netgen/libsrc/geom2d/splinegeometry.cpp
2011-01-10 20:18:01 +00:00

1290 lines
30 KiB
C++

/*
2d Spline curve for Mesh generator
*/
#include <mystdlib.h>
#include <csg.hpp>
#include <geometry2d.hpp>
#include "meshing.hpp"
namespace netgen
{
template<int D>
void SplineGeometry<D> :: LoadDataV2 ( ifstream & infile )
{
// new parser by Astrid Sinwel
PrintMessage (1, "Load 2D Geometry V2");
int nump, leftdom, rightdom;
Point<D> x;
int hi1, hi2, hi3;
double hd;
char buf[50], ch;
int pointnr;
string keyword;
Array < GeomPoint<D> > infilepoints (0);
Array <int> 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<D; j++)
infile >> 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<D>(x, hd));
infilepoints.Append ( GeomPoint<D>(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<D> * spline = 0;
TestComment ( infile );
infile >> leftdom >> rightdom;
if ( leftdom > numdomains ) numdomains = leftdom;
if ( rightdom > numdomains ) numdomains = rightdom;
infile >> buf;
// type of spline segement
if (strcmp (buf, "2") == 0)
{ // a line
infile >> hi1 >> hi2;
spline = new LineSeg<D>(geompoints[hi1-1],
geompoints[hi2-1]);
}
else if (strcmp (buf, "3") == 0)
{ // a rational spline
infile >> hi1 >> hi2 >> hi3;
spline = new SplineSeg3<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
}
else if (strcmp (buf, "4") == 0)
{ // an arc
infile >> hi1 >> hi2 >> hi3;
spline = new CircleSeg<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
break;
}
else if (strcmp (buf, "discretepoints") == 0)
{
int npts;
infile >> npts;
Array< Point<D> > pts(npts);
for (int j = 0; j < npts; j++)
for(int k=0; k<D; k++)
infile >> pts[j](k);
spline = new DiscretePointsSeg<D> (pts);
}
// infile >> spline->reffak;
spline -> leftdom = leftdom;
spline -> rightdom = rightdom;
splines.Append (spline);
// 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);
splines.Last()->bc = int (flags.GetNumFlag ("bc", i+1));
splines.Last()->hpref_left = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefleft"));
splines.Last()->hpref_right = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefright"));
splines.Last()->copyfrom = int (flags.GetNumFlag ("copy", -1));
splines.Last()->reffak = flags.GetNumFlag ("ref", 1 );
splines.Last()->hmax = flags.GetNumFlag ("maxh", 1e99 );
if ( hd != 1 ) splines.Last()->reffak = hd;
if ( flags.StringFlagDefined("bcname") )
{
int mybc = splines.Last()->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<numdomains; i++)
materials [ i ] = new char[100];
for ( int i=0; i<numdomains && infile.good(); i++)
{
TestComment ( infile );
infile >> 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;
}
// check if comments in a .in2d file...
// template <int D>
// void SplineGeometry<D> :: TestComment ( ifstream & infile )
// {
// bool comment = true;
// char ch;
// infile.get(ch);
// infile.putback(ch);
// int ii = 0;
// while ( comment == true && ii < 100)
// {
// infile.get(ch);
// if ( ch == '#' )
// while ( ch != '\n')
// {
// infile.get(ch);
// comment = false;
// }
// else if ( ch == '\n' )
// {
// comment = true;
// ii ++;
// }
// else
// {
// infile.putback(ch);
// comment = false;
// }
//
// infile.get(ch) ;
// if ( ch == '\n' || ch == '#' )
// {
// comment = true;
// }
// infile.putback(ch);
// if ( !comment ) break;
// }
// cerr << "** comment done" << endl;
// cerr << " * last char was " << ch << endl;
// return;
//
// }
// herbert: fixed TestComment
template <int D>
void SplineGeometry<D> :: 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;
}
template<int D>
SplineGeometry<D> :: ~SplineGeometry()
