(pfr)); | ||
| 25394 | } | ||
| 25395 | return pfr; | ||
| 25396 | } | ||
| 25397 | |||
| 25398 | template <typename E> | ||
| 25399 | protected_function_result safe_script_file(const std::string& filename, const basic_environment<E>& env, load_mode mode = load_mode::any) { | ||
| 25400 | return safe_script_file(filename, env, script_default_on_error, mode); | ||
| 25401 | } | ||
| 25402 | |||
| 25403 | protected_function_result safe_script_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25404 | return safe_script_file(filename, script_default_on_error, mode); | ||
| 25405 | } | ||
| 25406 | |||
| 25407 | template <typename E> | ||
| 25408 | unsafe_function_result unsafe_script(lua_Reader reader, void* data, const basic_environment<E>& env, | ||
| 25409 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25410 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25411 | const char* chunknametarget = detail::make_chunk_name("lua_Reader", chunkname, basechunkname); | ||
| 25412 | int index = lua_gettop(L); | ||
| 25413 | if (lua_load(L, reader, data, chunknametarget, to_string(mode).c_str())) { | ||
| 25414 | lua_error(L); | ||
| 25415 | } | ||
| 25416 | set_environment(env, stack_reference(L, raw_index(index + 1))); | ||
| 25417 | if (lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 25418 | lua_error(L); | ||
| 25419 | } | ||
| 25420 | int postindex = lua_gettop(L); | ||
| 25421 | int returns = postindex - index; | ||
| 25422 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25423 | } | ||
| 25424 | |||
| 25425 | unsafe_function_result unsafe_script( | ||
| 25426 | lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25427 | int index = lua_gettop(L); | ||
| 25428 | stack::script(L, reader, data, chunkname, mode); | ||
| 25429 | int postindex = lua_gettop(L); | ||
| 25430 | int returns = postindex - index; | ||
| 25431 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25432 | } | ||
| 25433 | |||
| 25434 | template <typename E> | ||
| 25435 | unsafe_function_result unsafe_script(const string_view& code, const basic_environment<E>& env, | ||
| 25436 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25437 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25438 | const char* chunknametarget = detail::make_chunk_name(code, chunkname, basechunkname); | ||
| 25439 | int index = lua_gettop(L); | ||
| 25440 | if (luaL_loadbufferx(L, code.data(), code.size(), chunknametarget, to_string(mode).c_str())) { | ||
| 25441 | lua_error(L); | ||
| 25442 | } | ||
| 25443 | set_environment(env, stack_reference(L, raw_index(index + 1))); | ||
| 25444 | if (lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 25445 | lua_error(L); | ||
| 25446 | } | ||
| 25447 | int postindex = lua_gettop(L); | ||
| 25448 | int returns = postindex - index; | ||
| 25449 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25450 | } | ||
| 25451 | |||
| 25452 | unsafe_function_result unsafe_script( | ||
| 25453 | const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25454 | int index = lua_gettop(L); | ||
| 25455 | stack::script(L, code, chunkname, mode); | ||
| 25456 | int postindex = lua_gettop(L); | ||
| 25457 | int returns = postindex - index; | ||
| 25458 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25459 | } | ||
| 25460 | |||
| 25461 | template <typename E> | ||
| 25462 | unsafe_function_result unsafe_script_file(const std::string& filename, const basic_environment<E>& env, load_mode mode = load_mode::any) { | ||
| 25463 | int index = lua_gettop(L); | ||
| 25464 | if (luaL_loadfilex(L, filename.c_str(), to_string(mode).c_str())) { | ||
| 25465 | lua_error(L); | ||
| 25466 | } | ||
| 25467 | set_environment(env, stack_reference(L, raw_index(index + 1))); | ||
| 25468 | if (lua_pcall(L, 0, LUA_MULTRET, 0)) { | ||
| 25469 | lua_error(L); | ||
| 25470 | } | ||
| 25471 | int postindex = lua_gettop(L); | ||
| 25472 | int returns = postindex - index; | ||
| 25473 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25474 | } | ||
| 25475 | |||
| 25476 | unsafe_function_result unsafe_script_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25477 | int index = lua_gettop(L); | ||
| 25478 | stack::script_file(L, filename, mode); | ||
| 25479 | int postindex = lua_gettop(L); | ||
| 25480 | int returns = postindex - index; | ||
| 25481 | return unsafe_function_result(L, (std::max)(postindex - (returns - 1), 1), returns); | ||
| 25482 | } | ||
| 25483 | |||
| 25484 | template <typename Fx, | ||
| 25485 | meta::disable_any<meta::is_string_constructible<meta::unqualified_t<Fx>>, | ||
| 25486 | meta::is_specialization_of<meta::unqualified_t<Fx>, basic_environment>> = meta::enabler> | ||
| 25487 | protected_function_result script( | ||
| 25488 | const string_view& code, Fx&& on_error, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25489 | return safe_script(code, std::forward<Fx>(on_error), chunkname, mode); | ||
| 25490 | } | ||
| 25491 | |||
| 25492 | template <typename Fx, | ||
| 25493 | meta::disable_any<meta::is_string_constructible<meta::unqualified_t<Fx>>, | ||
| 25494 | meta::is_specialization_of<meta::unqualified_t<Fx>, basic_environment>> = meta::enabler> | ||
| 25495 | protected_function_result script_file(const std::string& filename, Fx&& on_error, load_mode mode = load_mode::any) { | ||
| 25496 | return safe_script_file(filename, std::forward<Fx>(on_error), mode); | ||
| 25497 | } | ||
| 25498 | |||
| 25499 | template <typename Fx, typename E> | ||
| 25500 | protected_function_result script(const string_view& code, const basic_environment<E>& env, Fx&& on_error, | ||
| 25501 | const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25502 | return safe_script(code, env, std::forward<Fx>(on_error), chunkname, mode); | ||
| 25503 | } | ||
| 25504 | |||
| 25505 | template <typename Fx, typename E> | ||
| 25506 | protected_function_result script_file(const std::string& filename, const basic_environment<E>& env, Fx&& on_error, load_mode mode = load_mode::any) { | ||
| 25507 | return safe_script_file(filename, env, std::forward<Fx>(on_error), mode); | ||
| 25508 | } | ||
| 25509 | |||
| 25510 | protected_function_result script( | ||
| 25511 | const string_view& code, const environment& env, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25512 | return safe_script(code, env, script_default_on_error, chunkname, mode); | ||
| 25513 | } | ||
| 25514 | |||
| 25515 | protected_function_result script_file(const std::string& filename, const environment& env, load_mode mode = load_mode::any) { | ||
| 25516 | return safe_script_file(filename, env, script_default_on_error, mode); | ||
| 25517 | } | ||
| 25518 | |||
| 25519 | #if SOL_IS_ON(SOL_SAFE_FUNCTION_OBJECTS_I_) | ||
| 25520 | protected_function_result script( | ||
| 25521 | lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25522 | return safe_script(reader, data, chunkname, mode); | ||
| 25523 | } | ||
| 25524 | |||
| 25525 | protected_function_result script( | ||
| 25526 | const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25527 | return safe_script(code, chunkname, mode); | ||
| 25528 | } | ||
| 25529 | |||
