0021134: EDF 1749 GHS3D: GHS3D can't compute the 3D elements from 2D skin elements

Redesign again to work with composed cube edges
This commit is contained in:
eap 2011-01-26 14:06:40 +00:00
parent 812e5de47f
commit 9462051381

View File

@ -157,24 +157,23 @@ namespace
{
//=============================================================================
typedef boost::shared_ptr< FaceQuadStruct > FaceQuadStructPtr;
// symbolic names of box sides
enum EBoxSides{ B_BOTTOM=0, B_RIGHT, B_TOP, B_LEFT, B_FRONT, B_BACK, B_NB_SIDES };
// indices of FACE's of box sides in terms of SMESH_Block::TShapeID enum
enum ESideIndex{ I_BOTTOM = SMESH_Block::ID_Fxy0,
I_RIGHT = SMESH_Block::ID_F1yz,
I_TOP = SMESH_Block::ID_Fxy1,
I_LEFT = SMESH_Block::ID_F0yz,
I_FRONT = SMESH_Block::ID_Fx0z,
I_BACK = SMESH_Block::ID_Fx1z,
I_UNDEFINED = SMESH_Block::ID_NONE
};
// symbolic names of sides of quadrangle
enum EQuadSides{ Q_BOTTOM=0, Q_RIGHT, Q_TOP, Q_LEFT, Q_NB_SIDES };
//=============================================================================
/*!
* \brief Container of nodes of structured mesh on a qudrangular geom FACE
*/
struct _FaceGrid
{
// face sides
FaceQuadStructPtr _quad;
// map of (node parameter on EDGE) to (column (vector) of nodes)
TParam2ColumnMap _u2nodesMap;
@ -183,7 +182,6 @@ namespace
// geometry of a cube side
TopoDS_Face _sideF;
TopoDS_Edge _baseE;
const SMDS_MeshNode* GetNode(int iCol, int iRow) const
{
@ -206,6 +204,65 @@ namespace
int size() const { return _xSize * _ySize; }
int operator()(const int x, const int y) const { return y * _xSize + x; }
};
//================================================================================
/*!
* \brief Appends a range of node columns from a map to another map
*/
template< class TMapIterator >
void append( TParam2ColumnMap& toMap, TMapIterator from, TMapIterator to )
{
const SMDS_MeshNode* lastNode = toMap.rbegin()->second[0];
const SMDS_MeshNode* firstNode = from->second[0];
if ( lastNode == firstNode )
from++;
double u = toMap.rbegin()->first;
for (; from != to; ++from )
{
u += 1;
TParam2ColumnMap::iterator u2nn = toMap.insert( toMap.end(), make_pair ( u, TNodeColumn()));
u2nn->second.swap( from->second );
}
}
//================================================================================
/*!
* \brief Finds FaceQuadStruct having a side equal to a given one and rearranges
* the found FaceQuadStruct::side to have the given side at a Q_BOTTOM place
*/
FaceQuadStructPtr getQuadWithBottom( StdMeshers_FaceSide* side,
FaceQuadStructPtr quad[ 6 ])
{
FaceQuadStructPtr foundQuad;
for ( int i = 1; i < 6; ++i )
{
if ( !quad[i] ) continue;
for ( unsigned iS = 0; iS < quad[i]->side.size(); ++iS )
{
const StdMeshers_FaceSide* side2 = quad[i]->side[iS];
if (( side->FirstVertex().IsSame( side2->FirstVertex() ) ||
side->FirstVertex().IsSame( side2->LastVertex() ))
&&
( side->LastVertex().IsSame( side2->FirstVertex() ) ||
side->LastVertex().IsSame( side2->LastVertex() ))
)
{
if ( iS != Q_BOTTOM )
{
vector< StdMeshers_FaceSide*> newSides;
for ( unsigned j = iS; j < quad[i]->side.size(); ++j )
newSides.push_back( quad[i]->side[j] );
for ( unsigned j = 0; j < iS; ++j )
newSides.push_back( quad[i]->side[j] );
quad[i]->side.swap( newSides );
}
foundQuad.swap(quad[i]);
return foundQuad;
}
}
}
return foundQuad;
}
}
//=============================================================================
@ -226,20 +283,18 @@ bool StdMeshers_Hexa_3D::Compute(SMESH_Mesh & aMesh,
MESSAGE("StdMeshers_Hexa_3D::Compute");
SMESHDS_Mesh * meshDS = aMesh.GetMeshDS();
