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Merge branch 'master' into gni/adaptation

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This commit is contained in:
Gérald NICOLAS 2020-08-28 10:55:33 +02:00
commit b1ea582157
19 changed files with 833 additions and 153 deletions
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2
CMakeLists.txt
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@ -27,7 +27,7 @@ INCLUDE(CMakeDependentOption)
STRING(TOUPPER ${PROJECT_NAME} PROJECT_NAME_UC) STRING(TOUPPER ${PROJECT_NAME} PROJECT_NAME_UC)
SET(${PROJECT_NAME_UC}_MAJOR_VERSION 9) SET(${PROJECT_NAME_UC}_MAJOR_VERSION 9)
SET(${PROJECT_NAME_UC}_MINOR_VERSION 4) SET(${PROJECT_NAME_UC}_MINOR_VERSION 5)
SET(${PROJECT_NAME_UC}_PATCH_VERSION 0) SET(${PROJECT_NAME_UC}_PATCH_VERSION 0)
SET(${PROJECT_NAME_UC}_VERSION SET(${PROJECT_NAME_UC}_VERSION
${${PROJECT_NAME_UC}_MAJOR_VERSION}.${${PROJECT_NAME_UC}_MINOR_VERSION}.${${PROJECT_NAME_UC}_PATCH_VERSION}) ${${PROJECT_NAME_UC}_MAJOR_VERSION}.${${PROJECT_NAME_UC}_MINOR_VERSION}.${${PROJECT_NAME_UC}_PATCH_VERSION})

1
src/SMDS/chrono.cxx
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@ -21,6 +21,7 @@
#include "utilities.h" #include "utilities.h"
using namespace std; using namespace std;
using namespace SMDS;
cntStruct* counters::_ctrs = 0; cntStruct* counters::_ctrs = 0;
int counters::_nbChrono = 0; int counters::_nbChrono = 0;

10
src/SMDS/chrono.hxx
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@ -27,6 +27,8 @@
#include <iostream> #include <iostream>
#include <ctime> #include <ctime>
namespace SMDS
{
typedef struct acnt typedef struct acnt
{ {
char* _ctrNames; char* _ctrNames;
@ -57,9 +59,11 @@ protected:
int _ctr; int _ctr;
clock_t _start, _end; clock_t _start, _end;
}; };
}
#ifdef CHRONODEF #ifdef CHRONODEF
#define CHRONO(i) counters::_ctrs[i]._ctrNames = (char *)__FILE__; \ #define CHRONO(i)
using namespace SMDS; \
counters::_ctrs[i]._ctrNames = (char *)__FILE__; \
counters::_ctrs[i]._ctrLines = __LINE__; \ counters::_ctrs[i]._ctrLines = __LINE__; \
salome_chrono aChrono##i(i); salome_chrono aChrono##i(i);
@ -67,7 +71,7 @@ protected:
#else // CHRONODEF #else // CHRONODEF
#define CHRONO(i) #define CHRONO(i) using namespace SMDS;
#define CHRONOSTOP(i) #define CHRONOSTOP(i)
#endif // CHRONODEF #endif // CHRONODEF

2
src/SMESHFiltersSelection/SMESH_NumberFilter.cxx
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@ -135,7 +135,7 @@ bool SMESH_NumberFilter::isOk (const SUIT_DataOwner* theDataOwner) const
} }
// Verify number of sub-shapes // Verify number of sub-shapes
if (mySubShapeType == TopAbs_SHAPE); if (mySubShapeType == TopAbs_SHAPE)
return true; return true;
TopTools_IndexedMapOfShape aMap; TopTools_IndexedMapOfShape aMap;

9
src/SMESHGUI/SMESHGUI.cxx
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@ -4748,7 +4748,7 @@ void SMESHGUI::initialize( CAM_Application* app )
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
createPopupItem( SMESHOp::OpFileInformation, OB, mesh, "&& selcount=1 && isImported" ); createPopupItem( SMESHOp::OpFileInformation, OB, mesh, "&& selcount=1 && isImported" );
createPopupItem( SMESHOp::OpMeshInformation, OB, mesh_part ); createPopupItem( SMESHOp::OpMeshInformation, OB, mesh_part );
createPopupItem( SMESHOp::OpFindElementByPoint,OB, mesh_group, "&& selcount=1" ); createPopupItem( SMESHOp::OpFindElementByPoint,OB, mesh_group, "&& selcount=1 && " + hasElems );
createPopupItem( SMESHOp::OpOverallMeshQuality,OB, mesh_part ); createPopupItem( SMESHOp::OpOverallMeshQuality,OB, mesh_part );
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
createPopupItem( SMESHOp::OpCreateGroup, OB, mesh, "&& selcount=1" ); createPopupItem( SMESHOp::OpCreateGroup, OB, mesh, "&& selcount=1" );
@ -4758,7 +4758,7 @@ void SMESHGUI::initialize( CAM_Application* app )
createPopupItem( SMESHOp::OpEditHypothesis, OB, hypo, "&& isEditableHyp"); createPopupItem( SMESHOp::OpEditHypothesis, OB, hypo, "&& isEditableHyp");
createPopupItem( SMESHOp::OpUnassign, OB, hyp_alg ); createPopupItem( SMESHOp::OpUnassign, OB, hyp_alg );
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
createPopupItem( SMESHOp::OpConvertMeshToQuadratic, OB, mesh_submesh ); createPopupItem( SMESHOp::OpConvertMeshToQuadratic, OB, mesh_submesh, "&& " + hasElems );
createPopupItem( SMESHOp::OpCreateBoundaryElements, OB, mesh_group, "&& selcount=1 && dim>=2"); createPopupItem( SMESHOp::OpCreateBoundaryElements, OB, mesh_group, "&& selcount=1 && dim>=2");
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
@ -4812,7 +4812,7 @@ void SMESHGUI::initialize( CAM_Application* app )
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
createPopupItem( SMESHOp::OpMeshInformation, View, mesh_part ); createPopupItem( SMESHOp::OpMeshInformation, View, mesh_part );
createPopupItem( SMESHOp::OpOverallMeshQuality, View, mesh_part ); createPopupItem( SMESHOp::OpOverallMeshQuality, View, mesh_part );
createPopupItem( SMESHOp::OpFindElementByPoint, View, mesh ); createPopupItem( SMESHOp::OpFindElementByPoint, View, mesh, "&& " + hasElems);
popupMgr()->insert( separator(), -1, 0 ); popupMgr()->insert( separator(), -1, 0 );
createPopupItem( SMESHOp::OpUpdate, OB + " " + View, mesh_part ); createPopupItem( SMESHOp::OpUpdate, OB + " " + View, mesh_part );
@ -5994,6 +5994,9 @@ LightApp_Operation* SMESHGUI::createOperation( const int id ) const
case SMESHOp::OpComputeSubMesh: case SMESHOp::OpComputeSubMesh:
op = new SMESHGUI_ComputeOp(); op = new SMESHGUI_ComputeOp();
break; break;
case SMESHOp::OpShowErrors:
op = new SMESHGUI_ShowErrorsOp();
break;
case SMESHOp::OpPreCompute: case SMESHOp::OpPreCompute:
op = new SMESHGUI_PrecomputeOp(); op = new SMESHGUI_PrecomputeOp();
break; break;

28
src/SMESHGUI/SMESHGUI_Displayer.cxx
View File

@ -89,7 +89,8 @@ SalomeApp_Study* SMESHGUI_Displayer::study() const
return dynamic_cast<SalomeApp_Study*>( myApp->activeStudy() ); return dynamic_cast<SalomeApp_Study*>( myApp->activeStudy() );
} }
bool SMESHGUI_Displayer::canBeDisplayed( const QString& entry, const QString& viewer_type ) const { bool SMESHGUI_Displayer::canBeDisplayed( const QString& entry, const QString& viewer_type ) const
{
bool res = false; bool res = false;
if(viewer_type != SVTK_Viewer::Type()) if(viewer_type != SVTK_Viewer::Type())
return res; return res;
@ -97,25 +98,18 @@ bool SMESHGUI_Displayer::canBeDisplayed( const QString& entry, const QString& vi
_PTR(SObject) obj = SMESH::getStudy()->FindObjectID( (const char*)entry.toUtf8() ); _PTR(SObject) obj = SMESH::getStudy()->FindObjectID( (const char*)entry.toUtf8() );
CORBA::Object_var anObj = SMESH::SObjectToObject( obj ); CORBA::Object_var anObj = SMESH::SObjectToObject( obj );
/* if ( !CORBA::is_nil( anObj ) )
if( !CORBA::is_nil( anObj ) ) { {
SMESH::SMESH_Mesh_var mesh = SMESH::SMESH_Mesh::_narrow( anObj ); SMESH::SMESH_Mesh_var mesh = SMESH::SMESH_Mesh::_narrow( anObj );
if ( ! mesh->_is_nil() ) if ( ! ( res = !mesh->_is_nil() ))
res = (mesh->NbNodes() > 0); {
SMESH::SMESH_subMesh_var aSubMeshObj = SMESH::SMESH_subMesh::_narrow( anObj ); SMESH::SMESH_subMesh_var aSubMeshObj = SMESH::SMESH_subMesh::_narrow( anObj );
if ( !aSubMeshObj->_is_nil() ) if ( ! ( res = !aSubMeshObj->_is_nil() ))
res = (aSubMeshObj->GetNumberOfNodes(true) > 0); {
SMESH::SMESH_GroupBase_var aGroupObj = SMESH::SMESH_GroupBase::_narrow( anObj ); SMESH::SMESH_GroupBase_var aGroupObj = SMESH::SMESH_GroupBase::_narrow( anObj );
if ( !aGroupObj->_is_nil() ) res = !aGroupObj->_is_nil();
res = !aGroupObj->IsEmpty(); }
}*/ }
if( !CORBA::is_nil( anObj ) ) {
if(!SMESH::SMESH_Mesh::_narrow( anObj )->_is_nil() ||
!SMESH::SMESH_subMesh::_narrow( anObj )->_is_nil() ||
!SMESH::SMESH_GroupBase::_narrow( anObj )->_is_nil())
res = true;
} }
return res; return res;
} }