| 25530 | protected_function_result script_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25531 | return safe_script_file(filename, mode); | ||
| 25532 | } | ||
| 25533 | #else | ||
| 25534 | unsafe_function_result script(const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25535 | return unsafe_script(code, chunkname, mode); | ||
| 25536 | } | ||
| 25537 | |||
| 25538 | unsafe_function_result script_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25539 | return unsafe_script_file(filename, mode); | ||
| 25540 | } | ||
| 25541 | #endif | ||
| 25542 | load_result load(const string_view& code, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25543 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25544 | const char* chunknametarget = detail::make_chunk_name(code, chunkname, basechunkname); | ||
| 25545 | load_status x = static_cast<load_status>(luaL_loadbufferx(L, code.data(), code.size(), chunknametarget, to_string(mode).c_str())); | ||
| 25546 | return load_result(L, absolute_index(L, -1), 1, 1, x); | ||
| 25547 | } | ||
| 25548 | |||
| 25549 | load_result load_buffer(const char* buff, size_t size, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25550 | return load(string_view(buff, size), chunkname, mode); | ||
| 25551 | } | ||
| 25552 | |||
| 25553 | load_result load_buffer( | ||
| 25554 | const std::byte* buff, size_t size, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25555 | return load(string_view(reinterpret_cast<const char*>(buff), size), chunkname, mode); | ||
| 25556 | } | ||
| 25557 | |||
| 25558 | load_result load_file(const std::string& filename, load_mode mode = load_mode::any) { | ||
| 25559 | load_status x = static_cast<load_status>(luaL_loadfilex(L, filename.c_str(), to_string(mode).c_str())); | ||
| 25560 | return load_result(L, absolute_index(L, -1), 1, 1, x); | ||
| 25561 | } | ||
| 25562 | |||
| 25563 | load_result load(lua_Reader reader, void* data, const std::string& chunkname = detail::default_chunk_name(), load_mode mode = load_mode::any) { | ||
| 25564 | detail::typical_chunk_name_t basechunkname = {}; | ||
| 25565 | const char* chunknametarget = detail::make_chunk_name("lua_Reader", chunkname, basechunkname); | ||
| 25566 | load_status x = static_cast<load_status>(lua_load(L, reader, data, chunknametarget, to_string(mode).c_str())); | ||
| 25567 | return load_result(L, absolute_index(L, -1), 1, 1, x); | ||
| 25568 | } | ||
| 25569 | |||
| 25570 | iterator begin() const { | ||
| 25571 | return global.begin(); | ||
| 25572 | } | ||
| 25573 | |||
| 25574 | iterator end() const { | ||
| 25575 | return global.end(); | ||
| 25576 | } | ||
| 25577 | |||
| 25578 | const_iterator cbegin() const { | ||
| 25579 | return global.cbegin(); | ||
| 25580 | } | ||
| 25581 | |||
| 25582 | const_iterator cend() const { | ||
| 25583 | return global.cend(); | ||
| 25584 | } | ||
| 25585 | |||
| 25586 | global_table globals() const { | ||
| 25587 | // if we return a reference | ||
| 25588 | // we'll be screwed a bit | ||
| 25589 | return global; | ||
| 25590 | } | ||
| 25591 | |||
| 25592 | global_table& globals() { | ||
| 25593 | return global; | ||
| 25594 | } | ||
| 25595 | |||
| 25596 | table registry() const { | ||
| 25597 | return reg; | ||
| 25598 | } | ||
| 25599 | |||
| 25600 | std::size_t memory_used() const { | ||
| 25601 | return total_memory_used(lua_state()); | ||
| 25602 | } | ||
| 25603 | |||
| 25604 | int stack_top() const { | ||
| 25605 | return stack::top(L); | ||
| 25606 | } | ||
| 25607 | |||
| 25608 | int stack_clear() { | ||
| 25609 | int s = stack_top(); | ||
| 25610 | lua_pop(L, s); | ||
| 25611 | return s; | ||
| 25612 | } | ||
| 25613 | |||
| 25614 | bool supports_gc_mode(gc_mode mode) const noexcept { | ||
| 25615 | #if SOL_LUA_VESION_I_ >= 504 | ||
| 25616 | // supports all modes | ||
| 25617 | (void)mode; | ||
| 25618 | return true; | ||
| 25619 | #endif | ||
| 25620 | return mode == gc_mode::default_value; | ||
| 25621 | } | ||
| 25622 | |||
| 25623 | bool is_gc_on() const { | ||
| 25624 | #if SOL_LUA_VESION_I_ >= 502 | ||
| 25625 | return lua_gc(lua_state(), LUA_GCISRUNNING, 0) == 1; | ||
| 25626 | #else | ||
| 25627 | // You cannot turn it off in Lua 5.1 | ||
| 25628 | return true; | ||
| 25629 | #endif | ||
| 25630 | } | ||
| 25631 | |||
| 25632 | void collect_garbage() { | ||
| 25633 | lua_gc(lua_state(), LUA_GCCOLLECT, 0); | ||
| 25634 | } | ||
| 25635 | |||
| 25636 | void collect_gc() { | ||
| 25637 | collect_garbage(); | ||
| 25638 | } | ||
| 25639 | |||
| 25640 | bool step_gc(int step_size_kilobytes) { | ||
| 25641 | // THOUGHT: std::chrono-alikes to map "kilobyte size" here...? | ||
| 25642 | // Make it harder to give MB or KB to a B parameter...? | ||
| 25643 | // Probably overkill for now. | ||
| 25644 | #if SOL_LUA_VESION_I_ >= 504 | ||
| 25645 | // The manual implies that this function is almost always successful... | ||
| 25646 | // is it?? It could depend on the GC mode... | ||
| 25647 | return lua_gc(lua_state(), LUA_GCSTEP, step_size_kilobytes) != 0; | ||
| 25648 | #else | ||
| 25649 | return lua_gc(lua_state(), LUA_GCSTEP, step_size_kilobytes) == 1; | ||
| 25650 | #endif | ||
| 25651 | } | ||
| 25652 | |||
| 25653 | void restart_gc() { | ||
| 25654 | lua_gc(lua_state(), LUA_GCRESTART, 0); | ||
| 25655 | } | ||
| 25656 | |||
| 25657 | void stop_gc() { | ||
| 25658 | lua_gc(lua_state(), LUA_GCSTOP, 0); | ||
| 25659 | } | ||
| 25660 | |||
| 25661 | // Returns the old GC mode. Check support using the supports_gc_mode function. | ||
| 25662 | gc_mode change_gc_mode_incremental(int pause, int step_multiplier, int step_byte_size) { | ||
| 25663 | // "What the fuck does any of this mean??" | ||
| 25664 | // http://www.lua.org/manual/5.4/manual.html#2.5.1 | ||
| 25665 | |||
| 25666 | // THOUGHT: std::chrono-alikes to map "byte size" here...? | ||
| 25667 | // Make it harder to give MB or KB to a B parameter...? | ||
| 25668 | // Probably overkill for now. | ||
| 25669 | #if SOL_LUA_VESION_I_ >= 504 | ||
| 25670 | int old_mode = lua_gc(lua_state(), LUA_GCINC, pause, step_multiplier, step_byte_size); | ||
| 25671 | if (old_mode == LUA_GCGEN) { | ||
| 25672 | return gc_mode::generational; | ||
| 25673 | } | ||
| 25674 | else if (old_mode == LUA_GCINC) { | ||
| 25675 | return gc_mode::incremental; | ||
| 25676 | } | ||
| 25677 | #else | ||
| 25678 | lua_gc(lua_state(), LUA_GCSETPAUSE, pause); | ||
| 25679 | lua_gc(lua_state(), LUA_GCSETSTEPMUL, step_multiplier); | ||
| 25680 | (void)step_byte_size; // means nothing in older versions | ||
| 25681 | #endif | ||
| 25682 | return gc_mode::default_value; | ||
| 25683 | } | ||
| 25684 | |||
| 25685 | // Returns the old GC mode. Check support using the supports_gc_mode function. | ||
| 25686 | gc_mode change_gc_mode_generational(int minor_multiplier, int major_multiplier) { | ||
| 25687 | #if SOL_LUA_VESION_I_ >= 504 | ||
| 25688 | // "What does this shit mean?" | ||
| 25689 | // http://www.lua.org/manual/5.4/manual.html#2.5.2 | ||
| 25690 | int old_mode = lua_gc(lua_state(), LUA_GCGEN, minor_multiplier, major_multiplier); | ||
| 25691 | if (old_mode == LUA_GCGEN) { | ||
| 25692 | return gc_mode::generational; | ||
| 25693 | } | ||
| 25694 | else if (old_mode == LUA_GCINC) { | ||
