Add (not working) challenge randomization, hopefully fix treehouse, fix mountain elevator?

author: jbzdarkid <jbzdarkid@gmail.com> 2018-10-28 16:55:57 -0700
committer: jbzdarkid <jbzdarkid@gmail.com> 2018-10-28 16:55:57 -0700
commit: 38475fd9c286667a235b6f609ccf2689949202fd (patch)
tree: 67ef49d8b6e08fcb817140076bf542a499235e9f
parent: efad3bdc35f7e18713938b0bba8bb09228aae996 (diff)
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5 files changed, 189 insertions, 38 deletions
diff --git a/Source/Panels.h b/Source/Panels.h
index b3a7791..2187d57 100644
--- a/Source/Panels.h
+++ b/Source/Panels.h

@@ -34,10 +34,8 @@ std::vector<int> leftRightPanels = {
 // These panels are very tall (aka not square) and can't take symmetry panels on them.
 std::vector<int> tallUpDownPanels = {
-        0x335AB, // UTM In Elevator Control
-        0x3369D, // UTM Lower Elevator Control
-        0x335AC, // UTM Upper Elevator Control
        0x09EEB, // Mountain 2 Elevator
+        0x17CC4, // Mill Elevator Control
 };
 // Note: Some of these (non-controls) are duplicated elsewhere
@@ -57,6 +55,9 @@ std::vector<int> upDownPanels = {
        0x0A3B5, // Tutorial Back Left
        0x17CC4, // Mill Elevator Control
+//      0x335AB, // UTM In Elevator Control
+//      0x3369D, // UTM Lower Elevator Control
+//      0x335AC, // UTM Upper Elevator Control
 };
 // Note: Some of these (non-controls) are duplicated elsewhere
@@ -81,9 +82,33 @@ std::vector<int> pillars = {
        0x09E56, // Mountain 3 Right Pillar 2
        0x09E5A, // Mountain 3 Right Pillar 3
        0x33961, // Mountain 3 Right Pillar 4
-        0x09DD5, // UTM Challenge Pillar
+//      0x09DD5, // UTM Challenge Pillar
-//      0x1C31A, // Challenge Left Pillar
+};
-//      0x1C319, // Challenge Right Pillar
+std::vector<int> challengePanels = {
+        0x0A332, // Challenge Record Start
+        0x0088E, // Challenge Easy Maze
+        0x00BAF, // Challenge Hard Maze
+        0x00BF3, // Challenge Stones Maze
+        0x00C09, // Challenge Pedestal
+        0x0051F, // Challenge Column Bottom Left
+        0x00524, // Challenge Column Top Right
+        0x00CDB, // Challenge Column Top Left
+        0x00CD4, // Challenge Column Far Panel
+        0x00C80, // Challenge Triple 1 Left
+//      0x00CA1, // Challenge Triple 1 Center
+//      0x00CB9, // Challenge Triple 1 Right
+        0x00C22, // Challenge Triple 2 Left
+//      0x00C59, // Challenge Triple 2 Center
+//      0x00C68, // Challenge Triple 2 Right
+//      0x04CB3, // Challenge Left Timer
+//      0x04CB5, // Challenge Middle Timer
+//      0x04CB6, // Challenge Right Timer
+        0x034EC, // Challenge Triangle
+        0x034F4, // Challenge Triangle
+        0x1C31A, // Challenge Left Pillar
+        0x1C319, // Challenge Right Pillar
+//      0x0356B, // Challenge Vault Box
 };
 std::vector<int> mountainMultipanel = {
diff --git a/Source/Randomizer.cpp b/Source/Randomizer.cpp
index 8c4297d..6729ae7 100644
--- a/Source/Randomizer.cpp
+++ b/Source/Randomizer.cpp

@@ -1,18 +1,15 @@
 /*
- * TODO: Split out main() logic into another file, and move into separate functions for easier testing. Then write tests.
 * BUGS:
- * Shipwreck vault fails, possibly because of dot_reflection? Sometimes?
+ * Shipwreck vault is solved reversed?
- * Some panels are impossible casually: (idc, I think)
+ * Extra_back_distance to make pillar swaps work
- ** Town Stars, Invisible dots
+ * Verify UTM perspective?
 * FEATURES:
- * SWAP_TARGETS should still require the full panel sequence (and have ways to prevent softlocks?)
+ * Challenge randomization
- ** Do: Challenge
 * Randomize audio logs
 * Swap sounds in jungle (along with panels) -- maybe impossible
 * Make orange 7 (all of oranges?) hard. Like big = hard.
 * Start the game if it isn't running?
- * UI for the randomizer :(
+ * Increase odds of mountain oranges garbage on other panels? [setting]
- * Increase odds of mountain oranges garbage on other panels?