// 1) Shape verification
// Shape verification
// ----------------------
// shape must be a solid (or a shell) with 6 faces
TopoDS_Shell shell;
TopExp_Explorer exp(aShape,TopAbs_SHELL);
if ( !exp.More() )
return error(COMPERR_BAD_SHAPE, "No SHELL in the geometry");
shell = TopoDS::Shell( exp.Current());
if ( exp.Next(), exp.More() )
return error(COMPERR_BAD_SHAPE, "More than one SHELL in the geometry");
TopTools_IndexedMapOfShape FF;
TopExp::MapShapes( shell, TopAbs_FACE, FF);
TopExp::MapShapes( aShape, TopAbs_FACE, FF);
if ( FF.Extent() != 6)
{
static StdMeshers_CompositeHexa_3D compositeHexa(_gen->GetANewId(), 0, _gen);
@ -248,13 +303,38 @@ bool StdMeshers_Hexa_3D::Compute(SMESH_Mesh & aMesh,
return true;
}
// Find sub-shapes of a cube
TopTools_IndexedMapOfOrientedShape cubeSubShapes;
TopoDS_Vertex V;
if ( !SMESH_Block::FindBlockShapes( shell, V,V, cubeSubShapes ))
return error(COMPERR_BAD_SHAPE, "Not a 6 sides cube");
// Find sides of a cube
// ---------------------
FaceQuadStructPtr quad[ 6 ];
StdMeshers_Quadrangle_2D quadAlgo( _gen->GetANewId(), GetStudyId(), _gen);
for ( int i = 0; i < 6; ++i )
{
if ( !( quad[i] = FaceQuadStructPtr( quadAlgo.CheckNbEdges( aMesh, FF( i+1 )))))
return error( quadAlgo.GetComputeError() );
if ( quad[i]->side.size() != 4 )
return error( COMPERR_BAD_SHAPE, "Not a quadrangular box side" );
}
// 2) make viscous layers
_FaceGrid aCubeSide[ 6 ];
swap( aCubeSide[B_BOTTOM]._quad, quad[0] );
swap( aCubeSide[B_BOTTOM]._quad->side[ Q_RIGHT],// direct the normal of bottom quad inside cube
aCubeSide[B_BOTTOM]._quad->side[ Q_LEFT ] );
aCubeSide[B_FRONT]._quad = getQuadWithBottom( aCubeSide[B_BOTTOM]._quad->side[Q_BOTTOM], quad );
aCubeSide[B_RIGHT]._quad = getQuadWithBottom( aCubeSide[B_BOTTOM]._quad->side[Q_RIGHT ], quad );
aCubeSide[B_BACK ]._quad = getQuadWithBottom( aCubeSide[B_BOTTOM]._quad->side[Q_TOP ], quad );
aCubeSide[B_LEFT ]._quad = getQuadWithBottom( aCubeSide[B_BOTTOM]._quad->side[Q_LEFT ], quad );
if ( aCubeSide[B_FRONT ]._quad )
aCubeSide[B_TOP ]._quad = getQuadWithBottom( aCubeSide[B_FRONT ]._quad->side[Q_TOP ], quad );
for ( int i = 1; i < 6; ++i )
if ( !aCubeSide[i]._quad )
return error( COMPERR_BAD_SHAPE );
// Make viscous layers
// --------------------
SMESH_ProxyMesh::Ptr proxymesh;
if ( _viscousLayersHyp )
@ -264,61 +344,15 @@ bool StdMeshers_Hexa_3D::Compute(SMESH_Mesh & aMesh,
return false;
}
// 3) Check presence of regular grid mesh on FACEs of the cube
// ------------------------------------------------------------
// Check if there are triangles on cube sides
// -------------------------------------------
// indices of FACEs of cube sides within cubeSubShapes
const int sideIndex[6] = { I_BOTTOM, I_RIGHT, I_TOP, I_LEFT, I_FRONT, I_BACK };
// indices of base EDGEs of cube sides within cubeSubShapes, corresponding to sideIndex
const int baseEdgeIndex[6] = {
SMESH_Block::ID_Ex00, // bottom side
SMESH_Block::ID_E1y0, // right side
SMESH_Block::ID_Ex01, // top side
SMESH_Block::ID_E0y0, // left side
SMESH_Block::ID_Ex00, // front side
SMESH_Block::ID_Ex10 // back side
};
// Load mesh of cube sides
_FaceGrid aCubeSide[ 6 ] ;
// tool creating quadratic elements if needed
SMESH_MesherHelper helper (aMesh);
_quadraticMesh = helper.IsQuadraticSubMesh(aShape);
for ( int i = 0; i < 6; ++i )
if ( aMesh.NbTriangles() > 0 )
{
aCubeSide[i]._sideF = TopoDS::Face( cubeSubShapes( sideIndex[i] ));
aCubeSide[i]._baseE = TopoDS::Edge( cubeSubShapes( baseEdgeIndex[i] ));
// assure correctness of node positions on _baseE
