5 files changed, 387 insertions, 471 deletions

@@ -27,12 +27,11 @@
 #define TMP4 0x504
 
 #include "Panel.h"
-int panel = 0x33D4;
-std::shared_ptr<Panel> g_panel;
+// int panel = 0x33D4; // Tutorial vault
+int panel = 0x0005D; // Outside Tutorial Dots Tutorial 1
+Puzzle g_puzzle;
 /* ------- Temp ------- */
 
-
-
 // Globals
 HWND g_hwnd;
 HWND g_seed;
@@ -133,13 +132,10 @@ LRESULT CALLBACK WndProc(HWND hwnd, UINT message, WPARAM wParam, LPARAM lParam)
                 CheckDlgButton(hwnd, SPEED_UP_AUTOSCROLLERS, !IsDlgButtonChecked(hwnd, SPEED_UP_AUTOSCROLLERS));
                 break;
             case TMP1:
-                g_panel = std::make_shared<Panel>(g_witnessProc, panel);
+                g_puzzle = PuzzleSerializer(g_witnessProc).ReadPuzzle(panel);
                 break;
             case TMP2:
-                if(g_panel) g_panel->Write(panel);
-                break;
-            case TMP4:
-                if(g_panel) g_panel->Serialize();
+                PuzzleSerializer(g_witnessProc).WritePuzzle(g_puzzle, panel);
                 break;
         }
     }
@@ -223,10 +219,9 @@ int APIENTRY wWinMain(_In_ HINSTANCE hInstance, _In_opt_ HINSTANCE hPrevInstance
     CreateCheckbox(10, 340, SPEED_UP_AUTOSCROLLERS);
     CreateLabel(30, 340, 205, L"Speed up various autoscrollers");
 
-    // CreateButton(200, 100, 100, L"Read", TMP1);
-    // CreateButton(200, 130, 100, L"Write", TMP2);
-    // CreateButton(200, 160, 100, L"Random", TMP3);
-    // CreateButton(200, 190, 100, L"Dump", TMP4);
+    CreateButton(200, 100, 100, L"Read", TMP1);
+    CreateButton(200, 130, 100, L"Write", TMP2);
+    CreateButton(200, 190, 100, L"Dump", TMP4);
 
     g_witnessProc->StartHeartbeat(g_hwnd);
 
@@ -54,6 +54,7 @@ public:
 private:
         template<class T>
         std::vector<T> ReadData(const std::vector<int>& offsets, size_t numItems) {
+        if (numItems == 0) return {};
                 std::vector<T> data;
                 data.resize(numItems);
                 for (int i=0; i<5; i++) {
@@ -68,6 +69,7 @@ private:
 