 */
 #include "Memory.h"
 #include "Randomizer.h"
@@ -34,11 +31,11 @@ int find(const std::vector<T> &data, T search, size_t startIndex = 0) {
 void Randomizer::Randomize()
 {
        // Content swaps -- must happen before squarePanels
-        _core.Randomize(tallUpDownPanels, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(tallUpDownPanels, SWAP_LINES);
-        _core.Randomize(upDownPanels, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(upDownPanels, SWAP_LINES);
-        _core.Randomize(leftForwardRightPanels, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(leftForwardRightPanels, SWAP_LINES);
-        _core.Randomize(squarePanels, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(squarePanels, SWAP_LINES);
        // Individual area modifications
        RandomizeTutorial();
@@ -54,6 +51,7 @@ void Randomizer::Randomize()
        RandomizeJungle();
        RandomizeSwamp();
        RandomizeMountain();
+        // RandomizeChallenge();
 }
 void Randomizer::RandomizeTutorial() {
@@ -68,7 +66,7 @@ void Randomizer::RandomizeSymmetry() {
 }
 void Randomizer::RandomizeDesert() {
-        _core.Randomize(desertPanels, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(desertPanels, SWAP_LINES);
        // Turn off desert surface 8
        _core.WritePanelData<float>(0x09F94, POWER, {0.0, 0.0});
@@ -83,10 +81,14 @@ void Randomizer::RandomizeQuarry() {
 void Randomizer::RandomizeTreehouse() {
        // Ensure that whatever pivot panels we have are flagged as "pivotable"
-        _core.WritePanelData<int>(0x17DD1, STYLE_FLAGS, {0x8000});
+        int panelFlags = _core.ReadPanelData<int>(0x17DD1, STYLE_FLAGS, 1)[0];
-        _core.WritePanelData<int>(0x17CE3, STYLE_FLAGS, {0x8000});
+        _core.WritePanelData<int>(0x17DD1, STYLE_FLAGS, {panelFlags | 0x8000});
-        _core.WritePanelData<int>(0x17DB7, STYLE_FLAGS, {0x8000});
+        panelFlags = _core.ReadPanelData<int>(0x17CE3, STYLE_FLAGS, 1)[0];
-        _core.WritePanelData<int>(0x17E52, STYLE_FLAGS, {0x8000});
+        _core.WritePanelData<int>(0x17CE3, STYLE_FLAGS, {panelFlags | 0x8000});
+        panelFlags = _core.ReadPanelData<int>(0x17DB7, STYLE_FLAGS, 1)[0];
+        _core.WritePanelData<int>(0x17DB7, STYLE_FLAGS, {panelFlags | 0x8000});
+        panelFlags = _core.ReadPanelData<int>(0x17E52, STYLE_FLAGS, 1)[0];
+        _core.WritePanelData<int>(0x17E52, STYLE_FLAGS, {panelFlags | 0x8000});
 }
 void Randomizer::RandomizeKeep() {
@@ -138,11 +140,9 @@ void Randomizer::RandomizeBunker() {
 void Randomizer::RandomizeJungle() {
        std::vector<int> randomOrder(junglePanels.size(), 0);
        std::iota(randomOrder.begin(), randomOrder.end(), 0);
-        // Randomize Waves 2-7
        // Waves 1 cannot be randomized, since no other panel can start on
-        _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 7);
+        _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 7); // Waves 2-7
-        // Randomize Pitches 1-6 onto themselves
+        _core.RandomizeRange(randomOrder, SWAP_NONE, 8, 13); // Pitches 1-6
-        _core.RandomizeRange(randomOrder, SWAP_NONE, 8, 13);
        _core.ReassignTargets(junglePanels, randomOrder);
 }
@@ -153,9 +153,23 @@ void Randomizer::RandomizeSwamp() {
 void Randomizer::RandomizeMountain() {
        _core.Randomize(lasers, SWAP_TARGETS);
-        _core.Randomize(pillars, SWAP_LINES|SWAP_LINES);
+        _core.Randomize(pillars, SWAP_LINES);
+        _core.Randomize(mountainMultipanel, SWAP_LINES);
        // Read the target of keep front laser, and write it to keep back laser.
        std::vector<int> keepFrontLaserTarget = _core.ReadPanelData<int>(0x0360E, TARGET, 1);
        _core.WritePanelData<int>(0x03317, TARGET, keepFrontLaserTarget);
+}
+void Randomizer::RandomizeChallenge() {
+        std::vector<int> randomOrder(challengePanels.size(), 0);
+        std::iota(randomOrder.begin(), randomOrder.end(), 0);
+        _core.RandomizeRange(randomOrder, SWAP_NONE, 1, 11); // Easy maze - Triple 2
+        std::vector<int> triple1Target = _core.ReadPanelData<int>(0x00C80, TARGET, 1);
+        _core.WritePanelData<int>(0x00CA1, TARGET, triple1Target);
+        _core.WritePanelData<int>(0x00CB9, TARGET, triple1Target);
+        std::vector<int> triple2Target = _core.ReadPanelData<int>(0x00C22, TARGET, 1);
+        _core.WritePanelData<int>(0x00C59, TARGET, triple2Target);
+        _core.WritePanelData<int>(0x00C68, TARGET, triple2Target);
+        _core.ReassignTargets(challengePanels, randomOrder);
 }
 \ No newline at end of file
diff --git a/Source/Randomizer.h b/Source/Randomizer.h
index 861f5a2..82ea924 100644
--- a/Source/Randomizer.h
+++ b/Source/Randomizer.h

@@ -6,7 +6,6 @@ public:
        void Randomize();
 private:
-        RandomizerCore _core;
        void RandomizeTutorial();
        void RandomizeSymmetry();
        void RandomizeDesert();
@@ -20,4 +19,7 @@ private:
        void RandomizeJungle();
        void RandomizeSwamp();
        void RandomizeMountain();
+        void RandomizeChallenge();
+        RandomizerCore _core;
 };
diff --git a/Source/RandomizerCore.cpp b/Source/RandomizerCore.cpp
index ef0e6e6..d8d8014 100644
--- a/Source/RandomizerCore.cpp
+++ b/Source/RandomizerCore.cpp

@@ -105,15 +105,6 @@ void RandomizerCore::ReassignTargets(const std::vector<int>& panels, const std::
        for (size_t i=0; i<order.size() - 1; i++) {
                // Set the target of order[i] to order[i+1], using the "real" target as determined above.