if ( SMESHDS_SubMesh* smDS = meshDS->MeshElements( aCubeSide[i]._baseE ))
for ( int i = 0; i < 6; ++i )
{
bool ok;
helper.SetSubShape( aCubeSide[i]._baseE );
SMDS_ElemIteratorPtr eIt = smDS->GetElements();
while ( eIt->more() )
{
const SMDS_MeshElement* e = eIt->next();
helper.GetNodeU( aCubeSide[i]._baseE, e->GetNode(0), e->GetNode(1), &ok);
helper.GetNodeU( aCubeSide[i]._baseE, e->GetNode(1), e->GetNode(0), &ok);
}
}
// load grid
if ( !helper.LoadNodeColumns( aCubeSide[i]._u2nodesMap,
aCubeSide[i]._sideF,
aCubeSide[i]._baseE, meshDS, proxymesh.get() ))
{
SMESH_ComputeErrorPtr err = ComputePentahedralMesh(aMesh, aShape, proxymesh.get());
return error( err );
}
// check if there are triangles on aCubeSide[i]._sideF
if ( aMesh.NbTriangles() > 0 )
{
if ( SMESHDS_SubMesh* smDS = meshDS->MeshElements( aCubeSide[i]._sideF ))
const TopoDS_Face& sideF = aCubeSide[i]._quad->face;
if ( SMESHDS_SubMesh* smDS = meshDS->MeshElements( sideF ))
{
bool isAllQuad = true;
SMDS_ElemIteratorPtr fIt = smDS->GetElements();
@ -336,21 +370,75 @@ bool StdMeshers_Hexa_3D::Compute(SMESH_Mesh & aMesh,
}
}
// Check presence of regular grid mesh on FACEs of the cube
// ------------------------------------------------------------
// tool creating quadratic elements if needed
SMESH_MesherHelper helper (aMesh);
_quadraticMesh = helper.IsQuadraticSubMesh(aShape);
for ( int i = 0; i < 6; ++i )
{
const TopoDS_Face& F = aCubeSide[i]._quad->face;
StdMeshers_FaceSide* baseQuadSide = aCubeSide[i]._quad->side[ Q_BOTTOM ];
vector< TopAbs_Orientation > eOri( baseQuadSide->NbEdges() );
for ( int iE = 0; iE < baseQuadSide->NbEdges(); ++iE )
{
const TopoDS_Edge& baseE = baseQuadSide->Edge( iE );
eOri[ iE ] = baseE.Orientation();
// assure correctness of node positions on baseE
if ( SMESHDS_SubMesh* smDS = meshDS->MeshElements( baseE ))
{
bool ok;
helper.SetSubShape( baseE );
SMDS_ElemIteratorPtr eIt = smDS->GetElements();
while ( eIt->more() )
{
const SMDS_MeshElement* e = eIt->next();
helper.GetNodeU( baseE, e->GetNode(0), e->GetNode(1), &ok);
helper.GetNodeU( baseE, e->GetNode(1), e->GetNode(0), &ok);
}
}
// load grid
TParam2ColumnMap u2nodesMap;
if ( !helper.LoadNodeColumns( u2nodesMap, F, baseE, meshDS, proxymesh.get() ))
{
SMESH_ComputeErrorPtr err = ComputePentahedralMesh(aMesh, aShape, proxymesh.get());
return error( err );
}
// store u2nodesMap
if ( iE == 0 )
{
aCubeSide[i]._u2nodesMap.swap( u2nodesMap );
}
else // unite 2 maps
{
if ( eOri[0] == eOri[iE] )
append( aCubeSide[i]._u2nodesMap, u2nodesMap.begin(), u2nodesMap.end());
else
append( aCubeSide[i]._u2nodesMap, u2nodesMap.rbegin(), u2nodesMap.rend());
}
}
}
// Orient loaded grids of cube sides along axis of the unitary cube coord system
for ( int i = 0; i < 6; ++i )
{
bool reverse = false;
if ( helper.GetSubShapeOri( shell.Oriented( TopAbs_FORWARD ),
aCubeSide[i]._sideF ) == TopAbs_REVERSED )
if ( helper.GetSubShapeOri( aShape.Oriented( TopAbs_FORWARD ),
aCubeSide[i]._quad->face ) == TopAbs_REVERSED )
reverse = !reverse;
if ( helper.GetSubShapeOri( aCubeSide[i]._sideF.Oriented( TopAbs_FORWARD ),
aCubeSide[i]._baseE ) == TopAbs_REVERSED )
if ( helper.GetSubShapeOri( aCubeSide[i]._quad->face.Oriented( TopAbs_FORWARD ),
aCubeSide[i]._quad->side[0]->Edge(0) ) == TopAbs_REVERSED )
reverse = !reverse;
if ( sideIndex[i] == I_BOTTOM ||
sideIndex[i] == I_LEFT ||
sideIndex[i] == I_BACK )
if ( i == B_BOTTOM ||
i == B_LEFT ||
i == B_BACK )
reverse = !reverse;
aCubeSide[i]._columns.resize( aCubeSide[i]._u2nodesMap.size() );