-// Copyright (C) 2007-2012 CEA/DEN, EDF R&D, OPEN CASCADE
+// Copyright (C) 2007-2016 CEA/DEN, EDF R&D, OPEN CASCADE
//
// Copyright (C) 2003-2007 OPEN CASCADE, EADS/CCR, LIP6, CEA/DEN,
// CEDRAT, EDF R&D, LEG, PRINCIPIA R&D, BUREAU VERITAS
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
-// version 2.1 of the License.
+// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
#include <vtkRenderer.h>
+#include <vtkPlaneCollection.h>
+
#include "utilities.h"
#ifdef _DEBUG_
myProperty = vtkProperty::New();
myMapper = VTKViewer_PolyDataMapper::New();
+ myPlaneCollection = vtkPlaneCollection::New();
vtkMapper::GetResolveCoincidentTopologyPolygonOffsetParameters(myPolygonOffsetFactor,
myPolygonOffsetUnits);
// Orientation of faces
myIsFacesOriented = false;
- vtkFloatingPointType anRGB[3] = { 1, 1, 1 };
+ double anRGB[3] = { 1, 1, 1 };
SMESH::GetColor( "SMESH", "orientation_color", anRGB[0], anRGB[1], anRGB[2], QColor( 255, 255, 255 ) );
myFaceOrientationFilter = SMESH_FaceOrientationFilter::New();
myFaceOrientationDataMapper = vtkPolyDataMapper::New();
- myFaceOrientationDataMapper->SetInput(myFaceOrientationFilter->GetOutput());
+ myFaceOrientationDataMapper->SetInputConnection(myFaceOrientationFilter->GetOutputPort());
myFaceOrientation = vtkActor::New();
myFaceOrientation->SetMapper(myFaceOrientationDataMapper);
{
int anId = 0;
if(theIsImplicitFunctionUsed)
- myPassFilter[ anId ]->SetInput( myExtractGeometry->GetOutput() );
+ myPassFilter[ anId ]->SetInputConnection( myExtractGeometry->GetOutputPort() );
else
- myPassFilter[ anId ]->SetInput( myMergeFilter->GetOutput() );
+ myPassFilter[ anId ]->SetInputConnection( myMergeFilter->GetOutputPort() );
myIsImplicitFunctionUsed = theIsImplicitFunctionUsed;
SetStoreClippingMapping(myStoreClippingMapping);
//myIsShrinkable = theGrid->GetNumberOfCells() > 10;
myIsShrinkable = true;
- myExtractUnstructuredGrid->SetInput(theGrid);
+ myExtractUnstructuredGrid->SetInputData(theGrid);
- myMergeFilter->SetGeometry(myExtractUnstructuredGrid->GetOutput());
+ myMergeFilter->SetGeometryConnection(myExtractUnstructuredGrid->GetOutputPort());
+
+ //Pass diameters of the balls
+ if(myMapper->GetBallEnabled()) {
+ myMergeFilter->SetScalarsConnection(myExtractUnstructuredGrid->GetOutputPort());
+ }
- myExtractGeometry->SetInput(myMergeFilter->GetOutput());
+ myExtractGeometry->SetInputConnection(myMergeFilter->GetOutputPort());
int anId = 0;
SetImplicitFunctionUsed(myIsImplicitFunctionUsed);
- myPassFilter[ anId + 1]->SetInput( myPassFilter[ anId ]->GetOutput() );
+ myPassFilter[ anId + 1]->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
anId++; // 1
- myTransformFilter->SetInput( myPassFilter[ anId ]->GetOutput() );
+ myTransformFilter->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
anId++; // 2
- myPassFilter[ anId ]->SetInput( myTransformFilter->GetOutput() );
- myPassFilter[ anId + 1 ]->SetInput( myPassFilter[ anId ]->GetOutput() );
+ myPassFilter[ anId ]->SetInputConnection( myTransformFilter->GetOutputPort() );
+ myPassFilter[ anId + 1 ]->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
anId++; // 3
- myGeomFilter->SetInput( myPassFilter[ anId ]->GetOutput() );
+ myGeomFilter->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
anId++; // 4
- myPassFilter[ anId ]->SetInput( myGeomFilter->GetOutput() );