                const int panelTarget = targetToActivatePanel[order[i+1]];
-                std::stringstream message;
-                message << "i=" << i;
-                message << " order[i]=" << order[i];
-                message << " order[i+1]=" << order[i+1];
-                message << " panels[order[i]]=0x" << std::hex << panels[order[i]];
-                message << " panels[order[i+1]]=0x" << std::hex << panels[order[i+1]];
-                message << " panelTarget=0x" << std::hex << panelTarget << std::endl;
-                OutputDebugStringA(message.str().c_str());
                WritePanelData<int>(panels[order[i]], TARGET, {panelTarget});
        }
 }
diff --git a/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp b/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp
new file mode 100644
index 0000000..ef0e6e6
--- /dev/null
+++ b/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp

@@ -0,0 +1,119 @@
+#include "RandomizerCore.h"
+#include "Memory.h"
+#include <sstream>
+void RandomizerCore::Randomize(std::vector<int>& panels, int flags) {
+        return RandomizeRange(panels, flags, 0, panels.size());
+}
+// Range is [start, end)
+void RandomizerCore::RandomizeRange(std::vector<int> &panels, int flags, size_t startIndex, size_t endIndex) {
+        if (panels.size() == 0) return;
+        if (startIndex >= endIndex) return;
+        if (endIndex >= panels.size()) endIndex = panels.size();
+        for (size_t i = endIndex-1; i > startIndex; i--) {
+                const size_t target = rand() % (i - startIndex) + startIndex;
+                if (i != target) {
+                        // std::cout << "Swapping panels " << std::hex << panels[i] << " and " << std::hex << panels[target] << std::endl;
+                        SwapPanels(panels[i], panels[target], flags);
+                        std::swap(panels[i], panels[target]); // Panel indices in the array
+                }
+        }
+}
+void RandomizerCore::SwapPanels(int panel1, int panel2, int flags) {
+        std::map<int, int> offsets;
+        if (flags & SWAP_TARGETS) {
+                offsets[TARGET] = sizeof(int);
+        }
+        if (flags & SWAP_LINES) {
+                offsets[PATH_COLOR] = 16;
+                offsets[REFLECTION_PATH_COLOR] = 16;
+                offsets[DOT_COLOR] = 16;
+                offsets[ACTIVE_COLOR] = 16;
+                offsets[BACKGROUND_REGION_COLOR] = 16;
+                offsets[SUCCESS_COLOR_A] = 16;
+                offsets[SUCCESS_COLOR_B] = 16;
+                offsets[STROBE_COLOR_A] = 16;
+                offsets[STROBE_COLOR_B] = 16;
+                offsets[ERROR_COLOR] = 16;
+                offsets[PATTERN_POINT_COLOR] = 16;
+                offsets[PATTERN_POINT_COLOR_A] = 16;
+                offsets[PATTERN_POINT_COLOR_B] = 16;
+                offsets[SYMBOL_A] = 16;
+                offsets[SYMBOL_B] = 16;
+                offsets[SYMBOL_C] = 16;
+                offsets[SYMBOL_D] = 16;
+                offsets[SYMBOL_E] = 16;
+                offsets[PUSH_SYMBOL_COLORS] = sizeof(int);
+                offsets[OUTER_BACKGROUND] = 16;
+                offsets[OUTER_BACKGROUND_MODE] = sizeof(int);
+                offsets[TRACED_EDGES] = 16;
+                offsets[AUDIO_PREFIX] = sizeof(void*);
+//              offsets[IS_CYLINDER] = sizeof(int);
+//              offsets[CYLINDER_Z0] = sizeof(float);
+//              offsets[CYLINDER_Z1] = sizeof(float);
+//              offsets[CYLINDER_RADIUS] = sizeof(float);
+                offsets[SPECULAR_ADD] = sizeof(float);
+                offsets[SPECULAR_POWER] = sizeof(int);
+                offsets[PATH_WIDTH_SCALE] = sizeof(float);
+                offsets[STARTPOINT_SCALE] = sizeof(float);
+                offsets[NUM_DOTS] = sizeof(int);
+                offsets[NUM_CONNECTIONS] = sizeof(int);
+                offsets[DOT_POSITIONS] = sizeof(void*);