49
src/SMESHGUI/SMESHGUI_GroupDlg.cxx
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@ -74,6 +74,7 @@
#include <vtkActorCollection.h> #include <vtkActorCollection.h>
// OCCT includes // OCCT includes
#include <TColStd_MapOfAsciiString.hxx>
#include <TColStd_MapOfInteger.hxx> #include <TColStd_MapOfInteger.hxx>
// Qt includes // Qt includes
@ -522,18 +523,37 @@ QString SMESHGUI_GroupDlg::GetDefaultName(const QString& theOperation)
return aName; return aName;
} }
//=======================================================================
//function : setDefaultName
//purpose :
//=======================================================================
void SMESHGUI_GroupDlg::setDefaultName() const void SMESHGUI_GroupDlg::setDefaultName() const
{ {
QString aResName; QString aResName;
const QString aPrefix ="Group_";
if ( myMesh->_is_nil() )
{
aResName = aPrefix + "1";
}
else
{
SMESH::ListOfGroups_var allGroups = myMesh->GetGroups();
TColStd_MapOfAsciiString allNames( allGroups->length() );
for ( CORBA::ULong i = 0; i < allGroups->length(); ++i )
{
CORBA::String_var name = allGroups[i]->GetName();
allNames.Add( name.in() );
}
int i = 1; int i = 1;
QString aPrefix ="Group_"; while ( true )
_PTR(SObject) anObj;
do
{ {
aResName = aPrefix + QString::number( i++ ); aResName = aPrefix + QString::number( i++ );
anObj = SMESH::getStudy()->FindObject( aResName.toUtf8().constData() ); if ( !allNames.Contains( aResName.toUtf8().constData() ))
break;
}
} }
while ( anObj );
myName->setText(aResName); myName->setText(aResName);
} }
@ -944,7 +964,8 @@ bool SMESHGUI_GroupDlg::onApply()
if (myGroup->_is_nil()) { // creation or conversion if (myGroup->_is_nil()) { // creation or conversion
// check if group on geometry is not null // check if group on geometry is not null
if (!myGroupOnGeom->_is_nil() || !myGroupOnFilter->_is_nil()) { if (!myGroupOnGeom->_is_nil() || !myGroupOnFilter->_is_nil())
{
if (myMesh->_is_nil()) if (myMesh->_is_nil())
return false; return false;
if ( myGroupOnGeom->_is_nil() ) if ( myGroupOnGeom->_is_nil() )
@ -958,7 +979,8 @@ bool SMESHGUI_GroupDlg::onApply()
} }
} }
if (myGroup->_is_nil()) { // creation if (myGroup->_is_nil()) // creation
{
if (myMesh->_is_nil()) if (myMesh->_is_nil())
return false; return false;
@ -990,10 +1012,10 @@ bool SMESHGUI_GroupDlg::onApply()
myGroup->Add(anIdList.inout()); myGroup->Add(anIdList.inout());
} }
} }
}
else // edition
} else { // edition {
resultGroup = SMESH::SMESH_GroupBase::_narrow( myGroup ); resultGroup = SMESH::SMESH_GroupBase::_narrow( myGroup );
isCreation = false; isCreation = false;
@ -1111,6 +1133,7 @@ bool SMESHGUI_GroupDlg::onApply()
} }
anIsOk = true; anIsOk = true;
} }
if (myGrpTypeId == 2) // group on filter if (myGrpTypeId == 2) // group on filter
{ {
if ( myFilter->_is_nil() ) return false; if ( myFilter->_is_nil() ) return false;
@ -1402,9 +1425,11 @@ void SMESHGUI_GroupDlg::onObjectSelectionChanged()
SALOME_ListIteratorOfListIO anIt (aList); SALOME_ListIteratorOfListIO anIt (aList);
for (; anIt.More(); anIt.Next()) for (; anIt.More(); anIt.Next())
{ {
aGeomGroup = GEOMBase::ConvertIOinGEOMObject(anIt.Value()); CORBA::Object_var aGroupObj = SMESH::IObjectToObject(anIt.Value());
if (CORBA::is_nil(aGroupObj))
continue;
// Check if the object is a geometry group // Check if the object is a geometry group
aGeomGroup = GEOM::GEOM_Object::_narrow(aGroupObj);
if (CORBA::is_nil(aGeomGroup)) if (CORBA::is_nil(aGeomGroup))
continue; continue;

18
src/SMESHGUI/SMESHGUI_Selection.cxx
View File

@ -43,8 +43,6 @@
#include <SalomeApp_Application.h> #include <SalomeApp_Application.h>
#include <LightApp_VTKSelector.h> #include <LightApp_VTKSelector.h>
#include <SVTK_ViewWindow.h> #include <SVTK_ViewWindow.h>
#include <LightApp_SelectionMgr.h>
#include <LightApp_DataOwner.h>
// IDL includes // IDL includes
#include <SALOMEconfig.h> #include <SALOMEconfig.h>
@ -79,8 +77,6 @@ void SMESHGUI_Selection::init( const QString& client, LightApp_SelectionMgr* mgr
if( mgr ) if( mgr )
{ {
myOwners.clear();
mgr->selected(myOwners, client);
for( int i=0, n=count(); i<n; i++ ) { for( int i=0, n=count(); i<n; i++ ) {
myTypes.append( typeName( type( entry( i ) ) ) ); myTypes.append( typeName( type( entry( i ) ) ) );
myControls.append( controlMode( i ) ); myControls.append( controlMode( i ) );
@ -659,15 +655,15 @@ bool SMESHGUI_Selection::hasGeomReference( int ind ) const
bool SMESHGUI_Selection::canBreakLink( int ind ) const bool SMESHGUI_Selection::canBreakLink( int ind ) const
{ {
if ( ind >= 0 && ind < myTypes.count()) { if ( ind >= 0 && isReference(ind) ) {
if (isReference(ind)) { QString aEntry = objectInfo(ind, OI_RefEntry).toString();
SUIT_DataOwner* aOwn = myOwners.at(ind); if (!aEntry.isEmpty()) {
LightApp_DataOwner* sowner = dynamic_cast<LightApp_DataOwner*>(aOwn);
QString aEntry = sowner->entry();
_PTR(SObject) aSObject = SMESH::getStudy()->FindObjectID( aEntry.toStdString()); _PTR(SObject) aSObject = SMESH::getStudy()->FindObjectID( aEntry.toStdString());
if (aSObject) {
_PTR(SObject) aFatherObj = aSObject->GetFather(); _PTR(SObject) aFatherObj = aSObject->GetFather();
if (aFatherObj) {
_PTR(SComponent) aComponent = aFatherObj->GetFatherComponent(); _PTR(SComponent) aComponent = aFatherObj->GetFatherComponent();
if (aComponent->ComponentDataType() == "SMESH") { if (aComponent && aComponent->ComponentDataType() == "SMESH") {
QString aObjEntry = entry(ind); QString aObjEntry = entry(ind);
_PTR(SObject) aGeomSObject = SMESH::getStudy()->FindObjectID(aObjEntry.toStdString()); _PTR(SObject) aGeomSObject = SMESH::getStudy()->FindObjectID(aObjEntry.toStdString());
GEOM::GEOM_Object_var aObject = SMESH::SObjectToInterface<GEOM::GEOM_Object>(aGeomSObject); GEOM::GEOM_Object_var aObject = SMESH::SObjectToInterface<GEOM::GEOM_Object>(aGeomSObject);
@ -676,6 +672,8 @@ bool SMESHGUI_Selection::canBreakLink( int ind ) const
} }
} }
} }
}
}
return false; return false;
} }

2
src/SMESHGUI/SMESHGUI_Selection.h
View File

@ -32,7 +32,6 @@
// SALOME GUI includes // SALOME GUI includes
#include <LightApp_Selection.h> #include <LightApp_Selection.h>
#include <SUIT_DataOwner.h>
// SALOME KERNEL includes // SALOME KERNEL includes
#include <SALOMEDSClient_definitions.hxx> #include <SALOMEDSClient_definitions.hxx>
@ -99,7 +98,6 @@ private:
QStringList myTypes; QStringList myTypes;
QStringList myControls; QStringList myControls;
QList<SMESH_Actor*> myActors; QList<SMESH_Actor*> myActors;
SUIT_DataOwnerPtrList myOwners;
}; };
#endif // SMESHGUI_SELECTION_H #endif // SMESHGUI_SELECTION_H

7
src/SMESH_I/SMESH_2smeshpy.cxx
View File

@ -3939,7 +3939,7 @@ int _pyCommand::GetArgBeginning() const
if ( pos == UNKNOWN ) if ( pos == UNKNOWN )
{ {
pos = GetBegPos( METHOD_IND ) + myMeth.Length(); pos = GetBegPos( METHOD_IND ) + myMeth.Length();
if ( pos < 1 ) if ( pos < 1 && Length() >= 4 )
pos = myString.Location( "(", 4, Length() ); // 4 = strlen("b.c(") pos = myString.Location( "(", 4, Length() ); // 4 = strlen("b.c(")
} }
return pos; return pos;
@ -4024,6 +4024,11 @@ TCollection_AsciiString _pyCommand::GetWord( const _AString & theString,
} }
theStartPos = beg; theStartPos = beg;
//cout << theString << " ---- " << beg << " - " << end << endl; //cout << theString << " ---- " << beg << " - " << end << endl;
if ( end > theString.Length() )
{
theStartPos = EMPTY;
return theEmptyString;
}
return theString.SubString( beg, end ); return theString.SubString( beg, end );
} }

2
src/SMESH_I/SMESH_Gen_i.hxx
View File

@ -494,6 +494,8 @@ public:
void CleanPythonTrace(); void CleanPythonTrace();
static int CountInPyDump(const TCollection_AsciiString& text);
// ***************************************** // *****************************************
// Internal methods // Internal methods
// ***************************************** // *****************************************