| 25695 | return gc_mode::incremental; | ||
| 25696 | } | ||
| 25697 | #endif | ||
| 25698 | return gc_mode::default_value; | ||
| 25699 | } | ||
| 25700 | |||
| 25701 | operator lua_State*() const { | ||
| 25702 | return lua_state(); | ||
| 25703 | } | ||
| 25704 | |||
| 25705 | void set_panic(lua_CFunction panic) { | ||
| 25706 | lua_atpanic(lua_state(), panic); | ||
| 25707 | } | ||
| 25708 | |||
| 25709 | void set_exception_handler(exception_handler_function handler) { | ||
| 25710 | set_default_exception_handler(lua_state(), handler); | ||
| 25711 | } | ||
| 25712 | |||
| 25713 | template <typename... Args, typename... Keys> | ||
| 25714 | decltype(auto) get(Keys&&... keys) const { | ||
| 25715 | return global.get<Args...>(std::forward<Keys>(keys)...); | ||
| 25716 | } | ||
| 25717 | |||
| 25718 | template <typename T, typename Key> | ||
| 25719 | decltype(auto) get_or(Key&& key, T&& otherwise) const { | ||
| 25720 | return global.get_or(std::forward<Key>(key), std::forward<T>(otherwise)); | ||
| 25721 | } | ||
| 25722 | |||
| 25723 | template <typename T, typename Key, typename D> | ||
| 25724 | decltype(auto) get_or(Key&& key, D&& otherwise) const { | ||
| 25725 | return global.get_or<T>(std::forward<Key>(key), std::forward<D>(otherwise)); | ||
| 25726 | } | ||
| 25727 | |||
| 25728 | template <typename... Args> | ||
| 25729 | state_view& set(Args&&... args) { | ||
| 25730 | global.set(std::forward<Args>(args)...); | ||
| 25731 | return *this; | ||
| 25732 | } | ||
| 25733 | |||
| 25734 | template <typename T, typename... Keys> | ||
| 25735 | decltype(auto) traverse_get(Keys&&... keys) const { | ||
| 25736 | return global.traverse_get<T>(std::forward<Keys>(keys)...); | ||
| 25737 | } | ||
| 25738 | |||
| 25739 | template <typename... Args> | ||
| 25740 | state_view& traverse_set(Args&&... args) { | ||
| 25741 | global.traverse_set(std::forward<Args>(args)...); | ||
| 25742 | return *this; | ||
| 25743 | } | ||
| 25744 | |||
| 25745 | template <typename Class, typename... Args> | ||
| 25746 | usertype<Class> new_usertype(const std::string& name, Args&&... args) { | ||
| 25747 | return global.new_usertype<Class>(name, std::forward<Args>(args)...); | ||
| 25748 | } | ||
| 25749 | |||
| 25750 | template <bool read_only = true, typename... Args> | ||
| 25751 | state_view& new_enum(const string_view& name, Args&&... args) { | ||
| 25752 | global.new_enum<read_only>(name, std::forward<Args>(args)...); | ||
| 25753 | return *this; | ||
| 25754 | } | ||
| 25755 | |||
| 25756 | template <typename T, bool read_only = true> | ||
| 25757 | state_view& new_enum(const string_view& name, std::initializer_list<std::pair<string_view, T>> items) { | ||
| 25758 | global.new_enum<T, read_only>(name, std::move(items)); | ||
| 25759 | return *this; | ||
| 25760 | } | ||
| 25761 | |||
| 25762 | template <typename Fx> | ||
| 25763 | void for_each(Fx&& fx) { | ||
| 25764 | global.for_each(std::forward<Fx>(fx)); | ||
| 25765 | } | ||
| 25766 | |||
| 25767 | template <typename T> | ||
| 25768 | table_proxy<global_table&, detail::proxy_key_t<T>> operator[](T&& key) { | ||
| 25769 | return global[std::forward<T>(key)]; | ||
| 25770 | } | ||
| 25771 | |||
| 25772 | template <typename T> | ||
| 25773 | table_proxy<const global_table&, detail::proxy_key_t<T>> operator[](T&& key) const { | ||
| 25774 | return global[std::forward<T>(key)]; | ||
| 25775 | } | ||
| 25776 | |||
| 25777 | template <typename Sig, typename... Args, typename Key> | ||
| 25778 | state_view& set_function(Key&& key, Args&&... args) { | ||
| 25779 | global.set_function<Sig>(std::forward<Key>(key), std::forward<Args>(args)...); | ||
| 25780 | return *this; | ||
| 25781 | } | ||
| 25782 | |||
| 25783 | template <typename... Args, typename Key> | ||
| 25784 | state_view& set_function(Key&& key, Args&&... args) { | ||
| 25785 | global.set_function(std::forward<Key>(key), std::forward<Args>(args)...); | ||
| 25786 | return *this; | ||
| 25787 | } | ||
| 25788 | |||
| 25789 | template <typename Name> | ||
| 25790 | table create_table(Name&& name, int narr = 0, int nrec = 0) { | ||
| 25791 | return global.create(std::forward<Name>(name), narr, nrec); | ||
| 25792 | } | ||
| 25793 | |||
| 25794 | template <typename Name, typename Key, typename Value, typename... Args> | ||
| 25795 | table create_table(Name&& name, int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 25796 | return global.create(std::forward<Name>(name), narr, nrec, std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 25797 | } | ||
| 25798 | |||
| 25799 | template <typename Name, typename... Args> | ||
| 25800 | table create_named_table(Name&& name, Args&&... args) { | ||
| 25801 | table x = global.create_with(std::forward<Args>(args)...); | ||
| 25802 | global.set(std::forward<Name>(name), x); | ||
| 25803 | return x; | ||
| 25804 | } | ||
| 25805 | |||
| 25806 | table create_table(int narr = 0, int nrec = 0) { | ||
| 25807 | return create_table(lua_state(), narr, nrec); | ||
| 25808 | } | ||
| 25809 | |||
| 25810 | template <typename Key, typename Value, typename... Args> | ||
| 25811 | table create_table(int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 25812 | return create_table(lua_state(), narr, nrec, std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 25813 | } | ||
| 25814 | |||
| 25815 | template <typename... Args> | ||
| 25816 | table create_table_with(Args&&... args) { | ||
| 25817 | return create_table_with(lua_state(), std::forward<Args>(args)...); | ||
| 25818 | } | ||
| 25819 | |||
| 25820 | static inline table create_table(lua_State* L, int narr = 0, int nrec = 0) { | ||
| 25821 | return global_table::create(L, narr, nrec); | ||
| 25822 | } | ||
| 25823 | |||
| 25824 | template <typename Key, typename Value, typename... Args> | ||
| 25825 | static inline table create_table(lua_State* L, int narr, int nrec, Key&& key, Value&& value, Args&&... args) { | ||
| 25826 | return global_table::create(L, narr, nrec, std::forward<Key>(key), std::forward<Value>(value), std::forward<Args>(args)...); | ||
| 25827 | } | ||
| 25828 | |||
| 25829 | template <typename... Args> | ||
| 25830 | static inline table create_table_with(lua_State* L, Args&&... args) { | ||
| 25831 | return global_table::create_with(L, std::forward<Args>(args)...); | ||
| 25832 | } | ||
| 25833 | }; | ||
| 25834 | } // namespace sol | ||
| 25835 | |||
| 25836 | // end of sol/state_view.hpp | ||
| 25837 | |||
| 25838 | // beginning of sol/thread.hpp | ||
| 25839 | |||
| 25840 | namespace sol { | ||
| 25841 | struct lua_thread_state { | ||
| 25842 | lua_State* L; | ||
| 25843 | |||
| 25844 | lua_thread_state(lua_State* Ls) | ||
| 25845 | : L(Ls) { | ||
| 25846 | } | ||
| 25847 | |||
| 25848 | lua_State* lua_state() const noexcept { | ||
| 25849 | return L; | ||
| 25850 | } | ||
| 25851 | operator lua_State*() const noexcept { | ||
| 25852 | return lua_state(); | ||
| 25853 | } | ||
| 25854 | lua_State* operator->() const noexcept { | ||
| 25855 | return lua_state(); | ||
| 25856 | } | ||
| 25857 | }; | ||
| 25858 | |||
| 25859 | namespace stack { | ||
| 25860 | template <> | ||
| 25861 | struct unqualified_pusher<lua_thread_state> { | ||