+                offsets[DOT_FLAGS] = sizeof(void*);
+                offsets[DOT_CONNECTION_A] = sizeof(void*);
+                offsets[DOT_CONNECTION_B] = sizeof(void*);
+                offsets[DECORATIONS] = sizeof(void*);
+                offsets[DECORATION_FLAGS] = sizeof(void*);
+                offsets[DECORATION_COLORS] = sizeof(void*);
+                offsets[NUM_DECORATIONS] = sizeof(int);
+                offsets[REFLECTION_DATA] = sizeof(void*);
+                offsets[GRID_SIZE_X] = sizeof(int);
+                offsets[GRID_SIZE_Y] = sizeof(int);
+                offsets[STYLE_FLAGS] = sizeof(int);
+                offsets[SEQUENCE_LEN] = sizeof(int);
+                offsets[SEQUENCE] = sizeof(void*);
+                offsets[DOT_SEQUENCE_LEN] = sizeof(int);
+                offsets[DOT_SEQUENCE] = sizeof(void*);
+                offsets[DOT_SEQUENCE_LEN_REFLECTION] = sizeof(int);
+                offsets[DOT_SEQUENCE_REFLECTION] = sizeof(void*);
+                offsets[NUM_COLORED_REGIONS] = sizeof(int);
+                offsets[COLORED_REGIONS] = sizeof(void*);
+                offsets[PANEL_TARGET] = sizeof(void*);
+                offsets[SPECULAR_TEXTURE] = sizeof(void*);
+        }
+        for (auto const& [offset, size] : offsets) {
+                std::vector<byte> panel1data = ReadPanelData<byte>(panel1, offset, size);
+                std::vector<byte> panel2data = ReadPanelData<byte>(panel2, offset, size);
+                WritePanelData<byte>(panel2, offset, panel1data);
+                WritePanelData<byte>(panel1, offset, panel2data);
+        }
+}
+void RandomizerCore::ReassignTargets(const std::vector<int>& panels, const std::vector<int>& order) {
+        // This list is offset by 1, so the target of the Nth panel is in position N (aka the N+1th element)
+        // The first panel may not have a wire to power it, so we use the panel ID itself.
+        std::vector<int> targetToActivatePanel = {panels[0] + 1};
+        for (const int panel : panels) {
+                int target = ReadPanelData<int>(panel, TARGET, 1)[0];
+                targetToActivatePanel.push_back(target);
+        }
+        for (size_t i=0; i<order.size() - 1; i++) {
+                // Set the target of order[i] to order[i+1], using the "real" target as determined above.
+                const int panelTarget = targetToActivatePanel[order[i+1]];
+                std::stringstream message;
+                message << "i=" << i;
+                message << " order[i]=" << order[i];
+                message << " order[i+1]=" << order[i+1];
+                message << " panels[order[i]]=0x" << std::hex << panels[order[i]];
+                message << " panels[order[i+1]]=0x" << std::hex << panels[order[i+1]];
+                message << " panelTarget=0x" << std::hex << panelTarget << std::endl;
+                OutputDebugStringA(message.str().c_str());
+                WritePanelData<int>(panels[order[i]], TARGET, {panelTarget});
+        }
+}
author	jbzdarkid <jbzdarkid@gmail.com>	2018-10-28 16:55:57 -0700
committer	jbzdarkid <jbzdarkid@gmail.com>	2018-10-28 16:55:57 -0700
commit	38475fd9c286667a235b6f609ccf2689949202fd (patch)
tree	67ef49d8b6e08fcb817140076bf542a499235e9f
parent	efad3bdc35f7e18713938b0bba8bb09228aae996 (diff)
download	witness-tutorializer-38475fd9c286667a235b6f609ccf2689949202fd.tar.gz witness-tutorializer-38475fd9c286667a235b6f609ccf2689949202fd.tar.bz2 witness-tutorializer-38475fd9c286667a235b6f609ccf2689949202fd.zip

diff --git a/Source/Panels.h b/Source/Panels.h index b3a7791..2187d57 100644 --- a/Source/Panels.h +++ b/Source/Panels.h
@@ -34,10 +34,8 @@ std::vector<int> leftRightPanels = {
34		34
35	// These panels are very tall (aka not square) and can't take symmetry panels on them.	35	// These panels are very tall (aka not square) and can't take symmetry panels on them.