37
src/SMESH_I/SMESH_Mesh_i.cxx
View File

@ -2058,12 +2058,12 @@ void SMESH_Mesh_i::ReplaceShape(GEOM::GEOM_Object_ptr theNewGeom)
TopoDS_Shape S = _impl->GetShapeToMesh(); TopoDS_Shape S = _impl->GetShapeToMesh();
GEOM_Client* geomClient = _gen_i->GetShapeReader(); GEOM_Client* geomClient = _gen_i->GetShapeReader();
TCollection_AsciiString aIOR; TCollection_AsciiString aIOR;
CORBA::String_var ior;
if ( geomClient->Find( S, aIOR )) if ( geomClient->Find( S, aIOR ))
geomClient->RemoveShapeFromBuffer( aIOR ); geomClient->RemoveShapeFromBuffer( aIOR );
// clear buffer also for sub-groups // clear buffer also for sub-groups
const std::set<SMESHDS_GroupBase*>& groups = _impl->GetMeshDS()->GetGroups(); SMESHDS_Mesh* meshDS = _impl->GetMeshDS();
const std::set<SMESHDS_GroupBase*>& groups = meshDS->GetGroups();
std::set<SMESHDS_GroupBase*>::const_iterator g = groups.begin(); std::set<SMESHDS_GroupBase*>::const_iterator g = groups.begin();
for (; g != groups.end(); ++g) for (; g != groups.end(); ++g)
if (const SMESHDS_GroupOnGeom* group = dynamic_cast<SMESHDS_GroupOnGeom*>(*g)) if (const SMESHDS_GroupOnGeom* group = dynamic_cast<SMESHDS_GroupOnGeom*>(*g))
@ -2073,12 +2073,21 @@ void SMESH_Mesh_i::ReplaceShape(GEOM::GEOM_Object_ptr theNewGeom)
geomClient->RemoveShapeFromBuffer( aIOR ); geomClient->RemoveShapeFromBuffer( aIOR );
} }
// clear buffer also for sub-meshes
std::map<int, SMESH_subMesh_i*>::const_iterator aSubMeshIter = _mapSubMesh_i.cbegin();
for(; aSubMeshIter != _mapSubMesh_i.cend(); aSubMeshIter++) {
int aShapeID = aSubMeshIter->first;
const TopoDS_Shape& aSubShape = meshDS->IndexToShape(aShapeID);
TCollection_AsciiString aShapeIOR;
if ( geomClient->Find( aSubShape, aShapeIOR ))
geomClient->RemoveShapeFromBuffer( aShapeIOR );
}
typedef struct { typedef struct {
int shapeID, fromID, toID; // indices of elements of a sub-mesh int shapeID, fromID, toID; // indices of elements of a sub-mesh
} TRange; } TRange;
std::vector< TRange > elemRanges, nodeRanges; // elements of sub-meshes std::vector< TRange > elemRanges, nodeRanges; // elements of sub-meshes
std::vector< SMDS_PositionPtr > positions; // node positions std::vector< SMDS_PositionPtr > positions; // node positions
SMESHDS_Mesh* meshDS = _impl->GetMeshDS();
if ( !geomChanged ) if ( !geomChanged )
{ {
// store positions of elements on geometry // store positions of elements on geometry
@ -5821,15 +5830,21 @@ void SMESH_Mesh_i::CreateGroupServants()
GEOM::GEOM_Object_var shapeVar = _gen_i->ShapeToGeomObject( shape ); GEOM::GEOM_Object_var shapeVar = _gen_i->ShapeToGeomObject( shape );
_gen_i->PublishGroup( aMesh, groupVar, shapeVar, group->GetName()); _gen_i->PublishGroup( aMesh, groupVar, shapeVar, group->GetName());
} }
if ( !addedIDs.empty() ) if ( !addedIDs.empty() )
{ {
// python dump // python dump
set<int>::iterator id = addedIDs.begin(); map<int, SMESH::SMESH_GroupBase_ptr>::iterator i_grp = _mapGroups.begin();
for ( ; id != addedIDs.end(); ++id ) for ( int index = 0; i_grp != _mapGroups.end(); ++index, ++i_grp )
{ {
map<int, SMESH::SMESH_GroupBase_ptr>::iterator it = _mapGroups.find(*id); set<int>::iterator it = addedIDs.find( i_grp->first );
int i = std::distance( _mapGroups.begin(), it ); if ( it != addedIDs.end() )
TPythonDump() << it->second << " = " << aMesh << ".GetGroups()[ "<< i << " ]"; {
TPythonDump() << i_grp->second << " = " << aMesh << ".GetGroups()[ "<< index << " ]";
addedIDs.erase( it );
if ( addedIDs.empty() )
break;
}
} }
} }
} }
@ -6757,7 +6772,8 @@ TListOfListOfInt SMESH_Mesh_i::findConcurrentSubMeshes()
TDimHypList dimHypListArr[4]; // dimHyp list for each shape dimension TDimHypList dimHypListArr[4]; // dimHyp list for each shape dimension
map<int, ::SMESH_subMesh*>::iterator i_sm = _mapSubMesh.begin(); map<int, ::SMESH_subMesh*>::iterator i_sm = _mapSubMesh.begin();
for ( ; i_sm != _mapSubMesh.end(); i_sm++ ) { for ( ; i_sm != _mapSubMesh.end(); i_sm++ )
{
::SMESH_subMesh* sm = (*i_sm).second; ::SMESH_subMesh* sm = (*i_sm).second;
// shape of submesh // shape of submesh
const TopoDS_Shape& aSubMeshShape = sm->GetSubShape(); const TopoDS_Shape& aSubMeshShape = sm->GetSubShape();
@ -6767,7 +6783,8 @@ TListOfListOfInt SMESH_Mesh_i::findConcurrentSubMeshes()
// Find out dimensions where the submesh can be concurrent. // Find out dimensions where the submesh can be concurrent.
// We define the dimensions by algo of each of hypotheses in hypList // We define the dimensions by algo of each of hypotheses in hypList
list <const SMESHDS_Hypothesis*>::const_iterator hypIt = hypList.begin(); list <const SMESHDS_Hypothesis*>::const_iterator hypIt = hypList.begin();
for( ; hypIt != hypList.end(); hypIt++ ) { for( ; hypIt != hypList.end(); hypIt++ )
{
SMESH_Algo* anAlgo = 0; SMESH_Algo* anAlgo = 0;
const SMESH_Hypothesis* hyp = dynamic_cast<const SMESH_Hypothesis*>(*hypIt); const SMESH_Hypothesis* hyp = dynamic_cast<const SMESH_Hypothesis*>(*hypIt);
if ( hyp->GetType() != SMESHDS_Hypothesis::PARAM_ALGO ) if ( hyp->GetType() != SMESHDS_Hypothesis::PARAM_ALGO )

70
src/SMESH_I/SMESH_PythonDump.cxx
View File

@ -40,6 +40,8 @@
#include <TColStd_HSequenceOfInteger.hxx> #include <TColStd_HSequenceOfInteger.hxx>
#include <TCollection_AsciiString.hxx> #include <TCollection_AsciiString.hxx>
#include <cstring>
#ifdef _DEBUG_ #ifdef _DEBUG_
static int MYDEBUG = 0; static int MYDEBUG = 0;
#else #else
@ -77,7 +79,7 @@ namespace SMESH
TCollection_AsciiString aCollection(Standard_CString(aString.c_str())); TCollection_AsciiString aCollection(Standard_CString(aString.c_str()));
if(!aCollection.IsEmpty()) if(!aCollection.IsEmpty())
{ {
const std::string & objEntry = SMESH_Gen_i::GetSMESHGen()->GetLastObjEntry(); const std::string & objEntry = aSMESHGen->GetLastObjEntry();
if ( !objEntry.empty() ) if ( !objEntry.empty() )
aCollection += (TVar::ObjPrefix() + objEntry ).c_str(); aCollection += (TVar::ObjPrefix() + objEntry ).c_str();
aSMESHGen->AddToPythonScript(aCollection); aSMESHGen->AddToPythonScript(aCollection);
@ -1078,10 +1080,15 @@ TCollection_AsciiString SMESH_Gen_i::DumpPython_impl
TCollection_AsciiString anUpdatedScript; TCollection_AsciiString anUpdatedScript;
Resource_DataMapOfAsciiStringAsciiString mapRemoved; Resource_DataMapOfAsciiStringAsciiString mapRemoved;
Resource_DataMapOfAsciiStringAsciiString mapEntries; // names and entries present in anUpdatedScript Resource_DataMapOfAsciiStringAsciiString mapEntries; // { entry: name } present in anUpdatedScript
Standard_Integer objectCounter = 0; Standard_Integer objectCounter = 0;
TCollection_AsciiString anEntry, aName, aGUIName, aBaseName("smeshObj_"); TCollection_AsciiString anEntry, aName, aGUIName, aBaseName("smeshObj_");
std::string compDataType = ComponentDataType(); // SMESH module's data type
SALOMEDS::SComponent_var smeshSO = getStudyServant()->FindComponent( compDataType.c_str() );
CORBA::String_var smeshID = smeshSO->GetID();
TCollection_AsciiString smeshEntry = smeshID.in();
// Treat every script line and add it to anUpdatedScript // Treat every script line and add it to anUpdatedScript
for ( linesIt = lines.begin(); linesIt != lines.end(); ++linesIt ) for ( linesIt = lines.begin(); linesIt != lines.end(); ++linesIt )
{ {
@ -1132,6 +1139,12 @@ TCollection_AsciiString SMESH_Gen_i::DumpPython_impl
mapEntries.Bind(anEntry, aName); mapEntries.Bind(anEntry, aName);
} }
else else
{
if ( !anEntry.StartsWith( smeshEntry )) // not SMESH object
{
aName = SMESH::TPythonDump::NotPublishedObjectName();
}
else
{ {
// Removed Object // Removed Object
do { do {
@ -1143,6 +1156,7 @@ TCollection_AsciiString SMESH_Gen_i::DumpPython_impl
theObjectNames.Bind(anEntry, aName); theObjectNames.Bind(anEntry, aName);
} }
}
theObjectNames.Bind(aName, anEntry); // to detect same name of diff objects theObjectNames.Bind(aName, anEntry); // to detect same name of diff objects
} }
else else
@ -1388,3 +1402,55 @@ void SMESH_Gen_i::CleanPythonTrace()
myPythonScript->Clear(); myPythonScript->Clear();
} }
} }
//================================================================================
/*!
* \brief Count inclusions of a string in a raw Python dump script
*/
//================================================================================
int SMESH_Gen_i::CountInPyDump(const TCollection_AsciiString& theText)
{
int count = 0;
SALOMEDS::Study_var aStudy = getStudyServant();
if ( CORBA::is_nil( aStudy ))
return count;
SMESH_Gen_i* me = GetSMESHGen();
CORBA::String_var compDataType = me->ComponentDataType();
SALOMEDS::SObject_wrap aSO = aStudy->FindComponent( compDataType.in() );
if ( CORBA::is_nil( aSO ))
return count;
// Trace saved in the study
SALOMEDS::GenericAttribute_wrap attr;
if ( aSO->FindAttribute( attr.inout(), "AttributePythonObject" ))
{
SALOMEDS::AttributePythonObject_var pyAttr =
SALOMEDS::AttributePythonObject::_narrow( attr );
CORBA::String_var script = pyAttr->GetObject();
for ( const char * scriptPos = script.in(); true; ++scriptPos )
if (( scriptPos = strstr( scriptPos, theText.ToCString() )))
++count;
else
break;
}
// New python commands
if ( !me->myPythonScript.IsNull() )
{
const int nbLines = me->myPythonScript->Length();
for ( int i = 1; i <= nbLines; ++i )
{
const TCollection_AsciiString& line = me->myPythonScript->Value( i );
for ( int loc = 1; loc <= line.Length(); ++loc )
if (( loc = line.Location( theText, loc, line.Length() )))
++count;
else
break;
}
}
return count;
}

8
src/SMESH_SWIG/smeshBuilder.py
View File

@ -2636,7 +2636,15 @@ class Mesh(metaclass = MeshMeta):
elif tgeo == "SOLID" or tgeo == "COMPSOLID": elif tgeo == "SOLID" or tgeo == "COMPSOLID":
typ = VOLUME typ = VOLUME
elif tgeo == "COMPOUND": elif tgeo == "COMPOUND":
try:
sub = self.geompyD.SubShapeAll( shape, self.geompyD.ShapeType["SHAPE"]) sub = self.geompyD.SubShapeAll( shape, self.geompyD.ShapeType["SHAPE"])
except:
# try to get the SHAPERSTUDY engine directly, because GetGen does not work because of
# simplification of access in geomBuilder: omniORB.registerObjref
from SHAPERSTUDY_utils import getEngine
gen = getEngine()
if gen:
sub = gen.GetIShapesOperations().ExtractSubShapes(shape, self.geompyD.ShapeType["SHAPE"], False)
if not sub: if not sub:
raise ValueError("_groupTypeFromShape(): empty geometric group or compound '%s'" % GetName(shape)) raise ValueError("_groupTypeFromShape(): empty geometric group or compound '%s'" % GetName(shape))
return self._groupTypeFromShape( sub[0] ) return self._groupTypeFromShape( sub[0] )