{
for(int i=0; i<splines.Size(); i++)
delete splines[i];
splines.DeleteAll();
geompoints.DeleteAll();
for (int i=0; i<materials.Size(); i++)
delete materials[i];
for ( int i = 0; i < bcnames.Size(); i++ )
if ( bcnames[i] ) delete bcnames[i];
}
template<int D>
int SplineGeometry<D> :: Load (const Array<double> & raw_data, const int startpos)
{
int pos = startpos;
if(raw_data[pos] != D)
throw NgException("wrong dimension of spline raw_data");
pos++;
elto0 = raw_data[pos]; pos++;
splines.SetSize(int(raw_data[pos]));
pos++;
Array< Point<D> > pts(3);
for(int i=0; i<splines.Size(); i++)
{
int type = int(raw_data[pos]);
pos++;
for(int j=0; j<type; j++)
for(int k=0; k<D; k++)
{
pts[j](k) = raw_data[pos];
pos++;
}
if (type == 2)
{
splines[i] = new LineSeg<D>(GeomPoint<D>(pts[0],1),
GeomPoint<D>(pts[1],1));
//(*testout) << "appending line segment "
// << pts[0] << " -- " << pts[1] << endl;
}
else if (type == 3)
{
splines[i] = new SplineSeg3<D>(GeomPoint<D>(pts[0],1),
GeomPoint<D>(pts[1],1),
GeomPoint<D>(pts[2],1));
//(*testout) << "appending spline segment "
// << pts[0] << " -- " << pts[1] << " -- " << pts[2] << endl;
}
else
throw NgException("something wrong with spline raw data");
}
return pos;
}
template<int D>
void SplineGeometry<D> :: GetRawData (Array<double> & raw_data) const
{
raw_data.Append(D);
raw_data.Append(elto0);
raw_data.Append(splines.Size());
for(int i=0; i<splines.Size(); i++)
splines[i]->GetRawData(raw_data);
}
template<int D>
void SplineGeometry<D> :: CSGLoad (CSGScanner & scan)
{
double hd;
Point<D> x;
int nump, numseg;
//scan.ReadNext();
scan >> nump >> ';';
hd = 1;
geompoints.SetSize(nump);
for(int i = 0; i<nump; i++)
{
if(D==2)
scan >> x(0) >> ',' >> x(1) >> ';';
else if(D==3)
scan >> x(0) >> ',' >> x(1) >> ',' >> x(2) >> ';';
geompoints[i] = GeomPoint<D>(x,hd);
}
scan >> numseg;// >> ';';
splines.SetSize(numseg);
int pnums,pnum1,pnum2,pnum3;
for(int i = 0; i<numseg; i++)
{
scan >> ';' >> pnums >> ',';
if (pnums == 2)
{
scan >> pnum1 >> ',' >> pnum2;// >> ';';
splines[i] = new LineSeg<D>(geompoints[pnum1-1],
geompoints[pnum2-1]);
}
else if (pnums == 3)
{
scan >> pnum1 >> ',' >> pnum2 >> ','
>> pnum3;// >> ';';
splines[i] = new SplineSeg3<D>(geompoints[pnum1-1],
geompoints[pnum2-1],
geompoints[pnum3-1]);
}
else if (pnums == 4)
{
scan >> pnum1 >> ',' >> pnum2 >> ','
>> pnum3;// >> ';';
splines[i] = new CircleSeg<D>(geompoints[pnum1-1],
geompoints[pnum2-1],
geompoints[pnum3-1]);
}
}
}
template<int D>
void SplineGeometry<D> :: Load (const char * filename)
{
ifstream infile;
Point<D> 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();
}
template<int D>
void SplineGeometry<D> :: LoadDataNew ( ifstream & infile )
{
int nump, numseg, leftdom, rightdom;
Point<D> 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<D; j++)
infile >> 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<D>(x, hd));
geompoints[pointnr-1] = GeomPoint<D>(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<D> * 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 segement
if (strcmp (buf, "2") == 0)
{ // a line
infile >> hi1 >> hi2;
spline = new LineSeg<D> (geompoints[hi1-1],
geompoints[hi2-1]);
}
else if (strcmp (buf, "3") == 0)
{ // a rational spline
infile >> hi1 >> hi2 >> hi3;
spline = new SplineSeg3<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
}
else if (strcmp (buf, "4") == 0)
{ // an arc
infile >> hi1 >> hi2 >> hi3;
spline = new CircleSeg<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
// break;
}
else if (strcmp (buf, "discretepoints") == 0)
{
int npts;
