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https://github.com/NGSolve/netgen.git
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810 lines
27 KiB
C++
810 lines
27 KiB
C++
#ifdef OCCGEOMETRY
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#include <mystdlib.h>
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#include <meshing.hpp>
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#include "occgeom.hpp"
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#include "occ_face.hpp"
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#include "occmeshsurf.hpp"
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#include <BRepAdaptor_Curve.hxx>
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#include <BRepGProp.hxx>
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#include <BRepLProp_CLProps.hxx>
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#include <BRepLProp_SLProps.hxx>
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#include <BRepMesh_IncrementalMesh.hxx>
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#include <BRepTools.hxx>
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#include <GProp_GProps.hxx>
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#include <Quantity_Color.hxx>
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#include <ShapeAnalysis.hxx>
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#include <TopExp.hxx>
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#include <TopTools_IndexedDataMapOfShapeListOfShape.hxx>
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#include <TopoDS_Edge.hxx>
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namespace netgen
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{
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#define TCL_OK 0
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#define TCL_ERROR 1
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#define DIVIDEEDGESECTIONS 10000 // better solution to come soon
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#define IGNORECURVELENGTH 0
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#define VSMALL 1e-10
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DLL_HEADER bool merge_solids = false;
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// can you please explain what you intend to compute here (JS) !!!
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double Line :: Dist (Line l)
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{
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Vec<3> n = p1-p0;
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Vec<3> q = l.p1-l.p0;
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double nq = n*q;
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Point<3> p = p0 + 0.5*n;
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double lambda = (p-l.p0)*n / (nq + VSMALL);
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if (lambda >= 0 && lambda <= 1)
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{
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double d = (p-l.p0-lambda*q).Length();
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// if (d < 1e-3) d = 1e99;
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return d;
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}
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else
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return 1e99;
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}
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double ComputeH (double kappa, const MeshingParameters & mparam)
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{
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kappa *= mparam.curvaturesafety;
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/*
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double hret;
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if (mparam.maxh * kappa < 1)
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hret = mparam.maxh;
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else
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hret = 1 / (kappa + VSMALL);
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if (mparam.maxh < hret)
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hret = mparam.maxh;
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return hret;
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*/
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// return min(mparam.maxh, 1/kappa);
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return (mparam.maxh*kappa < 1) ? mparam.maxh : 1/kappa;
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}
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void RestrictHTriangle (gp_Pnt2d & par0, gp_Pnt2d & par1, gp_Pnt2d & par2,
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BRepLProp_SLProps * prop, BRepLProp_SLProps * prop2, Mesh & mesh, int depth, double h, int layer, const MeshingParameters & mparam)
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{
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int ls = -1;
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gp_Pnt pnt0,pnt1,pnt2;
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prop->SetParameters (par0.X(), par0.Y());
