mirror of
https://github.com/jhasse/poly2tri.git
synced 2024-11-30 01:03:30 +01:00
bug hunting
This commit is contained in:
parent
fa9488baca
commit
9202d205df
@ -50,7 +50,7 @@ struct Point {
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Point() { x = 0.0; y = 0.0; }
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/// The edges this point constitutes an upper ending point
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std::vector<Edge> edge_list;
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std::vector<Edge*> edge_list;
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/// Construct using coordinates.
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Point(double x, double y) : x(x), y(y) {}
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@ -92,6 +92,10 @@ struct Point {
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return len;
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}
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void DebugPrint() {
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printf("%f,%f ", x, y);
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}
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};
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// Represents a simple polygon's edge
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@ -115,8 +119,8 @@ struct Edge {
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}
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}
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q->edge_list.push_back(*this);
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//printf("%i\n", q->edge_list.size());
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q->edge_list.push_back(this);
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}
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};
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@ -30,11 +30,16 @@
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*/
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#include "advancing_front.h"
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AdvancingFront::AdvancingFront() {
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head_ = tail_ = search_node_ = NULL;
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}
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Node* AdvancingFront::Locate(const double& x) {
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Node* node = search_node_;
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if(x < node->value) {
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//printf("<: - %f,%f - %p\n", x, node->value, node->next);
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while((node = node->prev) != NULL) {
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if(x >= node->value) {
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search_node_ = node;
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@ -42,6 +47,8 @@ Node* AdvancingFront::Locate(const double& x) {
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}
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}
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} else {
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//printf("%p - %p\n", node, node->next);
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//printf(">: %f - %f\n", x, node->value);
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while((node = node->next) != NULL) {
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if(x < node->value) {
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search_node_ = node->prev;
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@ -63,6 +63,7 @@ class AdvancingFront {
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public:
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AdvancingFront();
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// Destructor
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~AdvancingFront();
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@ -40,7 +40,7 @@ void Sweep::Triangulate(SweepContext& tcx) {
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// Sweep points; build mesh
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SweepPoints(tcx);
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// Clean up
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FinalizationPolygon(tcx);
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//FinalizationPolygon(tcx);
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}
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@ -48,7 +48,9 @@ void Sweep::SweepPoints(SweepContext& tcx) {
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for(int i = 1; i < tcx.point_count(); i++ ) {
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//printf("%i = ",i);
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Point& point = *tcx.GetPoint(i);
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//printf("size = %i\n", point.edge_list.size());
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Node& node = PointEvent(tcx, point);
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for(int i = 0; i < point.edge_list.size(); i++) {
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@ -98,12 +100,12 @@ Node& Sweep::PointEvent(SweepContext& tcx, Point& point) {
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return new_node;
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}
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void Sweep::EdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::EdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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tcx.edge_event.constrained_edge = &edge;
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tcx.edge_event.right = edge.p->x > edge.q->x;
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tcx.edge_event.constrained_edge = edge;
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tcx.edge_event.right = edge->p->x > edge->q->x;
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if(IsEdgeSideOfTriangle(*node.triangle, *edge.p, *edge.q)){
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if(IsEdgeSideOfTriangle(*node.triangle, *edge->p, *edge->q)){
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return;
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}
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@ -111,7 +113,7 @@ void Sweep::EdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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// TODO: integrate with flip process might give some better performance
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// but for now this avoid the issue with cases that needs both flips and fills
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FillEdgeEvent(tcx, edge, node);
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EdgeEvent(tcx, *edge.p, *edge.q , node.triangle, *edge.q);
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EdgeEvent(tcx, *edge->p, *edge->q , node.triangle, *edge->q);
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}
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@ -154,6 +156,7 @@ void Sweep::EdgeEvent(SweepContext& tcx, Point& ep, Point& eq, Triangle* triangl
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bool Sweep::IsEdgeSideOfTriangle(Triangle& triangle, Point& ep, Point& eq) {
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int index = triangle.EdgeIndex(&ep, &eq);
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if(index != -1) {
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triangle.MarkConstrainedEdge(index);
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Triangle* t = triangle.GetNeighbor(index);
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@ -578,69 +581,7 @@ bool Sweep::IsShallow(SweepContext& tcx, Node& node) {
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return false;
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}
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void Sweep::FinalizationConvexHull(SweepContext& tcx) {