         template <class T>
         void WriteData(const std::vector<int>& offsets, const std::vector<T>& data) {
+        if (data.empty()) return;
                 for (int i=0; i<5; i++) {
                         if (WriteProcessMemory(_handle, ComputeOffset(offsets), &data[0], sizeof(T) * data.size(), nullptr)) {
                                 return;
@@ -97,4 +99,140 @@ private:
         friend class Temp;
         friend class ChallengeRandomizer;
         friend class Randomizer;
-};
\ No newline at end of file
+};
+
+#if GLOBALS == 0x5B28C0
+#define PATH_COLOR 0xC8
+#define REFLECTION_PATH_COLOR 0xD8
+#define DOT_COLOR 0xF8
+#define ACTIVE_COLOR 0x108
+#define BACKGROUND_REGION_COLOR 0x118
+#define SUCCESS_COLOR_A 0x128
+#define SUCCESS_COLOR_B 0x138
+#define STROBE_COLOR_A 0x148
+#define STROBE_COLOR_B 0x158
+#define ERROR_COLOR 0x168
+#define PATTERN_POINT_COLOR 0x188
+#define PATTERN_POINT_COLOR_A 0x198
+#define PATTERN_POINT_COLOR_B 0x1A8
+#define SYMBOL_A 0x1B8
+#define SYMBOL_B 0x1C8
+#define SYMBOL_C 0x1D8
+#define SYMBOL_D 0x1E8
+#define SYMBOL_E 0x1F8
+#define PUSH_SYMBOL_COLORS 0x208
+#define OUTER_BACKGROUND 0x20C
+#define OUTER_BACKGROUND_MODE 0x21C
+#define TRACED_EDGES 0x230
+#define AUDIO_PREFIX 0x278
+#define POWER 0x2A8
+#define TARGET 0x2BC
+#define POWER_OFF_ON_FAIL 0x2C0
+#define IS_CYLINDER 0x2FC
+#define CYLINDER_Z0 0x300
+#define CYLINDER_Z1 0x304
+#define CYLINDER_RADIUS 0x308
+#define CURSOR_SPEED_SCALE 0x358
+#define NEEDS_REDRAW 0x384
+#define SPECULAR_ADD 0x398
+#define SPECULAR_POWER 0x39C
+#define PATH_WIDTH_SCALE 0x3A4
+#define STARTPOINT_SCALE 0x3A8
+#define NUM_DOTS 0x3B8
+#define NUM_CONNECTIONS 0x3BC
+#define MAX_BROADCAST_DISTANCE 0x3C0
+#define DOT_POSITIONS 0x3C8
+#define DOT_FLAGS 0x3D0
+#define DOT_CONNECTION_A 0x3D8
+#define DOT_CONNECTION_B 0x3E0
+#define DECORATIONS 0x420
+#define DECORATION_FLAGS 0x428
+#define DECORATION_COLORS 0x430
+#define NUM_DECORATIONS 0x438
+#define REFLECTION_DATA 0x440
+#define GRID_SIZE_X 0x448
+#define GRID_SIZE_Y 0x44C
+#define STYLE_FLAGS 0x450
+#define SEQUENCE_LEN 0x45C
+#define SEQUENCE 0x460
+#define DOT_SEQUENCE_LEN 0x468
+#define DOT_SEQUENCE 0x470
+#define DOT_SEQUENCE_LEN_REFLECTION 0x478
+#define DOT_SEQUENCE_REFLECTION 0x480
+#define NUM_COLORED_REGIONS 0x4A0
+#define COLORED_REGIONS 0x4A8
+#define PANEL_TARGET 0x4B0
+#define SPECULAR_TEXTURE 0x4D8
+#define CABLE_TARGET_2 0xD8
+#define AUDIO_LOG_NAME 0xC8
+#define OPEN_RATE 0xE8
+#define METADATA 0xF2 // sizeof(short)
+#define HOTEL_EP_NAME 0x4BC640
+#elif GLOBALS == 0x62D0A0
+#define PATH_COLOR 0xC0
+#define REFLECTION_PATH_COLOR 0xD0
+#define DOT_COLOR 0xF0
+#define ACTIVE_COLOR 0x100
+#define BACKGROUND_REGION_COLOR 0x110
+#define SUCCESS_COLOR_A 0x120
+#define SUCCESS_COLOR_B 0x130
+#define STROBE_COLOR_A 0x140
+#define STROBE_COLOR_B 0x150
+#define ERROR_COLOR 0x160
+#define PATTERN_POINT_COLOR 0x180
+#define PATTERN_POINT_COLOR_A 0x190
+#define PATTERN_POINT_COLOR_B 0x1A0
+#define SYMBOL_A 0x1B0
+#define SYMBOL_B 0x1C0
+#define SYMBOL_C 0x1D0
+#define SYMBOL_D 0x1E0
+#define SYMBOL_E 0x1F0
+#define PUSH_SYMBOL_COLORS 0x200
+#define OUTER_BACKGROUND 0x204
+#define OUTER_BACKGROUND_MODE 0x214
+#define TRACED_EDGES 0x228
+#define AUDIO_PREFIX 0x270
+#define POWER 0x2A0
+#define TARGET 0x2B4
+#define POWER_OFF_ON_FAIL 0x2B8
+#define IS_CYLINDER 0x2F4
+#define CYLINDER_Z0 0x2F8
+#define CYLINDER_Z1 0x2FC
+#define CYLINDER_RADIUS 0x300
+#define CURSOR_SPEED_SCALE 0x350
+#define NEEDS_REDRAW 0x37C
+#define SPECULAR_ADD 0x38C
+#define SPECULAR_POWER 0x390
+#define PATH_WIDTH_SCALE 0x39C
+#define STARTPOINT_SCALE 0x3A0
+#define NUM_DOTS 0x3B4
+#define NUM_CONNECTIONS 0x3B8
+#define MAX_BROADCAST_DISTANCE 0x3BC
+#define DOT_POSITIONS 0x3C0
+#define DOT_FLAGS 0x3C8
+#define DOT_CONNECTION_A 0x3D0
+#define DOT_CONNECTION_B 0x3D8
+#define DECORATIONS 0x418
+#define DECORATION_FLAGS 0x420
+#define DECORATION_COLORS 0x428
+#define NUM_DECORATIONS 0x430
+#define REFLECTION_DATA 0x438
+#define GRID_SIZE_X 0x440
+#define GRID_SIZE_Y 0x444
+#define STYLE_FLAGS 0x448
+#define SEQUENCE_LEN 0x454
+#define SEQUENCE 0x458
+#define DOT_SEQUENCE_LEN 0x460
+#define DOT_SEQUENCE 0x468
+#define DOT_SEQUENCE_LEN_REFLECTION 0x470
+#define DOT_SEQUENCE_REFLECTION 0x478
+#define NUM_COLORED_REGIONS 0x498
+#define COLORED_REGIONS 0x4A0
+#define PANEL_TARGET 0x4A8
+#define SPECULAR_TEXTURE 0x4D0
+#define CABLE_TARGET_2 0xD0
+#define AUDIO_LOG_NAME 0x0
+#define OPEN_RATE 0xE0
+#define METADATA 0x13A // sizeof(short)
+#define HOTEL_EP_NAME 0x51E340
+#endif
\ No newline at end of file
@@ -1,108 +1,36 @@
 #include "Panel.h"
-#include "Random.h"
 #include "Memory.h"
-#include "Randomizer.h"
-#include <sstream>
 
 #pragma warning (disable:26451)
+#pragma warning (disable:26812)
 