infile >> npts;
Array< Point<D> > pts(npts);
for (int j = 0; j < npts; j++)
for(int k=0; k<D; k++)
infile >> pts[j](k);
spline = new DiscretePointsSeg<D> (pts);
}
// infile >> spline->reffak;
spline -> leftdom = leftdom;
spline -> rightdom = rightdom;
splines.Append (spline);
// 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);
splines.Last()->bc = int (flags.GetNumFlag ("bc", i+1));
splines.Last()->hpref_left = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefleft"));
splines.Last()->hpref_right = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefright"));
splines.Last()->copyfrom = int (flags.GetNumFlag ("copy", -1));
splines.Last()->reffak = flags.GetNumFlag ("ref", 1 );
splines.Last()->hmax = flags.GetNumFlag ("maxh", 1e99 );
if ( flags.StringFlagDefined("bcname") )
{
int mybc = splines.Last()->bc-1;
if ( bcnames[mybc] ) delete bcnames[mybc];
bcnames[mybc] = new string (flags.GetStringFlag("bcname","") );
}
if ( hd != 1 )
splines.Last()->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 ) ;
for ( int i = 0; i < numdomains; i++)
maxh[i] = 1000;
TestComment ( infile );
for ( int i=0; i<numdomains; i++)
materials [ i ] = new char (100);
for ( int i=0; i<numdomains && infile.good(); i++)
{
TestComment ( infile );
infile >> 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);
}
return;
}
template<int D>
void SplineGeometry<D> :: LoadData ( ifstream & infile )
{
int nump, numseg, leftdom, rightdom;
Point<D> 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<D; j++)
infile >> 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<D>(x, hd));
geompoints.Last().hpref = flags.GetDefineFlag ("hpref");
geompoints.Last().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<D> * 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 segement
if (strcmp (buf, "2") == 0)
{ // a line
infile >> hi1 >> hi2;
spline = new LineSeg<D>(geompoints[hi1-1],
geompoints[hi2-1]);
}
else if (strcmp (buf, "3") == 0)
{ // a rational spline
infile >> hi1 >> hi2 >> hi3;
spline = new SplineSeg3<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
}
else if (strcmp (buf, "4") == 0)
{ // an arc
infile >> hi1 >> hi2 >> hi3;
spline = new CircleSeg<D> (geompoints[hi1-1],
geompoints[hi2-1],
geompoints[hi3-1]);
// break;
}
else if (strcmp (buf, "discretepoints") == 0)
{
int npts;
infile >> npts;
Array< Point<D> > pts(npts);
for (int j = 0; j < npts; j++)
for(int k=0; k<D; k++)
infile >> pts[j](k);
spline = new DiscretePointsSeg<D> (pts);
}
infile >> spline->reffak;
spline -> leftdom = leftdom;
spline -> rightdom = rightdom;
spline -> hmax = 1e99;
splines.Append (spline);
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);
splines.Last()->bc = int (flags.GetNumFlag ("bc", i+1));
splines.Last()->hpref_left = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefleft"));
splines.Last()->hpref_right = int (flags.GetDefineFlag ("hpref")) ||
int (flags.GetDefineFlag ("hprefright"));
splines.Last()->copyfrom = int (flags.GetNumFlag ("copy", -1));
if ( flags.StringFlagDefined("bcname") )
{
int mybc = splines.Last()->bc-1;
if ( bcnames[mybc] ) delete bcnames[mybc];
bcnames[mybc] = new string (flags.GetStringFlag("bcname","") );
}
}
}
template<int D>
void SplineGeometry<D> :: PartitionBoundary (double h, Mesh & mesh2d)
{
Box<D> bbox;
GetBoundingBox (bbox);
double dist = Dist (bbox.PMin(), bbox.PMax());
Point<3> pmin;
Point<3> pmax;
pmin(2) = -dist; pmax(2) = dist;
for(int j=0;j<D;j++)
{
pmin(j) = bbox.PMin()(j);
pmax(j) = bbox.PMax()(j);
}
Point3dTree searchtree (pmin, pmax);
for (int i = 0; i < splines.Size(); i++)
