3 files changed, 46 insertions, 16 deletions
diff --git a/Source/PuzzleSerializer.cpp b/Source/PuzzleSerializer.cpp
index a131376..fb4166b 100644
--- a/Source/PuzzleSerializer.cpp
+++ b/Source/PuzzleSerializer.cpp

@@ -485,7 +485,6 @@ void PuzzleSerializer::WriteSymmetry(const Puzzle& p, int id) {
            reflectionData[location] = symLocation;
            reflectionData[symLocation] = location;
            if (p.grid[x][y].end != Cell::Dir::NONE) {
-                // Rely on symmetry to set the other pair
                location = extra_xy_to_loc(p, x, y);
                Pos sym = p.GetSymmetricalPos(x, y);
                symLocation = extra_xy_to_loc(p, sym.x, sym.y);
@@ -503,11 +502,20 @@ void PuzzleSerializer::WriteSymmetry(const Puzzle& p, int id) {
            int location = extra_xy_to_loc(p, x, y);
            int symLocation = extra_xy_to_loc(p, sym.x, sym.y);
            // Each gap results in two intersections, @Assume they're written consecutively
-            // Rely on symmetry to set the other pairs
-            reflectionData[location] = symLocation;
+            if ((x%2 != 0 && p.symmetry & Puzzle::Symmetry::X) || 
-            reflectionData[location-1] = symLocation-1;
+                (y%2 != 0 && p.symmetry & Puzzle::Symmetry::Y)) {
-            reflectionData[symLocation] = location;
+                // Write data inverted, because it's being reflected
-            reflectionData[symLocation-1] = location-1;
+                reflectionData[location] = symLocation-1;
+                reflectionData[location-1] = symLocation;
+                reflectionData[symLocation] = location-1;
+                reflectionData[symLocation-1] = location;
+            } else { // Write data normally
+                reflectionData[location] = symLocation;
+                reflectionData[location-1] = symLocation-1;
+                reflectionData[symLocation] = location;
+                reflectionData[symLocation-1] = location-1;
+            }
        }
    }
diff --git a/Source/Randomizer2.cpp b/Source/Randomizer2.cpp
index cc23c7d..c823567 100644
--- a/Source/Randomizer2.cpp
+++ b/Source/Randomizer2.cpp

@@ -177,7 +177,24 @@ void Randomizer2::RandomizeSymmetry() {
        Puzzle p;
        p.NewGrid(4, 4);
        p.symmetry = Puzzle::Symmetry::X;
-    
+        p.grid[0][8].start = true;
+        p.grid[8][8].start = true;
+        p.grid[2][0].end = Cell::Dir::UP;
+        p.grid[6][0].end = Cell::Dir::UP;
+        // @Bug: This can still make the puzzle unsolvable, if it leaves the centerline free -- even though two lines can't pass through the centerline.
+        // ^ Try seed = 13710
+        std::vector<Pos> cutEdges = Randomizer2Core::CutSymmetricalEdgePairs(p, 4);
+        for (int i=0; i<2; i++) {
+            Pos pos = cutEdges[i];
+            p.grid[pos.x][pos.y].gap = Cell::Gap::BREAK;
+        }
+        for (int i=2; i<4; i++) {
+            Pos pos = cutEdges[i];
+            Pos sym = p.GetSymmetricalPos(pos.x, pos.y);
+            p.grid[sym.x][sym.y].gap = Cell::Gap::BREAK;
+        }
+        _serializer.WritePuzzle(p, 0x87);
    }
 }
diff --git a/Source/Randomizer2Core.cpp b/Source/Randomizer2Core.cpp
index dcb9fd2..8ef2301 100644
--- a/Source/Randomizer2Core.cpp
+++ b/Source/Randomizer2Core.cpp