-template <class T>
-int find(const std::vector<T> &data, T search, size_t startIndex = 0) {
-        for (size_t i=startIndex ; i<data.size(); i++) {
-                if (data[i] == search) return static_cast<int>(i);
-        }
-        return -1;
-}
-
-Panel::Panel(const std::shared_ptr<Memory>& memory, int id) : _memory(memory) {
-        _width = 2 * _memory->ReadPanelData<int>(id, GRID_SIZE_X, 1)[0] - 1;
-        _height = 2 * _memory->ReadPanelData<int>(id, GRID_SIZE_Y, 1)[0] - 1;
-        _grid.resize(_width);
-        for (auto& row : _grid) row.resize(_height);
-
-        ReadIntersections(id);
-        ReadDecorations(id);
-}
-
-void Panel::Write(int id) {
-        WriteIntersections(id);
-        WriteDecorations(id);
-        
-        _memory->WritePanelData<int>(id, GRID_SIZE_X, {(_width + 1)/2});
-        _memory->WritePanelData<int>(id, GRID_SIZE_Y, {(_height + 1)/2});
-}
-
-nlohmann::json Panel::Serialize() {
-        nlohmann::json puzzle = {
-                {"pillar", false},
-                {"dots", nlohmann::json::array()},
-                {"gaps", nlohmann::json::array()},
-                {"name", "Imported from The Witness :O"},
-                {"regionCache", nlohmann::json::object()},
-        };
-        if (_grid.empty()) return {};
-        puzzle["grid"] = nlohmann::json::array();
-        
-        for (int x=0; x<_width; x++) {
-                for (int y=0; y<_height; y++) {
-                        if (x%2 == 1 && y%2 == 1) {
-                                puzzle["grid"][x][y] = Decoration_to_json(_grid[x][y]);
-                        } else {
-                                if (_grid[x][y] & IntersectionFlags::HAS_DOT) {
-                                        puzzle["dots"].emplace_back(nlohmann::json({{"x", x}, {"y", y}}));
-                                }
-                                puzzle["grid"][x][y] = false;
-                        }
-                }
-        }
-
-        puzzle["startPoints"] = nlohmann::json::array();
-        for (auto [x, y] : _startpoints) {
-                nlohmann::json startPoint = {{"x", x}, {"y", y}};
-                puzzle["startPoints"].emplace_back(startPoint);
-        }
-        puzzle["endPoints"] = nlohmann::json::array();
-        for (Endpoint endpoint : _endpoints) {
-                puzzle["endPoints"].emplace_back(endpoint.to_json());
-        }
-
-        std::string out = puzzle.dump();
-        return puzzle;
-}
+PuzzleSerializer::PuzzleSerializer(const std::shared_ptr<Memory>& memory) : _memory(memory) {}
 
-void Panel::ReadDecorations(int id) {
-        int numDecorations = _memory->ReadPanelData<int>(id, NUM_DECORATIONS, 1)[0];
-        std::vector<int> decorations = _memory->ReadArray<int>(id, DECORATIONS, numDecorations);
+Puzzle PuzzleSerializer::ReadPuzzle(int id) {
+    Puzzle p;
+    p.width = 2 * _memory->ReadPanelData<int>(id, GRID_SIZE_X, 1)[0] - 1;
+    p.height = 2 * _memory->ReadPanelData<int>(id, GRID_SIZE_Y, 1)[0] - 1;
+    p.grid.resize(p.width);
+        for (auto& row : p.grid) row.resize(p.height);
 
-        for (int i=0; i<numDecorations; i++) {
-                auto [x, y] = dloc_to_xy(i);
-                _grid[x][y] = decorations[i];
-        }
-}
-
-void Panel::WriteDecorations(int id) {
-        std::vector<int> decorations;
-        for (int y=_height-2; y>0; y-=2) {
-                for (int x=1; x<_width - 1; x+=2) {
-                        decorations.push_back(_grid[x][y]);
-                }
-        }
+        ReadIntersections(p, id);
+        ReadDecorations(p, id);
 
-        _memory->WritePanelData<int>(id, NUM_DECORATIONS, {static_cast<int>(decorations.size())});
-        _memory->WriteArray<int>(id, DECORATIONS, decorations);
+    return p;
 }
 
-void Panel::ReadIntersections(int id) {
+void PuzzleSerializer::ReadIntersections(Puzzle& p, int id) {
         int numIntersections = _memory->ReadPanelData<int>(id, NUM_DOTS, 1)[0];
         std::vector<int> intersectionFlags = _memory->ReadArray<int>(id, DOT_FLAGS, numIntersections);
 
         int i = 0;
         for (;; i++) {
-                auto [x, y] = loc_to_xy(i);
+                auto [x, y] = loc_to_xy(p, i);
                 if (y < 0) break;
-                if (intersectionFlags[i] & IntersectionFlags::IS_STARTPOINT) {
-                        _startpoints.push_back({x, y});
+                if (intersectionFlags[i] & Flags::IS_STARTPOINT) {
+            p.grid[x][y].start = true;
                 }
+        p.grid[x][y].dot = FlagsToDot(intersectionFlags[i]);
         }
 
         int numConnections = _memory->ReadPanelData<int>(id, NUM_CONNECTIONS, 1)[0];
@@ -112,34 +40,32 @@ void Panel::ReadIntersections(int id) {
 
         // Iterate the remaining intersections (endpoints, dots, gaps)
         for (; i < numIntersections; i++) {
-                if (intersectionFlags[i] & IntersectionFlags::IS_ENDPOINT) {
+                if (intersectionFlags[i] & Flags::IS_ENDPOINT) {
                         for (int j=0; j<numConnections; j++) {
                                 int location = 0;
                                 if (connections_a[j] == i) location = connections_b[j];
                                 if (connections_b[j] == i) location = connections_a[j];
                                 if (location != 0) {
-                                        Endpoint::Direction dir;
+                                        auto [x, y] = loc_to_xy(p, location);
                                         if (intersections[2*i] < intersections[2*location]) { // Our (i) x coordinate is less than the target's (location)
-                                                dir = Endpoint::Direction::LEFT;
+                        p.grid[x][y].end = Cell::Dir::LEFT;
                                         } else if (intersections[2*i] > intersections[2*location]) {
-                                                dir = Endpoint::Direction::RIGHT;
+                        p.grid[x][y].end = Cell::Dir::RIGHT;
                                         } else if (intersections[2*i + 1] > intersections[2*location + 1]) { // y coordinate is 0 (bottom) 1 (top), so this check is reversed.
-                                                dir = Endpoint::Direction::UP;
+                        p.grid[x][y].end = Cell::Dir::UP;
                                         } else {
-                                                dir = Endpoint::Direction::DOWN;
+                        p.grid[x][y].end = Cell::Dir::DOWN;
                                         }
-                                        auto [x, y] = loc_to_xy(location);
-                                        _endpoints.push_back(Endpoint(x, y, dir));
                                         break;
                                 }
                         }
-                } else if (intersectionFlags[i] & IntersectionFlags::HAS_DOT) {
+                } else if (intersectionFlags[i] & Flags::HAS_DOT) {
                         for (int j=0; j<numConnections; j++) {
                                 int location = 0;
                                 if (connections_a[j] == i) location = connections_b[j];
                                 if (connections_b[j] == i) location = connections_a[j];
                                 if (location != 0) {
-                                        auto [x, y] = loc_to_xy(location);
+                                        auto [x, y] = loc_to_xy(p, location);
                                         float x1 = intersections[2*i];
                                         float y1 = intersections[2*i+1];
                                         float x2 = intersections[2*location];
@@ -156,7 +82,7 @@ void Panel::ReadIntersections(int id) {
                                                 y++;
                                         }
 
