/* 2d Spline curve for Mesh generator */ #include #include namespace netgen { SplineGeometry2d :: ~SplineGeometry2d() { for ( int i = 0; i < bcnames.Size(); i++ ) delete bcnames[i]; for (int i=0; i x; char buf[50]; infile.open (filename); if ( ! infile.good() ) throw NgException(string ("Input file '") + string (filename) + string ("' not available!")); TestComment ( infile ); infile >> buf; // file recognition tensormeshing.SetSize(0); quadmeshing.SetSize(0); TestComment ( infile ); if ( strcmp (buf, "splinecurves2dnew") == 0 ) { LoadDataNew ( infile ); } else if ( strcmp (buf, "splinecurves2dv2") == 0 ) { LoadDataV2 ( infile ); } else { LoadData(infile ); } infile.close(); } // herbert: fixed TestComment void SplineGeometry2d :: TestComment ( ifstream & infile ) { bool comment = true; char ch; while ( comment == true && !infile.eof() ) { infile.get(ch); if ( ch == '#' ) { // skip comments while ( ch != '\n' && !infile.eof() ) { infile.get(ch); } } else if ( ch == '\n' ) { // skip empty lines ; } else if ( isspace(ch) ) { // skip whitespaces ; } else { // end of comment infile.putback(ch); comment = false; } } return; } void SplineGeometry2d :: LoadData ( ifstream & infile ) { enum { D = 2 }; int nump, numseg, leftdom, rightdom; Point x; int hi1, hi2, hi3; double hd; char buf[50], ch; materials.SetSize(0); maxh.SetSize(0); infile >> elto0; TestComment ( infile ); infile >> nump; for (int i = 0; i < nump; i++) { TestComment ( infile ); for(int j=0; j> x(j); infile >> hd; Flags flags; ch = 'a'; // infile >> ch; do { infile.get (ch); } while (isspace(ch) && ch != '\n'); while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; do { infile.get (ch); } while (isspace(ch) && ch != '\n'); } if (infile.good()) infile.putback (ch); geompoints.Append (GeomPoint(x, hd)); geompoints.Last().hpref = flags.GetDefineFlag ("hpref"); geompoints.Last().hmax = flags.GetNumFlag("hmax", 1e99); } PrintMessage (3, nump, " points loaded"); TestComment ( infile ); infile >> numseg; bcnames.SetSize(numseg); for ( int i = 0; i < numseg; i++ ) bcnames[i] = 0; // "default"; SplineSeg * spline = 0; PrintMessage (3, numseg, " segments loaded"); for (int i = 0; i < numseg; i++) { TestComment ( infile ); infile >> leftdom >> rightdom; // cout << "add spline " << i << ", left = " << leftdom << ", right = " << rightdom << endl; infile >> buf; // type of spline segment if (strcmp (buf, "2") == 0) { // a line infile >> hi1 >> hi2; spline = new LineSeg(geompoints[hi1-1], geompoints[hi2-1]); } else if (strcmp (buf, "3") == 0) { // a rational spline infile >> hi1 >> hi2 >> hi3; spline = new SplineSeg3 (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); } else if (strcmp (buf, "4") == 0) { // an arc infile >> hi1 >> hi2 >> hi3; spline = new CircleSeg (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); // break; } else if (strcmp (buf, "discretepoints") == 0) { int npts; infile >> npts; Array< Point > pts(npts); for (int j = 0; j < npts; j++) for(int k=0; k> pts[j](k); spline = new DiscretePointsSeg (pts); } SplineSegExt * spex = new SplineSegExt (*spline); infile >> spex->reffak; spex -> leftdom = leftdom; spex -> rightdom = rightdom; splines.Append (spex); Flags flags; ch = 'a'; infile >> ch; while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; infile >> ch; } if (infile.good()) infile.putback (ch); spex->bc = int (flags.GetNumFlag ("bc", i+1)); spex->hpref_left = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefleft")); spex->hpref_right = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefright")); spex->copyfrom = int (flags.GetNumFlag ("copy", -1)); if ( flags.StringFlagDefined("bcname") ) { int mybc = spex->bc-1; delete bcnames[mybc]; bcnames[mybc] = new string (flags.GetStringFlag("bcname","") ); } spex -> hmax = flags.GetNumFlag("hmax", 1e99); } } void SplineGeometry2d :: LoadDataNew ( ifstream & infile ) { enum { D = 2 }; int nump, numseg, leftdom, rightdom; Point x; int hi1, hi2, hi3; double hd; char buf[50], ch; int pointnr; TestComment ( infile ); infile >> elto0; TestComment ( infile ); infile >> nump; geompoints.SetSize(nump); for (int i = 0; i < nump; i++) { TestComment ( infile ); infile >> pointnr; if ( pointnr > nump ) { throw NgException(string ("Point number greater than total number of points") ); } for(int j=0; j> x(j); // hd is now optional, default 1 // infile >> hd; hd = 1; Flags flags; // get flags, ch = 'a'; // infile >> ch; do { infile.get (ch); // if another int-value, set refinement flag to this value // (corresponding to old files) if ( int (ch) >= 48 && int(ch) <= 57 ) { infile.putback(ch); infile >> hd; infile.get(ch); } } while (isspace(ch) && ch != '\n'); while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; do { infile.get (ch); } while (isspace(ch) && ch != '\n'); } if (infile.good()) infile.putback (ch); if ( hd == 1 ) hd = flags.GetNumFlag ( "ref", 1.0); // geompoints.Append (GeomPoint(x, hd)); geompoints[pointnr-1] = GeomPoint(x, hd); geompoints[pointnr-1].hpref = flags.GetDefineFlag ("hpref"); } TestComment ( infile ); infile >> numseg; bcnames.SetSize(numseg); for ( int i = 0; i < numseg; i++ ) bcnames[i] = 0;//new"default"; SplineSeg * spline = 0; for (int i = 0; i < numseg; i++) { TestComment ( infile ); infile >> leftdom >> rightdom; // cout << "add spline " << i << ", left = " << leftdom << endl; infile >> buf; // type of spline segment if (strcmp (buf, "2") == 0) { // a line infile >> hi1 >> hi2; spline = new LineSeg (geompoints[hi1-1], geompoints[hi2-1]); } else if (strcmp (buf, "3") == 0) { // a rational spline infile >> hi1 >> hi2 >> hi3; spline = new SplineSeg3 (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); } else if (strcmp (buf, "4") == 0) { // an arc infile >> hi1 >> hi2 >> hi3; spline = new CircleSeg (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); // break; } else if (strcmp (buf, "discretepoints") == 0) { int npts; infile >> npts; Array< Point > pts(npts); for (int j = 0; j < npts; j++) for(int k=0; k> pts[j](k); spline = new DiscretePointsSeg (pts); } // infile >> spline->reffak; SplineSegExt * spex = new SplineSegExt (*spline); spex -> leftdom = leftdom; spex -> rightdom = rightdom; splines.Append (spex); // hd is now optional, default 1 // infile >> hd; hd = 1; infile >> ch; // get refinement parameter, if it is there // infile.get (ch); // if another int-value, set refinement flag to this value // (corresponding to old files) if ( int (ch) >= 48 && int(ch) <= 57 ) { infile.putback(ch); infile >> hd; infile >> ch ; } Flags flags; while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; infile >> ch; } if (infile.good()) infile.putback (ch); spex->bc = int (flags.GetNumFlag ("bc", i+1)); spex->hpref_left = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefleft")); spex->hpref_right = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefright")); spex->copyfrom = int (flags.GetNumFlag ("copy", -1)); spex->reffak = flags.GetNumFlag ("ref", 1 ); spex->hmax = flags.GetNumFlag ("maxh", 1e99 ); if ( flags.StringFlagDefined("bcname") ) { int mybc = spex->bc-1; if ( bcnames[mybc] ) delete bcnames[mybc]; bcnames[mybc] = new string (flags.GetStringFlag("bcname","") ); } if ( hd != 1 ) spex->reffak = hd; } if ( !infile.good() ) return; TestComment ( infile ); int numdomains; int domainnr; char material[100]; if ( !infile.good() ) return; infile >> numdomains; materials.SetSize(numdomains) ; maxh.SetSize ( numdomains ) ; maxh = 1e99; TestComment ( infile ); for ( int i=0; i> domainnr; infile >> material; strcpy(materials[domainnr-1], material); Flags flags; ch = 'a'; infile >> ch; while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; infile >> ch; } if (infile.good()) infile.putback (ch); maxh[domainnr-1] = flags.GetNumFlag ( "maxh", 1e99); } return; } void SplineGeometry2d :: LoadDataV2 ( ifstream & infile ) { enum { D = 2 }; // new parser by Astrid Sinwel PrintMessage (1, "Load 2D Geometry V2"); int nump, leftdom, rightdom; Point x; int hi1, hi2, hi3; double hd; char buf[50], ch; int pointnr; string keyword; Array < GeomPoint > infilepoints (0); Array pointnrs (0); nump = 0; int numdomains = 0; TestComment ( infile ); // refinement factor infile >> elto0; TestComment ( infile ); // test if next ch is a letter, i.e. new keyword starts bool ischar = false; while ( infile.good() ) { infile >> keyword; ischar = false; if ( keyword == "points" ) { PrintMessage (3, "load points"); infile.get(ch); infile.putback(ch); // test if ch is a letter if ( int(ch) >= 65 && int(ch) <=90 ) ischar = true; if ( int(ch) >= 97 && int(ch) <= 122 ) ischar = true; while ( ! ischar ) { TestComment ( infile ); infile >> pointnr; // pointnrs 1-based if ( pointnr > nump ) nump = pointnr; pointnrs.Append(pointnr); for(int j=0; j> x(j); // hd is now optional, default 1 // infile >> hd; hd = 1; Flags flags; // get flags, ch = 'a'; // infile >> ch; do { infile.get (ch); // if another int-value, set refinement flag to this value // (corresponding to old files) if ( int (ch) >= 48 && int(ch) <= 57 ) { infile.putback(ch); infile >> hd; infile.get(ch); } } while (isspace(ch) && ch != '\n'); while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; do { infile.get (ch); } while (isspace(ch) && ch != '\n'); } if (infile.good()) infile.putback (ch); if ( hd == 1 ) hd = flags.GetNumFlag ( "ref", 1.0); // geompoints.Append (GeomPoint(x, hd)); infilepoints.Append ( GeomPoint(x, hd) ); infilepoints.Last().hpref = flags.GetDefineFlag ("hpref"); infilepoints.Last().hmax = flags.GetNumFlag ("maxh", 1e99); TestComment(infile); infile.get(ch); infile.putback(ch); // test if letter if ( int(ch) >= 65 && int(ch) <=90 ) ischar = true; if ( int(ch) >= 97 && int(ch) <= 122 ) ischar = true; } // infile.putback (ch); geompoints.SetSize(nump); for ( int i = 0; i < nump; i++ ) { geompoints[pointnrs[i] - 1] = infilepoints[i]; geompoints[pointnrs[i] - 1].hpref = infilepoints[i].hpref; } TestComment(infile); } else if ( keyword == "segments" ) { PrintMessage (3, "load segments"); bcnames.SetSize(0); infile.get(ch); infile.putback(ch); int i = 0; // test if ch is a letter if ( int(ch) >= 65 && int(ch) <=90 ) ischar = true; if ( int(ch) >= 97 && int(ch) <= 122 ) ischar = true; while ( !ischar ) //ch != 'p' && ch != 'm' ) { i++; TestComment ( infile ); SplineSeg * spline = 0; TestComment ( infile ); infile >> leftdom >> rightdom; if ( leftdom > numdomains ) numdomains = leftdom; if ( rightdom > numdomains ) numdomains = rightdom; infile >> buf; // type of spline segment if (strcmp (buf, "2") == 0) { // a line infile >> hi1 >> hi2; spline = new LineSeg(geompoints[hi1-1], geompoints[hi2-1]); } else if (strcmp (buf, "3") == 0) { // a rational spline infile >> hi1 >> hi2 >> hi3; spline = new SplineSeg3 (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); } else