@@ -15,9 +15,16 @@ std::vector<Pos> Randomizer2Core::CutInsideEdges(const Puzzle& p, size_t numEdge
 }
 std::vector<Pos> Randomizer2Core::CutSymmetricalEdgePairs(const Puzzle& p, size_t numEdges) {
+    Puzzle copy = p;
    assert(p.symmetry != Puzzle::Symmetry::NONE);
    if (p.symmetry == Puzzle::Symmetry::X) {
-        return CutEdgesInternal(p, 0, (p.width-1)/2, 0, p.height, numEdges);
+        if (p.width%4 == 1) { // Puzzle is even, so we need to prevent cutting the centerline
+            for (int y=0; y<p.height; y++) {
+                copy.grid[p.width/2][y].gap = Cell::Gap::FULL;
+            }
+        }
+        return CutEdgesInternal(copy, 0, (p.width-1)/2, 0, p.height, numEdges);
    }
    assert(false);
    return {};
@@ -93,10 +100,11 @@ std::vector<Pos> Randomizer2Core::CutEdgesInternal(const Puzzle& p, int xMin, in
 void Randomizer2Core::DebugColorGrid(const std::vector<std::vector<int>>& colorGrid) {
 #ifndef NDEBUG
+    static std::string colors = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
    for (int y=0; y<colorGrid[0].size(); y++) {
        std::string row;
        for (int x=0; x<colorGrid.size(); x++) {
-            row += std::to_string(colorGrid[x][y]);
+            row += colors[colorGrid[x][y]];
        }
        row += "\n";
        OutputDebugStringA(row.c_str());
@@ -128,13 +136,10 @@ void Randomizer2Core::FloodFillOutside(const Puzzle& p, std::vector<std::vector<
    FloodFillOutside(p, colorGrid, x-1, y);
 }
-/*
+// Color key:
-    undefined -> 1 (color of outside) or * (any colored cell) or -1 (edge/intersection not part of any region)
+// 0 (default): Uncolored
+// 1: Outside color and separator color
-    0 -> {} (this is a special edge case, which I don't need right now)
+// 2+: Flood-filled region color
-    1 -> 0 (uncolored / ready to color)
-    2 -> 
-*/
 std::tuple<std::vector<std::vector<int>>, int> Randomizer2Core::CreateColorGrid(const Puzzle& p) {
    std::vector<std::vector<int>> colorGrid;
    colorGrid.resize(p.width);

diff --git a/Source/PuzzleSerializer.cpp b/Source/PuzzleSerializer.cpp index a131376..fb4166b 100644 --- a/Source/PuzzleSerializer.cpp +++ b/Source/PuzzleSerializer.cpp
@@ -485,7 +485,6 @@ void PuzzleSerializer::WriteSymmetry(const Puzzle& p, int id) {
485	reflectionData[location] = symLocation;	485	reflectionData[location] = symLocation;
486	reflectionData[symLocation] = location;	486	reflectionData[symLocation] = location;
487	if (p.grid[x][y].end != Cell::Dir::NONE) {	487	if (p.grid[x][y].end != Cell::Dir::NONE) {
488	// Rely on symmetry to set the other pair
489	location = extra_xy_to_loc(p, x, y);	488	location = extra_xy_to_loc(p, x, y);
490	Pos sym = p.GetSymmetricalPos(x, y);	489	Pos sym = p.GetSymmetricalPos(x, y);
491	symLocation = extra_xy_to_loc(p, sym.x, sym.y);	490	symLocation = extra_xy_to_loc(p, sym.x, sym.y);
@@ -503,11 +502,20 @@ void PuzzleSerializer::WriteSymmetry(const Puzzle& p, int id) {
503	int location = extra_xy_to_loc(p, x, y);	502	int location = extra_xy_to_loc(p, x, y);
504	int symLocation = extra_xy_to_loc(p, sym.x, sym.y);	503	int symLocation = extra_xy_to_loc(p, sym.x, sym.y);
505	// Each gap results in two intersections, @Assume they're written consecutively	504	// Each gap results in two intersections, @Assume they're written consecutively
506	// Rely on symmetry to set the other pairs	505
507	reflectionData[location] = symLocation;	506	if ((x%2 != 0 && p.symmetry & Puzzle::Symmetry::X) \|\|
508	reflectionData[location-1] = symLocation-1;	507	(y%2 != 0 && p.symmetry & Puzzle::Symmetry::Y)) {
509	reflectionData[symLocation] = location;	508	// Write data inverted, because it's being reflected
510	reflectionData[symLocation-1] = location-1;	509	reflectionData[location] = symLocation-1;
		510	reflectionData[location-1] = symLocation;
		511	reflectionData[symLocation] = location-1;
		512	reflectionData[symLocation-1] = location;
		513	} else { // Write data normally
		514	reflectionData[location] = symLocation;
		515	reflectionData[location-1] = symLocation-1;
		516	reflectionData[symLocation] = location;
		517	reflectionData[symLocation-1] = location-1;
		518	}
511	}	519	}
512	}	520	}
513		521