| 25862 | int push(lua_State*, lua_thread_state lts) { | ||
| 25863 | lua_pushthread(lts.L); | ||
| 25864 | return 1; | ||
| 25865 | } | ||
| 25866 | }; | ||
| 25867 | |||
| 25868 | template <> | ||
| 25869 | struct unqualified_getter<lua_thread_state> { | ||
| 25870 | lua_thread_state get(lua_State* L, int index, record& tracking) { | ||
| 25871 | tracking.use(1); | ||
| 25872 | lua_thread_state lts( lua_tothread(L, index) ); | ||
| 25873 | return lts; | ||
| 25874 | } | ||
| 25875 | }; | ||
| 25876 | |||
| 25877 | template <> | ||
| 25878 | struct unqualified_check_getter<lua_thread_state> { | ||
| 25879 | template <typename Handler> | ||
| 25880 | optional<lua_thread_state> get(lua_State* L, int index, Handler&& handler, record& tracking) { | ||
| 25881 | lua_thread_state lts( lua_tothread(L, index) ); | ||
| 25882 | if (lts.lua_state() == nullptr) { | ||
| 25883 | handler(L, index, type::thread, type_of(L, index), "value is not a valid thread type"); | ||
| 25884 | return nullopt; | ||
| 25885 | } | ||
| 25886 | tracking.use(1); | ||
| 25887 | return lts; | ||
| 25888 | } | ||
| 25889 | }; | ||
| 25890 | } // namespace stack | ||
| 25891 | |||
| 25892 | template <typename ref_t> | ||
| 25893 | class basic_thread : public basic_object<ref_t> { | ||
| 25894 | private: | ||
| 25895 | using base_t = basic_object<ref_t>; | ||
| 25896 | |||
| 25897 | public: | ||
| 25898 | using base_t::lua_state; | ||
| 25899 | |||
| 25900 | basic_thread() noexcept = default; | ||
| 25901 | basic_thread(const basic_thread&) = default; | ||
| 25902 | basic_thread(basic_thread&&) = default; | ||
| 25903 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_thread>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 25904 | basic_thread(T&& r) | ||
| 25905 | : base_t(std::forward<T>(r)) { | ||
| 25906 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 25907 | auto pp = stack::push_pop(*this); | ||
| 25908 | constructor_handler handler{}; | ||
| 25909 | stack::check<basic_thread>(lua_state(), -1, handler); | ||
| 25910 | #endif // Safety | ||
| 25911 | } | ||
| 25912 | basic_thread(const stack_reference& r) | ||
| 25913 | : basic_thread(r.lua_state(), r.stack_index()){}; | ||
| 25914 | basic_thread(stack_reference&& r) | ||
| 25915 | : basic_thread(r.lua_state(), r.stack_index()){}; | ||
| 25916 | basic_thread& operator=(const basic_thread&) = default; | ||
| 25917 | basic_thread& operator=(basic_thread&&) = default; | ||
| 25918 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 25919 | basic_thread(lua_State* L, T&& r) | ||
| 25920 | : base_t(L, std::forward<T>(r)) { | ||
| 25921 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 25922 | auto pp = stack::push_pop(*this); | ||
| 25923 | constructor_handler handler{}; | ||
| 25924 | stack::check<basic_thread>(lua_state(), -1, handler); | ||
| 25925 | #endif // Safety | ||
| 25926 | } | ||
| 25927 | basic_thread(lua_State* L, int index = -1) | ||
| 25928 | : base_t(L, index) { | ||
| 25929 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 25930 | constructor_handler handler{}; | ||
| 25931 | stack::check<basic_thread>(L, index, handler); | ||
| 25932 | #endif // Safety | ||
| 25933 | } | ||
| 25934 | basic_thread(lua_State* L, ref_index index) | ||
| 25935 | : base_t(L, index) { | ||
| 25936 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 25937 | auto pp = stack::push_pop(*this); | ||
| 25938 | constructor_handler handler{}; | ||
| 25939 | stack::check<basic_thread>(lua_state(), -1, handler); | ||
| 25940 | #endif // Safety | ||
| 25941 | } | ||
| 25942 | basic_thread(lua_State* L, lua_State* actualthread) | ||
| 25943 | : basic_thread(L, lua_thread_state{ actualthread }) { | ||
| 25944 | } | ||
| 25945 | basic_thread(lua_State* L, this_state actualthread) | ||
| 25946 | : basic_thread(L, lua_thread_state{ actualthread.L }) { | ||
| 25947 | } | ||
| 25948 | basic_thread(lua_State* L, lua_thread_state actualthread) | ||
| 25949 | : base_t(L, -stack::push(L, actualthread)) { | ||
| 25950 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 25951 | constructor_handler handler{}; | ||
| 25952 | stack::check<basic_thread>(lua_state(), -1, handler); | ||
| 25953 | #endif // Safety | ||
| 25954 | if (!is_stack_based<base_t>::value) { | ||
| 25955 | lua_pop(lua_state(), 1); | ||
| 25956 | } | ||
| 25957 | } | ||
| 25958 | |||
| 25959 | state_view state() const { | ||
| 25960 | return state_view(this->thread_state()); | ||
| 25961 | } | ||
| 25962 | |||
| 25963 | bool is_main_thread() const { | ||
| 25964 | return stack::is_main_thread(this->thread_state()); | ||
| 25965 | } | ||
| 25966 | |||
| 25967 | lua_State* thread_state() const { | ||
| 25968 | auto pp = stack::push_pop(*this); | ||
| 25969 | lua_State* lthread = lua_tothread(lua_state(), -1); | ||
| 25970 | return lthread; | ||
| 25971 | } | ||
| 25972 | |||
| 25973 | thread_status status() const { | ||
| 25974 | lua_State* lthread = thread_state(); | ||
| 25975 | auto lstat = static_cast<thread_status>(lua_status(lthread)); | ||
| 25976 | if (lstat == thread_status::ok) { | ||
| 25977 | lua_Debug ar; | ||
| 25978 | if (lua_getstack(lthread, 0, &ar) > 0) | ||
| 25979 | return thread_status::ok; | ||
| 25980 | else if (lua_gettop(lthread) == 0) | ||
| 25981 | return thread_status::dead; | ||
| 25982 | else | ||
| 25983 | return thread_status::yielded; | ||
| 25984 | } | ||
| 25985 | return lstat; | ||
| 25986 | } | ||
| 25987 | |||
| 25988 | basic_thread create() { | ||
| 25989 | return create(lua_state()); | ||
| 25990 | } | ||
| 25991 | |||
| 25992 | static basic_thread create(lua_State* L) { | ||
| 25993 | lua_newthread(L); | ||
| 25994 | basic_thread result(L); | ||
| 25995 | if (!is_stack_based<base_t>::value) { | ||
| 25996 | lua_pop(L, 1); | ||
| 25997 | } | ||
| 25998 | return result; | ||
| 25999 | } | ||
| 26000 | }; | ||
| 26001 | |||
| 26002 | typedef basic_thread<reference> thread; | ||
| 26003 | typedef basic_thread<stack_reference> stack_thread; | ||
| 26004 | } // namespace sol | ||
| 26005 | |||
| 26006 | // end of sol/thread.hpp | ||
| 26007 | |||
| 26008 | namespace sol { | ||
| 26009 | |||
| 26010 | class state : private std::unique_ptr<lua_State, detail::state_deleter>, public state_view { | ||
| 26011 | private: | ||
| 26012 | typedef std::unique_ptr<lua_State, detail::state_deleter> unique_base; | ||
| 26013 | |||
| 26014 | public: | ||
| 26015 | state(lua_CFunction panic = default_at_panic) | ||
| 26016 | : unique_base(luaL_newstate()), state_view(unique_base::get()) { | ||
| 26017 | set_default_state(unique_base::get(), panic); | ||
| 26018 | } | ||
| 26019 | |||
| 26020 | state(lua_CFunction panic, lua_Alloc alfunc, void* alpointer = nullptr) | ||
| 26021 | : unique_base(lua_newstate(alfunc, alpointer)), state_view(unique_base::get()) { | ||
| 26022 | set_default_state(unique_base::get(), panic); | ||
| 26023 | } | ||
| 26024 | |||
| 26025 | state(const state&) = delete; | ||
| 26026 | state(state&&) = default; | ||
| 26027 | state& operator=(const state&) = delete; | ||
| 26028 | state& operator=(state&& that) { | ||
| 26029 | state_view::operator=(std::move(that)); | ||
| 26030 | unique_base::operator=(std::move(that)); | ||