36	std::vector<int> tallUpDownPanels = {	36	std::vector<int> tallUpDownPanels = {
37	0x335AB, // UTM In Elevator Control
38	0x3369D, // UTM Lower Elevator Control
39	0x335AC, // UTM Upper Elevator Control
40	0x09EEB, // Mountain 2 Elevator	37	0x09EEB, // Mountain 2 Elevator
		38	0x17CC4, // Mill Elevator Control
41	};	39	};
42		40
43	// Note: Some of these (non-controls) are duplicated elsewhere	41	// Note: Some of these (non-controls) are duplicated elsewhere
@@ -57,6 +55,9 @@ std::vector<int> upDownPanels = {
57		55
58	0x0A3B5, // Tutorial Back Left	56	0x0A3B5, // Tutorial Back Left
59	0x17CC4, // Mill Elevator Control	57	0x17CC4, // Mill Elevator Control
		58	// 0x335AB, // UTM In Elevator Control
		59	// 0x3369D, // UTM Lower Elevator Control
		60	// 0x335AC, // UTM Upper Elevator Control
60	};	61	};
61		62
62	// Note: Some of these (non-controls) are duplicated elsewhere	63	// Note: Some of these (non-controls) are duplicated elsewhere
@@ -81,9 +82,33 @@ std::vector<int> pillars = {
81	0x09E56, // Mountain 3 Right Pillar 2	82	0x09E56, // Mountain 3 Right Pillar 2
82	0x09E5A, // Mountain 3 Right Pillar 3	83	0x09E5A, // Mountain 3 Right Pillar 3
83	0x33961, // Mountain 3 Right Pillar 4	84	0x33961, // Mountain 3 Right Pillar 4
84	0x09DD5, // UTM Challenge Pillar	85	// 0x09DD5, // UTM Challenge Pillar
85	// 0x1C31A, // Challenge Left Pillar	86	};
86	// 0x1C319, // Challenge Right Pillar	87
		88	std::vector<int> challengePanels = {
		89	0x0A332, // Challenge Record Start
		90	0x0088E, // Challenge Easy Maze
		91	0x00BAF, // Challenge Hard Maze
		92	0x00BF3, // Challenge Stones Maze
		93	0x00C09, // Challenge Pedestal
		94	0x0051F, // Challenge Column Bottom Left
		95	0x00524, // Challenge Column Top Right
		96	0x00CDB, // Challenge Column Top Left
		97	0x00CD4, // Challenge Column Far Panel
		98	0x00C80, // Challenge Triple 1 Left
		99	// 0x00CA1, // Challenge Triple 1 Center
		100	// 0x00CB9, // Challenge Triple 1 Right
		101	0x00C22, // Challenge Triple 2 Left
		102	// 0x00C59, // Challenge Triple 2 Center
		103	// 0x00C68, // Challenge Triple 2 Right
		104	// 0x04CB3, // Challenge Left Timer
		105	// 0x04CB5, // Challenge Middle Timer
		106	// 0x04CB6, // Challenge Right Timer
		107	0x034EC, // Challenge Triangle
		108	0x034F4, // Challenge Triangle
		109	0x1C31A, // Challenge Left Pillar
		110	0x1C319, // Challenge Right Pillar
		111	// 0x0356B, // Challenge Vault Box
87	};	112	};
88		113
89	std::vector<int> mountainMultipanel = {	114	std::vector<int> mountainMultipanel = {


diff --git a/Source/Randomizer.cpp b/Source/Randomizer.cpp index 8c4297d..6729ae7 100644 --- a/Source/Randomizer.cpp +++ b/Source/Randomizer.cpp
@@ -1,18 +1,15 @@
1	/*	1	/*
2	* TODO: Split out main() logic into another file, and move into separate functions for easier testing. Then write tests.
3	* BUGS:	2	* BUGS:
4	* Shipwreck vault fails, possibly because of dot_reflection? Sometimes?	3	* Shipwreck vault is solved reversed?
5	* Some panels are impossible casually: (idc, I think)	4	* Extra_back_distance to make pillar swaps work
6	** Town Stars, Invisible dots	5	* Verify UTM perspective?
7	* FEATURES:	6	* FEATURES:
8	* SWAP_TARGETS should still require the full panel sequence (and have ways to prevent softlocks?)	7	* Challenge randomization
9	** Do: Challenge
10	* Randomize audio logs	8	* Randomize audio logs
11	* Swap sounds in jungle (along with panels) -- maybe impossible	9	* Swap sounds in jungle (along with panels) -- maybe impossible
12	* Make orange 7 (all of oranges?) hard. Like big = hard.	10	* Make orange 7 (all of oranges?) hard. Like big = hard.
13	* Start the game if it isn't running?	11	* Start the game if it isn't running?
14	* UI for the randomizer :(	12	* Increase odds of mountain oranges garbage on other panels? [setting]
15	* Increase odds of mountain oranges garbage on other panels?