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pnt0 = prop->Value();
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prop->SetParameters (par1.X(), par1.Y());
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pnt1 = prop->Value();
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prop->SetParameters (par2.X(), par2.Y());
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pnt2 = prop->Value();
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double aux;
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double maxside = pnt0.Distance(pnt1);
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ls = 2;
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aux = pnt1.Distance(pnt2);
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if(aux > maxside)
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{
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maxside = aux;
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ls = 0;
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}
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aux = pnt2.Distance(pnt0);
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if(aux > maxside)
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{
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maxside = aux;
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ls = 1;
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}
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gp_Pnt2d parmid;
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parmid.SetX( (par0.X()+par1.X()+par2.X()) / 3 );
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parmid.SetY( (par0.Y()+par1.Y()+par2.Y()) / 3 );
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if (depth%3 == 0)
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{
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double curvature = 0;
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prop2->SetParameters (parmid.X(), parmid.Y());
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if (!prop2->IsCurvatureDefined())
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{
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(*testout) << "curvature not defined!" << endl;
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return;
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}
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curvature = max(fabs(prop2->MinCurvature()),
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fabs(prop2->MaxCurvature()));
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prop2->SetParameters (par0.X(), par0.Y());
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if (!prop2->IsCurvatureDefined())
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{
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(*testout) << "curvature not defined!" << endl;
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return;
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}
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curvature = max(curvature,max(fabs(prop2->MinCurvature()),
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fabs(prop2->MaxCurvature())));
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prop2->SetParameters (par1.X(), par1.Y());
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if (!prop2->IsCurvatureDefined())
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{
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(*testout) << "curvature not defined!" << endl;
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return;
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}
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curvature = max(curvature,max(fabs(prop2->MinCurvature()),
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fabs(prop2->MaxCurvature())));
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prop2->SetParameters (par2.X(), par2.Y());
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if (!prop2->IsCurvatureDefined())
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{
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(*testout) << "curvature not defined!" << endl;
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return;
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}
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curvature = max(curvature,max(fabs(prop2->MinCurvature()),
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fabs(prop2->MaxCurvature())));
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//(*testout) << "curvature " << curvature << endl;
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if (curvature < 1e-3)
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{
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//(*testout) << "curvature too small (" << curvature << ")!" << endl;
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return;
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// return war bis 10.2.05 auskommentiert
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}
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h = ComputeH (curvature+1e-10, mparam);
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if(h < 1e-4*maxside)