if (strcmp (buf, "4") == 0) { // an arc infile >> hi1 >> hi2 >> hi3; spline = new CircleSeg (geompoints[hi1-1], geompoints[hi2-1], geompoints[hi3-1]); } else if (strcmp (buf, "discretepoints") == 0) { int npts; infile >> npts; Array< Point > pts(npts); for (int j = 0; j < npts; j++) for(int k=0; k> pts[j](k); spline = new DiscretePointsSeg (pts); } else if (strcmp (buf, "bsplinepoints") == 0) { int npts,order; infile >> npts; infile >> order; Array< Point > pts(npts); for (int j = 0; j < npts; j++) for(int k=0; k> pts[j](k); if(order<2) cerr<<"Minimum order of 2 is required!!"< (pts); else if(order==3) spline = new BSplineSeg (pts); else if(order==4) spline = new BSplineSeg (pts); else if(order>4) cerr<<"Maximum allowed order is 4!!"<> spline->reffak; SplineSegExt * spex = new SplineSegExt (*spline); spex -> leftdom = leftdom; spex -> rightdom = rightdom; splines.Append (spex); // hd is now optional, default 1 // infile >> hd; hd = 1; infile >> ch; // get refinement parameter, if it is there //infile.get (ch); // if another int-value, set refinement flag to this value // (corresponding to old files) /* if ( int (ch) >= 48 && int(ch) <= 57 ) { infile.putback(ch); infile >> hd; infile >> ch ; } */ // get flags, Flags flags; while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; infile >> ch; } if (infile.good()) infile.putback (ch); spex->bc = int (flags.GetNumFlag ("bc", i+1)); spex->hpref_left = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefleft")); spex->hpref_right = int (flags.GetDefineFlag ("hpref")) || int (flags.GetDefineFlag ("hprefright")); spex->copyfrom = int (flags.GetNumFlag ("copy", -1)); spex->reffak = flags.GetNumFlag ("ref", 1 ); spex->hmax = flags.GetNumFlag ("maxh", 1e99 ); if ( hd != 1 ) spex->reffak = hd; if ( flags.StringFlagDefined("bcname") ) { int mybc = spex->bc-1; for ( int ii = bcnames.Size(); ii <= mybc; ii++ ) bcnames.Append ( new string ("default")); if ( bcnames[mybc] ) delete bcnames[mybc]; bcnames[mybc] = new string (flags.GetStringFlag("bcname","") ); } TestComment(infile); infile.get(ch); infile.putback(ch); // test if ch is a letter if ( int(ch) >= 65 && int(ch) <=90 ) ischar = true; if ( int(ch) >= 97 && int(ch) <= 122 ) ischar = true; } infile.get(ch); infile.putback(ch); } else if ( keyword == "materials" ) { TestComment ( infile ); int domainnr; char material[100]; if ( !infile.good() ) return; materials.SetSize(numdomains) ; maxh.SetSize ( numdomains ) ; for ( int i = 0; i < numdomains; i++) maxh[i] = 1000; quadmeshing.SetSize ( numdomains ); quadmeshing = false; tensormeshing.SetSize ( numdomains ); tensormeshing = false; layer.SetSize ( numdomains ); layer = 1; TestComment ( infile ); for ( int i=0; i> domainnr; infile >> material; strcpy (materials[domainnr-1], material); Flags flags; ch = 'a'; infile >> ch; while (ch == '-') { char flag[100]; flag[0]='-'; infile >> (flag+1); flags.SetCommandLineFlag (flag); ch = 'a'; infile >> ch; } if (infile.good()) infile.putback (ch); maxh[domainnr-1] = flags.GetNumFlag ( "maxh", 1000); if (flags.GetDefineFlag("quad")) quadmeshing[domainnr-1] = true; if (flags.GetDefineFlag("tensor")) tensormeshing[domainnr-1] = true; layer[domainnr-1] = int(flags.GetNumFlag ("layer", 1)); } } } return; } /* void CalcPartition (const SplineSegExt & spline, double l, double h, double h1, double h2, double hcurve, double elto0, Array & points) { double fperel, oldf, f; int n = 1000; points.SetSize (0); double dt = l / n; double sum = 0; for (int i = 1; i <= n; i++) { double t = (i-0.5)*dt; double fun = min3 (hcurve, t/elto0 + h1, (l-t)/elto0 + h2); double