16	*/	13	*/
17	#include "Memory.h"	14	#include "Memory.h"
18	#include "Randomizer.h"	15	#include "Randomizer.h"
@@ -34,11 +31,11 @@ int find(const std::vector<T> &data, T search, size_t startIndex = 0) {
34	void Randomizer::Randomize()	31	void Randomizer::Randomize()
35	{	32	{
36	// Content swaps -- must happen before squarePanels	33	// Content swaps -- must happen before squarePanels
37	_core.Randomize(tallUpDownPanels, SWAP_LINES\|SWAP_LINES);	34	_core.Randomize(tallUpDownPanels, SWAP_LINES);
38	_core.Randomize(upDownPanels, SWAP_LINES\|SWAP_LINES);	35	_core.Randomize(upDownPanels, SWAP_LINES);
39	_core.Randomize(leftForwardRightPanels, SWAP_LINES\|SWAP_LINES);	36	_core.Randomize(leftForwardRightPanels, SWAP_LINES);
40		37
41	_core.Randomize(squarePanels, SWAP_LINES\|SWAP_LINES);	38	_core.Randomize(squarePanels, SWAP_LINES);
42		39
43	// Individual area modifications	40	// Individual area modifications
44	RandomizeTutorial();	41	RandomizeTutorial();
@@ -54,6 +51,7 @@ void Randomizer::Randomize()
54	RandomizeJungle();	51	RandomizeJungle();
55	RandomizeSwamp();	52	RandomizeSwamp();
56	RandomizeMountain();	53	RandomizeMountain();
		54	// RandomizeChallenge();
57	}	55	}
58		56
59	void Randomizer::RandomizeTutorial() {	57	void Randomizer::RandomizeTutorial() {
@@ -68,7 +66,7 @@ void Randomizer::RandomizeSymmetry() {
68	}	66	}
69		67
70	void Randomizer::RandomizeDesert() {	68	void Randomizer::RandomizeDesert() {
71	_core.Randomize(desertPanels, SWAP_LINES\|SWAP_LINES);	69	_core.Randomize(desertPanels, SWAP_LINES);
72		70
73	// Turn off desert surface 8	71	// Turn off desert surface 8
74	_core.WritePanelData<float>(0x09F94, POWER, {0.0, 0.0});	72	_core.WritePanelData<float>(0x09F94, POWER, {0.0, 0.0});
@@ -83,10 +81,14 @@ void Randomizer::RandomizeQuarry() {
83		81
84	void Randomizer::RandomizeTreehouse() {	82	void Randomizer::RandomizeTreehouse() {
85	// Ensure that whatever pivot panels we have are flagged as "pivotable"	83	// Ensure that whatever pivot panels we have are flagged as "pivotable"
86	_core.WritePanelData<int>(0x17DD1, STYLE_FLAGS, {0x8000});	84	int panelFlags = _core.ReadPanelData<int>(0x17DD1, STYLE_FLAGS, 1)[0];
87	_core.WritePanelData<int>(0x17CE3, STYLE_FLAGS, {0x8000});	85	_core.WritePanelData<int>(0x17DD1, STYLE_FLAGS, {panelFlags \| 0x8000});
88	_core.WritePanelData<int>(0x17DB7, STYLE_FLAGS, {0x8000});	86	panelFlags = _core.ReadPanelData<int>(0x17CE3, STYLE_FLAGS, 1)[0];
89	_core.WritePanelData<int>(0x17E52, STYLE_FLAGS, {0x8000});	87	_core.WritePanelData<int>(0x17CE3, STYLE_FLAGS, {panelFlags \| 0x8000});
		88	panelFlags = _core.ReadPanelData<int>(0x17DB7, STYLE_FLAGS, 1)[0];
		89	_core.WritePanelData<int>(0x17DB7, STYLE_FLAGS, {panelFlags \| 0x8000});
		90	panelFlags = _core.ReadPanelData<int>(0x17E52, STYLE_FLAGS, 1)[0];
		91	_core.WritePanelData<int>(0x17E52, STYLE_FLAGS, {panelFlags \| 0x8000});
90	}	92	}
91		93
92	void Randomizer::RandomizeKeep() {	94	void Randomizer::RandomizeKeep() {
@@ -138,11 +140,9 @@ void Randomizer::RandomizeBunker() {
138	void Randomizer::RandomizeJungle() {	140	void Randomizer::RandomizeJungle() {
139	std::vector<int> randomOrder(junglePanels.size(), 0);	141	std::vector<int> randomOrder(junglePanels.size(), 0);
140	std::iota(randomOrder.begin(), randomOrder.end(), 0);	142	std::iota(randomOrder.begin(), randomOrder.end(), 0);
141	// Randomize Waves 2-7
142	// Waves 1 cannot be randomized, since no other panel can start on	143	// Waves 1 cannot be randomized, since no other panel can start on
143	_core.RandomizeRange(randomOrder, SWAP_NONE, 1, 7);	144	_core.RandomizeRange(randomOrder, SWAP_NONE, 1, 7); // Waves 2-7
144	// Randomize Pitches 1-6 onto themselves	145	_core.RandomizeRange(randomOrder, SWAP_NONE, 8, 13); // Pitches 1-6
145	_core.RandomizeRange(randomOrder, SWAP_NONE, 8, 13);
146	_core.ReassignTargets(junglePanels, randomOrder);	146	_core.ReassignTargets(junglePanels, randomOrder);
147	}	147	}
148		148
@@ -153,9 +153,23 @@ void Randomizer::RandomizeSwamp() {
153		153
154	void Randomizer::RandomizeMountain() {	154	void Randomizer::RandomizeMountain() {
155	_core.Randomize(lasers, SWAP_TARGETS);	155	_core.Randomize(lasers, SWAP_TARGETS);
156	_core.Randomize(pillars, SWAP_LINES\|SWAP_LINES);	156	_core.Randomize(pillars, SWAP_LINES);
		157	_core.Randomize(mountainMultipanel, SWAP_LINES);
157		158
158	// Read the target of keep front laser, and write it to keep back laser.	159	// Read the target of keep front laser, and write it to keep back laser.
