/*************************************************************************** c_clipper.cpp (c) 2000-2013 BenoƮt Minisini This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. ***************************************************************************/ #define __C_CLIPPER_CPP #include "main.h" #include "gb.geom.h" #include "c_clipper.h" #define SCALE 1000000.0 static IntPoint to_point_xy(double x, double y) { return IntPoint(x * SCALE + 0.5, y * SCALE + 0.5); } static IntPoint to_point(GEOM_POINTF *point) { return to_point_xy(point->x, point->y); } static GEOM_POINTF *from_point(IntPoint p) { return GEOM.CreatePointF((double)p.X / SCALE, (double)p.Y / SCALE); } static bool is_polygon_closed(Polygon &p) { int n = p.size() - 1; if (n <= 1) return false; return p[0].X == p[n].X && p[0].Y == p[n].Y; } static void set_polygon_closed(Polygon &p, bool closed) { if (is_polygon_closed(p) == closed) return; if (closed) p.push_back(p[0]); else p.erase(p.begin() + p.size() - 1); } static bool to_polygons(Polygons &polygons, GB_ARRAY array) { int count; CPOLYGON *p; int i; if (GB.CheckObject(array)) return true; count = GB.Array.Count(array); if (count == 0) return false; polygons.clear(); for(i = 0; i < count; i++) { p = *(CPOLYGON **)GB.Array.Get(array, i); if (!p) continue; polygons.push_back(*(p->poly)); } return false; } static GB_ARRAY from_polygons(Polygons &polygons, bool closed) { GB_ARRAY a; CPOLYGON *p; uint i; GB.Array.New(&a, GB.FindClass("Polygon"), polygons.size()); for (i = 0; i < polygons.size(); i++) { if (polygons[i].size() == 0) continue; set_polygon_closed(polygons[i], closed); p = (CPOLYGON *)GB.New(GB.FindClass("Polygon"), NULL, NULL); *(p->poly) = polygons[i]; *(GB_ARRAY *)GB.Array.Get(a, i) = p; GB.Ref(p); } return a; } //--------------------------------------------------------------------------- #define THIS ((CPOLYGON *)_object) #define POLY THIS->poly static bool _convert_polygon(CPOLYGON *_object, GB_TYPE type, GB_VALUE *conv) { if (type != GB.FindClass("PointF[]")) return true; if (THIS) { // Polygon --> PointF[] GB_ARRAY a; int i; GEOM_POINTF **data; GB.Array.New(&a, GB.FindClass("PointF"), POLY->size()); // + THIS->closed); data = (GEOM_POINTF **)GB.Array.Get(a, 0); for(i = 0; i < (int)POLY->size(); i++) { data[i] = from_point((*POLY)[i]); GB.Ref(data[i]); } /*if (closed) { data[i] = from_point((*POLY)[0]); GB.Ref(data[i]); }*/ conv->_object.value = a; return false; } else { // PointF[] --> Polygon CPOLYGON *p; GB_ARRAY a = (GB_ARRAY)conv->_object.value; int size = GB.Array.Count(a); int i; GEOM_POINTF **points; p = (CPOLYGON *)GB.New(GB.FindClass("Polygon"), NULL, NULL); points = (GEOM_POINTF **)GB.Array.Get(a, 0); for (i = 0; i < size; i++) { if (!points[i]) continue; p->poly->push_back(to_point(points[i])); } conv->_object.value = p; return false; } } BEGIN_METHOD(Polygon_new, GB_INTEGER size) POLY = new Polygon; if (!MISSING(size)) POLY->resize(VARG(size)); END_METHOD BEGIN_METHOD_VOID(Polygon_free) delete POLY; END_METHOD BEGIN_METHOD(Polygon_get, GB_INTEGER index) int index = VARG(index); if (index < 0 || index >= (int)POLY->size()) { GB.Error(GB_ERR_BOUND); return; } GB.ReturnObject(from_point((*POLY)[index])); END_METHOD BEGIN_METHOD(Polygon_put, GB_OBJECT point; GB_INTEGER index) int index = VARG(index); GEOM_POINTF *point = (GEOM_POINTF *)VARG(point); if (GB.CheckObject(point)) return; if (index < 0 || index >= (int)POLY->size()) { GB.Error(GB_ERR_BOUND); return; } (*POLY)[index] = to_point(point); END_METHOD BEGIN_PROPERTY(Polygon_Count) GB.ReturnInteger(POLY->size()); END_PROPERTY BEGIN_PROPERTY(Polygon_Max) GB.ReturnInteger(POLY->size() - 1); END_PROPERTY BEGIN_PROPERTY(Polygon_Area) GB.ReturnFloat(Area(*POLY) / SCALE / SCALE); END_PROPERTY BEGIN_METHOD_VOID(Polygon_Reverse) ReversePolygon(*POLY); END_METHOD BEGIN_METHOD(Polygon_Simplify, GB_INTEGER fill) Polygons result; SimplifyPolygon(*POLY, result, (PolyFillType)VARGOPT(fill, pftNonZero)); GB.ReturnObject(from_polygons(result, is_polygon_closed(*POLY))); END_METHOD BEGIN_METHOD(Polygon_Clean, GB_FLOAT distance) bool closed; CPOLYGON *result = (CPOLYGON *)GB.New(GB.FindClass("Polygon"), NULL, 0); result->poly->resize(POLY->size()); closed = is_polygon_closed(*POLY); CleanPolygon(*POLY, *(result->poly), VARGOPT(distance, 1.415)); set_polygon_closed(*(result->poly), closed); GB.ReturnObject(result); END_METHOD BEGIN_METHOD(Polygon_Add, GB_FLOAT x; GB_FLOAT y) POLY->push_back(to_point_xy(VARG(x), VARG(y))); END_METHOD BEGIN_METHOD(Polygon_AddPoint, GB_OBJECT point) GEOM_POINTF *point = (GEOM_POINTF *)VARG(point); if (GB.CheckObject(point)) return; POLY->push_back(to_point(point)); END_METHOD BEGIN_METHOD(Polygon_Remove, GB_INTEGER index; GB_INTEGER count) int index = VARG(index); int count = VARGOPT(count, 1); int index2; if (index < 0 || index >= (int)POLY->size()) { GB.Error(GB_ERR_BOUND); return; } if (count < 0) count = (int)POLY->size() - index; index2 = index + count; if (index2 > (int)POLY->size()) index2 = POLY->size(); if (count == 1) POLY->erase(POLY->begin() + index); else POLY->erase(POLY->begin() + index, POLY->begin() + index2); END_METHOD BEGIN_PROPERTY(Polygon_Orientation) GB.ReturnBoolean(Orientation(*POLY)); END_PROPERTY //--------------------------------------------------------------------------- BEGIN_METHOD(Clipper_Offset, GB_OBJECT polygons; GB_FLOAT delta; GB_INTEGER join; GB_FLOAT limit; GB_BOOLEAN do_not_fix) Polygons polygons; Polygons result; if (to_polygons(polygons, VARG(polygons))) return; SimplifyPolygons(polygons, result, pftNonZero); polygons = result; OffsetPolygons(polygons, result, VARG(delta) * SCALE, (JoinType)VARGOPT(join, jtSquare), VARGOPT(limit, 0.0), !VARGOPT(do_not_fix, false)); GB.ReturnObject(from_polygons(result, true)); END_METHOD BEGIN_METHOD(Clipper_Simplify, GB_OBJECT polygons; GB_INTEGER fill) Polygons polygons; Polygons result; if (to_polygons(polygons, VARG(polygons))) return; SimplifyPolygons(polygons, result, (PolyFillType)VARGOPT(fill, pftNonZero)); GB.ReturnObject(from_polygons(result, true)); END_METHOD BEGIN_METHOD(Clipper_Clean, GB_OBJECT polygons; GB_FLOAT distance) Polygons polygons; Polygons result; if (to_polygons(polygons, VARG(polygons))) return; result.resize(polygons.size()); CleanPolygons(polygons, result, VARGOPT(distance, 1.415)); GB.ReturnObject(from_polygons(result, true)); END_METHOD static void execute(ClipType action, PolyFillType fill, void *subject, void *clip) { Clipper c; Polygons psubject, pclip, result; if (to_polygons(psubject, subject)) return; if (clip && to_polygons(pclip, clip)) return; c.AddPolygons(psubject, ptSubject); c.AddPolygons(pclip, ptClip); c.Execute(action, result, fill, fill); GB.ReturnObject(from_polygons(result, true)); } BEGIN_METHOD(Clipper_Union, GB_OBJECT