| 26031 | return *this; | ||
| 26032 | } | ||
| 26033 | |||
| 26034 | using state_view::get; | ||
| 26035 | |||
| 26036 | ~state() { | ||
| 26037 | } | ||
| 26038 | }; | ||
| 26039 | } // namespace sol | ||
| 26040 | |||
| 26041 | // end of sol/state.hpp | ||
| 26042 | |||
| 26043 | // beginning of sol/coroutine.hpp | ||
| 26044 | |||
| 26045 | namespace sol { | ||
| 26046 | template <typename ref_t> | ||
| 26047 | class basic_coroutine : public basic_object<ref_t> { | ||
| 26048 | private: | ||
| 26049 | using base_t = basic_object<ref_t>; | ||
| 26050 | |||
| 26051 | public: | ||
| 26052 | typedef reference handler_t; | ||
| 26053 | handler_t error_handler; | ||
| 26054 | |||
| 26055 | private: | ||
| 26056 | call_status stats = call_status::yielded; | ||
| 26057 | |||
| 26058 | void luacall(std::ptrdiff_t argcount, std::ptrdiff_t) { | ||
| 26059 | #if SOL_LUA_VESION_I_ >= 504 | ||
| 26060 | int nresults; | ||
| 26061 | stats = static_cast<call_status>(lua_resume(lua_state(), nullptr, static_cast<int>(argcount), &nresults)); | ||
| 26062 | #else | ||
| 26063 | stats = static_cast<call_status>(lua_resume(lua_state(), nullptr, static_cast<int>(argcount))); | ||
| 26064 | #endif | ||
| 26065 | } | ||
| 26066 | |||
| 26067 | template <std::size_t... I, typename... Ret> | ||
| 26068 | auto invoke(types<Ret...>, std::index_sequence<I...>, std::ptrdiff_t n) { | ||
| 26069 | luacall(n, sizeof...(Ret)); | ||
| 26070 | return stack::pop<std::tuple<Ret...>>(lua_state()); | ||
| 26071 | } | ||
| 26072 | |||
| 26073 | template <std::size_t I, typename Ret> | ||
| 26074 | Ret invoke(types<Ret>, std::index_sequence<I>, std::ptrdiff_t n) { | ||
| 26075 | luacall(n, 1); | ||
| 26076 | return stack::pop<Ret>(lua_state()); | ||
| 26077 | } | ||
| 26078 | |||
| 26079 | template <std::size_t I> | ||
| 26080 | void invoke(types<void>, std::index_sequence<I>, std::ptrdiff_t n) { | ||
| 26081 | luacall(n, 0); | ||
| 26082 | } | ||
| 26083 | |||
| 26084 | protected_function_result invoke(types<>, std::index_sequence<>, std::ptrdiff_t n) { | ||
| 26085 | int firstreturn = 1; | ||
| 26086 | luacall(n, LUA_MULTRET); | ||
| 26087 | int poststacksize = lua_gettop(this->lua_state()); | ||
| 26088 | int returncount = poststacksize - (firstreturn - 1); | ||
| 26089 | if (error()) { | ||
| 26090 | if (error_handler.valid()) { | ||
| 26091 | string_view err = stack::get<string_view>(this->lua_state(), poststacksize); | ||
| 26092 | error_handler.push(); | ||
| 26093 | stack::push(this->lua_state(), err); | ||
| 26094 | lua_call(lua_state(), 1, 1); | ||
| 26095 | } | ||
| 26096 | return protected_function_result(this->lua_state(), lua_absindex(this->lua_state(), -1), 1, returncount, status()); | ||
| 26097 | } | ||
| 26098 | return protected_function_result(this->lua_state(), firstreturn, returncount, returncount, status()); | ||
| 26099 | } | ||
| 26100 | |||
| 26101 | public: | ||
| 26102 | using base_t::lua_state; | ||
| 26103 | |||
| 26104 | basic_coroutine() = default; | ||
| 26105 | template <typename T, | ||
| 26106 | meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_coroutine>>, | ||
| 26107 | meta::neg<std::is_base_of<proxy_base_tag, meta::unqualified_t<T>>>, meta::neg<std::is_same<base_t, stack_reference>>, | ||
| 26108 | meta::neg<std::is_same<lua_nil_t, meta::unqualified_t<T>>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26109 | basic_coroutine(T&& r) noexcept | ||
| 26110 | : base_t(std::forward<T>(r)), error_handler(detail::get_default_handler<reference, is_main_threaded<base_t>::value>(r.lua_state())) { | ||
| 26111 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26112 | if (!is_function<meta::unqualified_t<T>>::value) { | ||
| 26113 | auto pp = stack::push_pop(*this); | ||
| 26114 | constructor_handler handler {}; | ||
| 26115 | stack::check<basic_coroutine>(lua_state(), -1, handler); | ||
| 26116 | } | ||
| 26117 | #endif // Safety | ||
| 26118 | } | ||
| 26119 | basic_coroutine(const basic_coroutine&) = default; | ||
| 26120 | basic_coroutine& operator=(const basic_coroutine&) = default; | ||
| 26121 | basic_coroutine(basic_coroutine&&) = default; | ||
| 26122 | basic_coroutine& operator=(basic_coroutine&&) = default; | ||
| 26123 | basic_coroutine(const basic_function<base_t>& b) | ||
| 26124 | : basic_coroutine(b, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(b.lua_state())) { | ||
| 26125 | } | ||
| 26126 | basic_coroutine(basic_function<base_t>&& b) | ||
| 26127 | : basic_coroutine(std::move(b), detail::get_default_handler<reference, is_main_threaded<base_t>::value>(b.lua_state())) { | ||
| 26128 | } | ||
| 26129 | basic_coroutine(const basic_function<base_t>& b, handler_t eh) : base_t(b), error_handler(std::move(eh)) { | ||
| 26130 | } | ||
| 26131 | basic_coroutine(basic_function<base_t>&& b, handler_t eh) : base_t(std::move(b)), error_handler(std::move(eh)) { | ||
| 26132 | } | ||
| 26133 | basic_coroutine(const stack_reference& r) | ||
| 26134 | : basic_coroutine(r.lua_state(), r.stack_index(), detail::get_default_handler<reference, is_main_threaded<base_t>::value>(r.lua_state())) { | ||
| 26135 | } | ||
| 26136 | basic_coroutine(stack_reference&& r) | ||
| 26137 | : basic_coroutine(r.lua_state(), r.stack_index(), detail::get_default_handler<reference, is_main_threaded<base_t>::value>(r.lua_state())) { | ||
| 26138 | } | ||
| 26139 | basic_coroutine(const stack_reference& r, handler_t eh) : basic_coroutine(r.lua_state(), r.stack_index(), std::move(eh)) { | ||
| 26140 | } | ||
| 26141 | basic_coroutine(stack_reference&& r, handler_t eh) : basic_coroutine(r.lua_state(), r.stack_index(), std::move(eh)) { | ||
| 26142 | } | ||
| 26143 | |||
| 26144 | template <typename Super> | ||
| 26145 | basic_coroutine(const proxy_base<Super>& p) | ||
| 26146 | : basic_coroutine(p, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(p.lua_state())) { | ||
| 26147 | } | ||
| 26148 | template <typename Super> | ||
| 26149 | basic_coroutine(proxy_base<Super>&& p) | ||
| 26150 | : basic_coroutine(std::move(p), detail::get_default_handler<reference, is_main_threaded<base_t>::value>(p.lua_state())) { | ||
| 26151 | } | ||
| 26152 | template <typename Proxy, typename Handler, | ||
| 26153 | meta::enable<std::is_base_of<proxy_base_tag, meta::unqualified_t<Proxy>>, meta::neg<is_lua_index<meta::unqualified_t<Handler>>>> = meta::enabler> | ||
| 26154 | basic_coroutine(Proxy&& p, Handler&& eh) : basic_coroutine(detail::force_cast<base_t>(p), std::forward<Handler>(eh)) { | ||
| 26155 | } | ||
| 26156 | |||
| 26157 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26158 | basic_coroutine(lua_State* L, T&& r) | ||
| 26159 | : basic_coroutine(L, std::forward<T>(r), detail::get_default_handler<reference, is_main_threaded<base_t>::value>(L)) { | ||
| 26160 | } | ||
| 26161 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26162 | basic_coroutine(lua_State* L, T&& r, handler_t eh) : base_t(L, std::forward<T>(r)), error_handler(std::move(eh)) { | ||
| 26163 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26164 | auto pp = stack::push_pop(*this); | ||
| 26165 | constructor_handler handler {}; | ||