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Node& n1 = *tcx.front()->head()->next;
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Node& n2 = *n1.next;
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Node& n3 = *n2.next;
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Point& first = *n1.point;
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TurnAdvancingFrontConvex(tcx, n2, n3);
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// TODO: implement ConvexHull for lower right and left boundary
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// Lower right boundary
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first = *tcx.front()->head()->point;
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n2 = *tcx.front()->tail()->prev;
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Triangle& t1 = *n2.triangle;
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Point& p1 = *n2.point;
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do {
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tcx.RemoveFromMap(&t1);
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p1 = *t1.PointCCW(p1);
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if(p1 == first) break;
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t1 = *t1.NeighborCCW(p1);
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} while(true);
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// Lower left boundary
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first = *tcx.front()->head()->next->point;
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p1 = *t1.PointCW(*tcx.front()->head()->point);
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t1 = *t1.NeighborCW(*tcx.front()->head()->point);
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do {
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tcx.RemoveFromMap(&t1);
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p1 = *t1.PointCCW(p1);
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t1 = *t1.NeighborCCW(p1);
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} while(p1 != first);
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//tcx.FinalizeTriangulation();
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}
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void Sweep::TurnAdvancingFrontConvex(SweepContext& tcx, Node& b, Node& c) {
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Node& first = b;
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while(&c != tcx.front()->tail()) {
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if(Orient2d(*b.point, *c.point, *c.next->point) == CCW) {
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// [b,c,d] Concave - fill around c
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Fill(tcx, c);
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c = *c.next;
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} else {
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// [b,c,d] Convex
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if(&b != &first && Orient2d(*b.prev->point, *b.point, *c.point) == CCW) {
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// [a,b,c] Concave - fill around b
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Fill(tcx, b);
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b = *b.prev;
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} else {
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// [a,b,c] Convex - nothing to fill
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b = c;
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c = *c.next;
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}
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}
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}
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}
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void Sweep::FillEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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if(tcx.edge_event.right) {
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FillRightAboveEdgeEvent(tcx, edge, node);
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@ -650,11 +591,11 @@ void Sweep::FillEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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void Sweep::FillRightAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillRightAboveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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while(node.next->point->x < edge.p->x) {
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while(node.next->point->x < edge->p->x) {
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// Check if next node is below the edge
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if(Orient2d(*edge.q, *node.next->point, *edge.p) == CCW) {
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if(Orient2d(*edge->q, *node.next->point, *edge->p) == CCW) {
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FillRightBelowEdgeEvent(tcx, edge, node);
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} else {
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node = *node.next;
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@ -663,9 +604,9 @@ void Sweep::FillRightAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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void Sweep::FillRightBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillRightBelowEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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if(node.point->x < edge.p->x) {
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if(node.point->x < edge->p->x) {
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if(Orient2d(*node.point, *node.next->point, *node.next->next->point ) == CCW ) {
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// Concave
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FillRightConcaveEdgeEvent(tcx, edge, node );
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@ -679,12 +620,12 @@ void Sweep::FillRightBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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void Sweep::FillRightConcaveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillRightConcaveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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Fill(tcx, *node.next);
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if(node.next->point != edge.p) {
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if(node.next->point != edge->p) {
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// Next above or below edge?
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if(Orient2d(*edge.q, *node.next->point, *edge.p) == CCW) {
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if(Orient2d(*edge->q, *node.next->point, *edge->p) == CCW) {
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// Below
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if(Orient2d(*node.point, *node.next->point, *node.next->next->point) == CCW) {
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// Next is concave
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@ -697,7 +638,7 @@ void Sweep::FillRightConcaveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node)
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}
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void Sweep::FillRightConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillRightConvexEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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// Next concave or convex?
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if(Orient2d(*node.next->point, *node.next->next->point, *node.next->next->next->point ) == CCW) {
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@ -706,7 +647,7 @@ void Sweep::FillRightConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node)
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} else{
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// Convex
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// Next above or below edge?
