diff --git a/thirdparty/misc/polypartition.cpp b/thirdparty/misc/polypartition.cpp index 3a8a6efa83..8c5409bf24 100644 --- a/thirdparty/misc/polypartition.cpp +++ b/thirdparty/misc/polypartition.cpp @@ -26,7 +26,6 @@ #include #include #include -#include TPPLPoly::TPPLPoly() { hole = false; @@ -186,7 +185,7 @@ int TPPLPartition::Intersects(TPPLPoint &p11, TPPLPoint &p12, TPPLPoint &p21, TP // Removes holes from inpolys by merging them with non-holes. int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { TPPLPolyList polys; - TPPLPolyList::iterator holeiter, polyiter, iter, iter2; + TPPLPolyList::Element *holeiter, *polyiter, *iter, *iter2; long i, i2, holepointindex, polypointindex; TPPLPoint holepoint, polypoint, bestpolypoint; TPPLPoint linep1, linep2; @@ -198,15 +197,15 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { // Check for the trivial case of no holes. hasholes = false; - for (iter = inpolys->begin(); iter != inpolys->end(); iter++) { - if (iter->IsHole()) { + for (iter = inpolys->front(); iter; iter = iter->next()) { + if (iter->get().IsHole()) { hasholes = true; break; } } if (!hasholes) { - for (iter = inpolys->begin(); iter != inpolys->end(); iter++) { - outpolys->push_back(*iter); + for (iter = inpolys->front(); iter; iter = iter->next()) { + outpolys->push_back(iter->get()); } return 1; } @@ -216,8 +215,8 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { while (1) { // Find the hole point with the largest x. hasholes = false; - for (iter = polys.begin(); iter != polys.end(); iter++) { - if (!iter->IsHole()) { + for (iter = polys.front(); iter; iter = iter->next()) { + if (!iter->get().IsHole()) { continue; } @@ -227,8 +226,8 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { holepointindex = 0; } - for (i = 0; i < iter->GetNumPoints(); i++) { - if (iter->GetPoint(i).x > holeiter->GetPoint(holepointindex).x) { + for (i = 0; i < iter->get().GetNumPoints(); i++) { + if (iter->get().GetPoint(i).x > holeiter->get().GetPoint(holepointindex).x) { holeiter = iter; holepointindex = i; } @@ -237,24 +236,24 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { if (!hasholes) { break; } - holepoint = holeiter->GetPoint(holepointindex); + holepoint = holeiter->get().GetPoint(holepointindex); pointfound = false; - for (iter = polys.begin(); iter != polys.end(); iter++) { - if (iter->IsHole()) { + for (iter = polys.front(); iter; iter = iter->next()) { + if (iter->get().IsHole()) { continue; } - for (i = 0; i < iter->GetNumPoints(); i++) { - if (iter->GetPoint(i).x <= holepoint.x) { + for (i = 0; i < iter->get().GetNumPoints(); i++) { + if (iter->get().GetPoint(i).x <= holepoint.x) { continue; } - if (!InCone(iter->GetPoint((i + iter->GetNumPoints() - 1) % (iter->GetNumPoints())), - iter->GetPoint(i), - iter->GetPoint((i + 1) % (iter->GetNumPoints())), + if (!InCone(iter->get().GetPoint((i + iter->get().GetNumPoints() - 1) % (iter->get().GetNumPoints())), + iter->get().GetPoint(i), + iter->get().GetPoint((i + 1) % (iter->get().GetNumPoints())), holepoint)) { continue; } - polypoint = iter->GetPoint(i); + polypoint = iter->get().GetPoint(i); if (pointfound) { v1 = Normalize(polypoint - holepoint); v2 = Normalize(bestpolypoint - holepoint); @@ -263,13 +262,13 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { } } pointvisible = true; - for (iter2 = polys.begin(); iter2 != polys.end(); iter2++) { - if (iter2->IsHole()) { + for (iter2 = polys.front(); iter2; iter2 = iter2->next()) { + if (iter2->get().IsHole()) { continue; } - for (i2 = 0; i2 < iter2->GetNumPoints(); i2++) { - linep1 = iter2->GetPoint(i2); - linep2 = iter2->GetPoint((i2 + 1) % (iter2->GetNumPoints())); + for (i2 = 0; i2 < iter2->get().GetNumPoints(); i2++) { + linep1 = iter2->get().GetPoint(i2); + linep2 = iter2->get().GetPoint((i2 + 1) % (iter2->get().GetNumPoints())); if (Intersects(holepoint, polypoint, linep1, linep2)) { pointvisible = false; break; @@ -292,18 +291,18 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { return 0; } - newpoly.Init(holeiter->GetNumPoints() + polyiter->GetNumPoints() + 2); + newpoly.Init(holeiter->get().GetNumPoints() + polyiter->get().GetNumPoints() + 2); i2 = 0; for (i = 0; i <= polypointindex; i++) { - newpoly[i2] = polyiter->GetPoint(i); + newpoly[i2] = polyiter->get().GetPoint(i); i2++; } - for (i = 0; i <= holeiter->GetNumPoints(); i++) { - newpoly[i2] = holeiter->GetPoint((i + holepointindex) % holeiter->GetNumPoints()); + for (i = 0; i <= holeiter->get().GetNumPoints(); i++) { + newpoly[i2] = holeiter->get().GetPoint((i + holepointindex) % holeiter->get().GetNumPoints()); i2++; } - for (i = polypointindex; i < polyiter->GetNumPoints(); i++) { - newpoly[i2] = polyiter->GetPoint(i); + for (i = polypointindex; i < polyiter->get().GetNumPoints(); i++) { + newpoly[i2] = polyiter->get().GetPoint(i); i2++; } @@ -312,8 +311,8 @@ int TPPLPartition::RemoveHoles(TPPLPolyList *inpolys, TPPLPolyList *outpolys) { polys.push_back(newpoly); } - for (iter = polys.begin(); iter != polys.end(); iter++) { - outpolys->push_back(*iter); + for (iter = polys.front(); iter; iter = iter->next()) { + outpolys->push_back(iter->get()); } return 1; @@ -524,13 +523,13 @@ int TPPLPartition::Triangulate_EC(TPPLPoly *poly, TPPLPolyList *triangles) { int TPPLPartition::Triangulate_EC(TPPLPolyList *inpolys, TPPLPolyList *triangles) { TPPLPolyList outpolys; - TPPLPolyList::iterator iter; + TPPLPolyList::Element *iter; if (!RemoveHoles(inpolys, &outpolys)) { return 0; } - for (iter = outpolys.begin(); iter != outpolys.end(); iter++) { - if (!Triangulate_EC(&(*iter), triangles)) { + for (iter = outpolys.front(); iter; iter = iter->next()) { + if (!Triangulate_EC(&(iter->get()), triangles)) { return 0; } } @@ -543,7 +542,7 @@ int TPPLPartition::ConvexPartition_HM(TPPLPoly *poly, TPPLPolyList *parts) { } TPPLPolyList triangles; - TPPLPolyList::iterator iter1, iter2; + TPPLPolyList::Element *iter1, *iter2; TPPLPoly *poly1 = NULL, *poly2 = NULL; TPPLPoly newpoly; TPPLPoint d1, d2, p1, p2, p3; @@ -578,19 +577,19 @@ int TPPLPartition::ConvexPartition_HM(TPPLPoly *poly, TPPLPolyList *parts) { return 0; } - for (iter1 = triangles.begin(); iter1 != triangles.end(); iter1++) { - poly1 = &(*iter1); + for (iter1 = triangles.front(); iter1; iter1 = iter1->next()) { + poly1 = &(iter1->get()); for (i11 = 0; i11 < poly1->GetNumPoints(); i11++) { d1 = poly1->GetPoint(i11); i12 = (i11 + 1) % (poly1->GetNumPoints()); d2 = poly1->GetPoint(i12); isdiagonal = false; - for (iter2 = iter1; iter2 != triangles.end(); iter2++) { + for (iter2 = iter1; iter2; iter2 = iter2->next()) { if (iter1 == iter2) { continue; } - poly2 = &(*iter2); + poly2 = &(iter2->get()); for (i21 = 0; i21 < poly2->GetNumPoints(); i21++) { if ((d2.x != poly2->GetPoint(i21).x) || (d2.y != poly2->GetPoint(i21).y)) { @@ -660,16 +659,16 @@ int TPPLPartition::ConvexPartition_HM(TPPLPoly *poly, TPPLPolyList *parts) { } triangles.erase(iter2); - *iter1 = newpoly; - poly1 = &(*iter1); + iter1->get() = newpoly; + poly1 = &(iter1->get()); i11 = -1; continue; } } - for (iter1 = triangles.begin(); iter1 != triangles.end(); iter1++) { - parts->push_back(*iter1); + for (iter1 = triangles.front(); iter1; iter1 = iter1->next()) { + parts->push_back(iter1->get()); } return 1; @@ -677,13 +676,13 @@ int TPPLPartition::ConvexPartition_HM(TPPLPoly *poly, TPPLPolyList *parts) { int TPPLPartition::ConvexPartition_HM(TPPLPolyList *inpolys, TPPLPolyList *parts) { TPPLPolyList outpolys; - TPPLPolyList::iterator iter; + TPPLPolyList::Element *iter; if (!RemoveHoles(inpolys, &outpolys)) { return 0; } - for (iter = outpolys.begin(); iter != outpolys.end(); iter++) { - if (!ConvexPartition_HM(&(*iter), parts)) { + for (iter = outpolys.front(); iter; iter = iter->next()) { + if (!ConvexPartition_HM(&(iter->get()), parts)) { return 0; } } @@ -824,8 +823,8 @@ int TPPLPartition::Triangulate_OPT(TPPLPoly *poly, TPPLPolyList *triangles) { newdiagonal.index1 = 0; newdiagonal.index2 = n - 1; diagonals.push_back(newdiagonal); - while (!diagonals.empty()) { - diagonal = *(diagonals.begin()); + while (!diagonals.is_empty()) { + diagonal = diagonals.front()->get(); diagonals.pop_front(); bestvertex = dpstates[diagonal.index2][diagonal.index1].bestvertex; if (bestvertex == -1) { @@ -873,10 +872,10 @@ void TPPLPartition::UpdateState(long a, long b, long w, long i, long j, DPState2 pairs->push_front(newdiagonal); dpstates[a][b].weight = w; } else { - if ((!pairs->empty()) && (i <= pairs->begin()->index1)) { + if ((!pairs->is_empty()) && (i <= pairs->front()->get().index1)) { return; } - while ((!pairs->empty()) && (pairs->begin()->index2 >= j)) { + while ((!pairs->is_empty()) && (pairs->front()->get().index2 >= j)) { pairs->pop_front(); } pairs->push_front(newdiagonal); @@ -885,7 +884,7 @@ void TPPLPartition::UpdateState(long a, long b, long w, long i, long j, DPState2 void TPPLPartition::TypeA(long i, long j, long k, PartitionVertex *vertices, DPState2 **dpstates) { DiagonalList *pairs = NULL; - DiagonalList::iterator iter, lastiter; + DiagonalList::Element *iter, *lastiter; long top; long w; @@ -902,23 +901,23 @@ void TPPLPartition::TypeA(long i, long j, long k, PartitionVertex *vertices, DPS } if (j - i > 1) { pairs = &(dpstates[i][j].pairs); - iter = pairs->end(); - lastiter = pairs->end(); - while (iter != pairs->begin()) { + iter = pairs->back(); + lastiter = pairs->back(); + while (iter != pairs->front()) { iter--; - if (!IsReflex(vertices[iter->index2].p, vertices[j].p, vertices[k].p)) { + if (!IsReflex(vertices[iter->get().index2].p, vertices[j].p, vertices[k].p)) { lastiter = iter; } else { break; } } - if (lastiter == pairs->end()) { + if (lastiter == pairs->back()) { w++; } else { - if (IsReflex(vertices[k].p, vertices[i].p, vertices[lastiter->index1].p)) { + if (IsReflex(vertices[k].p, vertices[i].p, vertices[lastiter->get().index1].p)) { w++; } else { - top = lastiter->index1; + top = lastiter->get().index1; } } } @@ -927,7 +926,7 @@ void TPPLPartition::TypeA(long i, long j, long k, PartitionVertex *vertices, DPS void TPPLPartition::TypeB(long i, long j, long k, PartitionVertex *vertices, DPState2 **dpstates) { DiagonalList *pairs = NULL; - DiagonalList::iterator iter, lastiter; + DiagonalList::Element *iter, *lastiter; long top; long w; @@ -946,21 +945,21 @@ void TPPLPartition::TypeB(long i, long j, long k, PartitionVertex *vertices, DPS if (k - j > 1) { pairs = &(dpstates[j][k].pairs); - iter = pairs->begin(); - if ((!pairs->empty()) && (!IsReflex(vertices[i].p, vertices[j].p, vertices[iter->index1].p))) { + iter = pairs->front(); + if ((!pairs->is_empty()) && (!IsReflex(vertices[i].p, vertices[j].p, vertices[iter->get().index1].p))) { lastiter = iter; - while (iter != pairs->end()) { - if (!IsReflex(vertices[i].p, vertices[j].p, vertices[iter->index1].p)) { + while (iter) { + if (!IsReflex(vertices[i].p, vertices[j].p, vertices[iter->get().index1].p)) { lastiter = iter; - iter++; + iter = iter->next(); } else { break; } } - if (IsReflex(vertices[lastiter->index2].p, vertices[k].p, vertices[i].p)) { + if (IsReflex(vertices[lastiter->get().index2].p, vertices[k].p, vertices[i].p)) { w++; } else { - top = lastiter->index2; + top = lastiter->get().index2; } } else { w++; @@ -981,11 +980,11 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { DiagonalList diagonals, diagonals2; Diagonal diagonal, newdiagonal; DiagonalList *pairs = NULL, *pairs2 = NULL; - DiagonalList::iterator iter, iter2; + DiagonalList::Element *iter, *iter2; int ret; TPPLPoly newpoly; - std::vector indices; - std::vector::iterator iiter; + List indices; + List::Element *iiter; bool ijreal, jkreal; n = poly->GetNumPoints(); @@ -1110,35 +1109,35 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { newdiagonal.index1 = 0; newdiagonal.index2 = n - 1; diagonals.push_front(newdiagonal); - while (!diagonals.empty()) { - diagonal = *(diagonals.begin()); + while (!diagonals.is_empty()) { + diagonal = diagonals.front()->get(); diagonals.pop_front(); if ((diagonal.index2 - diagonal.index1) <= 1) { continue; } pairs = &(dpstates[diagonal.index1][diagonal.index2].pairs); - if (pairs->empty()) { + if (pairs->is_empty()) { ret = 0; break; } if (!vertices[diagonal.index1].isConvex) { - iter = pairs->end(); + iter = pairs->back(); iter--; - j = iter->index2; + j = iter->get().index2; newdiagonal.index1 = j; newdiagonal.index2 = diagonal.index2; diagonals.push_front(newdiagonal); if ((j - diagonal.index1) > 1) { - if (iter->index1 != iter->index2) { + if (iter->get().index1 != iter->get().index2) { pairs2 = &(dpstates[diagonal.index1][j].pairs); while (1) { - if (pairs2->empty()) { + if (pairs2->is_empty()) { ret = 0; break; } - iter2 = pairs2->end(); + iter2 = pairs2->back(); iter2--; - if (iter->index1 != iter2->index1) { + if (iter->get().index1 != iter2->get().index1) { pairs2->pop_back(); } else { break; @@ -1153,21 +1152,21 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { diagonals.push_front(newdiagonal); } } else { - iter = pairs->begin(); - j = iter->index1; + iter = pairs->front(); + j = iter->get().index1; newdiagonal.index1 = diagonal.index1; newdiagonal.index2 = j; diagonals.push_front(newdiagonal); if ((diagonal.index2 - j) > 