for (int side = 0; side <= 1; side++)
{
int dom = (side == 0) ? splines[i]->leftdom : splines[i]->rightdom;
if (dom != 0) splines[i] -> layer = GetDomainLayer (dom);
}
for (int i = 0; i < splines.Size(); i++)
if (splines[i]->copyfrom == -1)
{
// astrid - set boundary meshsize to domain meshsize h
// if no domain mesh size is given, the max h value from the bounding box is used
double minimum = min2 ( GetDomainMaxh ( splines[i]->leftdom ), GetDomainMaxh ( splines[i]->rightdom ) );
double maximum = max2 ( GetDomainMaxh ( splines[i]->leftdom ), GetDomainMaxh ( splines[i]->rightdom ) );
minimum = min2 ( minimum, h );
maximum = min2 ( maximum, h);
if ( minimum > 0 )
splines[i]->Partition(minimum, elto0, mesh2d, searchtree, i+1);
else if ( maximum > 0 )
splines[i]->Partition(maximum, elto0, mesh2d, searchtree, i+1);
else
splines[i]->Partition(h, elto0, mesh2d, searchtree, i+1);
}
else
{
CopyEdgeMesh (splines[i]->copyfrom, i+1, mesh2d, searchtree);
}
}
template<int D>
void SplineGeometry<D> :: CopyEdgeMesh (int from, int to, Mesh & mesh, Point3dTree & searchtree)
{
int i;
Array<int, PointIndex::BASE> mappoints (mesh.GetNP());
Array<double, PointIndex::BASE> param (mesh.GetNP());
mappoints = -1;
param = 0;
Point3d pmin, pmax;
mesh.GetBox (pmin, pmax);
double diam2 = Dist2(pmin, pmax);
if (printmessage_importance>0)
cout << "copy edge, from = " << from << " to " << to << endl;
for (i = 1; i <= mesh.GetNSeg(); i++)
{
const Segment & seg = mesh.LineSegment(i);
if (seg.edgenr == from)
{
mappoints.Elem(seg[0]) = 1;
param.Elem(seg[0]) = seg.epgeominfo[0].dist;
mappoints.Elem(seg[1]) = 1;
param.Elem(seg[1]) = seg.epgeominfo[1].dist;
}
}
bool mapped = false;
for (i = 1; i <= mappoints.Size(); i++)
{
if (mappoints.Get(i) != -1)
{
Point<D> newp = splines.Get(to)->GetPoint (param.Get(i));
Point<3> newp3;
for(int j=0; j<min2(D,3); j++)
newp3(j) = newp(j);
for(int j=min2(D,3); j<3; j++)
newp3(j) = 0;
int npi = -1;
for (PointIndex pi = PointIndex::BASE;
pi < mesh.GetNP()+PointIndex::BASE; pi++)
if (Dist2 (mesh.Point(pi), newp3) < 1e-12 * diam2)
npi = pi;
if (npi == -1)
{
npi = mesh.AddPoint (newp3);
searchtree.Insert (newp3, npi);
}
mappoints.Elem(i) = npi;
mesh.GetIdentifications().Add (i, npi, to);
mapped = true;
}
}
if(mapped)
mesh.GetIdentifications().SetType(to,Identifications::PERIODIC);
// copy segments
int oldnseg = mesh.GetNSeg();
for (i = 1; i <= oldnseg; i++)
{
const Segment & seg = mesh.LineSegment(i);
if (seg.edgenr == from)
{
Segment nseg;
nseg.edgenr = to;
nseg.si = splines.Get(to)->bc;
nseg[0] = mappoints.Get(seg[0]);
nseg[1] = mappoints.Get(seg[1]);
nseg.domin = splines.Get(to)->leftdom;
nseg.domout = splines.Get(to)->rightdom;
nseg.epgeominfo[0].edgenr = to;
nseg.epgeominfo[0].dist = param.Get(seg[0]);
nseg.epgeominfo[1].edgenr = to;
nseg.epgeominfo[1].dist = param.Get(seg[1]);
mesh.AddSegment (nseg);
}
}
}
template<int D>
void SplineGeometry<D> :: GetBoundingBox (Box<D> & box) const
{
if (!splines.Size())
{
Point<D> auxp = 0.;
box.Set (auxp);
return;
}
Array<Point<D> > points;
for (int i = 0; i < splines.Size(); i++)
{
splines[i]->GetPoints (20, points);
if (i == 0) box.Set(points[0]);
for (int j = 0; j < points.Size(); j++)
box.Add (points[j]);
}
}
template<int D>
void SplineGeometry<D> :: SetGrading (const double grading)
{ elto0 = grading;}
/*
template<int D>
void SplineGeometry<D> :: AppendPoint (const double x, const double y, const double reffac, const bool hpref)
{
geompoints.Append (GeomPoint<D>(x, y, reffac));
geompoints.Last().hpref = hpref;
}
*/
template<int D>