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return;
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// if (h > 30) return;
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}
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if (h < maxside && depth < 10)
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{
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//cout << "\r h " << h << flush;
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gp_Pnt2d pm;
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//cout << "h " << h << " maxside " << maxside << " depth " << depth << endl;
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//cout << "par0 " << par0.X() << " " << par0.Y()
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//<< " par1 " << par1.X() << " " << par1.Y()
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// << " par2 " << par2.X() << " " << par2.Y()<< endl;
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if(ls == 0)
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{
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pm.SetX(0.5*(par1.X()+par2.X())); pm.SetY(0.5*(par1.Y()+par2.Y()));
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RestrictHTriangle(pm, par2, par0, prop, prop2, mesh, depth+1, h, layer, mparam);
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RestrictHTriangle(pm, par0, par1, prop, prop2, mesh, depth+1, h, layer, mparam);
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}
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else if(ls == 1)
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{
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pm.SetX(0.5*(par0.X()+par2.X())); pm.SetY(0.5*(par0.Y()+par2.Y()));
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RestrictHTriangle(pm, par1, par2, prop, prop2, mesh, depth+1, h, layer, mparam);
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RestrictHTriangle(pm, par0, par1, prop, prop2, mesh, depth+1, h, layer, mparam);
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}
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else if(ls == 2)
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{
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pm.SetX(0.5*(par0.X()+par1.X())); pm.SetY(0.5*(par0.Y()+par1.Y()));
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RestrictHTriangle(pm, par1, par2, prop, prop2, mesh, depth+1, h, layer, mparam);
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RestrictHTriangle(pm, par2, par0, prop, prop2, mesh, depth+1, h, layer, mparam);
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}
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}
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else
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{
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gp_Pnt pnt;
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Point3d p3d;
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prop->SetParameters (parmid.X(), parmid.Y());
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pnt = prop->Value();
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p3d = Point3d(pnt.X(), pnt.Y(), pnt.Z());
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mesh.RestrictLocalH (p3d, h, layer);
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p3d = Point3d(pnt0.X(), pnt0.Y(), pnt0.Z());
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mesh.RestrictLocalH (p3d, h, layer);
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p3d = Point3d(pnt1.X(), pnt1.Y(), pnt1.Z());
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mesh.RestrictLocalH (p3d, h, layer);
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p3d = Point3d(pnt2.X(), pnt2.Y(), pnt2.Z());
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mesh.RestrictLocalH (p3d, h, layer);
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//(*testout) << "p = " << p3d << ", h = " << h << ", maxside = " << maxside << endl;
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}
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}
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bool OCCMeshFace (const OCCGeometry & geom, Mesh & mesh, FlatArray<int, PointIndex> glob2loc,
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const MeshingParameters & mparam, int nr, int projecttype, bool delete_on_failure)
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{
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auto k = nr+1;
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if(1==0 && !geom.fvispar[k-1].IsDrawable())
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{
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(*testout) << "ignoring face " << k << endl;
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cout << "ignoring face " << k << endl;
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return true;
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}
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// if(master_faces[k]!=k)
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// continue;
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(*testout) << "mesh face " << k << endl;
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multithread.percent = 100 * k / (mesh.GetNFD() + VSMALL);