159	std::vector<int> keepFrontLaserTarget = _core.ReadPanelData<int>(0x0360E, TARGET, 1);	160	std::vector<int> keepFrontLaserTarget = _core.ReadPanelData<int>(0x0360E, TARGET, 1);
160	_core.WritePanelData<int>(0x03317, TARGET, keepFrontLaserTarget);	161	_core.WritePanelData<int>(0x03317, TARGET, keepFrontLaserTarget);
		162	}
		163
		164	void Randomizer::RandomizeChallenge() {
		165	std::vector<int> randomOrder(challengePanels.size(), 0);
		166	std::iota(randomOrder.begin(), randomOrder.end(), 0);
		167	_core.RandomizeRange(randomOrder, SWAP_NONE, 1, 11); // Easy maze - Triple 2
		168	std::vector<int> triple1Target = _core.ReadPanelData<int>(0x00C80, TARGET, 1);
		169	_core.WritePanelData<int>(0x00CA1, TARGET, triple1Target);
		170	_core.WritePanelData<int>(0x00CB9, TARGET, triple1Target);
		171	std::vector<int> triple2Target = _core.ReadPanelData<int>(0x00C22, TARGET, 1);
		172	_core.WritePanelData<int>(0x00C59, TARGET, triple2Target);
		173	_core.WritePanelData<int>(0x00C68, TARGET, triple2Target);
		174	_core.ReassignTargets(challengePanels, randomOrder);
161	} \ No newline at end of file	175	} \ No newline at end of file


diff --git a/Source/Randomizer.h b/Source/Randomizer.h index 861f5a2..82ea924 100644 --- a/Source/Randomizer.h +++ b/Source/Randomizer.h
@@ -6,7 +6,6 @@ public:
6	void Randomize();	6	void Randomize();
7		7
8	private:	8	private:
9	RandomizerCore _core;
10	void RandomizeTutorial();	9	void RandomizeTutorial();
11	void RandomizeSymmetry();	10	void RandomizeSymmetry();
12	void RandomizeDesert();	11	void RandomizeDesert();
@@ -20,4 +19,7 @@ private:
20	void RandomizeJungle();	19	void RandomizeJungle();
21	void RandomizeSwamp();	20	void RandomizeSwamp();
22	void RandomizeMountain();	21	void RandomizeMountain();
		22	void RandomizeChallenge();
		23
		24	RandomizerCore _core;
23	};	25	};


diff --git a/Source/RandomizerCore.cpp b/Source/RandomizerCore.cpp index ef0e6e6..d8d8014 100644 --- a/Source/RandomizerCore.cpp +++ b/Source/RandomizerCore.cpp
@@ -105,15 +105,6 @@ void RandomizerCore::ReassignTargets(const std::vector<int>& panels, const std::
105	for (size_t i=0; i<order.size() - 1; i++) {	105	for (size_t i=0; i<order.size() - 1; i++) {
106	// Set the target of order[i] to order[i+1], using the "real" target as determined above.	106	// Set the target of order[i] to order[i+1], using the "real" target as determined above.
107	const int panelTarget = targetToActivatePanel[order[i+1]];	107	const int panelTarget = targetToActivatePanel[order[i+1]];
108
109	std::stringstream message;
110	message << "i=" << i;
111	message << " order[i]=" << order[i];
112	message << " order[i+1]=" << order[i+1];
113	message << " panels[order[i]]=0x" << std::hex << panels[order[i]];
114	message << " panels[order[i+1]]=0x" << std::hex << panels[order[i+1]];
115	message << " panelTarget=0x" << std::hex << panelTarget << std::endl;
116	OutputDebugStringA(message.str().c_str());
117	WritePanelData<int>(panels[order[i]], TARGET, {panelTarget});	108	WritePanelData<int>(panels[order[i]], TARGET, {panelTarget});
118	}	109	}
119	}	110	}


diff --git a/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp b/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp new file mode 100644 index 0000000..ef0e6e6 --- /dev/null +++ b/enc_temp_folder/39556c61ea71e3139a19e47cd4dbe2/RandomizerCore.cpp
@@ -0,0 +1,119 @@
		1	#include "RandomizerCore.h"
		2	#include "Memory.h"
		3	#include <sstream>
		4
		5	void RandomizerCore::Randomize(std::vector<int>& panels, int flags) {
		6	return RandomizeRange(panels, flags, 0, panels.size());
		7	}
		8
		9	// Range is [start, end)
		10	void RandomizerCore::RandomizeRange(std::vector<int> &panels, int flags, size_t startIndex, size_t endIndex) {
		11	if (panels.size() == 0) return;
		12	if (startIndex >= endIndex) return;
		13	if (endIndex >= panels.size()) endIndex = panels.size();
		14	for (size_t i = endIndex-1; i > startIndex; i--) {
		15	const size_t target = rand() % (i - startIndex) + startIndex;
		16	if (i != target) {
		17	// std::cout << "Swapping panels " << std::hex << panels[i] << " and " << std::hex << panels[target] << std::endl;
		18	SwapPanels(panels[i], panels[target], flags);