void SplineGeometry<D> :: AppendPoint (const Point<D> & p, const double reffac, const bool hpref)
{
geompoints.Append (GeomPoint<D>(p, reffac));
geompoints.Last().hpref = hpref;
}
template<int D>
void SplineGeometry<D> :: AppendSegment(SplineSeg<D> * spline, const int leftdomain, const int rightdomain,
const int bc,
const double reffac, const bool hprefleft, const bool hprefright,
const int copyfrom)
{
spline -> leftdom = leftdomain;
spline -> rightdom = rightdomain;
spline -> bc = (bc >= 0) ? bc : (splines.Size()+1);
spline -> reffak = reffac;
spline -> hpref_left = hprefleft;
spline -> hpref_right = hprefright;
spline -> copyfrom = copyfrom;
splines.Append(spline);
}
template<int D>
void SplineGeometry<D> :: AppendLineSegment (const int n1, const int n2, const int leftdomain, const int rightdomain,
const int bc,
const double reffac, const bool hprefleft, const bool hprefright,
const int copyfrom)
{
SplineSeg<D> * spline = new LineSeg<D>(geompoints[n1],geompoints[n2]);
AppendSegment(spline,leftdomain,rightdomain,bc,reffac,hprefleft,hprefright,copyfrom);
}
template<int D>
void SplineGeometry<D> :: AppendSplineSegment (const int n1, const int n2, const int n3, const int leftdomain, const int rightdomain,
const int bc,
const double reffac, const bool hprefleft, const bool hprefright,
const int copyfrom)
{
SplineSeg<D> * spline = new SplineSeg3<D>(geompoints[n1],geompoints[n2],geompoints[n3]);
AppendSegment(spline,leftdomain,rightdomain,bc,reffac,hprefleft,hprefright,copyfrom);
}
template<int D>
void SplineGeometry<D> :: AppendCircleSegment (const int n1, const int n2, const int n3, const int leftdomain, const int rightdomain,
const int bc,
const double reffac, const bool hprefleft, const bool hprefright,
const int copyfrom)
{
SplineSeg<D> * spline = new CircleSeg<D>(geompoints[n1],geompoints[n2],geompoints[n3]);
AppendSegment(spline,leftdomain,rightdomain,bc,reffac,hprefleft,hprefright,copyfrom);
}
template<int D>
void SplineGeometry<D> :: AppendDiscretePointsSegment (const Array< Point<D> > & points, const int leftdomain, const int rightdomain,
const int bc,
const double reffac, const bool hprefleft, const bool hprefright,
const int copyfrom)
{
SplineSeg<D> * spline = new DiscretePointsSeg<D>(points);
AppendSegment(spline,leftdomain,rightdomain,bc,reffac,hprefleft,hprefright,copyfrom);
}
template<int D>
void SplineGeometry<D> :: GetMaterial( const int domnr, char* & material )
{
if ( materials.Size() >= domnr)
material = materials[domnr-1];
else material = 0;
return;
}
template<int D>
double SplineGeometry<D> :: GetDomainMaxh( const int domnr )
{
if ( maxh.Size() >= domnr && domnr > 0)
return maxh[domnr-1];
else
return -1;
}
template<int D>
string SplineGeometry<D> :: GetBCName( const int bcnr ) const
{
if ( bcnames.Size() >= bcnr)
if (bcnames[bcnr-1] )
return *bcnames[bcnr-1];
return "default";
}
template<int D>
string * SplineGeometry<D> :: BCNamePtr( const int bcnr )
{
if ( bcnr > bcnames.Size() )
return 0;
else
return bcnames[bcnr-1];
}
SplineGeometry2d :: ~SplineGeometry2d()
{
;
}
extern void MeshFromSpline2D (SplineGeometry2d & geometry,
Mesh *& mesh,
MeshingParameters & mp);
int SplineGeometry2d :: GenerateMesh (Mesh*& mesh, MeshingParameters & mparam,
int perfstepsstart, int perfstepsend)
{
cout << "SplineGeometry2d::GenerateMesh not only a dummy" << endl;
MeshFromSpline2D (*this, mesh, mparam);
return 0;
}
Refinement & SplineGeometry2d :: GetRefinement () const
{
return * new Refinement2d (*this);
}
template class SplineGeometry<2>;
template class SplineGeometry<3>;
}