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geom.facemeshstatus[k-1] = -1;
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FaceDescriptor & fd = mesh.GetFaceDescriptor(k);
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auto face = TopoDS::Face(geom.fmap(k));
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const auto& occface = dynamic_cast<const OCCFace&>(geom.GetFace(k-1));
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int oldnf = mesh.GetNSE();
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Box<3> bb = geom.GetBoundingBox();
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// int projecttype = PLANESPACE;
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// int projecttype = PARAMETERSPACE;
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static Timer tinit("init");
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tinit.Start();
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Meshing2OCCSurfaces meshing(geom, face, bb, projecttype, mparam);
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tinit.Stop();
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static Timer tprint("print");
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tprint.Start();
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if (meshing.GetProjectionType() == PLANESPACE)
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PrintMessage (2, "Face ", k, " / ", geom.GetNFaces(), " (plane space projection)");
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else
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PrintMessage (2, "Face ", k, " / ", geom.GetNFaces(), " (parameter space projection)");
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tprint.Stop();
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// Meshing2OCCSurfaces meshing(f2, bb);
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// meshing.SetStartTime (starttime);
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//(*testout) << "Face " << k << endl << endl;
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auto segments = geom.GetFace(k-1).GetBoundary(mesh);
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if (meshing.GetProjectionType() == PLANESPACE)
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{
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static Timer t("MeshSurface: Find edges and points - Physical"); RegionTimer r(t);
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int cntp = 0;
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glob2loc = 0;
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for (Segment & seg : segments)
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// if (seg.si == k)
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for (int j = 0; j < 2; j++)
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{
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PointIndex pi = seg[j];
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if (glob2loc[pi] == 0)
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{
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meshing.AddPoint (mesh.Point(pi), pi);
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cntp++;
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glob2loc[pi] = cntp;
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}
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}
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for(const auto& vert : geom.GetFaceVertices(geom.GetFace(k-1)))
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{
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PointIndex pi = vert->nr + 1;
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if(glob2loc[pi] == 0)
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{
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auto gi = occface.Project(mesh[pi]);
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MultiPointGeomInfo mgi;
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mgi.AddPointGeomInfo(gi);
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meshing.AddPoint(mesh[pi], pi, &mgi);
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cntp++;
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glob2loc[pi] = cntp;
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}
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}
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/*
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for (int i = 1; i <= mesh.GetNSeg(); i++)
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{
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Segment & seg = mesh.LineSegment(i);
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*/
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// for (Segment & seg : mesh.LineSegments())
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for (Segment & seg : segments)
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//if (seg.si == k)
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{
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PointGeomInfo gi0, gi1;
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gi0.trignum = gi1.trignum = k;