| 26166 | stack::check<basic_coroutine>(lua_state(), -1, handler); | ||
| 26167 | #endif // Safety | ||
| 26168 | } | ||
| 26169 | |||
| 26170 | basic_coroutine(lua_nil_t n) : base_t(n), error_handler(n) { | ||
| 26171 | } | ||
| 26172 | |||
| 26173 | basic_coroutine(lua_State* L, int index = -1) | ||
| 26174 | : basic_coroutine(L, index, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(L)) { | ||
| 26175 | } | ||
| 26176 | basic_coroutine(lua_State* L, int index, handler_t eh) : base_t(L, index), error_handler(std::move(eh)) { | ||
| 26177 | #ifdef SOL_SAFE_REFERENCES | ||
| 26178 | constructor_handler handler {}; | ||
| 26179 | stack::check<basic_coroutine>(L, index, handler); | ||
| 26180 | #endif // Safety | ||
| 26181 | } | ||
| 26182 | basic_coroutine(lua_State* L, absolute_index index) | ||
| 26183 | : basic_coroutine(L, index, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(L)) { | ||
| 26184 | } | ||
| 26185 | basic_coroutine(lua_State* L, absolute_index index, handler_t eh) : base_t(L, index), error_handler(std::move(eh)) { | ||
| 26186 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26187 | constructor_handler handler {}; | ||
| 26188 | stack::check<basic_coroutine>(L, index, handler); | ||
| 26189 | #endif // Safety | ||
| 26190 | } | ||
| 26191 | basic_coroutine(lua_State* L, raw_index index) | ||
| 26192 | : basic_coroutine(L, index, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(L)) { | ||
| 26193 | } | ||
| 26194 | basic_coroutine(lua_State* L, raw_index index, handler_t eh) : base_t(L, index), error_handler(std::move(eh)) { | ||
| 26195 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26196 | constructor_handler handler {}; | ||
| 26197 | stack::check<basic_coroutine>(L, index, handler); | ||
| 26198 | #endif // Safety | ||
| 26199 | } | ||
| 26200 | basic_coroutine(lua_State* L, ref_index index) | ||
| 26201 | : basic_coroutine(L, index, detail::get_default_handler<reference, is_main_threaded<base_t>::value>(L)) { | ||
| 26202 | } | ||
| 26203 | basic_coroutine(lua_State* L, ref_index index, handler_t eh) : base_t(L, index), error_handler(std::move(eh)) { | ||
| 26204 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26205 | auto pp = stack::push_pop(*this); | ||
| 26206 | constructor_handler handler {}; | ||
| 26207 | stack::check<basic_coroutine>(lua_state(), -1, handler); | ||
| 26208 | #endif // Safety | ||
| 26209 | } | ||
| 26210 | |||
| 26211 | call_status status() const noexcept { | ||
| 26212 | return stats; | ||
| 26213 | } | ||
| 26214 | |||
| 26215 | bool error() const noexcept { | ||
| 26216 | call_status cs = status(); | ||
| 26217 | return cs != call_status::ok && cs != call_status::yielded; | ||
| 26218 | } | ||
| 26219 | |||
| 26220 | bool runnable() const noexcept { | ||
| 26221 | return base_t::valid() && (status() == call_status::yielded); | ||
| 26222 | } | ||
| 26223 | |||
| 26224 | explicit operator bool() const noexcept { | ||
| 26225 | return runnable(); | ||
| 26226 | } | ||
| 26227 | |||
| 26228 | template <typename... Args> | ||
| 26229 | protected_function_result operator()(Args&&... args) { | ||
| 26230 | return call<>(std::forward<Args>(args)...); | ||
| 26231 | } | ||
| 26232 | |||
| 26233 | template <typename... Ret, typename... Args> | ||
| 26234 | decltype(auto) operator()(types<Ret...>, Args&&... args) { | ||
| 26235 | return call<Ret...>(std::forward<Args>(args)...); | ||
| 26236 | } | ||
| 26237 | |||
| 26238 | template <typename... Ret, typename... Args> | ||
| 26239 | decltype(auto) call(Args&&... args) { | ||
| 26240 | // some users screw up coroutine.create | ||
| 26241 | // and try to use it with sol::coroutine without ever calling the first resume in Lua | ||
| 26242 | // this makes the stack incompatible with other kinds of stacks: protect against this | ||
| 26243 | // make sure coroutines don't screw us over | ||
| 26244 | base_t::push(); | ||
| 26245 | int pushcount = stack::multi_push_reference(lua_state(), std::forward<Args>(args)...); | ||
| 26246 | return invoke(types<Ret...>(), std::make_index_sequence<sizeof...(Ret)>(), pushcount); | ||
| 26247 | } | ||
| 26248 | }; | ||
| 26249 | } // namespace sol | ||
| 26250 | |||
| 26251 | // end of sol/coroutine.hpp | ||
| 26252 | |||
| 26253 | // beginning of sol/userdata.hpp | ||
| 26254 | |||
| 26255 | namespace sol { | ||
| 26256 | template <typename base_type> | ||
| 26257 | class basic_userdata : public basic_table<base_type> { | ||
| 26258 | private: | ||
| 26259 | using base_t = basic_table<base_type>; | ||
| 26260 | |||
| 26261 | public: | ||
| 26262 | using base_t::lua_state; | ||
| 26263 | |||
| 26264 | basic_userdata() noexcept = default; | ||
| 26265 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_userdata>>, meta::neg<std::is_same<base_t, stack_reference>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26266 | basic_userdata(T&& r) noexcept | ||
| 26267 | : base_t(std::forward<T>(r)) { | ||
| 26268 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26269 | if (!is_userdata<meta::unqualified_t<T>>::value) { | ||
| 26270 | auto pp = stack::push_pop(*this); | ||
| 26271 | type_assert(lua_state(), -1, type::userdata); | ||
| 26272 | } | ||
| 26273 | #endif // Safety | ||
| 26274 | } | ||
| 26275 | basic_userdata(const basic_userdata&) = default; | ||
| 26276 | basic_userdata(basic_userdata&&) = default; | ||
| 26277 | basic_userdata& operator=(const basic_userdata&) = default; | ||
| 26278 | basic_userdata& operator=(basic_userdata&&) = default; | ||
| 26279 | basic_userdata(const stack_reference& r) | ||
| 26280 | : basic_userdata(r.lua_state(), r.stack_index()) { | ||
| 26281 | } | ||
| 26282 | basic_userdata(stack_reference&& r) | ||
| 26283 | : basic_userdata(r.lua_state(), r.stack_index()) { | ||
| 26284 | } | ||
| 26285 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26286 | basic_userdata(lua_State* L, T&& r) | ||
| 26287 | : base_t(L, std::forward<T>(r)) { | ||
| 26288 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26289 | auto pp = stack::push_pop(*this); | ||
| 26290 | constructor_handler handler{}; | ||
| 26291 | stack::check<basic_userdata>(L, -1, handler); | ||
| 26292 | #endif // Safety | ||
| 26293 | } | ||
| 26294 | basic_userdata(lua_State* L, int index = -1) | ||
| 26295 | : base_t(detail::no_safety, L, index) { | ||
| 26296 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26297 | constructor_handler handler{}; | ||
| 26298 | stack::check<basic_userdata>(L, index, handler); | ||
| 26299 | #endif // Safety | ||
| 26300 | } | ||
| 26301 | basic_userdata(lua_State* L, ref_index index) | ||
| 26302 | : base_t(detail::no_safety, L, index) { | ||
| 26303 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26304 | auto pp = stack::push_pop(*this); | ||
| 26305 | constructor_handler handler{}; | ||
| 26306 | stack::check<basic_userdata>(L, -1, handler); | ||
| 26307 | #endif // Safety | ||
| 26308 | } | ||
| 26309 | }; | ||
| 26310 | |||
| 26311 | template <typename base_type> | ||
| 26312 | class basic_lightuserdata : public basic_object_base<base_type> { | ||
| 26313 | typedef basic_object_base<base_type> base_t; | ||
| 26314 | |||
| 26315 | public: | ||
| 26316 | using base_t::lua_state; | ||
