128 lines
4.9 KiB
C++
128 lines
4.9 KiB
C++
//-----------------------------------------------------------------------------
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// Routines to merge multiple coincident surfaces (each with their own trim
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// curves) into a single surface, with all of the trim curves.
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//-----------------------------------------------------------------------------
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#include "../solvespace.h"
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void SShell::MergeCoincidentSurfaces(void) {
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surface.ClearTags();
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int i, j;
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SSurface *si, *sj;
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for(i = 0; i < surface.n; i++) {
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si = &(surface.elem[i]);
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if(si->tag) continue;
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// Let someone else clean up the empty surfaces; we can certainly merge
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// them, but we don't know how to calculate a reasonable bounding box.
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if(si->trim.n == 0) continue;
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// And for now we handle only coincident planes, so no sense wasting
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// time on other surfaces.
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if(si->degm != 1 || si->degn != 1) continue;
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SEdgeList sel;
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ZERO(&sel);
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si->MakeEdgesInto(this, &sel, SSurface::AS_XYZ);
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bool mergedThisTime, merged = false;
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do {
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mergedThisTime = false;
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for(j = i + 1; j < surface.n; j++) {
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sj = &(surface.elem[j]);
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if(sj->tag) continue;
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if(!sj->CoincidentWith(si, true)) continue;
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if(sj->color != si->color) continue;
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// But we do merge surfaces with different face entities, since
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// otherwise we'd hardly ever merge anything.
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// This surface is coincident. But let's not merge coincident
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// surfaces if they contain disjoint contours; that just makes
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// the bounding box tests less effective, and possibly things
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// less robust.
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SEdgeList tel;
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ZERO(&tel);
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sj->MakeEdgesInto(this, &tel, SSurface::AS_XYZ);
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if(!sel.ContainsEdgeFrom(&tel)) {
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tel.Clear();
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continue;
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}
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tel.Clear();
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sj->tag = 1;
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merged = true;
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mergedThisTime = true;
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sj->MakeEdgesInto(this, &sel, SSurface::AS_XYZ);
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sj->trim.Clear();
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// All the references to this surface get replaced with the
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// new srf
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SCurve *sc;
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for(sc = curve.First(); sc; sc = curve.NextAfter(sc)) {
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if(sc->surfA.v == sj->h.v) sc->surfA = si->h;
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if(sc->surfB.v == sj->h.v) sc->surfB = si->h;
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}
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}
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// If this iteration merged a contour onto ours, then we have to
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// go through the surfaces again; that might have made a new
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// surface touch us.
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} while(mergedThisTime);
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if(merged) {
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sel.CullExtraneousEdges();
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si->trim.Clear();
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si->TrimFromEdgeList(&sel, false);
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// And we must choose control points such that all the trims lie
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// with u and v in [0, 1], so that the bbox tests work.
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Vector u, v, n;
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si->TangentsAt(0.5, 0.5, &u, &v);
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u = u.WithMagnitude(1);
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v = v.WithMagnitude(1);
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n = si->NormalAt(0.5, 0.5).WithMagnitude(1);
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v = (n.Cross(u)).WithMagnitude(1);
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double umax = VERY_NEGATIVE, umin = VERY_POSITIVE,
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vmax = VERY_NEGATIVE, vmin = VERY_POSITIVE;
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SEdge *se;
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for(se = sel.l.First(); se; se = sel.l.NextAfter(se)) {
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double ut = (se->a).Dot(u), vt = (se->a).Dot(v);
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umax = max(umax, ut);
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vmax = max(vmax, vt);
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umin = min(umin, ut);
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vmin = min(vmin, vt);
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}
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// An interesting problem here; the real curve could extend
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// slightly beyond the bounding box of the piecewise linear
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// bits. Not a problem for us, but some apps won't import STEP
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// in that case. So give a bit of extra room; in theory just
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// a chord tolerance, but more can't hurt.
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double muv = max((umax - umin), (vmax - vmin));
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double tol = muv/50 + 3*SS.ChordTolMm();
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umax += tol;
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vmax += tol;
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umin -= tol;
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vmin -= tol;
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// We move in the +v direction as v goes from 0 to 1, and in the
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// +u direction as u goes from 0 to 1. So our normal ends up
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// pointed the same direction.
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double nt = (si->ctrl[0][0]).Dot(n);
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si->ctrl[0][0] =
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Vector::From(umin, vmin, nt).ScaleOutOfCsys(u, v, n);
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si->ctrl[0][1] =
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Vector::From(umin, vmax, nt).ScaleOutOfCsys(u, v, n);
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si->ctrl[1][1] =
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Vector::From(umax, vmax, nt).ScaleOutOfCsys(u, v, n);
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si->ctrl[1][0] =
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Vector::From(umax, vmin, nt).ScaleOutOfCsys(u, v, n);
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}
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sel.Clear();
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}
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surface.RemoveTagged();
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}
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