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gi0.u = seg.epgeominfo[0].u;
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gi0.v = seg.epgeominfo[0].v;
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gi1.u = seg.epgeominfo[1].u;
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gi1.v = seg.epgeominfo[1].v;
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//if(orientation & 1)
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meshing.AddBoundaryElement (glob2loc[seg[0]], glob2loc[seg[1]], gi0, gi1);
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}
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}
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else
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{
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static Timer t("MeshSurface: Find edges and points - Parameter"); RegionTimer r(t);
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Array<PointGeomInfo> gis(2*segments.Size());
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gis.SetSize (0);
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glob2loc = 0;
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int cntpt = 0;
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Box<2> uv_box(Box<2>::EMPTY_BOX);
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for(auto & seg : segments)
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for(auto i : Range(2))
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uv_box.Add( {seg.epgeominfo[i].u, seg.epgeominfo[i].v } );
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BoxTree<2> uv_tree(uv_box);
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Array<int> found_points;
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for(auto & seg : segments)
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{
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PointGeomInfo gi[2];
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gi[0].trignum = gi[1].trignum = k;
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gi[0].u = seg.epgeominfo[0].u;
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gi[0].v = seg.epgeominfo[0].v;
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gi[1].u = seg.epgeominfo[1].u;
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gi[1].v = seg.epgeominfo[1].v;
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int locpnum[2] = {0, 0};
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for (int j = 0; j < 2; j++)
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{
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Point<2> uv = {gi[j].u, gi[j].v};
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uv_tree.GetIntersecting(uv, uv, found_points);
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if(found_points.Size())
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locpnum[j] = found_points[0];
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else
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{
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PointIndex pi = seg[j];
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meshing.AddPoint (mesh.Point(pi), pi);
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glob2loc[pi] = ++cntpt;
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gis.Append (gi[j]);
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locpnum[j] = gis.Size();
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uv_tree.Insert(uv, locpnum[j]);
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}
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}
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meshing.AddBoundaryElement (locpnum[0], locpnum[1], gi[0], gi[1]);
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}
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for(const auto& vert : geom.GetFaceVertices(geom.GetFace(k-1)))
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{
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PointIndex pi = vert->nr + 1;
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if(glob2loc[pi] == 0)
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{
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auto gi = occface.Project(mesh[pi]);
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MultiPointGeomInfo mgi;
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mgi.AddPointGeomInfo(gi);
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meshing.AddPoint(mesh[pi], pi, &mgi);
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gis.Append(gi);
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Point<2> uv = { gi.u, gi.v };
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uv_tree.Insert(uv, gis.Size());
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glob2loc[pi] = ++cntpt;
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}
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}
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}
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// Philippose - 15/01/2009
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double maxh = min2(geom.face_maxh[k-1], OCCGeometry::global_shape_properties[geom.fmap(k)].maxh);
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//double maxh = mparam.maxh;