| 26317 | |||
| 26318 | basic_lightuserdata() noexcept = default; | ||
| 26319 | template <typename T, meta::enable<meta::neg<std::is_same<meta::unqualified_t<T>, basic_lightuserdata>>, meta::neg<std::is_same<base_t, stack_reference>>, is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26320 | basic_lightuserdata(T&& r) noexcept | ||
| 26321 | : base_t(std::forward<T>(r)) { | ||
| 26322 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26323 | if (!is_lightuserdata<meta::unqualified_t<T>>::value) { | ||
| 26324 | auto pp = stack::push_pop(*this); | ||
| 26325 | type_assert(lua_state(), -1, type::lightuserdata); | ||
| 26326 | } | ||
| 26327 | #endif // Safety | ||
| 26328 | } | ||
| 26329 | basic_lightuserdata(const basic_lightuserdata&) = default; | ||
| 26330 | basic_lightuserdata(basic_lightuserdata&&) = default; | ||
| 26331 | basic_lightuserdata& operator=(const basic_lightuserdata&) = default; | ||
| 26332 | basic_lightuserdata& operator=(basic_lightuserdata&&) = default; | ||
| 26333 | basic_lightuserdata(const stack_reference& r) | ||
| 26334 | : basic_lightuserdata(r.lua_state(), r.stack_index()) { | ||
| 26335 | } | ||
| 26336 | basic_lightuserdata(stack_reference&& r) | ||
| 26337 | : basic_lightuserdata(r.lua_state(), r.stack_index()) { | ||
| 26338 | } | ||
| 26339 | template <typename T, meta::enable<is_lua_reference<meta::unqualified_t<T>>> = meta::enabler> | ||
| 26340 | basic_lightuserdata(lua_State* L, T&& r) | ||
| 26341 | : basic_lightuserdata(L, std::forward<T>(r)) { | ||
| 26342 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26343 | auto pp = stack::push_pop(*this); | ||
| 26344 | constructor_handler handler{}; | ||
| 26345 | stack::check<basic_lightuserdata>(lua_state(), -1, handler); | ||
| 26346 | #endif // Safety | ||
| 26347 | } | ||
| 26348 | basic_lightuserdata(lua_State* L, int index = -1) | ||
| 26349 | : base_t(L, index) { | ||
| 26350 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26351 | constructor_handler handler{}; | ||
| 26352 | stack::check<basic_lightuserdata>(L, index, handler); | ||
| 26353 | #endif // Safety | ||
| 26354 | } | ||
| 26355 | basic_lightuserdata(lua_State* L, ref_index index) | ||
| 26356 | : base_t(L, index) { | ||
| 26357 | #if SOL_IS_ON(SOL_SAFE_REFERENCES_I_) | ||
| 26358 | auto pp = stack::push_pop(*this); | ||
| 26359 | constructor_handler handler{}; | ||
| 26360 | stack::check<basic_lightuserdata>(lua_state(), index, handler); | ||
| 26361 | #endif // Safety | ||
| 26362 | } | ||
| 26363 | }; | ||
| 26364 | |||
| 26365 | } // namespace sol | ||
| 26366 | |||
| 26367 | // end of sol/userdata.hpp | ||
| 26368 | |||
| 26369 | // beginning of sol/as_args.hpp | ||
| 26370 | |||
| 26371 | namespace sol { | ||
| 26372 | template <typename T> | ||
| 26373 | struct as_args_t { | ||
| 26374 | T src; | ||
| 26375 | }; | ||
| 26376 | |||
| 26377 | template <typename Source> | ||
| 26378 | auto as_args(Source&& source) { | ||
| 26379 | return as_args_t<Source> { std::forward<Source>(source) }; | ||
| 26380 | } | ||
| 26381 | |||
| 26382 | namespace stack { | ||
| 26383 | template <typename T> | ||
| 26384 | struct unqualified_pusher<as_args_t<T>> { | ||
| 26385 | int push(lua_State* L, const as_args_t<T>& e) { | ||
| 26386 | int p = 0; | ||
| 26387 | for (const auto& i : e.src) { | ||
| 26388 | p += stack::push(L, i); | ||
| 26389 | } | ||
| 26390 | return p; | ||
| 26391 | } | ||
| 26392 | }; | ||
| 26393 | } // namespace stack | ||
| 26394 | } // namespace sol | ||
| 26395 | |||
| 26396 | // end of sol/as_args.hpp | ||
| 26397 | |||
| 26398 | // beginning of sol/variadic_args.hpp | ||
| 26399 | |||
| 26400 | #include <limits> | ||
| 26401 | #include <iterator> | ||
| 26402 | |||
| 26403 | namespace sol { | ||
| 26404 | struct variadic_args { | ||
| 26405 | private: | ||
| 26406 | lua_State* L; | ||
| 26407 | int index; | ||
| 26408 | int stacktop; | ||
| 26409 | |||
| 26410 | public: | ||
| 26411 | typedef stack_proxy reference_type; | ||
| 26412 | typedef stack_proxy value_type; | ||
| 26413 | typedef stack_proxy* pointer; | ||
| 26414 | typedef std::ptrdiff_t difference_type; | ||
| 26415 | typedef std::size_t size_type; | ||
| 26416 | typedef stack_iterator<stack_proxy, false> iterator; | ||
| 26417 | typedef stack_iterator<stack_proxy, true> const_iterator; | ||
| 26418 | typedef std::reverse_iterator<iterator> reverse_iterator; | ||
| 26419 | typedef std::reverse_iterator<const_iterator> const_reverse_iterator; | ||
| 26420 | |||
| 26421 | variadic_args() = default; | ||
| 26422 | variadic_args(lua_State* luastate, int stackindex = -1) | ||
| 26423 | : L(luastate), index(lua_absindex(luastate, stackindex)), stacktop(lua_gettop(luastate)) { | ||
| 26424 | } | ||
| 26425 | variadic_args(lua_State* luastate, int stackindex, int lastindex) | ||
| 26426 | : L(luastate), index(lua_absindex(luastate, stackindex)), stacktop(lastindex) { | ||
| 26427 | } | ||
| 26428 | variadic_args(const variadic_args&) = default; | ||
| 26429 | variadic_args& operator=(const variadic_args&) = default; | ||
| 26430 | variadic_args(variadic_args&& o) | ||
| 26431 | : L(o.L), index(o.index), stacktop(o.stacktop) { | ||
| 26432 | // Must be manual, otherwise destructor will screw us | ||
| 26433 | // return count being 0 is enough to keep things clean | ||
| 26434 | // but will be thorough | ||
| 26435 | o.L = nullptr; | ||
| 26436 | o.index = 0; | ||
| 26437 | o.stacktop = 0; | ||
| 26438 | } | ||
| 26439 | variadic_args& operator=(variadic_args&& o) { | ||
| 26440 | L = o.L; | ||
| 26441 | index = o.index; | ||
| 26442 | stacktop = o.stacktop; | ||
| 26443 | // Must be manual, otherwise destructor will screw us | ||
| 26444 | // return count being 0 is enough to keep things clean | ||
| 26445 | // but will be thorough | ||
| 26446 | o.L = nullptr; | ||
| 26447 | o.index = 0; | ||
| 26448 | o.stacktop = 0; | ||
| 26449 | return *this; | ||
| 26450 | } | ||
| 26451 | |||
| 26452 | iterator begin() { | ||
| 26453 | return iterator(L, index, stacktop + 1); | ||
| 26454 | } | ||
| 26455 | iterator end() { | ||
| 26456 | return iterator(L, stacktop + 1, stacktop + 1); | ||
| 26457 | } | ||
| 26458 | const_iterator begin() const { | ||
| 26459 | return const_iterator(L, index, stacktop + 1); | ||
| 26460 | } | ||
| 26461 | const_iterator end() const { | ||
| 26462 | return const_iterator(L, stacktop + 1, stacktop + 1); | ||
| 26463 | } | ||
| 26464 | const_iterator cbegin() const { | ||
| 26465 | return begin(); | ||
| 26466 | } | ||
| 26467 | const_iterator cend() const { | ||
| 26468 | return end(); | ||
| 26469 | } | ||
| 26470 | |||
| 26471 | reverse_iterator rbegin() { | ||
| 26472 | return std::reverse_iterator<iterator>(begin()); | ||
| 26473 | } | ||
| 26474 | reverse_iterator rend() { | ||
| 26475 | return std::reverse_iterator<iterator>(end()); | ||
| 26476 | } | ||
| 26477 | const_reverse_iterator rbegin() const { | ||
| 26478 | return std::reverse_iterator<const_iterator>(begin()); | ||
| 26479 | } | ||
| 26480 | const_reverse_iterator rend() const { | ||
| 26481 | return std::reverse_iterator<const_iterator>(end()); | ||
| 26482 | } | ||
| 26483 | const_reverse_iterator crbegin() const { | ||