1) { - if (iter->index1 != iter->index2) { + if (iter->get().index1 != iter->get().index2) { pairs2 = &(dpstates[j][diagonal.index2].pairs); while (1) { - if (pairs2->empty()) { + if (pairs2->is_empty()) { ret = 0; break; } - iter2 = pairs2->begin(); - if (iter->index2 != iter2->index2) { + iter2 = pairs2->front(); + if (iter->get().index2 != iter2->get().index2) { pairs2->pop_front(); } else { break; @@ -1197,8 +1196,8 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { newdiagonal.index1 = 0; newdiagonal.index2 = n - 1; diagonals.push_front(newdiagonal); - while (!diagonals.empty()) { - diagonal = *(diagonals.begin()); + while (!diagonals.is_empty()) { + diagonal = diagonals.front()->get(); diagonals.pop_front(); if ((diagonal.index2 - diagonal.index1) <= 1) { continue; @@ -1210,8 +1209,8 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { indices.push_back(diagonal.index2); diagonals2.push_front(diagonal); - while (!diagonals2.empty()) { - diagonal = *(diagonals2.begin()); + while (!diagonals2.is_empty()) { + diagonal = diagonals2.front()->get(); diagonals2.pop_front(); if ((diagonal.index2 - diagonal.index1) <= 1) { continue; @@ -1220,16 +1219,16 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { jkreal = true; pairs = &(dpstates[diagonal.index1][diagonal.index2].pairs); if (!vertices[diagonal.index1].isConvex) { - iter = pairs->end(); + iter = pairs->back(); iter--; - j = iter->index2; - if (iter->index1 != iter->index2) { + j = iter->get().index2; + if (iter->get().index1 != iter->get().index2) { ijreal = false; } } else { - iter = pairs->begin(); - j = iter->index1; - if (iter->index1 != iter->index2) { + iter = pairs->front(); + j = iter->get().index1; + if (iter->get().index1 != iter->get().index2) { jkreal = false; } } @@ -1253,11 +1252,12 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { indices.push_back(j); } - std::sort(indices.begin(), indices.end()); + //std::sort(indices.begin(), indices.end()); + indices.sort(); newpoly.Init((long)indices.size()); k = 0; - for (iiter = indices.begin(); iiter != indices.end(); iiter++) { - newpoly[k] = vertices[*iiter].p; + for (iiter = indices.front(); iiter != indices.back(); iiter = iiter->next()) { + newpoly[k] = vertices[iiter->get()].p; k++; } parts->push_back(newpoly); @@ -1281,7 +1281,7 @@ int TPPLPartition::ConvexPartition_OPT(TPPLPoly *poly, TPPLPolyList *parts) { // "Computational Geometry: Algorithms and Applications" // by Mark de Berg, Otfried Cheong, Marc van Kreveld, and Mark Overmars. int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monotonePolys) { - TPPLPolyList::iterator iter; + TPPLPolyList::Element *iter; MonotoneVertex *vertices = NULL; long i, numvertices, vindex, vindex2, newnumvertices, maxnumvertices; long polystartindex, polyendindex; @@ -1291,11 +1291,8 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto bool error = false; numvertices = 0; - for (iter = inpolys->begin(); iter != inpolys->end(); iter++) { - if (!iter->Valid()) { - return 0; - } - numvertices += iter->GetNumPoints(); + for (iter = inpolys->front(); iter; iter = iter->next()) { + numvertices += iter->get().GetNumPoints(); } maxnumvertices = numvertices * 3; @@ -1303,8 +1300,8 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto newnumvertices = numvertices; polystartindex = 0; - for (iter = inpolys->begin(); iter != inpolys->end(); iter++) { - poly = &(*iter); + for (iter = inpolys->front(); iter; iter = iter->next()) { + poly = &(iter->get()); polyendindex = polystartindex + poly->GetNumPoints() - 1; for (i = 0; i < poly->GetNumPoints(); i++) { vertices[i + polystartindex].p = poly->GetPoint(i); @@ -1360,14 +1357,14 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto // Note that while set doesn't actually have to be implemented as // a tree, complexity requirements for operations are the same as // for the balanced binary search tree. - std::set edgeTree; + Set edgeTree; // Store iterators to the edge tree elements. // This makes deleting existing edges much faster. - std::set::iterator *edgeTreeIterators, edgeIter; - edgeTreeIterators = new std::set::iterator[maxnumvertices]; - std::pair::iterator, bool> edgeTreeRet; + Set::Element **edgeTreeIterators, *edgeIter; + edgeTreeIterators = new Set::Element *[maxnumvertices]; + //Pair::iterator, bool> edgeTreeRet; for (i = 0; i < numvertices; i++) { - edgeTreeIterators[i] = edgeTree.end(); + edgeTreeIterators[i] = nullptr; } // For each vertex. @@ -1387,13 +1384,14 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto newedge.p1 = v->p; newedge.p2 = vertices[v->next].p; newedge.index = vindex; - edgeTreeRet = edgeTree.insert(newedge); - edgeTreeIterators[vindex] = edgeTreeRet.first; + //edgeTreeRet = edgeTree.insert(newedge); + //edgeTreeIterators[vindex] = edgeTreeRet.first; + edgeTreeIterators[vindex] = edgeTree.insert(newedge); helpers[vindex] = vindex; break; case TPPL_VERTEXTYPE_END: - if (edgeTreeIterators[v->previous] == edgeTree.end()) { + if (edgeTreeIterators[v->previous] == edgeTree.back()) { error = true; break; } @@ -1412,29 +1410,30 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto newedge.p1 = v->p; newedge.p2 = v->p; edgeIter = edgeTree.lower_bound(newedge); - if (edgeIter == edgeTree.begin()) { + if (edgeIter == nullptr || edgeIter == edgeTree.front()) { error = true; break; } edgeIter--; // Insert the diagonal connecting vi to helper(e_j) in D. - AddDiagonal(vertices, &newnumvertices, vindex, helpers[edgeIter->index], + AddDiagonal(vertices, &newnumvertices, vindex, helpers[edgeIter->get().index], vertextypes, edgeTreeIterators, &edgeTree, helpers); vindex2 = newnumvertices - 2; v2 = &(vertices[vindex2]); // helper(e_j) in v_i. - helpers[edgeIter->index] = vindex; + helpers[edgeIter->get().index] = vindex; // Insert e_i in T and set helper(e_i) to v_i. newedge.p1 = v2->p; newedge.p2 = vertices[v2->next].p; newedge.index = vindex2; - edgeTreeRet = edgeTree.insert(newedge); - edgeTreeIterators[vindex2] = edgeTreeRet.first; + //edgeTreeRet = edgeTree.insert(newedge); + //edgeTreeIterators[vindex2] = edgeTreeRet.first; + edgeTreeIterators[vindex2] = edgeTree.insert(newedge); helpers[vindex2] = vindex2; break; case TPPL_VERTEXTYPE_MERGE: - if (edgeTreeIterators[v->previous] == edgeTree.end()) { + if (edgeTreeIterators[v->previous] == edgeTree.back()) { error = true; break; } @@ -1452,25 +1451,25 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto newedge.p1 = v->p; newedge.p2 = v->p; edgeIter = edgeTree.lower_bound(newedge); - if (edgeIter == edgeTree.begin()) { + if (edgeIter == nullptr || edgeIter == edgeTree.front()) { error = true; break; } edgeIter--; // If helper(e_j) is a merge vertex. - if (vertextypes[helpers[edgeIter->index]] == TPPL_VERTEXTYPE_MERGE) { + if (vertextypes[helpers[edgeIter->get().index]] == TPPL_VERTEXTYPE_MERGE) { // Insert the diagonal connecting v_i to helper(e_j) in D. - AddDiagonal(vertices, &newnumvertices, vindex2, helpers[edgeIter->index], + AddDiagonal(vertices, &newnumvertices, vindex2, helpers[edgeIter->get().index], vertextypes, edgeTreeIterators, &edgeTree, helpers); } // helper(e_j) <- v_i - helpers[edgeIter->index] = vindex2; + helpers[edgeIter->get().index] = vindex2; break; case TPPL_VERTEXTYPE_REGULAR: // If the interior of P lies to the right of v_i. if (Below(v->p, vertices[v->previous].p)) { - if (edgeTreeIterators[v->previous] == edgeTree.end()) { + if (edgeTreeIterators[v->previous] == edgeTree.back()) { error = true; break; } @@ -1488,27 +1487,28 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto newedge.p1 = v2->p; newedge.p2 = vertices[v2->next].p; newedge.index = vindex2; - edgeTreeRet = edgeTree.insert(newedge); - edgeTreeIterators[vindex2] = edgeTreeRet.first; + //edgeTreeRet = edgeTree.insert(newedge); + //edgeTreeIterators[vindex2] = edgeTreeRet.first; + edgeTreeIterators[vindex2] = edgeTree.insert(newedge); helpers[vindex2] = vindex; } else { // Search in T to find the edge e_j directly left of v_i. newedge.p1 = v->p; newedge.p2 = v->p; edgeIter = edgeTree.lower_bound(newedge); - if (edgeIter == edgeTree.begin()) { + if (edgeIter == nullptr || edgeIter == edgeTree.front()) { error = true; break; } - edgeIter--; + edgeIter = edgeIter->prev(); // If helper(e_j) is a merge vertex. - if (vertextypes[helpers[edgeIter->index]] == TPPL_VERTEXTYPE_MERGE) { + if (vertextypes[helpers[edgeIter->get().index]] == TPPL_VERTEXTYPE_MERGE) { // Insert the diagonal connecting v_i to helper(e_j) in D. - AddDiagonal(vertices, &newnumvertices, vindex, helpers[edgeIter->index], + AddDiagonal(vertices, &newnumvertices, vindex, helpers[edgeIter->get().index], vertextypes, edgeTreeIterators, &edgeTree, helpers); } // helper(e_j) <- v_i. - helpers[edgeIter->index] = vindex; + helpers[edgeIter->get().index] = vindex; } break; } @@ -1569,8 +1569,8 @@ int TPPLPartition::MonotonePartition(TPPLPolyList *inpolys, TPPLPolyList *monoto // Adds a diagonal to the doubly-connected list of vertices. void TPPLPartition::AddDiagonal(MonotoneVertex *vertices, long *numvertices, long index1, long index2, - TPPLVertexType *vertextypes, std::set::iterator *edgeTreeIterators, - std::set *edgeTree, long *helpers) { + TPPLVertexType *vertextypes, Set::Element **edgeTreeIterators, + Set *edgeTree, long *helpers) { long newindex1, newindex2; newindex1 = *numvertices; @@ -1597,14 +1597,14 @@ void TPPLPartition::AddDiagonal(MonotoneVertex *vertices, long *numvertices, lon vertextypes[newindex1] = vertextypes[index1]; edgeTreeIterators[newindex1] = edgeTreeIterators[index1]; helpers[newindex1] = helpers[index1]; - if (edgeTreeIterators[newindex1] != edgeTree->end()) { - edgeTreeIterators[newindex1]->index = newindex1; + if (edgeTreeIterators[newindex1] != edgeTree->back()) { + edgeTreeIterators[newindex1]->get().index = newindex1; } vertextypes[newindex2] = vertextypes[index2]; edgeTreeIterators[newindex2] = edgeTreeIterators[index2]; helpers[newindex2] = helpers[index2]; - if (edgeTreeIterators[newindex2] != edgeTree->end()) { - edgeTreeIterators[newindex2]->index = newindex2; + if (edgeTreeIterators[newindex2] != edgeTree->back()) { + edgeTreeIterators[newindex2]->get().index = newindex2; } } @@ -1830,13 +1830,13 @@ int TPPLPartition::TriangulateMonotone(TPPLPoly *inPoly, TPPLPolyList *triangles int TPPLPartition::Triangulate_MONO(TPPLPolyList *inpolys, TPPLPolyList *triangles) { TPPLPolyList monotone; - TPPLPolyList::iterator iter; + TPPLPolyList::Element *iter; if (!MonotonePartition(inpolys, &monotone)) { return 0; } - for (iter = monotone.begin(); iter != monotone.end(); iter++) { - if (!TriangulateMonotone(&(*iter), triangles)) { + for (iter = monotone.front(); iter; iter = iter->next()) { + if (!TriangulateMonotone(&(iter->get()), triangles)) { return 0; } } diff --git a/thirdparty/misc/polypartition.h b/thirdparty/misc/polypartition.h index f163f5d217..b2d905a3ef 100644 --- a/thirdparty/misc/polypartition.h +++ b/thirdparty/misc/polypartition.h @@ -24,8 +24,9 @@ #ifndef POLYPARTITION_H #define POLYPARTITION_H -#include -#include +#include "core/math/vector2.h" +#include "core/templates/list.h" +#include "core/templates/set.h" typedef double tppl_float; @@ -44,49 +45,7 @@ enum TPPLVertexType { }; // 2D point structure. -struct TPPLPoint { - tppl_float x; - tppl_float y; - // User-specified vertex identifier. Note that this isn't used internally - // by the library, but will be faithfully copied around. - int id; - - TPPLPoint operator+(const TPPLPoint &p) const { - TPPLPoint r; - r.x = x + p.x; - r.y = y + p.y; - return r; - } - - TPPLPoint operator-(const TPPLPoint &p) const { - TPPLPoint r; - r.x = x - p.x; - r.y = y - p.y; - return r; - } - - TPPLPoint operator*(const tppl_float f) const { - TPPLPoint r; - r.x = x * f; - r.y = y * f; - return r; - } - - TPPLPoint operator/(const tppl_float f) const { - TPPLPoint r; - r.x = x / f; - r.y = y / f; - return r; - } - - bool operator==(const TPPLPoint &p) const { - return ((x == p.x) && (y == p.y)); - } - - bool operator!=(const TPPLPoint &p) const { - return !((x == p.x) && (y == p.y)); - } -}; +typedef Vector2 TPPLPoint; // Polygon implemented as an array of points with a "hole" flag. class TPPLPoly { @@ -168,9 +127,9 @@ class TPPLPoly { }; #ifdef TPPL_ALLOCATOR -typedef std::list TPPLPolyList; +typedef List TPPLPolyList; #else -typedef std::list TPPLPolyList; +typedef List TPPLPolyList; #endif class TPPLPartition { @@ -209,9 +168,9 @@ public: }; #ifdef TPPL_ALLOCATOR - typedef std::list DiagonalList; + typedef List DiagonalList; #else - typedef std::list DiagonalList; + typedef List DiagonalList; #endif // Dynamic programming state for minimum-weight triangulation. @@ -265,8 +224,8 @@ public: // Helper functions for MonotonePartition. bool Below(TPPLPoint &p1, TPPLPoint &p2); void AddDiagonal(MonotoneVertex *vertices, long *numvertices, long index1, long index2, - TPPLVertexType *vertextypes, std::set::iterator *edgeTreeIterators, - std::set *edgeTree, long *helpers); + TPPLVertexType *vertextypes, Set::Element **edgeTreeIterators, + Set *edgeTree, long *helpers); // Triangulates a monotone polygon, used in Triangulate_MONO. int TriangulateMonotone(TPPLPoly *inPoly, TPPLPolyList *triangles);