- myPassFilter[ anId + 1 ]->SetInput( myPassFilter[ anId ]->GetOutput() );
+ myPassFilter[ anId ]->SetInputConnection( myGeomFilter->GetOutputPort() );
+ myPassFilter[ anId + 1 ]->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
anId++; // 5
- myMapper->SetInput( myPassFilter[ anId ]->GetPolyDataOutput() );
+ myMapper->SetInputConnection( myPassFilter[ anId ]->GetOutputPort() );
+ if( myPlaneCollection->GetNumberOfItems() )
+ myMapper->SetClippingPlanes( myPlaneCollection );
vtkLODActor::SetMapper( myMapper );
Modified();
}
}
+void
+SMESH_DeviceActor
+::SetPlaneCollection( vtkPlaneCollection* theCollection )
+{
+ myPlaneCollection = theCollection;
+}
VTKViewer_ExtractUnstructuredGrid*
SMESH_DeviceActor
SMESH_ScalarBarActor* theScalarBarActor,
vtkLookupTable* theLookupTable)
{
- bool anIsInitialized = theFunctor;
+ bool anIsInitialized = theFunctor != NULL;
if(anIsInitialized){
vtkUnstructuredGrid* aDataSet = vtkUnstructuredGrid::New();
vtkIdType aNbCells = aGrid->GetNumberOfCells();
aScalars->SetNumberOfComponents(1);
aScalars->SetNumberOfTuples(aNbCells);
+ double* range;// = aScalars->GetRange();
myVisualObj->UpdateFunctor(theFunctor);
using namespace SMESH::Controls;
- if(NumericalFunctor* aNumericalFunctor = dynamic_cast<NumericalFunctor*>(theFunctor.get())){
+ if(NumericalFunctor* aNumericalFunctor = dynamic_cast<NumericalFunctor*>(theFunctor.get()))
+ {
for(vtkIdType i = 0; i < aNbCells; i++){
vtkIdType anId = myExtractUnstructuredGrid->GetInputId(i);
vtkIdType anObjId = myVisualObj->GetElemObjId(anId);
double aValue = aNumericalFunctor->GetValue(anObjId);
aScalars->SetValue(i,aValue);
}
- }else if(Predicate* aPredicate = dynamic_cast<Predicate*>(theFunctor.get())){
+ range = aScalars->GetRange();
+ if ( range[1] - range[0] < ( qMax(qAbs(range[0]),qAbs(range[1])) + 1e-100 ) * 1e-6 )
+ {
+ range[1] = range[0];
+ for(vtkIdType i = 0; i < aNbCells; i++)
+ aScalars->SetValue(i,range[0]);
+ }
+ }
+ else if(Predicate* aPredicate = dynamic_cast<Predicate*>(theFunctor.get()))
+ {
for(vtkIdType i = 0; i < aNbCells; i++){
vtkIdType anId = myExtractUnstructuredGrid->GetInputId(i);
vtkIdType anObjId = myVisualObj->GetElemObjId(anId);
bool aValue = aPredicate->IsSatisfy(anObjId);
aScalars->SetValue(i,aValue);
}
+ range = aScalars->GetRange();
}
aDataSet->GetCellData()->SetScalars(aScalars);
aScalars->Delete();
-
- theLookupTable->SetRange(aScalars->GetRange());
+
+ theLookupTable->SetRange( range );
theLookupTable->SetNumberOfTableValues(theScalarBarActor->GetMaximumNumberOfColors());
theLookupTable->Build();
- myMergeFilter->SetScalars(aDataSet);
+ myMergeFilter->SetScalarsData(aDataSet);
aDataSet->Delete();
}
GetMapper()->SetScalarVisibility(anIsInitialized);
SMESH_ScalarBarActor* theScalarBarActor,
vtkLookupTable* theLookupTable)
{
- bool anIsInitialized = theFunctor;
+ bool anIsInitialized = theFunctor != NULL;
myExtractUnstructuredGrid->ClearRegisteredCells();
myExtractUnstructuredGrid->ClearRegisteredCellsWithType();
myExtractUnstructuredGrid->SetModeOfChanging(VTKViewer_ExtractUnstructuredGrid::ePassAll);
vtkUnsignedCharArray* aCellTypesArray = vtkUnsignedCharArray::New();
aCellTypesArray->SetNumberOfComponents( 1 );
aCellTypesArray->Allocate( aNbCells * aCellTypesArray->GetNumberOfComponents() );
-
+
vtkIdList *anIdList = vtkIdList::New();
anIdList->SetNumberOfIds(2);
-
+
Length2D::TValues::const_iterator anIter = aValues.begin();