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if(Orient2d(*edge.q, *node.next->next->point, *edge.p) == CCW) {
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if(Orient2d(*edge->q, *node.next->next->point, *edge->p) == CCW) {
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// Below
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FillRightConvexEdgeEvent(tcx, edge, *node.next);
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} else{
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@ -716,11 +657,11 @@ void Sweep::FillRightConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node)
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}
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void Sweep::FillLeftAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillLeftAboveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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while(node.prev->point->x > edge.p->x) {
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while(node.prev->point->x > edge->p->x) {
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// Check if next node is below the edge
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if(Orient2d(*edge.q, *node.prev->point, *edge.p) == CW) {
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if(Orient2d(*edge->q, *node.prev->point, *edge->p) == CW) {
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FillLeftBelowEdgeEvent(tcx, edge, node);
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} else {
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node = *node.prev;
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@ -729,9 +670,9 @@ void Sweep::FillLeftAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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void Sweep::FillLeftBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillLeftBelowEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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if( node.point->x > edge.p->x) {
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if( node.point->x > edge->p->x) {
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if(Orient2d(*node.point, *node.prev->point, *node.prev->prev->point) == CW ) {
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// Concave
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FillLeftConcaveEdgeEvent(tcx, edge, node);
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@ -745,7 +686,7 @@ void Sweep::FillLeftBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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}
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void Sweep::FillLeftConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillLeftConvexEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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// Next concave or convex?
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if(Orient2d(*node.prev->point, *node.prev->prev->point, *node.prev->prev->prev->point) == CW) {
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@ -754,7 +695,7 @@ void Sweep::FillLeftConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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} else {
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// Convex
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// Next above or below edge?
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if(Orient2d(*edge.q, *node.prev->prev->point, *edge.p) == CW) {
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if(Orient2d(*edge->q, *node.prev->prev->point, *edge->p) == CW) {
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// Below
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FillLeftConvexEdgeEvent(tcx, edge, *node.prev);
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} else {
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@ -763,12 +704,12 @@ void Sweep::FillLeftConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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}
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}
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void Sweep::FillLeftConcaveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node) {
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void Sweep::FillLeftConcaveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node) {
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Fill(tcx, *node.prev);
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if(node.prev->point != edge.p) {
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if(node.prev->point != edge->p) {
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// Next above or below edge?
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if(Orient2d(*edge.q, *node.prev->point, *edge.p) == CW) {
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if(Orient2d(*edge->q, *node.prev->point, *edge->p) == CW) {
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// Below
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if(Orient2d(*node.point, *node.prev->point, *node.prev->prev->point) == CW) {
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// Next is concave
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@ -55,7 +55,7 @@ private:
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Node& PointEvent(SweepContext& tcx, Point& point);
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void EdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void EdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void EdgeEvent(SweepContext& tcx, Point& ep, Point& eq, Triangle* triangle, Point& point);
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@ -81,29 +81,25 @@ private:
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bool IsShallow(SweepContext& tcx, Node& node);
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void FinalizationConvexHull(SweepContext& tcx);
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void TurnAdvancingFrontConvex(SweepContext& tcx, Node& b, Node& c);
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bool IsEdgeSideOfTriangle(Triangle& triangle, Point& ep, Point& eq);
