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- Fixed: A splitter that cannot properly divide a seg into two pieces because it is too close
to an endpoint to produce a unique vertex must be rejected. SVN r2090 (trunk)
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parent
635603e210
commit
fdaa6547f6
3 changed files with 53 additions and 15 deletions
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@ -32,7 +32,7 @@
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#define Printf printf
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#define STACK_ARGS
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#if 1
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#if 0
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#define D(x) x
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#else
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#define D(x) do{}while(0)
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@ -499,8 +499,8 @@ int FNodeBuilder::SelectSplitter (DWORD set, node_t &node, DWORD &splitseg, int
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int FNodeBuilder::Heuristic (node_t &node, DWORD set, bool honorNoSplit)
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{
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// Set the initial score above 0 so that near vertex anti-weighting does not automatically disqualify the vertex.
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int score = 100000000;
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// Set the initial score above 0 so that near vertex anti-weighting is less likely to produce a negative score.
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int score = 1000000;
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int segsInSet = 0;
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int counts[2] = { 0, 0 };
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int realSegs[2] = { 0, 0 };
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@ -605,17 +605,30 @@ int FNodeBuilder::Heuristic (node_t &node, DWORD set, bool honorNoSplit)
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// Splitters that are too close to a vertex are bad.
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frac = InterceptVector (node, *test);
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if (frac < 0.001)
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if (frac < 0.001 || frac > 0.999)
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{
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FPrivVert *v1 = &Vertices[test->v1];
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FPrivVert *v2 = &Vertices[test->v2];
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double x = v1->x, y = v1->y;
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x += frac * (v2->x - x);
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y += frac * (v2->y - y);
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if (fabs(x - v1->x) < VERTEX_EPSILON+1 && fabs(y - v1->y) < VERTEX_EPSILON+1)
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{
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D(Printf("Splitter will produce same start vertex as seg %d\n", i));
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return -1;
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}
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if (fabs(x - v2->x) < VERTEX_EPSILON+1 && fabs(y - v2->y) < VERTEX_EPSILON+1)
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{
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D(Printf("Splitter will produce same end vertex as seg %d\n", i));
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return -1;
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}
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if (frac > 0.999)
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{
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frac = 1 - frac;
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}
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int penalty = int(1 / frac);
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score = MAX(score - penalty, 1);
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D(Printf ("Penalized splitter by %d for being too close to start vertex of seg %d.\n", penalty, i));
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}
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else if (frac > 0.999)
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{
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int penalty = int(1 / (1 - frac));
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score = MAX(score - penalty, 1);
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D(Printf ("Penalized splitter by %d for being too close to end vertex of seg %d.\n", penalty, i));
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D(Printf ("Penalized splitter by %d for being near endpt of seg %d (%f).\n", penalty, i, frac));
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}
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counts[0]++;
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@ -790,6 +803,28 @@ void FNodeBuilder::SplitSegs (DWORD set, node_t &node, DWORD splitseg, DWORD &ou
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newvert.index = 0;
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vertnum = VertexMap->SelectVertexClose (newvert);
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if (vertnum == seg->v1 || vertnum == seg->v2)
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{
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Printf("SelectVertexClose selected endpoint of seg %u\n", set);
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// Check if the resulting split vertex matches one of the line's ends.
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// In this case this seg must not be split
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if ((vertnum == seg->v1 && sidev2 == -1) || (vertnum == seg->v2 && sidev1 == -1))
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{
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side = 0;
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sidev1 = 0;
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seg->next = outset0;
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outset0 = set;
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}
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else
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{
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side = 1;
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sidev2 = 0;
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seg->next = outset1;
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outset1 = set;
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}
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break;
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}
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seg2 = SplitSeg (set, vertnum, sidev1);
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Segs[seg2].next = outset0;
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@ -250,6 +250,9 @@ private:
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// Units are in fixed_ts.
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const double SIDE_EPSILON = 6.5536;
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// Vertices within this distance of each other will be considered as the same vertex.
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#define VERTEX_EPSILON 6 // This is a fixed_t value
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inline int FNodeBuilder::PointOnSide (int x, int y, int x1, int y1, int dx, int dy)
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{
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// For most cases, a simple dot product is enough.
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@ -28,10 +28,6 @@
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static const int PO_LINE_START = 1;
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static const int PO_LINE_EXPLICIT = 5;
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// Vertices within this distance of each other vertically and horizontally
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// will be considered as the same vertex.
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const fixed_t VERTEX_EPSILON = 6;
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#if 0
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#define D(x) x
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#else
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@ -503,8 +499,12 @@ int FNodeBuilder::FVertexMap::SelectVertexClose (FNodeBuilder::FPrivVert &vert)
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for (i = 0; i < block.Size(); ++i)
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{
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#if VERTEX_EPSILON <= 1
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if (vertices[block[i]].x == vert.x && vertices[block[i]].y == vert.y)
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#else
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if (abs(vertices[block[i]].x - vert.x) < VERTEX_EPSILON &&
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abs(vertices[block[i]].y - vert.y) < VERTEX_EPSILON)
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#endif
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{
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return block[i];
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}
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