- for(vtkIdType aVtkId = 0; anIter != aValues.end(); anIter++,aVtkId++){
+ aNbCells = 0;
+ for(; anIter != aValues.end(); anIter++){
const Length2D::Value& aValue = *anIter;
int aNode[2] = {
myVisualObj->GetNodeVTKId(aValue.myPntId[0]),
anIdList->SetId( 1, aNode[1] );
aConnectivity->InsertNextCell( anIdList );
aCellTypesArray->InsertNextValue( VTK_LINE );
- aScalars->SetValue(aVtkId,aValue.myLength);
+ aScalars->SetValue(aNbCells,aValue.myLength);
+ aNbCells++;
}
}
-
+ aCellTypesArray->SetNumberOfTuples( aNbCells );
+ aScalars->SetNumberOfTuples( aNbCells );
+
VTKViewer_CellLocationsArray* aCellLocationsArray = VTKViewer_CellLocationsArray::New();
aCellLocationsArray->SetNumberOfComponents( 1 );
aCellLocationsArray->SetNumberOfTuples( aNbCells );
-
+
aConnectivity->InitTraversal();
for( vtkIdType idType = 0, *pts, npts; aConnectivity->GetNextCell( npts, pts ); idType++ )
aCellLocationsArray->SetValue( idType, aConnectivity->GetTraversalLocation( npts ) );
-
- aDataSet->SetCells( aCellTypesArray, aCellLocationsArray,aConnectivity );
+
+ aDataSet->SetCells( aCellTypesArray, aCellLocationsArray, aConnectivity );
SetUnstructuredGrid(aDataSet);
aDataSet->GetCellData()->SetScalars(aScalars);
aScalars->Delete();
-
+
theLookupTable->SetRange(aScalars->GetRange());
theLookupTable->Build();
-
- myMergeFilter->SetScalars(aDataSet);
+
+ myMergeFilter->SetScalarsData(aDataSet);
aDataSet->Delete();
}
else if (MultiConnection2D* aMultiConnection2D = dynamic_cast<MultiConnection2D*>(theFunctor.get())){
vtkIdType aCellsSize = 3*aNbCells;
vtkCellArray* aConnectivity = vtkCellArray::New();
aConnectivity->Allocate( aCellsSize, 0 );
-
+
vtkUnsignedCharArray* aCellTypesArray = vtkUnsignedCharArray::New();
aCellTypesArray->SetNumberOfComponents( 1 );
aCellTypesArray->Allocate( aNbCells * aCellTypesArray->GetNumberOfComponents() );
-
+
vtkIdList *anIdList = vtkIdList::New();
anIdList->SetNumberOfIds(2);
-
+
MultiConnection2D::MValues::const_iterator anIter = aValues.begin();
- for(vtkIdType aVtkId = 0; anIter != aValues.end(); anIter++,aVtkId++){
+ aNbCells = 0;
+ for(; anIter != aValues.end(); anIter++){
const MultiConnection2D::Value& aValue = (*anIter).first;
int aNode[2] = {
myVisualObj->GetNodeVTKId(aValue.myPntId[0]),
anIdList->SetId( 1, aNode[1] );
aConnectivity->InsertNextCell( anIdList );
aCellTypesArray->InsertNextValue( VTK_LINE );
- aScalars->SetValue(aVtkId,(*anIter).second);
+ aScalars->SetValue( aNbCells,(*anIter).second);
+ aNbCells++;
}
}
-
+ aCellTypesArray->SetNumberOfTuples( aNbCells );
+ aScalars->SetNumberOfTuples( aNbCells );
+
VTKViewer_CellLocationsArray* aCellLocationsArray = VTKViewer_CellLocationsArray::New();
aCellLocationsArray->SetNumberOfComponents( 1 );
aCellLocationsArray->SetNumberOfTuples( aNbCells );
-
+
aConnectivity->InitTraversal();
for( vtkIdType idType = 0, *pts, npts; aConnectivity->GetNextCell( npts, pts ); idType++ )
aCellLocationsArray->SetValue( idType, aConnectivity->GetTraversalLocation( npts ) );
-
+
aDataSet->SetCells( aCellTypesArray, aCellLocationsArray,aConnectivity );
SetUnstructuredGrid(aDataSet);
aDataSet->GetCellData()->SetScalars(aScalars);
aScalars->Delete();
-
+
theLookupTable->SetRange(aScalars->GetRange());
theLookupTable->Build();
-
- myMergeFilter->SetScalars(aDataSet);
+
+ myMergeFilter->SetScalarsData(aDataSet);
aDataSet->Delete();
}
}