-                                        _grid[x][y] |= IntersectionFlags::HAS_DOT;
+                    p.grid[x][y].dot = FlagsToDot(intersectionFlags[i]);
                                         break;
                                 }
                         }
@@ -164,72 +90,134 @@ void Panel::ReadIntersections(int id) {
         }       
 }
 
-void Panel::WriteIntersections(int id) {
+void PuzzleSerializer::ReadDecorations(Puzzle& p, int id) {
+        int numDecorations = _memory->ReadPanelData<int>(id, NUM_DECORATIONS, 1)[0];
+        std::vector<int> decorations = _memory->ReadArray<int>(id, DECORATIONS, numDecorations);
+    if (numDecorations != decorations.size()) return; // @Error!
+
+        for (int i=0; i<numDecorations; i++) {
+                auto [x, y] = dloc_to_xy(p, i);
+        auto d = std::make_shared<Decoration>();
+        p.grid[x][y].decoration = d;
+        d->type = static_cast<Shape>(decorations[i] & 0xFF00);
+        switch(d->type) {
+            case Shape::Poly:
+            case Shape::RPoly:
+            case Shape::Ylop:
+                d->polyshape = decorations[i] & 0xFFFF0000;
+                break;
+            case Shape::Triangle:
+                d->count = decorations[i] & 0x000F0000;
+                break;
+        }
+        d->color = static_cast<Color>(decorations[i] & 0xF);
+        }
+}
+
+void PuzzleSerializer::WritePuzzle(const Puzzle& p, int id) {
+        _memory->WritePanelData<int>(id, GRID_SIZE_X, {(p.width + 1)/2});
+        _memory->WritePanelData<int>(id, GRID_SIZE_Y, {(p.height + 1)/2});
+
+        WriteIntersections(p, id);
+        WriteDecorations(p, id);
+
+        _memory->WritePanelData<int>(id, NEEDS_REDRAW, {1});
+}
+
+void PuzzleSerializer::WriteIntersections(const Puzzle& p, int id) {
         std::vector<float> intersections;
         std::vector<int> intersectionFlags;
         std::vector<int> connections_a;
         std::vector<int> connections_b;
 
-        double min = 0.1;
-        double max = 0.9;
-        double width_interval = (max - min) / (_width/2);
-        double height_interval = (max - min) / (_height/2);
+        float min = 0.1f;
+        float max = 0.9f;
+        float width_interval = (max - min) / (p.width/2);
+        float height_interval = (max - min) / (p.height/2);
 
-        // TODO(future): Stop using push_back and set these into explicit locations, unrequires loop iteration order
-        for (int y=_height-1; y>=0; y-=2) {
-                for (int x=0; x<_width; x+=2) {
+        // @Cleanup: If I write directly to locations, then I can remove this gross loop iterator.
+        for (int y=p.height-1; y>=0; y-=2) {
+                for (int x=0; x<p.width; x+=2) {
                         intersections.push_back(static_cast<float>(min + (x/2) * width_interval));
                         intersections.push_back(static_cast<float>(max - (y/2) * height_interval));
                         int flags = 0;
-                        if (find(_startpoints, {x, y}) != -1) flags |= IntersectionFlags::IS_STARTPOINT;
+            if (p.grid[x][y].start) {
+                flags |= Flags::IS_STARTPOINT;
+            }
                         intersectionFlags.push_back(flags);
 
                         // Create connections for this intersection -- always write low -> high
                         if (y > 0) {
-                                connections_a.push_back(xy_to_loc(x, y-2));
-                                connections_b.push_back(xy_to_loc(x, y));
+                                connections_a.push_back(xy_to_loc(p, x, y-2));
+                                connections_b.push_back(xy_to_loc(p, x, y));
                         }
                         if (x > 0) {
-                                connections_a.push_back(xy_to_loc(x-2, y));
-                                connections_b.push_back(xy_to_loc(x, y));
+                                connections_a.push_back(xy_to_loc(p, x-2, y));
+                                connections_b.push_back(xy_to_loc(p, x, y));
                         }
                 }
         }
 