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// int noldpoints = mesh->GetNP();
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int noldsurfel = mesh.GetNSE();
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int layer = OCCGeometry::global_shape_properties[geom.fmap(k)].layer;
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static Timer tsurfprop("surfprop");
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tsurfprop.Start();
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GProp_GProps sprops;
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BRepGProp::SurfaceProperties(TopoDS::Face(geom.fmap(k)),sprops);
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tsurfprop.Stop();
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meshing.SetMaxArea(2.*sprops.Mass());
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MESHING2_RESULT res;
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// TODO: check overlap not correctly working here
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MeshingParameters mparam_without_overlap = mparam;
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mparam_without_overlap.checkoverlap = false;
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try {
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static Timer t("GenerateMesh"); RegionTimer reg(t);
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res = meshing.GenerateMesh (mesh, mparam_without_overlap, maxh, k, layer);
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}
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catch (SingularMatrixException)
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{
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// (*myerr) << "Singular Matrix" << endl;
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res = MESHING2_GIVEUP;
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}
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catch (UVBoundsException)
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{
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// (*myerr) << "UV bounds exceeded" << endl;
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res = MESHING2_GIVEUP;
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}
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static Timer t1("rest of loop"); RegionTimer reg1(t1);
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bool meshing_failed = res != MESHING2_OK;
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if(meshing_failed && delete_on_failure)
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{
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for (SurfaceElementIndex sei = noldsurfel; sei < mesh.GetNSE(); sei++)
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mesh.Delete(sei);
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mesh.Compress();
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}
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for (SurfaceElementIndex sei = oldnf; sei < mesh.GetNSE(); sei++)
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mesh[sei].SetIndex (k);
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auto n_illegal_trigs = mesh.FindIllegalTrigs();
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PrintMessage (3, n_illegal_trigs, " illegal triangles");
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return meshing_failed;
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}
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void OCCSetLocalMeshSize(const OCCGeometry & geom, Mesh & mesh,
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const MeshingParameters & mparam, const OCCParameters& occparam)
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{
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static Timer t1("OCCSetLocalMeshSize");
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RegionTimer regt(t1);
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mesh.SetGlobalH (mparam.maxh);
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mesh.SetMinimalH (mparam.minh);
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NgArray<double> maxhdom;
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maxhdom.SetSize (geom.NrSolids());
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maxhdom = mparam.maxh;
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int maxlayer = 1;
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int dom = 0;
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for (TopExp_Explorer e(geom.GetShape(), TopAbs_SOLID); e.More(); e.Next(), dom++)
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{
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maxhdom[dom] = min2(maxhdom[dom], OCCGeometry::global_shape_properties[e.Current()].maxh);
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maxlayer = max2(maxlayer, OCCGeometry::global_shape_properties[e.Current()].layer);
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}
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mesh.SetMaxHDomain (maxhdom);
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Box<3> bb = geom.GetBoundingBox();
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bb.Increase (bb.Diam()/10);