22
src/SMESH_SWIG/smesh_algorithm.py
View File

@ -340,9 +340,20 @@ class Mesh_Algorithm:
if faces and isinstance( faces[0], geomBuilder.GEOM._objref_GEOM_Object ): if faces and isinstance( faces[0], geomBuilder.GEOM._objref_GEOM_Object ):
faceIDs = [] faceIDs = []
for shape in faces: for shape in faces:
try:
ff = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["FACE"] ) ff = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["FACE"] )
for f in ff: for f in ff:
faceIDs.append( self.mesh.geompyD.GetSubShapeID(self.mesh.geom, f)) faceIDs.append( self.mesh.geompyD.GetSubShapeID(self.mesh.geom, f))
except:
# try to get the SHAPERSTUDY engine directly, because GetGen does not work because of
# simplification of access in geomBuilder: omniORB.registerObjref
from SHAPERSTUDY_utils import getEngine
gen = getEngine()
if gen:
aShapeOp = gen.GetIShapesOperations()
ff = aShapeOp.ExtractSubShapes( shape, self.mesh.geompyD.ShapeType["FACE"], False)
for f in ff:
faceIDs.append( aShapeOp.GetSubShapeIndex( self.mesh.geom, f ))
faces = faceIDs faces = faceIDs
hyp = self.Hypothesis("ViscousLayers", hyp = self.Hypothesis("ViscousLayers",
[thickness, numberOfLayers, stretchFactor, faces, isFacesToIgnore], [thickness, numberOfLayers, stretchFactor, faces, isFacesToIgnore],
@ -392,9 +403,20 @@ class Mesh_Algorithm:
if edges and isinstance( edges[0], geomBuilder.GEOM._objref_GEOM_Object ): if edges and isinstance( edges[0], geomBuilder.GEOM._objref_GEOM_Object ):
edgeIDs = [] edgeIDs = []
for shape in edges: for shape in edges:
try:
ee = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["EDGE"]) ee = self.mesh.geompyD.SubShapeAll( shape, self.mesh.geompyD.ShapeType["EDGE"])
for e in ee: for e in ee:
edgeIDs.append( self.mesh.geompyD.GetSubShapeID( self.mesh.geom, e )) edgeIDs.append( self.mesh.geompyD.GetSubShapeID( self.mesh.geom, e ))
except:
# try to get the SHAPERSTUDY engine directly, because GetGen does not work because of
# simplification of access in geomBuilder: omniORB.registerObjref
from SHAPERSTUDY_utils import getEngine
gen = getEngine()
if gen:
aShapeOp = gen.GetIShapesOperations()
ee = aShapeOp.ExtractSubShapes( shape, self.mesh.geompyD.ShapeType["EDGE"], False)
for e in ee:
edgeIDs.append( aShapeOp.GetSubShapeIndex( self.mesh.geom, e ))
edges = edgeIDs edges = edgeIDs
hyp = self.Hypothesis("ViscousLayers2D", hyp = self.Hypothesis("ViscousLayers2D",
[thickness, numberOfLayers, stretchFactor, edges, isEdgesToIgnore], [thickness, numberOfLayers, stretchFactor, edges, isEdgesToIgnore],