-        for (Endpoint endpoint : _endpoints) {
-                connections_a.push_back(xy_to_loc(endpoint.GetX(), endpoint.GetY())); // Target to connect to
-                connections_b.push_back(static_cast<int>(intersectionFlags.size())); // This endpoint
-
-                double xPos = min + (endpoint.GetX()/2) * width_interval;
-                double yPos = max - (endpoint.GetY()/2) * height_interval;
-                if (endpoint.GetDir()== Endpoint::Direction::LEFT) {
-                        xPos -= .05;
-                } else if (endpoint.GetDir() == Endpoint::Direction::RIGHT) {
-                        xPos += .05;
-                } else if (endpoint.GetDir() == Endpoint::Direction::UP) {
-                        yPos += .05; // Y position goes from 0 (bottom) to 1 (top), so this is reversed.
-                } else if (endpoint.GetDir() == Endpoint::Direction::DOWN) {
-                        yPos -= .05;
-                }
-                intersections.push_back(static_cast<float>(xPos));
-                intersections.push_back(static_cast<float>(yPos));
-                intersectionFlags.push_back(IntersectionFlags::IS_ENDPOINT);
-        }
+    for (int x=0; x<p.width; x++) {
+        for (int y=0; y<p.height; y++) {
+            if (p.grid[x][y].end == Cell::Dir::NONE) continue;
+            connections_a.push_back(xy_to_loc(p, x, y)); // Target to connect to
+                    connections_b.push_back(static_cast<int>(intersectionFlags.size())); // This endpoint
+
+                    float xPos = min + (x/2) * width_interval;
+                    float yPos = max - (y/2) * height_interval;
+            switch (p.grid[x][y].end) {
+                case Cell::Dir::LEFT:
+                                xPos -= .05f;
+                    break;
+                case Cell::Dir::RIGHT:
+                                xPos += .05f;
+                    break;
+                case Cell::Dir::UP:
+                                yPos += .05f; // Y position goes from 0 (bottom) to 1 (top), so this is reversed.
+                    break;
+                case Cell::Dir::DOWN:
+                                yPos -= .05f;
+                    break;
+            }
+                    intersections.push_back(xPos);
+                    intersections.push_back(yPos);
+                    intersectionFlags.push_back(Flags::IS_ENDPOINT);
+        }
+    }
 
         // Dots
-        for (int y=0; y<_height; y++) {
-                for (int x=0; x<_width; x++) {
-                        if (!(_grid[x][y] & IntersectionFlags::HAS_DOT)) continue;
+    for (int x=0; x<p.width; x++) {
+        for (int y=0; y<p.height; y++) {
+                        if (p.grid[x][y].dot == Cell::Dot::NONE) continue;
                         if (x%2 == 1 && y%2 == 1) continue;
+
+            int flags = Flags::HAS_DOT;
+            switch (p.grid[x][y].dot) {
+                case Cell::Dot::BLACK:
+                    break;
+                case Cell::Dot::BLUE:
+                    flags |= DOT_IS_BLUE;
+                    break;
+                case Cell::Dot::YELLOW:
+                    flags |= DOT_IS_ORANGE;
+                    break;
+                case Cell::Dot::INVISIBLE:
+                    flags |= DOT_IS_INVISIBLE;
+                    break;
+            }
+
+            // Dot is already a point the grid, just overwrite the flags
                         if (x%2 == 0 && y%2 == 0) {
-                                intersectionFlags[xy_to_loc(x, y)] |= _grid[x][y];
+                                intersectionFlags[xy_to_loc(p, x, y)] |= flags;
                                 continue;
                         }
 
+            // Else, we need to introduce a new segment
                         // Locate the segment we're breaking
                         for (int i=0; i<connections_a.size(); i++) {
-                                auto [x1, y1] = loc_to_xy(connections_a[i]);
-                                auto [x2, y2] = loc_to_xy(connections_b[i]);
+                                auto [x1, y1] = loc_to_xy(p, connections_a[i]);
+                                auto [x2, y2] = loc_to_xy(p, connections_b[i]);
                                 if ((x1+1 == x && x2-1 == x && y1 == y && y2 == y) ||
                                         (y1+1 == y && y2-1 == y && x1 == x && x2 == x)) {
                                         int other_connection = connections_b[i];
@@ -241,21 +229,82 @@ void Panel::WriteIntersections(int id) {
                                 }
                         }
                         // Add this dot to the end
-                        double xPos = min + (x/2.0) * width_interval;
-                        double yPos = max - (y/2.0) * height_interval;
-                        intersections.push_back(static_cast<float>(xPos));
-                        intersections.push_back(static_cast<float>(yPos));
-                        intersectionFlags.push_back(_grid[x][y]);
+                        float xPos = min + (x/2.0f) * width_interval;
+                        float yPos = max - (y/2.0f) * height_interval;
+                        intersections.push_back(xPos);
+                        intersections.push_back(yPos);
+            intersectionFlags.push_back(flags);
                 }
         }
 
-
         _memory->WritePanelData<int>(id, NUM_DOTS, {static_cast<int>(intersectionFlags.size())});
         _memory->WriteArray<float>(id, DOT_POSITIONS, intersections);
         _memory->WriteArray<int>(id, DOT_FLAGS, intersectionFlags);
         _memory->WritePanelData<int>(id, NUM_CONNECTIONS, {static_cast<int>(connections_a.size())});
         _memory->WriteArray<int>(id, DOT_CONNECTION_A, connections_a);
         _memory->WriteArray<int>(id, DOT_CONNECTION_B, connections_b);
-        _memory->WritePanelData<int>(id, NEEDS_REDRAW, {1});
 }
 