subject; GB_OBJECT clip; GB_INTEGER fill) execute(ctUnion, (PolyFillType)VARGOPT(fill, pftNonZero), VARG(subject), VARGOPT(clip, NULL)); END_METHOD BEGIN_METHOD(Clipper_Intersection, GB_OBJECT subject; GB_OBJECT clip; GB_INTEGER fill) execute(ctIntersection, (PolyFillType)VARGOPT(fill, pftNonZero), VARG(subject), VARGOPT(clip, NULL)); END_METHOD BEGIN_METHOD(Clipper_Difference, GB_OBJECT subject; GB_OBJECT clip; GB_INTEGER fill) execute(ctDifference, (PolyFillType)VARGOPT(fill, pftNonZero), VARG(subject), VARGOPT(clip, NULL)); END_METHOD BEGIN_METHOD(Clipper_ExclusiveOr, GB_OBJECT subject; GB_OBJECT clip; GB_INTEGER fill) execute(ctXor, (PolyFillType)VARGOPT(fill, pftNonZero), VARG(subject), VARGOPT(clip, NULL)); END_METHOD //--------------------------------------------------------------------------- GB_DESC PolygonDesc[] = { GB_DECLARE("Polygon", sizeof(CPOLYGON)), GB_METHOD("_new", NULL, Polygon_new, "[(Size)i]"), GB_METHOD("_free", NULL, Polygon_free, NULL), GB_METHOD("_get", "PointF", Polygon_get, "(Index)i"), GB_METHOD("_put", NULL, Polygon_put, "(Index)i(Point)PointF;"), GB_PROPERTY_READ("Count", "i", Polygon_Count), GB_PROPERTY_READ("Max", "i", Polygon_Max), GB_PROPERTY_READ("Area", "f", Polygon_Area), GB_PROPERTY_READ("Orientation", "b", Polygon_Orientation), GB_METHOD("Reverse", NULL, Polygon_Reverse, NULL), GB_METHOD("Simplify", "Polygon[]", Polygon_Simplify, "[(Fill)i]"), GB_METHOD("Clean", "Polygon", Polygon_Clean, "[(Distance)f]"), GB_METHOD("Add", NULL, Polygon_Add, "(X)f(Y)f"), GB_METHOD("AddPoint", NULL, Polygon_AddPoint, "(Point)Point;"), GB_METHOD("Remove", NULL, Polygon_Remove, "(Index)i[Count)i]"), GB_INTERFACE("_convert", &_convert_polygon), GB_END_DECLARE }; GB_DESC ClipperDesc[] = { GB_DECLARE_VIRTUAL("Clipper"), //void OffsetPolygons(const Polygons &in_polys, Polygons &out_polys, double delta, JoinType jointype = jtSquare, double limit = 0.0, bool autoFix = true); //void SimplifyPolygons(const Polygons &in_polys, Polygons &out_polys, PolyFillType fillType = pftEvenOdd); //void CleanPolygons(Polygons &in_polys, Polygon &out_polys, double distance = 1.415); GB_CONSTANT("JoinMiter", "i", jtMiter), GB_CONSTANT("JoinSquare", "i", jtSquare), GB_CONSTANT("JoinRound", "i", jtRound), GB_CONSTANT("FillEvenOdd", "i", pftEvenOdd), GB_CONSTANT("FillWinding", "i", pftNonZero), GB_CONSTANT("FillNonZero", "i", pftNonZero), GB_CONSTANT("FillPositive", "i", pftPositive), GB_CONSTANT("FillNegative", "i", pftNegative), GB_STATIC_METHOD("Offset", "Polygon[]", Clipper_Offset, "(Polygons)Polygon[];(Delta)f[(Join)i(Limit)f(DoNotFix)b]"), GB_STATIC_METHOD("Simplify", "Polygon[]", Clipper_Simplify, "(Polygons)Polygon[];[(Fill)i]"), GB_STATIC_METHOD("Clean", "Polygon[]", Clipper_Clean, "(Polygons)Polygon[];[(Distance)f]"), GB_STATIC_METHOD("Union", "Polygon[]", Clipper_Union, "(Polygons)Polygon[];[(Clip)Polygon[];[(Fill)i]"), GB_STATIC_METHOD("Intersection", "Polygon[]", Clipper_Intersection, "(Polygons)Polygon[];[(Clip)Polygon[];[(Fill)i]"), GB_STATIC_METHOD("Difference", "Polygon[]", Clipper_Difference, "(Polygons)Polygon[];[(Clip)Polygon[];[(Fill)i]"), GB_STATIC_METHOD("ExclusiveOr", "Polygon[]", Clipper_ExclusiveOr, "(Polygons)Polygon[];[(Clip)Polygon[];[(Fill)i]"), GB_END_DECLARE };