615
src/StdMeshers/StdMeshers_Cartesian_3D.cxx
View File

@ -362,6 +362,9 @@ namespace
gp_XYZ _origin; gp_XYZ _origin;
gp_Mat _invB; // inverted basis of _axes gp_Mat _invB; // inverted basis of _axes
// index shift within _nodes of nodes of a cell from the 1st node
int _nodeShift[8];
vector< const SMDS_MeshNode* > _nodes; // mesh nodes at grid nodes vector< const SMDS_MeshNode* > _nodes; // mesh nodes at grid nodes
vector< const F_IntersectPoint* > _gridIntP; // grid node intersection with geometry vector< const F_IntersectPoint* > _gridIntP; // grid node intersection with geometry
ObjectPool< E_IntersectPoint > _edgeIntPool; // intersections with EDGEs ObjectPool< E_IntersectPoint > _edgeIntPool; // intersections with EDGEs
@ -427,6 +430,7 @@ namespace
bool IsBoundaryFace( TGeomID face ) const { return _geometry._boundaryFaces.Contains( face ); } bool IsBoundaryFace( TGeomID face ) const { return _geometry._boundaryFaces.Contains( face ); }
void SetOnShape( const SMDS_MeshNode* n, const F_IntersectPoint& ip, bool unset=false ); void SetOnShape( const SMDS_MeshNode* n, const F_IntersectPoint& ip, bool unset=false );
bool IsToCheckNodePos() const { return !_toAddEdges && _toCreateFaces; } bool IsToCheckNodePos() const { return !_toAddEdges && _toCreateFaces; }
bool IsToRemoveExcessEntities() const { return !_toAddEdges; }
void SetCoordinates(const vector<double>& xCoords, void SetCoordinates(const vector<double>& xCoords,
const vector<double>& yCoords, const vector<double>& yCoords,
@ -442,12 +446,14 @@ namespace
*/ */
struct CellsAroundLink struct CellsAroundLink
{ {
int _iDir;
int _dInd[4][3]; int _dInd[4][3];
size_t _nbCells[3]; size_t _nbCells[3];
int _i,_j,_k; int _i,_j,_k;
Grid* _grid; Grid* _grid;
CellsAroundLink( Grid* grid, int iDir ): CellsAroundLink( Grid* grid, int iDir ):
_iDir( iDir ),
_dInd{ {0,0,0}, {0,0,0}, {0,0,0}, {0,0,0} }, _dInd{ {0,0,0}, {0,0,0}, {0,0,0}, {0,0,0} },
_nbCells{ grid->_coords[0].size() - 1, _nbCells{ grid->_coords[0].size() - 1,
grid->_coords[1].size() - 1, grid->_coords[1].size() - 1,
@ -466,7 +472,7 @@ namespace
_j = j - _dInd[iL][1]; _j = j - _dInd[iL][1];
_k = k - _dInd[iL][2]; _k = k - _dInd[iL][2];
} }
bool GetCell( int iL, int& i, int& j, int& k, int& cellIndex ) bool GetCell( int iL, int& i, int& j, int& k, int& cellIndex, int& linkIndex )
{ {
i = _i + _dInd[iL][0]; i = _i + _dInd[iL][0];
j = _j + _dInd[iL][1]; j = _j + _dInd[iL][1];
@ -476,6 +482,7 @@ namespace
k < 0 || k >= (int)_nbCells[2] ) k < 0 || k >= (int)_nbCells[2] )
return false; return false;
cellIndex = _grid->CellIndex( i,j,k ); cellIndex = _grid->CellIndex( i,j,k );
linkIndex = iL + _iDir * 4;
return true; return true;
} }
}; };
@ -759,9 +766,13 @@ namespace
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
struct _Face struct _Face
{ {
SMESH_Block::TShapeID _name;
vector< _OrientedLink > _links; // links on GridLine's vector< _OrientedLink > _links; // links on GridLine's
vector< _Link > _polyLinks; // links added to close a polygonal face vector< _Link > _polyLinks; // links added to close a polygonal face
vector< _Node* > _eIntNodes; // nodes at intersection with EDGEs vector< _Node* > _eIntNodes; // nodes at intersection with EDGEs
_Face():_name( SMESH_Block::ID_NONE )
{}
bool IsPolyLink( const _OrientedLink& ol ) bool IsPolyLink( const _OrientedLink& ol )
{ {
return _polyLinks.empty() ? false : return _polyLinks.empty() ? false :
@ -789,41 +800,79 @@ namespace
// -------------------------------------------------------------------------------- // --------------------------------------------------------------------------------
struct _volumeDef // holder of nodes of a volume mesh element struct _volumeDef // holder of nodes of a volume mesh element
{ {
typedef void* _ptr;
struct _nodeDef struct _nodeDef
{ {
const SMDS_MeshNode* _node; // mesh node at hexahedron corner const SMDS_MeshNode* _node; // mesh node at hexahedron corner
const B_IntersectPoint* _intPoint; const B_IntersectPoint* _intPoint;
_nodeDef(): _node(0), _intPoint(0) {}
_nodeDef( _Node* n ): _node( n->_node), _intPoint( n->_intPoint ) {} _nodeDef( _Node* n ): _node( n->_node), _intPoint( n->_intPoint ) {}
const SMDS_MeshNode* Node() const const SMDS_MeshNode* Node() const
{ return ( _intPoint && _intPoint->_node ) ? _intPoint->_node : _node; } { return ( _intPoint && _intPoint->_node ) ? _intPoint->_node : _node; }
const E_IntersectPoint* EdgeIntPnt() const const E_IntersectPoint* EdgeIntPnt() const
{ return static_cast< const E_IntersectPoint* >( _intPoint ); } { return static_cast< const E_IntersectPoint* >( _intPoint ); }
_ptr Ptr() const { return Node() ? (_ptr) Node() : (_ptr) EdgeIntPnt(); }
bool operator==(const _nodeDef& other ) const { return Ptr() == other.Ptr(); }
}; };
vector< _nodeDef > _nodes; vector< _nodeDef > _nodes;
vector< int > _quantities; vector< int > _quantities;
_volumeDef* _next; // to store several _volumeDefs in a chain _volumeDef* _next; // to store several _volumeDefs in a chain
TGeomID _solidID; TGeomID _solidID;
const SMDS_MeshElement* _volume; // new volume const SMDS_MeshElement* _volume; // new volume
vector< SMESH_Block::TShapeID > _names; // name of side a polygon originates from
_volumeDef(): _next(0), _solidID(0), _volume(0) {} _volumeDef(): _next(0), _solidID(0), _volume(0) {}
~_volumeDef() { delete _next; } ~_volumeDef() { delete _next; }
_volumeDef( _volumeDef& other ): _volumeDef( _volumeDef& other ):
_next(0), _solidID( other._solidID ), _volume( other._volume ) _next(0), _solidID( other._solidID ), _volume( other._volume )
{ _nodes.swap( other._nodes ); _quantities.swap( other._quantities ); other._volume = 0; } { _nodes.swap( other._nodes ); _quantities.swap( other._quantities ); other._volume = 0;
_names.swap( other._names ); }
void Set( const vector< _Node* >& nodes, const vector< int >& quant = vector< int >() ) size_t size() const { return 1 + ( _next ? _next->size() : 0 ); }
{ _nodes.assign( nodes.begin(), nodes.end() ); _quantities = quant; } _volumeDef* at(int index)
{ return index == 0 ? this : ( _next ? _next->at(index-1) : _next ); }
void Set( _Node** nodes, int nb ) void Set( _Node** nodes, int nb )
{ _nodes.assign( nodes, nodes + nb ); } { _nodes.assign( nodes, nodes + nb ); }
void SetNext( _volumeDef* vd ) void SetNext( _volumeDef* vd )
{ if ( _next ) { _next->SetNext( vd ); } else { _next = vd; }} { if ( _next ) { _next->SetNext( vd ); } else { _next = vd; }}
bool IsEmpty() const { return (( _nodes.empty() ) &&
( !_next || _next->IsEmpty() )); }
bool IsPolyhedron() const { return ( !_quantities.empty() ||
( _next && !_next->_quantities.empty() )); }
struct _linkDef: public std::pair<_ptr,_ptr> // to join polygons in removeExcessSideDivision()
{
_nodeDef _node1;//, _node2;
mutable /*const */_linkDef *_prev, *_next;
size_t _loopIndex;
_linkDef():_prev(0), _next(0) {}
void init( const _nodeDef& n1, const _nodeDef& n2, size_t iLoop )
{
_node1 = n1; //_node2 = n2;
_loopIndex = iLoop;
first = n1.Ptr();
second = n2.Ptr();
if ( first > second ) std::swap( first, second );
}
void setNext( _linkDef* next )
{
_next = next;
next->_prev = this;
}
};
}; };
// topology of a hexahedron // topology of a hexahedron
int _nodeShift[8];
_Node _hexNodes [8]; _Node _hexNodes [8];
_Link _hexLinks [12]; _Link _hexLinks [12];
_Face _hexQuads [6]; _Face _hexQuads [6];
@ -837,7 +886,7 @@ namespace
// additional nodes created at intersection points // additional nodes created at intersection points
vector< _Node > _intNodes; vector< _Node > _intNodes;
// nodes inside the hexahedron (at VERTEXes) // nodes inside the hexahedron (at VERTEXes) refer to _intNodes
vector< _Node* > _vIntNodes; vector< _Node* > _vIntNodes;
// computed volume elements // computed volume elements
@ -858,7 +907,7 @@ namespace
Hexahedron(Grid* grid); Hexahedron(Grid* grid);
int MakeElements(SMESH_MesherHelper& helper, int MakeElements(SMESH_MesherHelper& helper,
const map< TGeomID, vector< TGeomID > >& edge2faceIDsMap); const map< TGeomID, vector< TGeomID > >& edge2faceIDsMap);
void ComputeElements( const Solid* solid = 0, int solidIndex = -1 ); void computeElements( const Solid* solid = 0, int solidIndex = -1 );
private: private:
Hexahedron(const Hexahedron& other, size_t i, size_t j, size_t k, int cellID ); Hexahedron(const Hexahedron& other, size_t i, size_t j, size_t k, int cellID );
@ -893,6 +942,9 @@ namespace
const map< TGeomID, vector< TGeomID > >& edge2faceIDsMap ); const map< TGeomID, vector< TGeomID > >& edge2faceIDsMap );
void getVolumes( vector< const SMDS_MeshElement* > & volumes ); void getVolumes( vector< const SMDS_MeshElement* > & volumes );
void getBoundaryElems( vector< const SMDS_MeshElement* > & boundaryVolumes ); void getBoundaryElems( vector< const SMDS_MeshElement* > & boundaryVolumes );
void removeExcessSideDivision(const vector< Hexahedron* >& allHexa);
void removeExcessNodes(vector< Hexahedron* >& allHexa);
void preventVolumesOverlapping();
TGeomID getAnyFace() const; TGeomID getAnyFace() const;
void cutByExtendedInternal( std::vector< Hexahedron* >& hexes, void cutByExtendedInternal( std::vector< Hexahedron* >& hexes,
const TColStd_MapOfInteger& intEdgeIDs ); const TColStd_MapOfInteger& intEdgeIDs );
@ -927,7 +979,7 @@ namespace
TID2Nb::iterator id2nb = id2nbMap.insert( s0 ).first; TID2Nb::iterator id2nb = id2nbMap.insert( s0 ).first;
id2nb->second++; id2nb->second++;
} }
}; }; // class Hexahedron
#ifdef WITH_TBB #ifdef WITH_TBB
// -------------------------------------------------------------------------- // --------------------------------------------------------------------------
@ -942,7 +994,7 @@ namespace
{ {
for ( size_t i = r.begin(); i != r.end(); ++i ) for ( size_t i = r.begin(); i != r.end(); ++i )
if ( Hexahedron* hex = _hexVec[ i ] ) if ( Hexahedron* hex = _hexVec[ i ] )
hex->ComputeElements(); hex->computeElements();
} }
}; };
// -------------------------------------------------------------------------- // --------------------------------------------------------------------------
@ -2089,14 +2141,14 @@ namespace
size_t i101 = i100 + dz; size_t i101 = i100 + dz;
size_t i011 = i010 + dz; size_t i011 = i010 + dz;
size_t i111 = i110 + dz; size_t i111 = i110 + dz;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V000 )] = i000; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V000 )] = i000;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V100 )] = i100; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V100 )] = i100;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V010 )] = i010; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V010 )] = i010;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V110 )] = i110; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V110 )] = i110;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V001 )] = i001; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V001 )] = i001;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V101 )] = i101; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V101 )] = i101;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V011 )] = i011; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V011 )] = i011;
_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V111 )] = i111; grid->_nodeShift[ SMESH_Block::ShapeIndex( SMESH_Block::ID_V111 )] = i111;
vector< int > idVec; vector< int > idVec;
// set nodes to links // set nodes to links
@ -2112,8 +2164,10 @@ namespace
int interlace[4] = { 0, 3, 1, 2 }; // to walk by links around a face: { u0, 1v, u1, 0v } int interlace[4] = { 0, 3, 1, 2 }; // to walk by links around a face: { u0, 1v, u1, 0v }
for ( int faceID = SMESH_Block::ID_Fxy0; faceID <= SMESH_Block::ID_F1yz; ++faceID ) for ( int faceID = SMESH_Block::ID_Fxy0; faceID <= SMESH_Block::ID_F1yz; ++faceID )
{ {
SMESH_Block::GetFaceEdgesIDs( faceID, idVec );
_Face& quad = _hexQuads[ SMESH_Block::ShapeIndex( faceID )]; _Face& quad = _hexQuads[ SMESH_Block::ShapeIndex( faceID )];
quad._name = (SMESH_Block::TShapeID) faceID;
SMESH_Block::GetFaceEdgesIDs( faceID, idVec );
bool revFace = ( faceID == SMESH_Block::ID_Fxy0 || bool revFace = ( faceID == SMESH_Block::ID_Fxy0 ||
faceID == SMESH_Block::ID_Fx1z || faceID == SMESH_Block::ID_Fx1z ||
faceID == SMESH_Block::ID_F0yz ); faceID == SMESH_Block::ID_F0yz );
@ -2141,9 +2195,6 @@ namespace
_polygons.reserve(100); // to avoid reallocation; _polygons.reserve(100); // to avoid reallocation;
// copy topology // copy topology
for ( int i = 0; i < 8; ++i )
_nodeShift[i] = other._nodeShift[i];
for ( int i = 0; i < 12; ++i ) for ( int i = 0; i < 12; ++i )
{ {
const _Link& srcLink = other._hexLinks[ i ]; const _Link& srcLink = other._hexLinks[ i ];
@ -2156,6 +2207,7 @@ namespace
{ {
const _Face& srcQuad = other._hexQuads[ i ]; const _Face& srcQuad = other._hexQuads[ i ];
_Face& tgtQuad = this->_hexQuads[ i ]; _Face& tgtQuad = this->_hexQuads[ i ];
tgtQuad._name = srcQuad._name;
tgtQuad._links.resize(4); tgtQuad._links.resize(4);
for ( int j = 0; j < 4; ++j ) for ( int j = 0; j < 4; ++j )
{ {