+void PuzzleSerializer::WriteDecorations(const Puzzle& p, int id) {
+        std::vector<int> decorations;
+        for (int y=p.height-2; y>0; y-=2) {
+                for (int x=1; x<p.width-1; x+=2) {
+            auto d = p.grid[x][y].decoration;
+            if (d) {
+                decorations.push_back(d->color | d->type | d->count | d->polyshape);
+            } else {
+                decorations.push_back(0);
+            }
+                }
+        }
+
+        _memory->WritePanelData<int>(id, NUM_DECORATIONS, {static_cast<int>(decorations.size())});
+        _memory->WriteArray<int>(id, DECORATIONS, decorations);
+}
+
+std::tuple<int, int> PuzzleSerializer::loc_to_xy(const Puzzle& p, int location) {
+    int height2 = (p.height - 1) / 2;
+    int width2 = (p.width + 1) / 2;
+
+    int x = 2 * (location % width2);
+    int y = 2 * (height2 - location / width2);
+    return {x, y};
+}
+
+int PuzzleSerializer::xy_to_loc(const Puzzle& p, int x, int y) {
+    int height2 = (p.height - 1) / 2;
+    int width2 = (p.width + 1) / 2;
+
+    int rowsFromBottom = height2 - y/2;
+    return rowsFromBottom * width2 + x/2;
+}
+
+std::tuple<int, int> PuzzleSerializer::dloc_to_xy(const Puzzle& p, int location) {
+    int height2 = (p.height - 3) / 2;
+    int width2 = (p.width - 1) / 2;
+
+    int x = 2 * (location % width2) + 1;
+    int y = 2 * (height2 - location / width2) + 1;
+    return {x, y};
+}
+
+int PuzzleSerializer::xy_to_dloc(const Puzzle& p, int x, int y) {
+    int height2 = (p.height - 3) / 2;
+    int width2 = (p.width - 1) / 2;
+
+    int rowsFromBottom = height2 - (y - 1)/2;
+    return rowsFromBottom * width2 + (x - 1)/2;
+}
+
+Cell::Dot PuzzleSerializer::FlagsToDot(int flags) {
+    if (!(flags & Flags::HAS_DOT)) return Cell::Dot::NONE;
+    if (flags & Flags::DOT_IS_BLUE) {
+        return Cell::Dot::BLUE;
+    } else if (flags & Flags::DOT_IS_ORANGE) {
+        return Cell::Dot::YELLOW;
+    } else if (flags & Flags::DOT_IS_INVISIBLE) {
+        return Cell::Dot::INVISIBLE;
+    } else {
+        return Cell::Dot::BLACK;
+    }
+}
@@ -1,145 +1,45 @@
 #pragma once
-#include "json.hpp"
-#include "Memory.h"
-
-enum IntersectionFlags {
-    IS_ENDPOINT =       0x1,
-    IS_STARTPOINT =     0x2,
-    IS_GAP =            0x10000,
-    HAS_DOT =           0x40020,
-    DOT_IS_BLUE =       0x100,
-    DOT_IS_ORANGE =     0x200,
-    DOT_IS_INVISIBLE =  0x1000,
+#include <memory>
+#include <vector>
+
+class Memory;
+
+enum Shape {
+    Stone =      0x100,
+    Star =       0x200,
+    Poly =       0x400,
+    Eraser =     0x500,
+    Triangle =   0x600,
+    RPoly =     0x1000,
+    Ylop =      0x2000,
 };
 
-/*
-    enum Style {
-        SYMMETRICAL = 0x2,
-        IS_2COLOR = 0x10,
-        HAS_DOTS = 0x4,
-        HAS_STARS = 0x40,
-        HAS_STONES = 0x100,
-        HAS_ERASERS = 0x1000,
-        HAS_SHAPERS = 0x2000,
-    };
-*/
-
-class Endpoint {
-public:
-    enum class Direction {
-        LEFT,
-        RIGHT,
-        UP,
-        DOWN
-    };
-
-    Endpoint(int x, int y, Direction dir) {
-        _x = x;
-        _y = y;
-        _dir = dir;
-    }
-
-    int GetX() {return _x;}
-    void SetX(int x) {_x = x;}
-    int GetY() {return _y;}
-    void SetY(int y) {_y = y;}
-    Direction GetDir() {return _dir;}
-    void SetDir(Direction dir) {_dir = dir;}
-
-    nlohmann::json to_json() {
-        nlohmann::json json = {{"x", _x}, {"y", _y}};
-        if (_dir == Direction::LEFT) json["dir"] = "left";
-        if (_dir == Direction::RIGHT) json["dir"] = "right";
-        if (_dir == Direction::UP) json["dir"] = "up";
-        if (_dir == Direction::DOWN) json["dir"] = "down";
-        return json;
-    }
-
-private:
-    int _x, _y;
-    Direction _dir;
+enum Color {
+    Black =     0x1,
+    White =     0x2,
+    Gray =      0x3,
+    Purple =    0x4,
+    Green =     0x5,
+    Cyan =      0x6,
+    Pink =      0x7,
+    Yellow =    0x8,
+    Blue =      0x9,
+    Orange =    0xA,
 };
 
-class Panel {
-public:
-    Panel(const std::shared_ptr<Memory>& memory, int id);
-    // explicit Panel(nlohmann::json json);
-
-    void Write(int id);
-    nlohmann::json Serialize();
-
-private:
-    // For testing
-    Panel() = default;
-
-    void ReadIntersections(int id);
-    void WriteIntersections(int id);
-    void ReadDecorations(int id);
-    void WriteDecorations(int id);
-
-    // TODO: Reflection data
-    // TODO: Decoration colors
-
-    std::tuple<int, int> loc_to_xy(int location) {
-        int height2 = (_height - 1) / 2;
-        int width2 = (_width + 1) / 2;
-
-        int x = 2 * (location % width2);
-        int y = 2 * (height2 - location / width2);
-        return {x, y};
-    }
-
-    int xy_to_loc(int x, int y) {
-        int height2 = (_height - 1) / 2;
-        int width2 = (_width + 1) / 2;
-
-        int rowsFromBottom = height2 - y/2;
-        return rowsFromBottom * width2 + x/2;
-    }
-
-    std::tuple<int, int> dloc_to_xy(int location) {
-        int height2 = (_height - 3) / 2;
-        int width2 = (_width - 1) / 2;
-
-        int x = 2 * (location % width2) + 1;
-        int y = 2 * (height2 - location / width2) + 1;
-        return {x, y};
-    }
-
-    int xy_to_dloc(int x, int y) {
-        int height2 = (_height - 3) / 2;
-        int width2 = (_width - 1) / 2;
-
-        int rowsFromBottom = height2 - (y - 1)/2;
-        return rowsFromBottom * width2 + (x - 1)/2;
-    }
-
-    std::shared_ptr<Memory> _memory;
-
-    int _width, _height;
-
-    std::vector<std::vector<int>> _grid;
-    std::vector<Endpoint> _endpoints;
-    std::vector<std::pair<int ,int>> _startpoints;
-    int _style;
-
-    friend class PanelExtractionTests;
-};
-
-// V2 stuff here
 struct Decoration {
-    enum class Type {STONE, STAR, POLY, ERASER, TRIANGLE, RPOLY, YLOP};
-    Type type;
-    // TODO: Color color;
-    uint32_t polyshape;
-    int count; // For triangles
+    Shape type;
+    Color color;
+    int polyshape;
+    // For triangles only
+    int count;
 };
 