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if (mparam.uselocalh)
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{
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const char * savetask = multithread.task;
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multithread.percent = 0;
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for(auto layer : Range(1, maxlayer+1))
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mesh.SetLocalH (bb.PMin(), bb.PMax(), mparam.grading, layer);
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int nedges = geom.emap.Extent();
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double mincurvelength = IGNORECURVELENGTH;
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double maxedgelen = 0;
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double minedgelen = 1e99;
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if(occparam.resthminedgelenenable)
|
|
{
|
|
mincurvelength = occparam.resthminedgelen;
|
|
if(mincurvelength < IGNORECURVELENGTH) mincurvelength = IGNORECURVELENGTH;
|
|
}
|
|
|
|
multithread.task = "Setting local mesh size (elements per edge)";
|
|
|
|
// Philippose - 23/01/2009
|
|
// Find all the parent faces of a given edge
|
|
// and limit the mesh size of the edge based on the
|
|
// mesh size limit of the face
|
|
TopTools_IndexedDataMapOfShapeListOfShape edge_face_map;
|
|
edge_face_map.Clear();
|
|
TopExp::MapShapesAndAncestors(geom.shape, TopAbs_EDGE, TopAbs_FACE, edge_face_map);
|
|
|
|
// setting elements per edge
|
|
for (int i = 1; i <= nedges && !multithread.terminate; i++)
|
|
{
|
|
TopoDS_Edge e = TopoDS::Edge (geom.emap(i));
|
|
int layer = OCCGeometry::global_shape_properties[e].layer;
|
|
multithread.percent = 100 * (i-1)/double(nedges);
|
|
if (BRep_Tool::Degenerated(e)) continue;
|
|
|
|
GProp_GProps system;
|
|
BRepGProp::LinearProperties(e, system);
|
|
double len = system.Mass();
|
|
|
|
if (len < mincurvelength)
|
|
{
|
|
(*testout) << "ignored" << endl;
|
|
continue;
|
|
}
|
|
|
|
bool is_identified_edge = false;
|
|
// TODO: change to use hash value
|
|
const auto& gedge = geom.GetEdge(geom.edge_map.at(e));
|
|
auto& v0 = gedge.GetStartVertex();
|
|
auto& v1 = gedge.GetEndVertex();
|
|
for(auto & ident : v0.identifications)
|
|
{
|
|
auto other = ident.from == &v0 ? ident.to : ident.from;
|
|
if(other->nr == v1.nr && ident.type == Identifications::CLOSESURFACES)
|
|
{
|
|
is_identified_edge = true;
|
|
break;
|
|
}
|
|
}
|
|
|
|
if(is_identified_edge)
|
|
continue;
|
|
|
|
double localh = len/mparam.segmentsperedge;
|
|
double s0, s1;
|
|
|
|
const TopTools_ListOfShape& parent_faces = edge_face_map.FindFromKey(e);
|
|
|
|
TopTools_ListIteratorOfListOfShape parent_face_list;
|
|
|
|
for(parent_face_list.Initialize(parent_faces); parent_face_list.More(); parent_face_list.Next())
|
|
{
|
|
TopoDS_Face parent_face = TopoDS::Face(parent_face_list.Value());
|
|
|
|
int face_index = geom.fmap.FindIndex(parent_face);
|
|
|
|
if(face_index >= 1) localh = min(localh,geom.face_maxh[face_index - 1]);
|
|
localh = min2(localh, OCCGeometry::global_shape_properties[parent_face].maxh);
|
|
}
|
|
|
|
Handle(Geom_Curve) c = BRep_Tool::Curve(e, s0, s1);
|
|
|
|
localh = min2(localh, OCCGeometry::global_shape_properties[e].maxh);
|
|
maxedgelen = max (maxedgelen, len);
|
|
minedgelen = min (minedgelen, len);
|
|
int maxj = max((int) ceil(len/localh), 2);
|
|
|
|
for (int j = 0; j <= maxj; j++)
|
|
{
|
|
gp_Pnt pnt = c->Value (s0+double(j)/maxj*(s1-s0));
|
|
mesh.RestrictLocalH (Point3d(pnt.X(), pnt.Y(), pnt.Z()), localh, layer);
|
|
}
|
|
}
|
|
|
|
multithread.task = "Setting local mesh size (edge curvature)";
|
|
|
|
// setting edge curvature
|
|
|
|
int nsections = 20;
|
|
|
|
for (int i = 1; i <= nedges && !multithread.terminate; i++)
|
|
{
|
|
double maxcur = 0;
|
|
multithread.percent = 100 * (i-1)/double(nedges);
|
|
TopoDS_Edge edge = TopoDS::Edge (geom.emap(i));
|
|
int layer = OCCGeometry::global_shape_properties[edge].layer;
|
|
if (BRep_Tool::Degenerated(edge)) continue;
|
|
double s0, s1;
|
|
Handle(Geom_Curve) c = BRep_Tool::Curve(edge, s0, s1);
|
|
BRepAdaptor_Curve brepc(edge);
|
|
BRepLProp_CLProps prop(brepc, 2, 1e-5);
|
|
|
|
for (int j = 1; j <= nsections; j++)
|
|
{
|
|
double s = s0 + j/(double) nsections * (s1-s0);
|
|
prop.SetParameter (s);
|
|
double curvature = 0;
|
|
if(prop.IsTangentDefined())
|
|
curvature = prop.Curvature();
|
|
if(curvature> maxcur) maxcur = curvature;
|
|
|
|
if (curvature >= 1e99)
|
|
continue;
|
|
|
|
gp_Pnt pnt = c->Value (s);
|
|
|
|
mesh.RestrictLocalH (Point3d(pnt.X(), pnt.Y(), pnt.Z()), ComputeH (fabs(curvature), mparam), layer);
|
|
}
|
|
}
|
|
|
|
multithread.task = "Setting local mesh size (face curvature)";
|
|
|
|
// setting face curvature
|
|
|
|
int nfaces = geom.fmap.Extent();
|
|
|
|
for (int i = 1; i <= nfaces && !multithread.terminate; i++)
|
|
{
|
|
multithread.percent = 100 * (i-1)/double(nfaces);
|
|
TopoDS_Face face = TopoDS::Face(geom.fmap(i));
|
|
int layer = OCCGeometry::global_shape_properties[face].layer;
|
|
TopLoc_Location loc;
|
|
Handle(Geom_Surface) surf = BRep_Tool::Surface (face);
|
|
Handle(Poly_Triangulation) triangulation = BRep_Tool::Triangulation (face, loc);
|
|
|
|