@ -2188,8 +2240,8 @@ namespace
_origNodeInd = _grid->NodeIndex( _i,_j,_k ); _origNodeInd = _grid->NodeIndex( _i,_j,_k );
for ( int iN = 0; iN < 8; ++iN ) for ( int iN = 0; iN < 8; ++iN )
{ {
_hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _grid->_nodeShift[iN] ];
_hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _grid->_nodeShift[iN] ];
if ( _hexNodes[iN]._intPoint ) // intersection with a FACE if ( _hexNodes[iN]._intPoint ) // intersection with a FACE
{ {
@ -2337,6 +2389,7 @@ namespace
{ {
_i = i; _j = j; _k = k; _i = i; _j = j; _k = k;
bool isCompute = solid;
if ( !solid ) if ( !solid )
solid = _grid->GetSolid(); solid = _grid->GetSolid();
@ -2348,8 +2401,8 @@ namespace
{ {
_hexNodes[iN]._isInternalFlags = 0; _hexNodes[iN]._isInternalFlags = 0;
_hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _grid->_nodeShift[iN] ];
_hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _grid->_nodeShift[iN] ];
if ( _hexNodes[iN]._node && !solid->Contains( _hexNodes[iN]._node->GetShapeID() )) if ( _hexNodes[iN]._node && !solid->Contains( _hexNodes[iN]._node->GetShapeID() ))
_hexNodes[iN]._node = 0; _hexNodes[iN]._node = 0;
@ -2366,6 +2419,9 @@ namespace
_intNodes.clear(); _intNodes.clear();
_vIntNodes.clear(); _vIntNodes.clear();
if ( !isCompute )
return;
if ( _nbFaceIntNodes + _eIntPoints.size() > 0 && if ( _nbFaceIntNodes + _eIntPoints.size() > 0 &&
_nbFaceIntNodes + _eIntPoints.size() + _nbCornerNodes > 3) _nbFaceIntNodes + _eIntPoints.size() + _nbCornerNodes > 3)
{ {
@ -2545,7 +2601,8 @@ namespace
} // loop on _eIntPoints } // loop on _eIntPoints
} }
else if ( 3 < _nbCornerNodes && _nbCornerNodes < 8 ) // _nbFaceIntNodes == 0 else if (( 3 < _nbCornerNodes && _nbCornerNodes < 8 ) || // _nbFaceIntNodes == 0
( !_grid->_geometry.IsOneSolid() ))
{ {
_Link split; _Link split;
// create sub-links (_splits) of whole links // create sub-links (_splits) of whole links
@ -2569,7 +2626,7 @@ namespace
/*! /*!
* \brief Compute mesh volumes resulted from intersection of the Hexahedron * \brief Compute mesh volumes resulted from intersection of the Hexahedron
*/ */
void Hexahedron::ComputeElements( const Solid* solid, int solidIndex ) void Hexahedron::computeElements( const Solid* solid, int solidIndex )
{ {
if ( !solid ) if ( !solid )
{ {
@ -2583,7 +2640,7 @@ namespace
for ( size_t i = 0; i < nbSolids; ++i ) for ( size_t i = 0; i < nbSolids; ++i )
{ {
solid = _grid->GetSolid( solidIDs[i] ); solid = _grid->GetSolid( solidIDs[i] );
ComputeElements( solid, i ); computeElements( solid, i );
if ( !_volumeDefs._nodes.empty() && i < nbSolids - 1 ) if ( !_volumeDefs._nodes.empty() && i < nbSolids - 1 )
_volumeDefs.SetNext( new _volumeDef( _volumeDefs )); _volumeDefs.SetNext( new _volumeDef( _volumeDefs ));
} }
@ -2632,6 +2689,9 @@ namespace
for ( int iN = 0; iN < 8; ++iN ) for ( int iN = 0; iN < 8; ++iN )
_hexNodes[iN]._usedInFace = 0; _hexNodes[iN]._usedInFace = 0;
if ( intFlag & IS_CUT_BY_INTERNAL_FACE && !_grid->_toAddEdges ) // Issue #19913
preventVolumesOverlapping();
// Create polygons from quadrangles // Create polygons from quadrangles
// -------------------------------- // --------------------------------
@ -2639,7 +2699,8 @@ namespace
vector<_Node*> chainNodes; vector<_Node*> chainNodes;
_Face* coplanarPolyg; _Face* coplanarPolyg;
bool hasEdgeIntersections = !_eIntPoints.empty(); const bool hasEdgeIntersections = !_eIntPoints.empty();
const bool toCheckSideDivision = isImplementEdges() || intFlag & IS_CUT_BY_INTERNAL_FACE;
for ( int iF = 0; iF < 6; ++iF ) // loop on 6 sides of a hexahedron for ( int iF = 0; iF < 6; ++iF ) // loop on 6 sides of a hexahedron
{ {
@ -2648,6 +2709,7 @@ namespace
_polygons.resize( _polygons.size() + 1 ); _polygons.resize( _polygons.size() + 1 );
_Face* polygon = &_polygons.back(); _Face* polygon = &_polygons.back();
polygon->_polyLinks.reserve( 20 ); polygon->_polyLinks.reserve( 20 );
polygon->_name = quad._name;
splits.clear(); splits.clear();
for ( int iE = 0; iE < 4; ++iE ) // loop on 4 sides of a quadrangle for ( int iE = 0; iE < 4; ++iE ) // loop on 4 sides of a quadrangle
@ -2682,6 +2744,7 @@ namespace
_polygons.resize( _polygons.size() + 1 ); _polygons.resize( _polygons.size() + 1 );
polygon = &_polygons.back(); polygon = &_polygons.back();
polygon->_polyLinks.reserve( 20 ); polygon->_polyLinks.reserve( 20 );
polygon->_name = quad._name;
} }
polygon->_links.push_back( splits[ iS ] ); polygon->_links.push_back( splits[ iS ] );
splits[ iS++ ]._link = 0; splits[ iS++ ]._link = 0;
@ -2697,7 +2760,7 @@ namespace
n1 = split.FirstNode(); n1 = split.FirstNode();
if ( n1 == n2 && if ( n1 == n2 &&
n1->_intPoint && n1->_intPoint &&
(( n1->_intPoint->_faceIDs.size() > 1 && isImplementEdges() ) || (( n1->_intPoint->_faceIDs.size() > 1 && toCheckSideDivision ) ||
( n1->_isInternalFlags ))) ( n1->_isInternalFlags )))
{ {
// n1 is at intersection with EDGE // n1 is at intersection with EDGE
@ -3148,6 +3211,40 @@ namespace
if ( _hasTooSmall ) if ( _hasTooSmall )
return false; // too small volume return false; // too small volume
// Try to find out names of no-name polygons (issue # 19887)
if ( _grid->IsToRemoveExcessEntities() && _polygons.back()._name == SMESH_Block::ID_NONE )
{
gp_XYZ uvwCenter =
0.5 * ( _grid->_coords[0][_i] + _grid->_coords[0][_i+1] ) * _grid->_axes[0] +
0.5 * ( _grid->_coords[1][_j] + _grid->_coords[1][_j+1] ) * _grid->_axes[1] +
0.5 * ( _grid->_coords[2][_k] + _grid->_coords[2][_k+1] ) * _grid->_axes[2];
for ( size_t i = _polygons.size() - 1; _polygons[i]._name == SMESH_Block::ID_NONE; --i )
{
_Face& face = _polygons[ i ];
Bnd_Box bb;
gp_Pnt uvw;
for ( size_t iL = 0; iL < face._links.size(); ++iL )
{
_Node* n = face._links[ iL ].FirstNode();
gp_XYZ p = SMESH_NodeXYZ( n->Node() );
_grid->ComputeUVW( p, uvw.ChangeCoord().ChangeData() );
bb.Add( uvw );
}
gp_Pnt pMin = bb.CornerMin();
if ( bb.IsXThin( _grid->_tol ))
face._name = pMin.X() < uvwCenter.X() ? SMESH_Block::ID_F0yz : SMESH_Block::ID_F1yz;
else if ( bb.IsYThin( _grid->_tol ))
face._name = pMin.Y() < uvwCenter.Y() ? SMESH_Block::ID_Fx0z : SMESH_Block::ID_Fx1z;
else if ( bb.IsZThin( _grid->_tol ))
face._name = pMin.Z() < uvwCenter.Z() ? SMESH_Block::ID_Fxy0 : SMESH_Block::ID_Fxy1;
}
}
_volumeDefs._nodes.clear();
_volumeDefs._quantities.clear();
_volumeDefs._names.clear();
// create a classic cell if possible // create a classic cell if possible
int nbPolygons = 0; int nbPolygons = 0;
@ -3168,14 +3265,12 @@ namespace
else if ( nbNodes == 5 && nbPolygons == 5 ) isClassicElem = addPyra (); else if ( nbNodes == 5 && nbPolygons == 5 ) isClassicElem = addPyra ();
if ( !isClassicElem ) if ( !isClassicElem )
{ {
_volumeDefs._nodes.clear();
_volumeDefs._quantities.clear();
for ( size_t iF = 0; iF < _polygons.size(); ++iF ) for ( size_t iF = 0; iF < _polygons.size(); ++iF )
{ {
const size_t nbLinks = _polygons[ iF ]._links.size(); const size_t nbLinks = _polygons[ iF ]._links.size();
if ( nbLinks == 0 ) continue; if ( nbLinks == 0 ) continue;
_volumeDefs._quantities.push_back( nbLinks ); _volumeDefs._quantities.push_back( nbLinks );
_volumeDefs._names.push_back( _polygons[ iF ]._name );
for ( size_t iL = 0; iL < nbLinks; ++iL ) for ( size_t iL = 0; iL < nbLinks; ++iL )
_volumeDefs._nodes.push_back( _polygons[ iF ]._links[ iL ].FirstNode() ); _volumeDefs._nodes.push_back( _polygons[ iF ]._links[ iL ].FirstNode() );
} }
@ -3199,7 +3294,7 @@ namespace
int nbIntHex = 0; int nbIntHex = 0;
// set intersection nodes from GridLine's to links of allHexa // set intersection nodes from GridLine's to links of allHexa
int i,j,k, cellIndex; int i,j,k, cellIndex, iLink;
for ( int iDir = 0; iDir < 3; ++iDir ) for ( int iDir = 0; iDir < 3; ++iDir )
{ {
// loop on GridLine's parallel to iDir // loop on GridLine's parallel to iDir
@ -3216,7 +3311,7 @@ namespace
fourCells.Init( lineInd.I(), lineInd.J(), lineInd.K() ); fourCells.Init( lineInd.I(), lineInd.J(), lineInd.K() );
for ( int iL = 0; iL < 4; ++iL ) // loop on 4 cells sharing a link for ( int iL = 0; iL < 4; ++iL ) // loop on 4 cells sharing a link
{ {
if ( !fourCells.GetCell( iL, i,j,k, cellIndex )) if ( !fourCells.GetCell( iL, i,j,k, cellIndex, iLink ))
continue; continue;
Hexahedron *& hex = allHexa[ cellIndex ]; Hexahedron *& hex = allHexa[ cellIndex ];
if ( !hex) if ( !hex)
@ -3224,7 +3319,6 @@ namespace
hex = new Hexahedron( *this, i, j, k, cellIndex ); hex = new Hexahedron( *this, i, j, k, cellIndex );
++nbIntHex; ++nbIntHex;
} }
const int iLink = iL + iDir * 4;
hex->_hexLinks[iLink]._fIntPoints.push_back( &(*ip) ); hex->_hexLinks[iLink]._fIntPoints.push_back( &(*ip) );
hex->_nbFaceIntNodes += bool( ip->_node ); hex->_nbFaceIntNodes += bool( ip->_node );
} }
@ -3247,7 +3341,9 @@ namespace
if ( hex ) // split hexahedron if ( hex ) // split hexahedron
{ {
intHexa.push_back( hex ); intHexa.push_back( hex );
if ( hex->_nbFaceIntNodes > 0 || hex->_eIntPoints.size() > 0 ) if ( hex->_nbFaceIntNodes > 0 ||
hex->_eIntPoints.size() > 0 ||
hex->getSolids( solidIDs ) > 1 )
continue; // treat intersected hex later in parallel continue; // treat intersected hex later in parallel
this->init( hex->_i, hex->_j, hex->_k ); this->init( hex->_i, hex->_j, hex->_k );
} }
@ -3294,23 +3390,34 @@ namespace
} }
} }
// add elements resulted from hexadron intersection // compute definitions of volumes resulted from hexadron intersection
#ifdef WITH_TBB #ifdef WITH_TBB
tbb::parallel_for ( tbb::blocked_range<size_t>( 0, intHexa.size() ), tbb::parallel_for ( tbb::blocked_range<size_t>( 0, intHexa.size() ),
ParallelHexahedron( intHexa ), ParallelHexahedron( intHexa ),
tbb::simple_partitioner()); // ComputeElements() is called here tbb::simple_partitioner()); // computeElements() is called here
for ( size_t i = 0; i < intHexa.size(); ++i )
if ( Hexahedron * hex = intHexa[ i ] )
nbAdded += hex->addVolumes( helper );
#else #else
for ( size_t i = 0; i < intHexa.size(); ++i ) for ( size_t i = 0; i < intHexa.size(); ++i )
if ( Hexahedron * hex = intHexa[ i ] ) if ( Hexahedron * hex = intHexa[ i ] )
{ hex->computeElements();
hex->ComputeElements();
nbAdded += hex->addVolumes( helper );
}
#endif #endif
// simplify polyhedrons
if ( _grid->IsToRemoveExcessEntities() )
{
for ( size_t i = 0; i < intHexa.size(); ++i )
if ( Hexahedron * hex = intHexa[ i ] )
hex->removeExcessSideDivision( allHexa );
for ( size_t i = 0; i < intHexa.size(); ++i )
if ( Hexahedron * hex = intHexa[ i ] )
hex->removeExcessNodes( allHexa );
}
// add volumes
for ( size_t i = 0; i < intHexa.size(); ++i )
if ( Hexahedron * hex = intHexa[ i ] )
nbAdded += hex->addVolumes( helper );
// fill boundaryVolumes with volumes neighboring too small skipped volumes // fill boundaryVolumes with volumes neighboring too small skipped volumes
if ( _grid->_toCreateFaces ) if ( _grid->_toCreateFaces )
{ {
@ -3604,7 +3711,8 @@ namespace
int i = ! ( u < _grid->_tol ); // [0,1] int i = ! ( u < _grid->_tol ); // [0,1]
int iN = link._nodes[ i ] - hex->_hexNodes; // [0-7] int iN = link._nodes[ i ] - hex->_hexNodes; // [0-7]
const F_IntersectPoint * & ip = _grid->_gridIntP[ hex->_origNodeInd + _nodeShift[iN] ]; const F_IntersectPoint * & ip = _grid->_gridIntP[ hex->_origNodeInd +
_grid->_nodeShift[iN] ];
if ( !ip ) if ( !ip )
{ {
ip = _grid->_extIntPool.getNew(); ip = _grid->_extIntPool.getNew();
@ -3632,13 +3740,12 @@ namespace
int i,j,k, cellIndex; int i,j,k, cellIndex;
for ( int iC = 0; iC < 4; ++iC ) // loop on 4 cells sharing the link for ( int iC = 0; iC < 4; ++iC ) // loop on 4 cells sharing the link
{ {
if ( !fourCells.GetCell( iC, i,j,k, cellIndex )) if ( !fourCells.GetCell( iC, i,j,k, cellIndex, iLink ))
continue; continue;
Hexahedron * h = hexes[ cellIndex ]; Hexahedron * h = hexes[ cellIndex ];
if ( !h ) if ( !h )
h = hexes[ cellIndex ] = new Hexahedron( *this, i, j, k, cellIndex ); h = hexes[ cellIndex ] = new Hexahedron( *this, i, j, k, cellIndex );
const int iL = iC + iDir * 4; h->_hexLinks[iLink]._fIntPoints.push_back( ip );
h->_hexLinks[iL]._fIntPoints.push_back( ip );
h->_nbFaceIntNodes++; h->_nbFaceIntNodes++;
//isCut = true; //isCut = true;
} }
@ -3698,8 +3805,8 @@ namespace
for ( size_t iN = 0; iN < 8; ++iN ) // check corners for ( size_t iN = 0; iN < 8; ++iN ) // check corners
{ {
_hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._node = _grid->_nodes [ _origNodeInd + _grid->_nodeShift[iN] ];
_hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _nodeShift[iN] ]; _hexNodes[iN]._intPoint = _grid->_gridIntP[ _origNodeInd + _grid->_nodeShift[iN] ];
if ( _hexNodes[iN]._intPoint ) if ( _hexNodes[iN]._intPoint )
for ( size_t iF = 0; iF < _hexNodes[iN]._intPoint->_faceIDs.size(); ++iF ) for ( size_t iF = 0; iF < _hexNodes[iN]._intPoint->_faceIDs.size(); ++iF )
{ {
@ -4369,11 +4476,14 @@ namespace
{ {
curIntPnt._paramOnLine = coords[ ijk[ iDir ]] - coords[0] + _grid->_tol; curIntPnt._paramOnLine = coords[ ijk[ iDir ]] - coords[0] + _grid->_tol;
const GridLine& line = _grid->_lines[ iDir ][ lineIndex[ iL ]]; const GridLine& line = _grid->_lines[ iDir ][ lineIndex[ iL ]];
if ( !line._intPoints.empty() )