 struct Cell {
     bool start;
     enum class Dir {NONE, LEFT, RIGHT, UP, DOWN};
     Dir end;
-    Decoration* decoration;
+    std::shared_ptr<Decoration> decoration;
     enum class Dot {NONE, BLACK, BLUE, YELLOW, INVISIBLE};
     Dot dot;
     enum class Gap {NONE, BREAK, FULL};
@@ -149,7 +49,7 @@ struct Cell {
 struct Puzzle {
     int16_t height;
     int16_t width;
-    Cell** grid;
+    std::vector<std::vector<Cell>> grid;
 
     enum class Symmetry {NONE, X, Y, XY};
     Symmetry sym;
@@ -159,33 +59,11 @@ struct Puzzle {
 class PuzzleSerializer {
 public:
     PuzzleSerializer(const std::shared_ptr<Memory>& memory);
-    Puzzle ReadPuzzle(int panelId);
-    void WritePuzzle(int panelId, const Puzzle& puzzle);
-
-//private:
-    enum Shape {
-        Stone =      0x100,
-        Star =       0x200,
-        Poly =       0x400,
-        Eraser =     0x500,
-        Triangle =   0x600,
-        RPoly =     0x1000,
-        Ylop =      0x2000,
-    };
-
-    enum Color {
-        Black =     0x1,
-        White =     0x2,
-        Gray =      0x3,
-        Purple =    0x4,
-        Green =     0x5,
-        Cyan =      0x6,
-        Pink =      0x7,
-        Yellow =    0x8,
-        Blue =      0x9,
-        Orange =    0xA,
-    };
+    Puzzle ReadPuzzle(int id);
+    void WritePuzzle(const Puzzle& p, int id);
 
+private:
+    // @Bug: Blue and orange are swapped?
     enum Flags {
         IS_ENDPOINT =           0x1,
         IS_STARTPOINT =         0x2,
@@ -196,25 +74,17 @@ public:
         HAS_DOT =           0x40020,
     };
 
-    std::shared_ptr<Memory> _memory;
-};
-
-static nlohmann::json Decoration_to_json(int decoration) {
-    nlohmann::json json = {};
-    int shape = decoration & 0x00000F00;
-    if (shape == PuzzleSerializer::Shape::Stone)      json["type"] = "square";
-    if (shape == PuzzleSerializer::Shape::Star)       json["type"] = "star";
-    if (shape == PuzzleSerializer::Shape::Poly)       json["type"] = "poly";
-    if (shape == PuzzleSerializer::Shape::Eraser)     json["type"] = "eraser";
-    if (shape == PuzzleSerializer::Shape::Triangle)   json["type"] = "triangle";
+    void ReadIntersections(Puzzle& p, int id);
+    void ReadDecorations(Puzzle& p, int id);
+    void WriteIntersections(const Puzzle& p, int id);
+    void WriteDecorations(const Puzzle& p, int id);
 
-    int color = decoration & 0x0000000F;
-    if (color == PuzzleSerializer::Color::Black)      json["color"] = "black";
-    if (color == PuzzleSerializer::Color::White)      json["color"] = "white";
-    if (color == PuzzleSerializer::Color::Gray)       json["color"] = "gray";
-    if (color == PuzzleSerializer::Color::Blue)       json["color"] = "blue";
-    if (color == PuzzleSerializer::Color::Green)      json["color"] = "green";
+    std::tuple<int, int> loc_to_xy(const Puzzle& p, int location);
+    int xy_to_loc(const Puzzle& p, int x, int y);
+    // Decoration location
+    std::tuple<int, int> dloc_to_xy(const Puzzle& p, int location);
+    int xy_to_dloc(const Puzzle& p, int x, int y);
+    Cell::Dot FlagsToDot(int flags);
 
-    if (json.empty()) return false;
-    return json;
-}
+    std::shared_ptr<Memory> _memory;
+};
@@ -47,139 +47,3 @@ private:
 
