Regression of the test case patterns/A8

1) fix an error made during SMDS redesign
-      if (node->getshapeId() <0) {
+      if (node->getshapeId() <1) {
   2) fix an error of Clear() that not all fields are cleared
   3) create polyhedrons only if volume boundary is split by refinement
This commit is contained in:
eap 2011-02-09 13:29:33 +00:00
parent 4ebb8cfccc
commit 3c96a71bde

View File

@ -463,7 +463,7 @@ template <class TFaceIterator> bool areNodesBound( TFaceIterator & faceItr )
while ( nIt->more() )
{
const SMDS_MeshNode* node = smdsNode( nIt->next() );
if (node->getshapeId() <0) {
if (node->getshapeId() <1) {
return false;
}
}
@ -3695,13 +3695,8 @@ bool SMESH_Pattern::
vector<int>& theQuantity)
{
bool makePoly = false;
// cout << "FROM FACE NODES: " <<endl;
// for ( int i = 0; i < theNbBndNodes; ++i )
// cout << theBndNodes[ i ];
set< const SMDS_MeshNode* > bndNodeSet;
for ( int i = 0; i < theNbBndNodes; ++i )
bndNodeSet.insert( theBndNodes[ i ]);
set< const SMDS_MeshNode* > bndNodeSet( theBndNodes, theBndNodes + theNbBndNodes);
map< TNodeSet, list< list< int > > >::iterator nn_IdList;
@ -3710,12 +3705,13 @@ bool SMESH_Pattern::
if ( !myIs2D ) { // for 2D, merge only edges
nn_IdList = myIdsOnBoundary.find( bndNodeSet );
if ( nn_IdList != myIdsOnBoundary.end() ) {
makePoly = true;
list< int > & faceIds = nn_IdList->second.front();
if ( !faceIds.empty() ) {
makePoly = true;
ids.insert( faceIds.begin(), faceIds.end() );
}
}
//bool hasIdsInFace = !ids.empty();
}
// add ids on links and bnd nodes
int lastFreeId = Max( myXYZIdToNodeMap.rbegin()->first, theNodes.size() );
@ -3731,17 +3727,20 @@ bool SMESH_Pattern::
bndId = nn_IdList->second.front().front();
ids.insert( bndId );
}
else
else {
myXYZIdToNodeMap.insert( make_pair( bndId, theBndNodes[ iN ] ));
}
faceDef.push_back( bndId );
// add ids on a link
TNodeSet linkNodes;
linkNodes.insert( theBndNodes[ iN ]);
linkNodes.insert( theBndNodes[ iN + 1 == theNbBndNodes ? 0 : iN + 1 ]);
linkNodes.insert( theBndNodes[ (iN + 1) % theNbBndNodes] );
nn_IdList = myIdsOnBoundary.find( linkNodes );
if ( nn_IdList != myIdsOnBoundary.end() ) {
makePoly = true;
list< int > & linkIds = nn_IdList->second.front();
if ( !linkIds.empty() )
{
makePoly = true;
ids.insert( linkIds.begin(), linkIds.end() );
if ( isReversed( theBndNodes[ iN ], linkIds ))
faceDef.insert( faceDef.end(), linkIds.begin(), linkIds.end() );
@ -3749,6 +3748,7 @@ bool SMESH_Pattern::
faceDef.insert( faceDef.end(), linkIds.rbegin(), linkIds.rend() );
}
}
}
// find faces definition of new volumes
@ -3768,9 +3768,7 @@ bool SMESH_Pattern::
{
if ( !checkedVolDefs.insert( *pIdList ).second )
continue; // skip already checked volume definition
vector< int > idVec;
idVec.reserve( (*pIdList)->size() );
idVec.insert( idVec.begin(), (*pIdList)->begin(), (*pIdList)->end() );
vector< int > idVec( (*pIdList)->begin(), (*pIdList)->end() );
// loop on face defs of a volume
SMDS_VolumeTool::VolumeType volType = vol.GetType( idVec.size() );
if ( volType == SMDS_VolumeTool::UNKNOWN )
@ -3800,7 +3798,7 @@ bool SMESH_Pattern::
}
if ( !defsAdded ) {
theQuantity.push_back( faceDef.size() );
theFaceDefs.splice( theFaceDefs.end(), faceDef, faceDef.begin(), faceDef.end() );
theFaceDefs.splice( theFaceDefs.end(), faceDef );
}
return makePoly;
@ -3971,6 +3969,8 @@ bool SMESH_Pattern::MakeMesh(SMESH_Mesh* theMesh,
createElements( theMesh, nodesVector, myElemPointIDs, myElements );
}
aMeshDS->compactMesh();
// const map<int,SMESHDS_SubMesh*>& sm = aMeshDS->SubMeshes();
// map<int,SMESHDS_SubMesh*>::const_iterator i_sm = sm.begin();
// for ( ; i_sm != sm.end(); i_sm++ )
@ -4551,6 +4551,17 @@ void SMESH_Pattern::Clear()
myShapeIDMap.Clear();
myShape.Nullify();
myNbKeyPntInBoundary.clear();
myXYZ.clear();
myElemXYZIDs.clear();
myXYZIdToNodeMap.clear();
myElements.clear();
myOrderedNodes.clear();
myPolyElems.clear();
myPolyElemXYZIDs.clear();
myPolyhedronQuantities.clear();
myIdsOnBoundary.clear();
myReverseConnectivity.clear();
}
//=======================================================================