if (triangulation.IsNull())
|
|
{
|
|
BRepTools::Clean (geom.shape);
|
|
BRepMesh_IncrementalMesh (geom.shape, 0.01, true);
|
|
triangulation = BRep_Tool::Triangulation (face, loc);
|
|
}
|
|
|
|
BRepAdaptor_Surface sf(face, Standard_True);
|
|
// one prop for evaluating and one for derivatives
|
|
BRepLProp_SLProps prop(sf, 0, 1e-5);
|
|
BRepLProp_SLProps prop2(sf, 2, 1e-5);
|
|
|
|
int ntriangles = triangulation -> NbTriangles();
|
|
for (int j = 1; j <= ntriangles; j++)
|
|
{
|
|
gp_Pnt p[3];
|
|
gp_Pnt2d par[3];
|
|
|
|
for (int k = 1; k <=3; k++)
|
|
{
|
|
// int n = triangulation->Triangles()(j)(k);
|
|
// p[k-1] = triangulation->Nodes()(n).Transformed(loc);
|
|
// par[k-1] = triangulation->UVNodes()(n);
|
|
// fix for OCC7.6.0-dev
|
|
int n = triangulation->Triangle(j)(k);
|
|
p[k-1] = triangulation->Node(n).Transformed(loc);
|
|
par[k-1] = triangulation->UVNode(n);
|
|
}
|
|
|
|
//double maxside = 0;
|
|
//maxside = max (maxside, p[0].Distance(p[1]));
|
|
//maxside = max (maxside, p[0].Distance(p[2]));
|
|
//maxside = max (maxside, p[1].Distance(p[2]));
|
|
//cout << "\rFace " << i << " pos11 ntriangles " << ntriangles << " maxside " << maxside << flush;
|
|
|
|
RestrictHTriangle (par[0], par[1], par[2], &prop, &prop2, mesh, 0, 0, layer, mparam);
|
|
//cout << "\rFace " << i << " pos12 ntriangles " << ntriangles << flush;
|
|
}
|
|
}
|
|
|
|
// setting close edges
|
|
|
|
if (mparam.closeedgefac.has_value())
|
|
{
|
|
multithread.task = "Setting local mesh size (close edges)";
|
|
|
|
int sections = 100;
|
|
|
|
NgArray<Line> lines(sections*nedges);
|
|
|
|
/*
|
|
BoxTree<3> * searchtree =
|
|
new BoxTree<3> (bb.PMin(), bb.PMax());
|
|
*/
|
|
BoxTree<3> searchtree(bb.PMin(), bb.PMax());
|
|
|
|
int nlines = 0;
|
|
Array<int> edgenumber;
|
|
for (int i = 1; i <= nedges && !multithread.terminate; i++)
|
|
{
|
|
TopoDS_Edge edge = TopoDS::Edge (geom.emap(i));
|
|
int layer = OCCGeometry::global_shape_properties[edge].layer;
|
|
if (BRep_Tool::Degenerated(edge)) continue;
|
|
|
|
double s0, s1;
|
|
Handle(Geom_Curve) c = BRep_Tool::Curve(edge, s0, s1);
|
|
BRepAdaptor_Curve brepc(edge);
|
|
BRepLProp_CLProps prop(brepc, 1, 1e-5);
|
|
prop.SetParameter (s0);
|
|
|
|
gp_Vec d0 = prop.D1().Normalized();
|
|
double s_start = s0;
|
|
int count = 0;
|
|
for (int j = 1; j <= sections; j++)
|
|
{
|
|
double s = s0 + (s1-s0)*(double)j/(double)sections;
|
|
prop.SetParameter (s);
|
|
gp_Vec d1 = prop.D1().Normalized();
|
|
double cosalpha = fabs(d0*d1);
|
|
if ((j == sections) || (cosalpha < cos(10.0/180.0*M_PI)))
|
|
{
|
|
count++;
|
|
gp_Pnt p0 = c->Value (s_start);
|
|
gp_Pnt p1 = c->Value (s);
|
|
lines[nlines].p0 = Point<3> (p0.X(), p0.Y(), p0.Z());
|
|
lines[nlines].p1 = Point<3> (p1.X(), p1.Y(), p1.Z());
|
|
lines[nlines].layer = layer;
|
|
|
|
Box3d box;
|
|
box.SetPoint (Point3d(lines[nlines].p0));
|
|
box.AddPoint (Point3d(lines[nlines].p1));
|
|
|
|
searchtree.Insert (box.PMin(), box.PMax(), nlines+1);
|
|
nlines++;
|
|
edgenumber.Append(i);
|
|
|
|
s_start = s;
|
|
d0 = d1;
|
|
}
|
|
}
|
|
}
|
|
|
|
NgArray<int> linenums;
|
|
auto is_identified_edge = [&](int e0, int e1) {
|
|
const auto& edge0 = geom.GetEdge(e0-1);
|
|
const auto& edge1 = geom.GetEdge(e1-1);
|
|
|
|
if(edge0.primary == edge1.primary)
|
|
return true;
|
|
|
|
Array<const GeometryVertex *> v0 = { &edge0.GetStartVertex(), &edge0.GetEndVertex() };
|
|
Array<const GeometryVertex *> v1 = { &edge1.GetStartVertex(), &edge1.GetEndVertex() };
|
|
for(auto i : Range(2))
|
|
for(auto j : Range(2))
|
|
if(v0[i]->primary == v1[j]->primary)
|
|
return true;
|
|
|
|
return false;
|
|
};
|
|
|
|
for (int i = 0; i < nlines; i++)
|
|
{
|
|
multithread.percent = (100*i)/double(nlines);
|
|
Line & line = lines[i];
|
|
|
|
Box3d box;
|
|
box.SetPoint (Point3d(line.p0));
|
|
box.AddPoint (Point3d(line.p1));
|
|
double maxhline = max (mesh.GetH(box.PMin(), line.layer),
|
|
mesh.GetH(box.PMax(), line.layer));
|
|
box.Increase(maxhline);
|
|
|
|
double mindist = 1e99;
|
|
linenums.SetSize(0);
|
|
searchtree.GetIntersecting(box.PMin(),box.PMax(),linenums);
|
|
|
|
for (int j = 0; j < linenums.Size(); j++)
|
|
{
|
|
int num = linenums[j]-1;
|
|
if (i == num) continue;
|
|
if (line.layer != lines[num].layer) continue;
|
|
if( is_identified_edge(edgenumber[i], edgenumber[num]) ) continue;
|
|
if ((line.p0-lines[num].p0).Length2() < 1e-15) continue;
|
|
if ((line.p0-lines[num].p1).Length2() < 1e-15) continue;
|
|
if ((line.p1-lines[num].p0).Length2() < 1e-15) continue;
|
|
if ((line.p1-lines[num].p1).Length2() < 1e-15) continue;
|
|
mindist = min (mindist, line.Dist(lines[num]));
|
|
}
|
|
|
|
mindist /= (*mparam.closeedgefac + VSMALL);
|
|
|
|
if (mindist < 1e-3 * bb.Diam())
|
|
{
|
|
(*testout) << "extremely small local h: " << mindist
|
|
<< " --> setting to " << 1e-3 * bb.Diam() << endl;
|
|
(*testout) << "somewhere near " << line.p0 << " - " << line.p1 << endl;
|
|
mindist = 1e-3 * bb.Diam();
|
|
}
|
|
|
|
mesh.RestrictLocalHLine(line.p0, line.p1, mindist, line.layer);
|
|
}
|
|
}
|
|
|
|
for (auto mspnt : mparam.meshsize_points)
|
|
mesh.RestrictLocalH(mspnt.pnt, mspnt.h, mspnt.layer);
|
|
|
|
multithread.task = savetask;
|
|
|
|
}
|
|
|
|
mesh.LoadLocalMeshSize (mparam.meshsizefilename);
|
|
}
|
|
}
|
|
|
|
#endif
|