//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
list< const TVDEdge* > _edges; // MA edges in CCW order within _cell
InSegment( InPoint * p0, InPoint * p1, size_t iE)
list< const TVDEdge* > _edges; // MA edges in CCW order within _cell
InSegment( InPoint * p0, InPoint * p1, size_t iE)
- : _p0(p0), _p1(p1), _geomEdgeInd(iE) {}
- InSegment() : _p0(0), _p1(0), _geomEdgeInd(0) {}
+ : _p0(p0), _p1(p1), _geomEdgeInd(iE), _cell(0) {}
+ InSegment() : _p0(0), _p1(0), _geomEdgeInd(0), _cell(0) {}
if ( inSegments.size() > 1000 )
return;
const char* fileName = "/misc/dn25/salome/eap/salome/misc/Code/C++/MAdebug.txt";
if ( inSegments.size() > 1000 )
return;
const char* fileName = "/misc/dn25/salome/eap/salome/misc/Code/C++/MAdebug.txt";
- void inSegmentsToFile( vector< InSegment>& inSegments) {}
- void dumpEdge( const TVDEdge* edge ) {}
- void dumpCell( const TVDCell* cell ) {}
+ #define inSegmentsToFile(arg) {}
+ //void dumpEdge( const TVDEdge* edge ) {}
+ //void dumpCell( const TVDCell* cell ) {}
addedEdges.insert( bndSegs[i]._edge->twin() ).second )
{
v2n = v2Node.insert( make_pair( bndSegs[i]._edge->vertex0(), v2Node.size() + 1 )).first;
addedEdges.insert( bndSegs[i]._edge->twin() ).second )
{
v2n = v2Node.insert( make_pair( bndSegs[i]._edge->vertex0(), v2Node.size() + 1 )).first;
if ( n0 == v2Node.size() )
text << "n" << n0 << " = m.AddNode( "
<< bndSegs[i]._edge->vertex0()->x() / theScale[0] << ", "
<< bndSegs[i]._edge->vertex0()->y() / theScale[1] << ", 0 )\n";
v2n = v2Node.insert( make_pair( bndSegs[i]._edge->vertex1(), v2Node.size() + 1 )).first;
if ( n0 == v2Node.size() )
text << "n" << n0 << " = m.AddNode( "
<< bndSegs[i]._edge->vertex0()->x() / theScale[0] << ", "
<< bndSegs[i]._edge->vertex0()->y() / theScale[1] << ", 0 )\n";
v2n = v2Node.insert( make_pair( bndSegs[i]._edge->vertex1(), v2Node.size() + 1 )).first;
if ( n1 == v2Node.size() )
text << "n" << n1 << " = m.AddNode( "
<< bndSegs[i]._edge->vertex1()->x() / theScale[0] << ", "
if ( n1 == v2Node.size() )
text << "n" << n1 << " = m.AddNode( "
<< bndSegs[i]._edge->vertex1()->x() / theScale[0] << ", "
// get scale to have the same 2d proportions as in 3d
computeProportionScale( face, uvBox, scale );
// get scale to have the same 2d proportions as in 3d
computeProportionScale( face, uvBox, scale );
gp_XY uvMin = uvBox.CornerMin(), uvMax = uvBox.CornerMax();
uvMin.ChangeCoord(1) = uvMin.X() * scale[0];
gp_XY uvMin = uvBox.CornerMin(), uvMax = uvBox.CornerMax();
uvMin.ChangeCoord(1) = uvMin.X() * scale[0];
double vMax[2] = { Max( Abs( uvMin.X() ), Abs( uvMax.X() )),
Max( Abs( uvMin.Y() ), Abs( uvMax.Y() )) };
int iMax = ( vMax[0] > vMax[1] ) ? 0 : 1;
double vMax[2] = { Max( Abs( uvMin.X() ), Abs( uvMax.X() )),
Max( Abs( uvMin.Y() ), Abs( uvMax.Y() )) };
int iMax = ( vMax[0] > vMax[1] ) ? 0 : 1;
double preciScale = Min( vMax[iMax] / precision,
std::numeric_limits<int>::max() / vMax[iMax] );
preciScale /= scale[iMax];
double preciScale = Min( vMax[iMax] / precision,
std::numeric_limits<int>::max() / vMax[iMax] );
preciScale /= scale[iMax];
{
inPoints[ iP++ ] = points[i-1].getInPoint( scale );
inSegments.push_back( InSegment( & inPoints[ iP-2 ], & inPoints[ iP-1 ], iE ));
{
inPoints[ iP++ ] = points[i-1].getInPoint( scale );
inSegments.push_back( InSegment( & inPoints[ iP-2 ], & inPoints[ iP-1 ], iE ));
{
inPoints[ iP++ ] = points[i].getInPoint( scale );
inSegments.push_back( InSegment( & inPoints[ iP-2 ], & inPoints[ iP-1 ], iE ));
{
inPoints[ iP++ ] = points[i].getInPoint( scale );
inSegments.push_back( InSegment( & inPoints[ iP-2 ], & inPoints[ iP-1 ], iE ));
int di = ( points._params[0] == points._params[i] ) ? +1 : -1;
while ( points._params[i] == points._params[i+1] )
i += di;
int di = ( points._params[0] == points._params[i] ) ? +1 : -1;
while ( points._params[i] == points._params[i+1] )
i += di;
-void SMESH_MAT2d::Branch::init( vector<const TVDEdge*>& maEdges,
- const Boundary* boundary,
- map< const TVDVertex*, BranchEndType > endType )
+void SMESH_MAT2d::Branch::init( vector<const TVDEdge*>& maEdges,
+ const Boundary* boundary,
+ map< const TVDVertex*, BranchEndType >& endType )
{
iSeg2 = getBndSegment( maE );
if ( !_boundary->isConcaveSegment( ie1, iSeg2 ))
{
iSeg2 = getBndSegment( maE );
if ( !_boundary->isConcaveSegment( ie1, iSeg2 ))
{
iSeg1 = getBndSegment( maE );
if ( _boundary->isConcaveSegment( edgeIDs1.back(), iSeg1 ))
{
iSeg1 = getBndSegment( maE );
if ( _boundary->isConcaveSegment( edgeIDs1.back(), iSeg1 ))