{
multiset< F_IntersectPoint >::const_iterator ip = multiset< F_IntersectPoint >::const_iterator ip =
line._intPoints.upper_bound( curIntPnt ); line._intPoints.upper_bound( curIntPnt );
--ip; --ip;
firstIntPnt = &(*ip); firstIntPnt = &(*ip);
} }
}
else if ( !link._fIntPoints.empty() ) else if ( !link._fIntPoints.empty() )
{ {
firstIntPnt = link._fIntPoints[0]; firstIntPnt = link._fIntPoints[0];
@ -4958,7 +5068,7 @@ namespace
/*! /*!
* \brief Return created volumes and volumes that can have free facet because of * \brief Return created volumes and volumes that can have free facet because of
* skipped small volume. Also create mesh faces on free facets * skipped small volume. Also create mesh faces on free facets
* of adjacent not-cut volumes id the result volume is too small. * of adjacent not-cut volumes if the result volume is too small.
*/ */
void Hexahedron::getBoundaryElems( vector< const SMDS_MeshElement* > & boundaryElems ) void Hexahedron::getBoundaryElems( vector< const SMDS_MeshElement* > & boundaryElems )
{ {
@ -5005,8 +5115,9 @@ namespace
if ( !faceID ) if ( !faceID )
break; break;
if ( _grid->IsInternal( faceID ) || if ( _grid->IsInternal( faceID ) ||
_grid->IsShared( faceID ) || _grid->IsShared( faceID ) //||
_grid->IsBoundaryFace( faceID )) //_grid->IsBoundaryFace( faceID ) -- commented for #19887
)
break; // create only if a new face will be used by other 3D algo break; // create only if a new face will be used by other 3D algo
} }
@ -5035,6 +5146,400 @@ namespace
} }
} }
//================================================================================
/*!
* \brief Remove edges and nodes dividing a hexa side in the case if an adjacent
* volume also sharing the dividing edge is missing due to its small side.
* Issue #19887.
*/
//================================================================================
void Hexahedron::removeExcessSideDivision(const vector< Hexahedron* >& allHexa)
{
if ( ! _volumeDefs.IsPolyhedron() )
return; // not a polyhedron
// look for a divided side adjacent to a small hexahedron
int di[6] = { 0, 0, 0, 0,-1, 1 };
int dj[6] = { 0, 0,-1, 1, 0, 0 };
int dk[6] = {-1, 1, 0, 0, 0, 0 };
for ( int iF = 0; iF < 6; ++iF ) // loop on 6 sides of a hexahedron
{
size_t neighborIndex = _grid->CellIndex( _i + di[iF],
_j + dj[iF],
_k + dk[iF] );
if ( neighborIndex >= allHexa.size() ||
!allHexa[ neighborIndex ] ||
!allHexa[ neighborIndex ]->_hasTooSmall )
continue;
// check if a side is divided into several polygons
for ( _volumeDef* volDef = &_volumeDefs; volDef; volDef = volDef->_next )
{
int nbPolygons = 0, nbNodes = 0;
for ( size_t i = 0; i < volDef->_names.size(); ++i )
if ( volDef->_names[ i ] == _hexQuads[ iF ]._name )
{
++nbPolygons;
nbNodes += volDef->_quantities[ i ];
}
if ( nbPolygons < 2 )
continue;
// construct loops from polygons
typedef _volumeDef::_linkDef TLinkDef;
std::vector< TLinkDef* > loops;
std::vector< TLinkDef > links( nbNodes );
for ( size_t i = 0, iN = 0, iLoop = 0; iLoop < volDef->_quantities.size(); ++iLoop )
{
size_t nbLinks = volDef->_quantities[ iLoop ];
if ( volDef->_names[ iLoop ] != _hexQuads[ iF ]._name )
{
iN += nbLinks;
continue;
}
loops.push_back( & links[i] );
for ( size_t n = 0; n < nbLinks-1; ++n, ++i, ++iN )
{
links[i].init( volDef->_nodes[iN], volDef->_nodes[iN+1], iLoop );
links[i].setNext( &links[i+1] );
}
links[i].init( volDef->_nodes[iN], volDef->_nodes[iN-nbLinks+1], iLoop );
links[i].setNext( &links[i-nbLinks+1] );
++i; ++iN;
}
// look for equal links in different loops and join such loops
bool loopsJoined = false;
std::set< TLinkDef > linkSet;
for ( size_t iLoop = 0; iLoop < loops.size(); ++iLoop )
{
TLinkDef* beg = 0;
for ( TLinkDef* l = loops[ iLoop ]; l != beg; l = l->_next ) // walk around the iLoop
{
std::pair< std::set< TLinkDef >::iterator, bool > it2new = linkSet.insert( *l );
if ( !it2new.second ) // equal found, join loops
{
const TLinkDef* equal = &(*it2new.first);
if ( equal->_loopIndex == l->_loopIndex )
continue; // error?
loopsJoined = true;
for ( size_t i = iLoop - 1; i < loops.size(); --i )
if ( loops[ i ] && loops[ i ]->_loopIndex == equal->_loopIndex )
loops[ i ] = 0;
// exclude l and equal and join two loops
if ( l->_prev != equal )
l->_prev->setNext( equal->_next );
if ( equal->_prev != l )
equal->_prev->setNext( l->_next );
if ( volDef->_quantities[ l->_loopIndex ] > 0 )
volDef->_quantities[ l->_loopIndex ] *= -1;
if ( volDef->_quantities[ equal->_loopIndex ] > 0 )
volDef->_quantities[ equal->_loopIndex ] *= -1;
if ( loops[ iLoop ] == l )
loops[ iLoop ] = l->_prev->_next;
}
beg = loops[ iLoop ];
}
}
// update volDef
if ( loopsJoined )
{
// set unchanged polygons
std::vector< int > newQuantities;
std::vector< _volumeDef::_nodeDef > newNodes;
vector< SMESH_Block::TShapeID > newNames;
newQuantities.reserve( volDef->_quantities.size() );
newNodes.reserve ( volDef->_nodes.size() );
newNames.reserve ( volDef->_names.size() );
for ( size_t i = 0, iLoop = 0; iLoop < volDef->_quantities.size(); ++iLoop )
{
if ( volDef->_quantities[ iLoop ] < 0 )
{
i -= volDef->_quantities[ iLoop ];
continue;
}
newQuantities.push_back( volDef->_quantities[ iLoop ]);
newNodes.insert( newNodes.end(),
volDef->_nodes.begin() + i,
volDef->_nodes.begin() + i + newQuantities.back() );
newNames.push_back( volDef->_names[ iLoop ]);
i += volDef->_quantities[ iLoop ];
}
// set joined loops
for ( size_t iLoop = 0; iLoop < loops.size(); ++iLoop )
{
if ( !loops[ iLoop ] )
continue;
newQuantities.push_back( 0 );
TLinkDef* beg = 0;
for ( TLinkDef* l = loops[ iLoop ]; l != beg; l = l->_next, ++newQuantities.back() )
{
newNodes.push_back( l->_node1 );
beg = loops[ iLoop ];
}
newNames.push_back( _hexQuads[ iF ]._name );
}
volDef->_quantities.swap( newQuantities );
volDef->_nodes.swap( newNodes );
volDef->_names.swap( newNames );
}
} // loop on volDef's
} // loop on hex sides
return;
} // removeExcessSideDivision()
//================================================================================
/*!
* \brief Remove nodes splitting Cartesian cell edges in the case if a node
* is used in every cells only by two polygons sharing the edge
* Issue #19887.
*/
//================================================================================
void Hexahedron::removeExcessNodes(vector< Hexahedron* >& allHexa)
{
if ( ! _volumeDefs.IsPolyhedron() )
return; // not a polyhedron
typedef vector< _volumeDef::_nodeDef >::iterator TNodeIt;
vector< int > nodesInPoly[ 4 ]; // node index in _volumeDefs._nodes
vector< int > volDefInd [ 4 ]; // index of a _volumeDefs
Hexahedron* hexa [ 4 ];
int i,j,k, cellIndex, iLink = 0, iCellLink;
for ( int iDir = 0; iDir < 3; ++iDir )
{
CellsAroundLink fourCells( _grid, iDir );
for ( int iL = 0; iL < 4; ++iL, ++iLink ) // 4 links in a direction
{
_Link& link = _hexLinks[ iLink ];
fourCells.Init( _i, _j, _k, iLink );
for ( size_t iP = 0; iP < link._fIntPoints.size(); ++iP ) // loop on nodes on the link
{
bool nodeRemoved = true;
_volumeDef::_nodeDef node; node._intPoint = link._fIntPoints[iP];
for ( size_t i = 0, nb = _volumeDefs.size(); i < nb && nodeRemoved; ++i )
if ( _volumeDef* vol = _volumeDefs.at( i ))
nodeRemoved =
( std::find( vol->_nodes.begin(), vol->_nodes.end(), node ) == vol->_nodes.end() );
if ( nodeRemoved )
continue; // node already removed
// check if a node encounters zero or two times in 4 cells sharing iLink
// if so, the node can be removed from the cells
bool nodeIsOnEdge = true;
int nbPolyhedraWithNode = 0;
for ( int iC = 0; iC < 4; ++iC ) // loop on 4 cells sharing a link
{
nodesInPoly[ iC ].clear();
volDefInd [ iC ].clear();
hexa [ iC ] = 0;
if ( !fourCells.GetCell( iC, i,j,k, cellIndex, iCellLink ))
continue;
hexa[ iC ] = allHexa[ cellIndex ];
if ( !hexa[ iC ])
continue;
for ( size_t i = 0, nb = hexa[ iC ]->_volumeDefs.size(); i < nb; ++i )
if ( _volumeDef* vol = hexa[ iC ]->_volumeDefs.at( i ))
{
for ( TNodeIt nIt = vol->_nodes.begin(); nIt != vol->_nodes.end(); ++nIt )
{
nIt = std::find( nIt, vol->_nodes.end(), node );
if ( nIt != vol->_nodes.end() )
{
nodesInPoly[ iC ].push_back( std::distance( vol->_nodes.begin(), nIt ));
volDefInd [ iC ].push_back( i );
}
else
break;
}
nbPolyhedraWithNode += ( !nodesInPoly[ iC ].empty() );
}
if ( nodesInPoly[ iC ].size() != 0 &&
nodesInPoly[ iC ].size() != 2 )
{
nodeIsOnEdge = false;
break;
}
} // loop on 4 cells
// remove nodes from polyhedra
if ( nbPolyhedraWithNode > 0 && nodeIsOnEdge )
{
for ( int iC = 0; iC < 4; ++iC ) // loop on 4 cells sharing the link
{
if ( nodesInPoly[ iC ].empty() )
continue;
for ( int i = volDefInd[ iC ].size() - 1; i >= 0; --i )
{
_volumeDef* vol = hexa[ iC ]->_volumeDefs.at( volDefInd[ iC ][ i ]);
int nIndex = nodesInPoly[ iC ][ i ];
// decrement _quantities
for ( size_t iQ = 0; iQ < vol->_quantities.size(); ++iQ )
if ( nIndex < vol->_quantities[ iQ ])
{
vol->_quantities[ iQ ]--;
break;
}
else
{
nIndex -= vol->_quantities[ iQ ];
}
vol->_nodes.erase( vol->_nodes.begin() + nodesInPoly[ iC ][ i ]);
if ( i == 0 &&
vol->_nodes.size() == 6 * 4 &&
vol->_quantities.size() == 6 ) // polyhedron becomes hexahedron?
{
bool allQuads = true;
for ( size_t iQ = 0; iQ < vol->_quantities.size() && allQuads; ++iQ )
allQuads = ( vol->_quantities[ iQ ] == 4 );
if ( allQuads )
{
// set side nodes as this: bottom, top, top, ...
int iTop, iBot; // side indices
for ( int iS = 0; iS < 6; ++iS )
{
if ( vol->_names[ iS ] == SMESH_Block::ID_Fxy0 )
iBot = iS;
if ( vol->_names[ iS ] == SMESH_Block::ID_Fxy1 )
iTop = iS;
}
if ( iBot != 0 )
{
if ( iTop == 0 )
{
std::copy( vol->_nodes.begin(),
vol->_nodes.begin() + 4,
vol->_nodes.begin() + 4 );
iTop = 1;
}
std::copy( vol->_nodes.begin() + 4 * iBot,
vol->_nodes.begin() + 4 * ( iBot + 1),
vol->_nodes.begin() );
}
if ( iTop != 1 )
std::copy( vol->_nodes.begin() + 4 * iTop,
vol->_nodes.begin() + 4 * ( iTop + 1),
vol->_nodes.begin() + 4 );
std::copy( vol->_nodes.begin() + 4,
vol->_nodes.begin() + 8,
vol->_nodes.begin() + 8 );
// set up top facet nodes by comparing their uvw with bottom nodes
E_IntersectPoint ip[8];
for ( int iN = 0; iN < 8; ++iN )
{
SMESH_NodeXYZ p = vol->_nodes[ iN ].Node();
_grid->ComputeUVW( p, ip[ iN ]._uvw );
}
const double tol2 = _grid->_tol * _grid->_tol;
for ( int iN = 0; iN < 4; ++iN )
{
gp_Pnt2d pBot( ip[ iN ]._uvw[0], ip[ iN ]._uvw[1] );
for ( int iT = 4; iT < 8; ++iT )
{
gp_Pnt2d pTop( ip[ iT ]._uvw[0], ip[ iT ]._uvw[1] );
if ( pBot.SquareDistance( pTop ) < tol2 )
{
// vol->_nodes[ iN + 4 ]._node = ip[ iT ]._node;
// vol->_nodes[ iN + 4 ]._intPoint = 0;
vol->_nodes[ iN + 4 ] = vol->_nodes[ iT + 4 ];
break;
}
}
}
vol->_nodes.resize( 8 );
vol->_quantities.clear();
//vol->_names.clear();
}
}
} // loop on _volumeDefs
} // loop on 4 cell abound a link
} // if ( nodeIsOnEdge )
} // loop on intersection points of a link
} // loop on 4 links of a direction
} // loop on 3 directions
return;
} // removeExcessNodes()
//================================================================================
/*!
* \brief [Issue #19913] Modify _hexLinks._splits to prevent creating overlapping volumes
*/
//================================================================================
void Hexahedron::preventVolumesOverlapping()
{
// Cut off a quadrangle corner if two links sharing the corner
// are shared by same two solids, in this case each of solids gets
// a triangle for it-self.
std::vector< TGeomID > soIDs[4];
for ( int iF = 0; iF < 6; ++iF ) // loop on 6 sides of a hexahedron
{
_Face& quad = _hexQuads[ iF ] ;
int iFOpposite = iF + ( iF % 2 ? -1 : 1 );
_Face& quadOpp = _hexQuads[ iFOpposite ] ;
int nbSides = 0, nbSidesOpp = 0;
for ( int iE = 0; iE < 4; ++iE ) // loop on 4 sides of a quadrangle
{
nbSides += ( quad._links [ iE ].NbResultLinks() > 0 );
nbSidesOpp += ( quadOpp._links[ iE ].NbResultLinks() > 0 );
}
if ( nbSides < 4 || nbSidesOpp != 2 )
continue;
for ( int iE = 0; iE < 4; ++iE )
{
soIDs[ iE ].clear();
_Node* n = quad._links[ iE ].FirstNode();
if ( n->_intPoint && n->_intPoint->_faceIDs.size() )
soIDs[ iE ] = _grid->GetSolidIDs( n->_intPoint->_faceIDs[0] );
}
if ((( soIDs[0].size() >= 2 ) +
( soIDs[1].size() >= 2 ) +
( soIDs[2].size() >= 2 ) +
( soIDs[3].size() >= 2 ) ) < 3 )
continue;
bool done = false;
for ( int i = 0; i < 4; ++i )
{
int i1 = _grid->_helper->WrapIndex( i + 1, 4 );
int i2 = _grid->_helper->WrapIndex( i + 2, 4 );
int i3 = _grid->_helper->WrapIndex( i + 3, 4 );
if ( soIDs[i1].size() == 2 && soIDs[i ] != soIDs[i1] &&
soIDs[i2].size() == 2 && soIDs[i1] == soIDs[i2] &&
soIDs[i3].size() == 2 && soIDs[i2] == soIDs[i3] )
{
quad._links[ i1 ]._link->_splits.clear();
quad._links[ i2 ]._link->_splits.clear();
done = true;
break;
}
}
if ( done )
break;
}
return;
} // preventVolumesOverlapping()
//================================================================================ //================================================================================
/*! /*!
* \brief Set to _hexLinks a next portion of splits located on one side of INTERNAL FACEs * \brief Set to _hexLinks a next portion of splits located on one side of INTERNAL FACEs