		19	std::swap(panels[i], panels[target]); // Panel indices in the array
		20	}
		21	}
		22	}
		23
		24	void RandomizerCore::SwapPanels(int panel1, int panel2, int flags) {
		25	std::map<int, int> offsets;
		26
		27	if (flags & SWAP_TARGETS) {
		28	offsets[TARGET] = sizeof(int);
		29	}
		30	if (flags & SWAP_LINES) {
		31	offsets[PATH_COLOR] = 16;
		32	offsets[REFLECTION_PATH_COLOR] = 16;
		33	offsets[DOT_COLOR] = 16;
		34	offsets[ACTIVE_COLOR] = 16;
		35	offsets[BACKGROUND_REGION_COLOR] = 16;
		36	offsets[SUCCESS_COLOR_A] = 16;
		37	offsets[SUCCESS_COLOR_B] = 16;
		38	offsets[STROBE_COLOR_A] = 16;
		39	offsets[STROBE_COLOR_B] = 16;
		40	offsets[ERROR_COLOR] = 16;
		41	offsets[PATTERN_POINT_COLOR] = 16;
		42	offsets[PATTERN_POINT_COLOR_A] = 16;
		43	offsets[PATTERN_POINT_COLOR_B] = 16;
		44	offsets[SYMBOL_A] = 16;
		45	offsets[SYMBOL_B] = 16;
		46	offsets[SYMBOL_C] = 16;
		47	offsets[SYMBOL_D] = 16;
		48	offsets[SYMBOL_E] = 16;
		49	offsets[PUSH_SYMBOL_COLORS] = sizeof(int);
		50	offsets[OUTER_BACKGROUND] = 16;
		51	offsets[OUTER_BACKGROUND_MODE] = sizeof(int);
		52	offsets[TRACED_EDGES] = 16;
		53	offsets[AUDIO_PREFIX] = sizeof(void*);
		54	// offsets[IS_CYLINDER] = sizeof(int);
		55	// offsets[CYLINDER_Z0] = sizeof(float);
		56	// offsets[CYLINDER_Z1] = sizeof(float);
		57	// offsets[CYLINDER_RADIUS] = sizeof(float);
		58	offsets[SPECULAR_ADD] = sizeof(float);
		59	offsets[SPECULAR_POWER] = sizeof(int);
		60	offsets[PATH_WIDTH_SCALE] = sizeof(float);
		61	offsets[STARTPOINT_SCALE] = sizeof(float);
		62	offsets[NUM_DOTS] = sizeof(int);
		63	offsets[NUM_CONNECTIONS] = sizeof(int);
		64	offsets[DOT_POSITIONS] = sizeof(void*);
		65	offsets[DOT_FLAGS] = sizeof(void*);
		66	offsets[DOT_CONNECTION_A] = sizeof(void*);
		67	offsets[DOT_CONNECTION_B] = sizeof(void*);
		68	offsets[DECORATIONS] = sizeof(void*);
		69	offsets[DECORATION_FLAGS] = sizeof(void*);
		70	offsets[DECORATION_COLORS] = sizeof(void*);
		71	offsets[NUM_DECORATIONS] = sizeof(int);
		72	offsets[REFLECTION_DATA] = sizeof(void*);
		73	offsets[GRID_SIZE_X] = sizeof(int);
		74	offsets[GRID_SIZE_Y] = sizeof(int);
		75	offsets[STYLE_FLAGS] = sizeof(int);
		76	offsets[SEQUENCE_LEN] = sizeof(int);
		77	offsets[SEQUENCE] = sizeof(void*);
		78	offsets[DOT_SEQUENCE_LEN] = sizeof(int);
		79	offsets[DOT_SEQUENCE] = sizeof(void*);
		80	offsets[DOT_SEQUENCE_LEN_REFLECTION] = sizeof(int);
		81	offsets[DOT_SEQUENCE_REFLECTION] = sizeof(void*);
		82	offsets[NUM_COLORED_REGIONS] = sizeof(int);
		83	offsets[COLORED_REGIONS] = sizeof(void*);
		84	offsets[PANEL_TARGET] = sizeof(void*);
		85	offsets[SPECULAR_TEXTURE] = sizeof(void*);
		86	}
		87
		88	for (auto const& [offset, size] : offsets) {
		89	std::vector<byte> panel1data = ReadPanelData<byte>(panel1, offset, size);
		90	std::vector<byte> panel2data = ReadPanelData<byte>(panel2, offset, size);
		91	WritePanelData<byte>(panel2, offset, panel1data);
		92	WritePanelData<byte>(panel1, offset, panel2data);
		93	}
		94	}
		95
		96	void RandomizerCore::ReassignTargets(const std::vector<int>& panels, const std::vector<int>& order) {
		97	// This list is offset by 1, so the target of the Nth panel is in position N (aka the N+1th element)
		98	// The first panel may not have a wire to power it, so we use the panel ID itself.
		99	std::vector<int> targetToActivatePanel = {panels[0] + 1};
		100	for (const int panel : panels) {
		101	int target = ReadPanelData<int>(panel, TARGET, 1)[0];
		102	targetToActivatePanel.push_back(target);
		103	}
		104
		105	for (size_t i=0; i<order.size() - 1; i++) {
		106	// Set the target of order[i] to order[i+1], using the "real" target as determined above.
		107	const int panelTarget = targetToActivatePanel[order[i+1]];
		108
		109	std::stringstream message;
		110	message << "i=" << i;
		111	message << " order[i]=" << order[i];
		112	message << " order[i+1]=" << order[i+1];
		113	message << " panels[order[i]]=0x" << std::hex << panels[order[i]];
		114	message << " panels[order[i+1]]=0x" << std::hex << panels[order[i+1]];
		115	message << " panelTarget=0x" << std::hex << panelTarget << std::endl;
		116	OutputDebugStringA(message.str().c_str());
		117	WritePanelData<int>(panels[order[i]], TARGET, {panelTarget});
		118	}
		119	}