#include "solvespace.h" void SShell::MakeFromUnionOf(SShell *a, SShell *b) { MakeFromBoolean(a, b, AS_UNION); } void SShell::MakeFromDifferenceOf(SShell *a, SShell *b) { MakeFromBoolean(a, b, AS_DIFFERENCE); } SCurve SCurve::MakeCopySplitAgainst(SShell *against) { SCurve ret; ZERO(&ret); ret.isExact = isExact; ret.exact = exact; Vector *p; for(p = pts.First(); p; p = pts.NextAfter(p)) { ret.pts.Add(p); } return ret; } void SShell::CopyCurvesSplitAgainst(SShell *against, SShell *into) { SCurve *sc; for(sc = curve.First(); sc; sc = curve.NextAfter(sc)) { SCurve scn = sc->MakeCopySplitAgainst(against); hSCurve hsc = into->curve.AddAndAssignId(&scn); // And note the new ID so that we can rewrite the trims appropriately sc->newH = hsc; } } void SShell::MakeEdgeListUseNewCurveIds(SEdgeList *el) { SEdge *se; for(se = el->l.First(); se; se = el->l.NextAfter(se)) { hSCurve oldh = { se->auxA }; SCurve *osc = curve.FindById(oldh); se->auxA = osc->newH.v; // auxB is the direction, which is unchanged } } void SSurface::TrimFromEdgeList(SEdgeList *el) { el->l.ClearTags(); STrimBy stb; ZERO(&stb); for(;;) { // Find an edge, any edge; we'll start from there. SEdge *se; for(se = el->l.First(); se; se = el->l.NextAfter(se)) { if(se->tag) continue; break; } if(!se) break; se->tag = 1; stb.start = se->a; stb.finish = se->b; stb.curve.v = se->auxA; stb.backwards = se->auxB ? true : false; // Find adjoining edges from the same curve; those should be // merged into a single trim. bool merged; do { merged = false; for(se = el->l.First(); se; se = el->l.NextAfter(se)) { if(se->tag) continue; if(se->auxA != stb.curve.v) continue; if(( se->auxB && !stb.backwards) || (!se->auxB && stb.backwards)) continue; if((se->a).Equals(stb.finish)) { stb.finish = se->b; se->tag = 1; merged = true; } else if((se->b).Equals(stb.start)) { stb.start = se->a; se->tag = 1; merged = true; } } } while(merged); // And add the merged trim, with xyz (not uv like the polygon) pts stb.start = PointAt(stb.start.x, stb.start.y); stb.finish = PointAt(stb.finish.x, stb.finish.y); trim.Add(&stb); } } //----------------------------------------------------------------------------- // Trim this surface against the specified shell, in the way that's appropriate // for the specified Boolean operation type (and which operand we are). We // also need a pointer to the shell that contains our own surface, since that // contains our original trim curves. //----------------------------------------------------------------------------- SSurface SSurface::MakeCopyTrimAgainst(SShell *against, SShell *shell, int type, bool opA) { SSurface ret; // The returned surface is identical, just the trim curves change ret = *this; ZERO(&(ret.trim)); SEdgeList el; ZERO(&el); MakeEdgesInto(shell, &el, true); shell->MakeEdgeListUseNewCurveIds(&el); ret.TrimFromEdgeList(&el); el.Clear(); return ret; } void SShell::CopySurfacesTrimAgainst(SShell *against, SShell *into, int type, bool opA) { SSurface *ss; for(ss = surface.First(); ss; ss = surface.NextAfter(ss)) { SSurface ssn; ssn = ss->MakeCopyTrimAgainst(against, this, type, opA); into->surface.AddAndAssignId(&ssn); } } void SShell::MakeFromBoolean(SShell *a, SShell *b, int type) { // Copy over all the original curves, splitting them so that a // piecwise linear segment never crosses a surface from the other // shell. a->CopyCurvesSplitAgainst(b, this); b->CopyCurvesSplitAgainst(a, this); // Generate the intersection curves for each surface in A against all // the surfaces in B // Then trim and copy the surfaces a->CopySurfacesTrimAgainst(b, this, type, true); b->CopySurfacesTrimAgainst(a, this, type, false); }