2
src/StdMeshers/StdMeshers_Cartesian_3D.hxx
View File

@ -35,6 +35,8 @@
* internal part of a solid shape and polyhedral volumes near the shape boundary. * internal part of a solid shape and polyhedral volumes near the shape boundary.
* *
* Issue 0021336 * Issue 0021336
* Issue #16523: Treatment of internal faces
* Issue #17237: Body fitting on sub-mesh
*/ */
class StdMeshers_CartesianParameters3D; class StdMeshers_CartesianParameters3D;

24
src/StdMeshersGUI/StdMeshersGUI_SubShapeSelectorWdg.cxx
View File

@ -74,7 +74,8 @@ StdMeshersGUI_SubShapeSelectorWdg
::StdMeshersGUI_SubShapeSelectorWdg( QWidget * parent, ::StdMeshersGUI_SubShapeSelectorWdg( QWidget * parent,
TopAbs_ShapeEnum subShType, TopAbs_ShapeEnum subShType,
const bool toShowList, const bool toShowList,
const bool toShowActivateBtn ): const bool toShowActivateBtn,
const int minListWidth ):
QWidget( parent ), QWidget( parent ),
myMaxSize( -1 ), myMaxSize( -1 ),
myPreviewActor( 0 ) myPreviewActor( 0 )
@ -93,7 +94,7 @@ StdMeshersGUI_SubShapeSelectorWdg
myAddButton = new QPushButton( tr( "SMESH_BUT_ADD" ), this ); myAddButton = new QPushButton( tr( "SMESH_BUT_ADD" ), this );
myRemoveButton = new QPushButton( tr( "SMESH_BUT_REMOVE" ), this ); myRemoveButton = new QPushButton( tr( "SMESH_BUT_REMOVE" ), this );
myListWidget->setSelectionMode( QListWidget::ExtendedSelection ); myListWidget->setSelectionMode( QListWidget::ExtendedSelection );
myListWidget->setMinimumWidth(300); myListWidget->setMinimumWidth( minListWidth );
myListWidget->setWrapping( true ); myListWidget->setWrapping( true );
myActivateButton->setCheckable( true ); myActivateButton->setCheckable( true );
} }
@ -254,6 +255,20 @@ void StdMeshersGUI_SubShapeSelectorWdg::ShowPreview( bool visible)
} }
} }
//================================================================================
/*!
* \brief Connect selection slots
* \param other - another StdMeshersGUI_ObjectReferenceParamWdg
*/
//================================================================================
void StdMeshersGUI_SubShapeSelectorWdg::
AvoidSimultaneousSelection ( StdMeshersGUI_SubShapeSelectorWdg* other)
{
connect(other, SIGNAL(selectionActivated()), this, SLOT(deactivateSelection()));
connect(this, SIGNAL(selectionActivated()), other, SLOT(deactivateSelection()));
}
//================================================================================ //================================================================================
/*! /*!
* \brief Connect/disconnect to change of selection * \brief Connect/disconnect to change of selection
@ -275,7 +290,7 @@ void StdMeshersGUI_SubShapeSelectorWdg::ActivateSelection( bool toActivate )
if ( toActivate ) if ( toActivate )
{ {
connect( mySelectionMgr, SIGNAL(currentSelectionChanged()), this, SLOT(selectionIntoArgument())); connect( mySelectionMgr, SIGNAL(currentSelectionChanged()), SLOT(selectionIntoArgument()));
} }
else else
{ {
@ -284,6 +299,9 @@ void StdMeshersGUI_SubShapeSelectorWdg::ActivateSelection( bool toActivate )
if ( sender() == myActivateButton ) if ( sender() == myActivateButton )
ShowPreview( toActivate ); ShowPreview( toActivate );
if ( toActivate )
emit selectionActivated();
} }
//================================================================================ //================================================================================

14
src/StdMeshersGUI/StdMeshersGUI_SubShapeSelectorWdg.h
View File

@ -53,7 +53,8 @@ public:
StdMeshersGUI_SubShapeSelectorWdg( QWidget* parent = 0, StdMeshersGUI_SubShapeSelectorWdg( QWidget* parent = 0,
TopAbs_ShapeEnum subShType = TopAbs_EDGE, TopAbs_ShapeEnum subShType = TopAbs_EDGE,
const bool toShowList = true, const bool toShowList = true,
const bool toShowSelectBtn = false); const bool toShowSelectBtn = false,
const int minListWidth=300);
~StdMeshersGUI_SubShapeSelectorWdg(); ~StdMeshersGUI_SubShapeSelectorWdg();
SMESH::long_array_var GetListOfIDs(); SMESH::long_array_var GetListOfIDs();
@ -82,12 +83,23 @@ public:
SMESH_PreviewActorsCollection* GetActorCollection() { return myPreviewActor; } SMESH_PreviewActorsCollection* GetActorCollection() { return myPreviewActor; }
void ClearSelected(); void ClearSelected();
void AvoidSimultaneousSelection( StdMeshersGUI_SubShapeSelectorWdg* other);
public slots: public slots:
void ActivateSelection( bool ); void ActivateSelection( bool );
void deactivateSelection() { ActivateSelection( false ); }
signals: signals:
void selectionChanged(); // in the list void selectionChanged(); // in the list
void shapeSelected(); // globally void shapeSelected(); // globally
/*!
* \brief Emitted when selection is activated
*
* Useful to deactivate one Object Reference param widget when an other
* one is activated
*/
void selectionActivated();
private: private:
void updateState(); void updateState();