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void FillEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillRightAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillRightAboveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillRightBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillRightBelowEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillRightConcaveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillRightConcaveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillRightConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillRightConvexEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillLeftAboveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillLeftAboveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillLeftBelowEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillLeftBelowEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillLeftConcaveEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillLeftConcaveEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FillLeftConvexEdgeEvent(SweepContext& tcx, Edge& edge, Node& node);
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void FillLeftConvexEdgeEvent(SweepContext& tcx, Edge* edge, Node& node);
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void FlipEdgeEvent(SweepContext& tcx, Point& ep, Point& eq, Triangle& t, Point& p);
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@ -57,12 +57,13 @@ void SweepContext::InitTriangulation() {
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/*
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printf("*************************\n");
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for(int i = 0; i < point_count_; i++) {
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printf("%p ", points_[i]);
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printf("%f,%f\n", points_[i]->x, points_[i]->y);
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printf("%f,%f ", points_[i]->x, points_[i]->y);
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printf("%p\n", points_[i]);
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}
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printf("!!!!!!!!!!!!!!!!!!!!!!!!!!!!!\n");
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for(int i = 0; i < edge_list.size(); i++) {
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edge_list[i]->p->DebugPrint(); edge_list[i]->q->DebugPrint();
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printf("%p, %p\n", edge_list[i]->p, edge_list[i]->q);
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}
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*/
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@ -78,6 +79,7 @@ void SweepContext::InitEdges(Point** polyline, const int& point_count) {
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/*
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for(int i = 0; i < edge_list.size(); i++) {
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edge_list[i]->p->DebugPrint(); edge_list[i]->q->DebugPrint();
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printf("%p, %p\n", edge_list[i]->p, edge_list[i]->q);
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}
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*/
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@ -66,7 +66,7 @@ double StringToDouble(const std::string& s) {
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return x;
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}
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bool draw_map = false;
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bool draw_map = true;
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int main(int argc, char* argv[]) {
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@ -150,7 +150,7 @@ void Init()
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if (glfwOpenWindow(window_width, window_height, 5, 6, 5, 0, 0, 0, GLFW_WINDOW) != GL_TRUE)
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ShutDown(1);
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glfwSetWindowTitle("The GLFW Window");
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glfwSetWindowTitle("Poly2Tri - C++");
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glEnable(GL_BLEND);
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glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
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@ -240,6 +240,34 @@ void Draw(const double zoom) {
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Point& b = *t.GetPoint(1);
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Point& c = *t.GetPoint(2);
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// Red
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glColor3f(1, 0, 0);
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|
||||
glBegin(GL_LINE_LOOP);
|
||||
glVertex2f(a.x, a.y);
|
||||
glVertex2f(b.x, b.y);
|
||||
glVertex2f(c.x, c.y);
|
||||
glEnd();
|
||||
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
void DrawMap(const double zoom) {
|
||||
|
||||
// reset zoom
|
||||
Point center = Point(0, 0);
|
||||
|
||||
ResetZoom(zoom, center.x, center.y, 800, 600);
|
||||
|
||||
list<Triangle*>::iterator it;
|
||||
for (it = map.begin(); it != map.end(); it++) {
|
||||
|
||||
Triangle& t = **it;
|
||||
Point& a = *t.GetPoint(0);
|
||||
Point& b = *t.GetPoint(1);
|
||||
Point& c = *t.GetPoint(2);
|
||||
|
||||
ConstrainedColor(t.constrained_edge[2]);
|
||||
glBegin(GL_LINES);
|
||||
glVertex2f(a.x, a.y);
|
||||
@ -262,34 +290,6 @@ void Draw(const double zoom) {
|
||||
|
||||
}
|
||||
|
||||
void DrawMap(const double zoom) {
|
||||
|
||||
// reset zoom
|
||||
Point center = Point(0, 0);
|
||||
|
||||
ResetZoom(zoom, center.x, center.y, 800, 600);
|
||||
|
||||
list<Triangle*>::iterator it;
|
||||
for (it = map.begin(); it != map.end(); it++) {
|
||||
|
||||
Triangle& t = **it;
|
||||
Point& a = *t.GetPoint(0);
|
||||
Point& b = *t.GetPoint(1);
|
||||
Point& c = *t.GetPoint(2);
|
||||
|
||||
// Red
|
||||
glColor3f(1, 0, 0);
|
||||
|
||||
glBegin(GL_LINE_LOOP);
|
||||
glVertex2f(a.x, a.y);
|
||||
glVertex2f(b.x, b.y);
|
||||
glVertex2f(c.x, c.y);
|
||||
glEnd();
|
||||
|
||||
}
|
||||
|
||||
}
|
||||
|
||||
void ConstrainedColor(bool constrain) {
|
||||
if(constrain) {
|
||||
// Green
|
||||
|
Loading…
Reference in New Issue
Block a user