diff --git a/Source/Randomizer2.cpp b/Source/Randomizer2.cpp index cc23c7d..c823567 100644 --- a/Source/Randomizer2.cpp +++ b/Source/Randomizer2.cpp
@@ -177,7 +177,24 @@ void Randomizer2::RandomizeSymmetry() {
177	Puzzle p;	177	Puzzle p;
178	p.NewGrid(4, 4);	178	p.NewGrid(4, 4);
179	p.symmetry = Puzzle::Symmetry::X;	179	p.symmetry = Puzzle::Symmetry::X;
180		180	p.grid[0][8].start = true;
		181	p.grid[8][8].start = true;
		182	p.grid[2][0].end = Cell::Dir::UP;
		183	p.grid[6][0].end = Cell::Dir::UP;
		184	// @Bug: This can still make the puzzle unsolvable, if it leaves the centerline free -- even though two lines can't pass through the centerline.
		185	// ^ Try seed = 13710
		186	std::vector<Pos> cutEdges = Randomizer2Core::CutSymmetricalEdgePairs(p, 4);
		187	for (int i=0; i<2; i++) {
		188	Pos pos = cutEdges[i];
		189	p.grid[pos.x][pos.y].gap = Cell::Gap::BREAK;
		190	}
		191	for (int i=2; i<4; i++) {
		192	Pos pos = cutEdges[i];
		193	Pos sym = p.GetSymmetricalPos(pos.x, pos.y);
		194	p.grid[sym.x][sym.y].gap = Cell::Gap::BREAK;
		195	}
		196
		197	_serializer.WritePuzzle(p, 0x87);
181	}	198	}
182	}	199	}
183		200


diff --git a/Source/Randomizer2Core.cpp b/Source/Randomizer2Core.cpp index dcb9fd2..8ef2301 100644 --- a/Source/Randomizer2Core.cpp +++ b/Source/Randomizer2Core.cpp
@@ -15,9 +15,16 @@ std::vector<Pos> Randomizer2Core::CutInsideEdges(const Puzzle& p, size_t numEdge
15	}	15	}
16		16
17	std::vector<Pos> Randomizer2Core::CutSymmetricalEdgePairs(const Puzzle& p, size_t numEdges) {	17	std::vector<Pos> Randomizer2Core::CutSymmetricalEdgePairs(const Puzzle& p, size_t numEdges) {
		18	Puzzle copy = p;
18	assert(p.symmetry != Puzzle::Symmetry::NONE);	19	assert(p.symmetry != Puzzle::Symmetry::NONE);
19	if (p.symmetry == Puzzle::Symmetry::X) {	20	if (p.symmetry == Puzzle::Symmetry::X) {
20	return CutEdgesInternal(p, 0, (p.width-1)/2, 0, p.height, numEdges);	21	if (p.width%4 == 1) { // Puzzle is even, so we need to prevent cutting the centerline
		22	for (int y=0; y<p.height; y++) {
		23	copy.grid[p.width/2][y].gap = Cell::Gap::FULL;
		24	}
		25	}
		26
		27	return CutEdgesInternal(copy, 0, (p.width-1)/2, 0, p.height, numEdges);
21	}	28	}
22	assert(false);	29	assert(false);
23	return {};	30	return {};
@@ -93,10 +100,11 @@ std::vector<Pos> Randomizer2Core::CutEdgesInternal(const Puzzle& p, int xMin, in
93		100
94	void Randomizer2Core::DebugColorGrid(const std::vector<std::vector<int>>& colorGrid) {	101	void Randomizer2Core::DebugColorGrid(const std::vector<std::vector<int>>& colorGrid) {
95	#ifndef NDEBUG	102	#ifndef NDEBUG
		103	static std::string colors = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ";
96	for (int y=0; y<colorGrid[0].size(); y++) {	104	for (int y=0; y<colorGrid[0].size(); y++) {
97	std::string row;	105	std::string row;
98	for (int x=0; x<colorGrid.size(); x++) {	106	for (int x=0; x<colorGrid.size(); x++) {
99	row += std::to_string(colorGrid[x][y]);	107	row += colors[colorGrid[x][y]];
100	}	108	}
101	row += "\n";	109	row += "\n";
102	OutputDebugStringA(row.c_str());	110	OutputDebugStringA(row.c_str());
@@ -128,13 +136,10 @@ void Randomizer2Core::FloodFillOutside(const Puzzle& p, std::vector<std::vector<
128	FloodFillOutside(p, colorGrid, x-1, y);	136	FloodFillOutside(p, colorGrid, x-1, y);
129	}	137	}
130		138
131	/*	139	// Color key:
132	undefined -> 1 (color of outside) or * (any colored cell) or -1 (edge/intersection not part of any region)	140	// 0 (default): Uncolored
133		141	// 1: Outside color and separator color
134	0 -> {} (this is a special edge case, which I don't need right now)	142	// 2+: Flood-filled region color
135	1 -> 0 (uncolored / ready to color)
136	2 ->
137	*/
138	std::tuple<std::vector<std::vector<int>>, int> Randomizer2Core::CreateColorGrid(const Puzzle& p) {	143	std::tuple<std::vector<std::vector<int>>, int> Randomizer2Core::CreateColorGrid(const Puzzle& p) {
139	std::vector<std::vector<int>> colorGrid;	144	std::vector<std::vector<int>> colorGrid;
140	colorGrid.resize(p.width);	145	colorGrid.resize(p.width);