curv = spline.CalcCurvature (t/l); cout << "curv = " << curv << endl; if (curv < 1e-10) curv = 1e-10; fun = min2 (fun, 0.1/curv); sum += dt / fun; } int nel = int (sum+1); fperel = sum / nel; points.Append (0); int i = 1; oldf = 0; // t = 0.5 * dt; for (int j = 1; j <= n && i < nel; j++) { double t = (j-0.5)*dt; double fun = min3 (hcurve, t/elto0 + h1, (l-t)/elto0 + h2); double curv = spline.CalcCurvature (t/l); if (curv < 1e-10) curv = 1e-10; fun = min2 (fun, 0.1/curv); f = oldf + dt / fun; while (i * fperel < f && i < nel) { points.Append ( dt * (j-1) + (i * fperel - oldf) * fun); i++; } oldf = f; t += dt; } points.Append (l); } */ void SplineGeometry2d :: SetBCName (int bcnr, string name) { if (bcnr < 1) throw NgException ("Illegal nr in SetBCName"); int new_to_add = bcnr - bcnames.Size(); for (int i = 0; i < new_to_add; i++) bcnames.Append (new string("default")); delete bcnames[bcnr-1]; bcnames[bcnr-1] = new string(name); } string SplineGeometry2d :: GetBCName( int bcnr ) const { if (bcnames.Size() >= bcnr) if (bcnames[bcnr-1] ) return *bcnames[bcnr-1]; return "default"; } string * SplineGeometry2d :: BCNamePtr( int bcnr ) { if ( bcnr > bcnames.Size() ) return nullptr; else return bcnames[bcnr-1]; } int SplineGeometry2d :: GetBCNumber (string name) const { for (int i = 0; i < bcnames.Size(); i++) if (*bcnames[i] == name) return i+1; return 0; } int SplineGeometry2d :: AddBCName (string name) { bcnames.Append (new string(name)); return bcnames.Size(); } void SplineGeometry2d :: GetMaterial (int domnr, char* & material ) { if ( materials.Size() >= domnr) material = materials[domnr-1]; else material = 0; } void SplineGeometry2d :: SetMaterial (int domnr, const string & material) { int oldsize = materials.Size(); if (domnr > materials.Size()) materials.SetSize (domnr); for (int i = oldsize; i < domnr; i++) materials[i] = nullptr; if (domnr >= 1) // && domnr <= materials.Size()) { delete materials[domnr-1]; materials[domnr-1] = new char[material.size()+1]; strcpy(materials[domnr-1], material.c_str()); } else throw NgException ("material index out of range"); } double SplineGeometry2d :: GetDomainMaxh (const int domnr ) { if ( maxh.Size() >= domnr && domnr > 0) return maxh[domnr-1]; else return -1; } void SplineGeometry2d :: SetDomainMaxh (int domnr, double h) { int oldsize = maxh.Size(); if (domnr > maxh.Size()) maxh.SetSize (domnr); for (int i = oldsize; i < domnr; i++) maxh[i] = 1e99; if (domnr >= 1) maxh[domnr-1] = h; else throw NgException ("material index out of range"); } extern void MeshFromSpline2D (SplineGeometry2d & geometry, shared_ptr & mesh, MeshingParameters & mp); int SplineGeometry2d :: GenerateMesh (shared_ptr & mesh, MeshingParameters & mparam) { MeshFromSpline2D (*this, mesh, mparam); return 0; } Refinement & SplineGeometry2d :: GetRefinement () const { return * new Refinement2d (*this); } class SplineGeometryRegister : public GeometryRegister { public: virtual NetgenGeometry * Load (string filename) const; }; NetgenGeometry * SplineGeometryRegister :: Load (string filename) const { const char * cfilename = filename.c_str(); if (strcmp (&cfilename[strlen(cfilename)-4], "in2d") == 0) { PrintMessage (1, "Load 2D-Spline geometry file ", cfilename); ifstream infile(cfilename); SplineGeometry2d * hgeom = new SplineGeometry2d(); hgeom -> Load (cfilename); return hgeom; } return NULL; } class SplineGeoInit { public: SplineGeoInit() { geometryregister.Append (new SplineGeometryRegister); } }; SplineGeoInit sginit; static RegisterClassForArchive, NetgenGeometry> regspg2; static RegisterClassForArchive> regssext; }