         friend class SwapTests_Shipwreck_Test;
 };
-
-#if GLOBALS == 0x5B28C0
-#define PATH_COLOR 0xC8
-#define REFLECTION_PATH_COLOR 0xD8
-#define DOT_COLOR 0xF8
-#define ACTIVE_COLOR 0x108
-#define BACKGROUND_REGION_COLOR 0x118
-#define SUCCESS_COLOR_A 0x128
-#define SUCCESS_COLOR_B 0x138
-#define STROBE_COLOR_A 0x148
-#define STROBE_COLOR_B 0x158
-#define ERROR_COLOR 0x168
-#define PATTERN_POINT_COLOR 0x188
-#define PATTERN_POINT_COLOR_A 0x198
-#define PATTERN_POINT_COLOR_B 0x1A8
-#define SYMBOL_A 0x1B8
-#define SYMBOL_B 0x1C8
-#define SYMBOL_C 0x1D8
-#define SYMBOL_D 0x1E8
-#define SYMBOL_E 0x1F8
-#define PUSH_SYMBOL_COLORS 0x208
-#define OUTER_BACKGROUND 0x20C
-#define OUTER_BACKGROUND_MODE 0x21C
-#define TRACED_EDGES 0x230
-#define AUDIO_PREFIX 0x278
-#define POWER 0x2A8
-#define TARGET 0x2BC
-#define POWER_OFF_ON_FAIL 0x2C0
-#define IS_CYLINDER 0x2FC
-#define CYLINDER_Z0 0x300
-#define CYLINDER_Z1 0x304
-#define CYLINDER_RADIUS 0x308
-#define CURSOR_SPEED_SCALE 0x358
-#define NEEDS_REDRAW 0x384
-#define SPECULAR_ADD 0x398
-#define SPECULAR_POWER 0x39C
-#define PATH_WIDTH_SCALE 0x3A4
-#define STARTPOINT_SCALE 0x3A8
-#define NUM_DOTS 0x3B8
-#define NUM_CONNECTIONS 0x3BC
-#define MAX_BROADCAST_DISTANCE 0x3C0
-#define DOT_POSITIONS 0x3C8
-#define DOT_FLAGS 0x3D0
-#define DOT_CONNECTION_A 0x3D8
-#define DOT_CONNECTION_B 0x3E0
-#define DECORATIONS 0x420
-#define DECORATION_FLAGS 0x428
-#define DECORATION_COLORS 0x430
-#define NUM_DECORATIONS 0x438
-#define REFLECTION_DATA 0x440
-#define GRID_SIZE_X 0x448
-#define GRID_SIZE_Y 0x44C
-#define STYLE_FLAGS 0x450
-#define SEQUENCE_LEN 0x45C
-#define SEQUENCE 0x460
-#define DOT_SEQUENCE_LEN 0x468
-#define DOT_SEQUENCE 0x470
-#define DOT_SEQUENCE_LEN_REFLECTION 0x478
-#define DOT_SEQUENCE_REFLECTION 0x480
-#define NUM_COLORED_REGIONS 0x4A0
-#define COLORED_REGIONS 0x4A8
-#define PANEL_TARGET 0x4B0
-#define SPECULAR_TEXTURE 0x4D8
-#define CABLE_TARGET_2 0xD8
-#define AUDIO_LOG_NAME 0xC8
-#define OPEN_RATE 0xE8
-#define METADATA 0xF2 // sizeof(short)
-#define HOTEL_EP_NAME 0x4BC640
-#elif GLOBALS == 0x62D0A0
-#define PATH_COLOR 0xC0
-#define REFLECTION_PATH_COLOR 0xD0
-#define DOT_COLOR 0xF0
-#define ACTIVE_COLOR 0x100
-#define BACKGROUND_REGION_COLOR 0x110
-#define SUCCESS_COLOR_A 0x120
-#define SUCCESS_COLOR_B 0x130
-#define STROBE_COLOR_A 0x140
-#define STROBE_COLOR_B 0x150
-#define ERROR_COLOR 0x160
-#define PATTERN_POINT_COLOR 0x180
-#define PATTERN_POINT_COLOR_A 0x190
-#define PATTERN_POINT_COLOR_B 0x1A0
-#define SYMBOL_A 0x1B0
-#define SYMBOL_B 0x1C0
-#define SYMBOL_C 0x1D0
-#define SYMBOL_D 0x1E0
-#define SYMBOL_E 0x1F0
-#define PUSH_SYMBOL_COLORS 0x200
-#define OUTER_BACKGROUND 0x204
-#define OUTER_BACKGROUND_MODE 0x214
-#define TRACED_EDGES 0x228
-#define AUDIO_PREFIX 0x270
-#define POWER 0x2A0
-#define TARGET 0x2B4
-#define POWER_OFF_ON_FAIL 0x2B8
-#define IS_CYLINDER 0x2F4
-#define CYLINDER_Z0 0x2F8
-#define CYLINDER_Z1 0x2FC
-#define CYLINDER_RADIUS 0x300
-#define CURSOR_SPEED_SCALE 0x350
-#define NEEDS_REDRAW 0x37C
-#define SPECULAR_ADD 0x38C
-#define SPECULAR_POWER 0x390
-#define PATH_WIDTH_SCALE 0x39C
-#define STARTPOINT_SCALE 0x3A0
-#define NUM_DOTS 0x3B4
-#define NUM_CONNECTIONS 0x3B8
-#define MAX_BROADCAST_DISTANCE 0x3BC
-#define DOT_POSITIONS 0x3C0
-#define DOT_FLAGS 0x3C8
-#define DOT_CONNECTION_A 0x3D0
-#define DOT_CONNECTION_B 0x3D8
-#define DECORATIONS 0x418
-#define DECORATION_FLAGS 0x420
-#define DECORATION_COLORS 0x428
-#define NUM_DECORATIONS 0x430
-#define REFLECTION_DATA 0x438
-#define GRID_SIZE_X 0x440
-#define GRID_SIZE_Y 0x444
-#define STYLE_FLAGS 0x448
-#define SEQUENCE_LEN 0x454
-#define SEQUENCE 0x458
-#define DOT_SEQUENCE_LEN 0x460
-#define DOT_SEQUENCE 0x468
-#define DOT_SEQUENCE_LEN_REFLECTION 0x470
-#define DOT_SEQUENCE_REFLECTION 0x478
-#define NUM_COLORED_REGIONS 0x498
-#define COLORED_REGIONS 0x4A0
-#define PANEL_TARGET 0x4A8
-#define SPECULAR_TEXTURE 0x4D0
-#define CABLE_TARGET_2 0xD0
-#define AUDIO_LOG_NAME 0x0
-#define OPEN_RATE 0xE0
-#define METADATA 0x13A // sizeof(short)
-#define HOTEL_EP_NAME 0x51E340
-#endif
\ No newline at end of file