| 26484 | return std::reverse_iterator<const_iterator>(cbegin()); | ||
| 26485 | } | ||
| 26486 | const_reverse_iterator crend() const { | ||
| 26487 | return std::reverse_iterator<const_iterator>(cend()); | ||
| 26488 | } | ||
| 26489 | |||
| 26490 | int push() const { | ||
| 26491 | return push(L); | ||
| 26492 | } | ||
| 26493 | |||
| 26494 | int push(lua_State* target) const { | ||
| 26495 | int pushcount = 0; | ||
| 26496 | for (int i = index; i <= stacktop; ++i) { | ||
| 26497 | lua_pushvalue(L, i); | ||
| 26498 | pushcount += 1; | ||
| 26499 | } | ||
| 26500 | if (target != L) { | ||
| 26501 | lua_xmove(L, target, pushcount); | ||
| 26502 | } | ||
| 26503 | return pushcount; | ||
| 26504 | } | ||
| 26505 | |||
| 26506 | template <typename T> | ||
| 26507 | decltype(auto) get(difference_type index_offset = 0) const { | ||
| 26508 | return stack::get<T>(L, index + static_cast<int>(index_offset)); | ||
| 26509 | } | ||
| 26510 | |||
| 26511 | type get_type(difference_type index_offset = 0) const noexcept { | ||
| 26512 | return type_of(L, index + static_cast<int>(index_offset)); | ||
| 26513 | } | ||
| 26514 | |||
| 26515 | stack_proxy operator[](difference_type index_offset) const { | ||
| 26516 | return stack_proxy(L, index + static_cast<int>(index_offset)); | ||
| 26517 | } | ||
| 26518 | |||
| 26519 | lua_State* lua_state() const { | ||
| 26520 | return L; | ||
| 26521 | }; | ||
| 26522 | int stack_index() const { | ||
| 26523 | return index; | ||
| 26524 | }; | ||
| 26525 | int leftover_count() const { | ||
| 26526 | return stacktop - (index - 1); | ||
| 26527 | } | ||
| 26528 | std::size_t size() const { | ||
| 26529 | return static_cast<std::size_t>(leftover_count()); | ||
| 26530 | } | ||
| 26531 | int top() const { | ||
| 26532 | return stacktop; | ||
| 26533 | } | ||
| 26534 | }; | ||
| 26535 | |||
| 26536 | namespace stack { | ||
| 26537 | template <> | ||
| 26538 | struct unqualified_getter<variadic_args> { | ||
| 26539 | static variadic_args get(lua_State* L, int index, record& tracking) { | ||
| 26540 | tracking.last = 0; | ||
| 26541 | return variadic_args(L, index); | ||
| 26542 | } | ||
| 26543 | }; | ||
| 26544 | |||
| 26545 | template <> | ||
| 26546 | struct unqualified_pusher<variadic_args> { | ||
| 26547 | static int push(lua_State* L, const variadic_args& ref) { | ||
| 26548 | return ref.push(L); | ||
| 26549 | } | ||
| 26550 | }; | ||
| 26551 | } // namespace stack | ||
| 26552 | } // namespace sol | ||
| 26553 | |||
| 26554 | // end of sol/variadic_args.hpp | ||
| 26555 | |||
| 26556 | // beginning of sol/variadic_results.hpp | ||
| 26557 | |||
| 26558 | // beginning of sol/as_returns.hpp | ||
| 26559 | |||
| 26560 | namespace sol { | ||
| 26561 | template <typename T> | ||
| 26562 | struct as_returns_t { | ||
| 26563 | T src; | ||
| 26564 | }; | ||
| 26565 | |||
| 26566 | template <typename Source> | ||
| 26567 | auto as_returns(Source&& source) { | ||
| 26568 | return as_returns_t<std::decay_t<Source>>{ std::forward<Source>(source) }; | ||
| 26569 | } | ||
| 26570 | |||
| 26571 | namespace stack { | ||
| 26572 | template <typename T> | ||
| 26573 | struct unqualified_pusher<as_returns_t<T>> { | ||
| 26574 | int push(lua_State* L, const as_returns_t<T>& e) { | ||
| 26575 | auto& src = detail::unwrap(e.src); | ||
| 26576 | int p = 0; | ||
| 26577 | for (const auto& i : src) { | ||
| 26578 | p += stack::push(L, i); | ||
| 26579 | } | ||
| 26580 | return p; | ||
| 26581 | } | ||
| 26582 | }; | ||
| 26583 | } // namespace stack | ||
| 26584 | } // namespace sol | ||
| 26585 | |||
| 26586 | // end of sol/as_returns.hpp | ||
| 26587 | |||
| 26588 | #include <vector> | ||
| 26589 | |||
| 26590 | namespace sol { | ||
| 26591 | |||
| 26592 | template <typename Al = typename std::allocator<object>> | ||
| 26593 | struct basic_variadic_results : public std::vector<object, Al> { | ||
| 26594 | private: | ||
| 26595 | using base_t = std::vector<object, Al>; | ||
| 26596 | |||
| 26597 | public: | ||
| 26598 | basic_variadic_results() : base_t() { | ||
| 26599 | } | ||
| 26600 | |||
| 26601 | basic_variadic_results(unsafe_function_result fr) : base_t() { | ||
| 26602 | this->reserve(fr.return_count()); | ||
| 26603 | this->insert(this->cend(), fr.begin(), fr.end()); | ||
| 26604 | } | ||
| 26605 | |||
| 26606 | basic_variadic_results(protected_function_result fr) : base_t() { | ||
| 26607 | this->reserve(fr.return_count()); | ||
| 26608 | this->insert(this->cend(), fr.begin(), fr.end()); | ||
| 26609 | } | ||
| 26610 | |||
| 26611 | template <typename Arg0, typename... Args, | ||
| 26612 | meta::disable_any<std::is_same<meta::unqualified_t<Arg0>, basic_variadic_results>, std::is_same<meta::unqualified_t<Arg0>, function_result>, | ||
| 26613 | std::is_same<meta::unqualified_t<Arg0>, protected_function_result>> = meta::enabler> | ||
| 26614 | basic_variadic_results(Arg0&& arg0, Args&&... args) : base_t(std::forward<Arg0>(arg0), std::forward<Args>(args)...) { | ||
| 26615 | } | ||
| 26616 | |||
| 26617 | basic_variadic_results(const basic_variadic_results&) = default; | ||
| 26618 | basic_variadic_results(basic_variadic_results&&) = default; | ||
| 26619 | }; | ||
| 26620 | |||
| 26621 | struct variadic_results : public basic_variadic_results<> { | ||
| 26622 | private: | ||
| 26623 | using base_t = basic_variadic_results<>; | ||
| 26624 | |||
| 26625 | public: | ||
| 26626 | using base_t::base_t; | ||
| 26627 | }; | ||
| 26628 | |||
| 26629 | template <typename Al> | ||
| 26630 | struct is_container<basic_variadic_results<Al>> : std::false_type { }; | ||
| 26631 | |||
| 26632 | template <> | ||
| 26633 | struct is_container<variadic_results> : std::false_type { }; | ||
| 26634 | |||
| 26635 | namespace stack { | ||
| 26636 | template <typename Al> | ||
| 26637 | struct unqualified_pusher<basic_variadic_results<Al>> { | ||
| 26638 | int push(lua_State* L, const basic_variadic_results<Al>& e) { | ||
| 26639 | int p = 0; | ||
| 26640 | for (const auto& i : e) { | ||
| 26641 | p += stack::push(L, i); | ||
| 26642 | } | ||
| 26643 | return p; | ||
| 26644 | } | ||
| 26645 | }; | ||
| 26646 | |||
| 26647 | template <> | ||
| 26648 | struct unqualified_pusher<variadic_results> { | ||
| 26649 | int push(lua_State* L, const variadic_results& r) { | ||
| 26650 | using base_t = basic_variadic_results<>; | ||
| 26651 | return stack::push(L, static_cast<const base_t&>(r)); | ||
| 26652 | } | ||
| 26653 | }; | ||
| 26654 | } // namespace stack | ||
| 26655 | |||
| 26656 | } // namespace sol | ||
| 26657 | |||
| 26658 | // end of sol/variadic_results.hpp | ||
| 26659 | |||
| 26660 | #if SOL_IS_ON(SOL_COMPILER_GCC_I_) | ||
| 26661 | #pragma GCC diagnostic pop | ||
| 26662 | #elif SOL_IS_ON(SOL_COMPILER_VCXX_I_) | ||
| 26663 | #pragma warning(pop) | ||
| 26664 | #endif // g++ | ||
| 26665 | |||
| 26666 | #if SOL_IS_ON(SOL_INSIDE_UNREAL_ENGINE_I_) | ||
| 26667 | #undef check | ||
| 26668 | #pragma pop_macro("check") | ||
| 26669 | #endif // Unreal Engine 4 Bullshit | ||
| 26670 | |||
| 26671 | #endif // SOL_HPP | ||
| 26672 | // end of sol/sol.hpp | ||
| 26673 | |||
| 26674 | #endif // SOL_SINGLE_INCLUDE_HPP | ||