myVisualObj->UpdateFunctor(theFunctor);
using namespace SMESH::Controls;
- if ( dynamic_cast<FreeBorders *>(theFunctor.get()) ||
- dynamic_cast<FreeFaces *>(theFunctor.get()) ||
- dynamic_cast<BareBorderVolume *>(theFunctor.get()) ||
- dynamic_cast<BareBorderFace *>(theFunctor.get()) ||
- dynamic_cast<OverConstrainedVolume*>(theFunctor.get()) ||
- dynamic_cast<CoincidentElements1D *>(theFunctor.get()) ||
- dynamic_cast<CoincidentElements2D *>(theFunctor.get()) ||
- dynamic_cast<CoincidentElements3D *>(theFunctor.get()) ||
- dynamic_cast<OverConstrainedFace *>(theFunctor.get()))
+ Predicate* aPredicate = 0;
+ if (( aPredicate = dynamic_cast<FreeBorders *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<FreeFaces *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<BareBorderVolume *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<BareBorderFace *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<OverConstrainedVolume*>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<CoincidentElements1D *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<CoincidentElements2D *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<CoincidentElements3D *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<OverConstrainedFace *>(theFunctor.get())))
{
- Predicate* aPredicate = dynamic_cast<Predicate*>(theFunctor.get());
myExtractUnstructuredGrid->SetModeOfChanging(VTKViewer_ExtractUnstructuredGrid::eAdding);
vtkUnstructuredGrid* aGrid = myVisualObj->GetUnstructuredGrid();
vtkIdType aNbCells = aGrid->GetNumberOfCells();
SetUnstructuredGrid(aDataSet);
aDataSet->Delete();
}
- else if(dynamic_cast<FreeNodes *>(theFunctor.get()) ||
- dynamic_cast<CoincidentNodes*>(theFunctor.get()))
+ else if (( aPredicate = dynamic_cast<FreeNodes *>(theFunctor.get())) ||
+ ( aPredicate = dynamic_cast<CoincidentNodes*>(theFunctor.get())))
{
- Predicate* aPredicate = dynamic_cast<Predicate*>(theFunctor.get());
myExtractUnstructuredGrid->SetModeOfChanging(VTKViewer_ExtractUnstructuredGrid::eAdding);
vtkIdType aNbNodes = myVisualObj->GetNbEntities(SMDSAbs_Node);
for( vtkIdType i = 0; i < aNbNodes; i++ ){
::SetShrink()
{
if ( !myIsShrinkable ) return;
- if ( vtkDataSet* aDataSet = myPassFilter[ 0 ]->GetOutput() )
+ if ( vtkAlgorithmOutput* aDataSet = myPassFilter[ 0 ]->GetOutputPort() )
{
- myShrinkFilter->SetInput( aDataSet );
- myPassFilter[ 1 ]->SetInput( myShrinkFilter->GetOutput() );
+ myShrinkFilter->SetInputConnection( aDataSet );
+ myPassFilter[ 1 ]->SetInputConnection( myShrinkFilter->GetOutputPort() );
myIsShrunk = true;
}
}
::UnShrink()
{
if ( !myIsShrunk ) return;
- if ( vtkDataSet* aDataSet = myPassFilter[ 0 ]->GetOutput() )
+ if ( vtkAlgorithmOutput* aDataSet = myPassFilter[ 0 ]->GetOutputPort() )
{
- myPassFilter[ 1 ]->SetInput( aDataSet );
+ myPassFilter[ 1 ]->SetInputConnection( aDataSet );
myPassFilter[ 1 ]->Modified();
myIsShrunk = false;
Modified();
SMESH_DeviceActor
::SetFacesOriented(bool theIsFacesOriented)
{
- if ( vtkDataSet* aDataSet = myTransformFilter->GetOutput() )
+ if ( vtkAlgorithmOutput* aDataSet = myTransformFilter->GetOutputPort() )
{
myIsFacesOriented = theIsFacesOriented;
if( theIsFacesOriented )
- myFaceOrientationFilter->SetInput( aDataSet );
+ myFaceOrientationFilter->SetInputConnection( aDataSet );
UpdateFaceOrientation();
}
}
void
SMESH_DeviceActor
-::SetFacesOrientationColor(vtkFloatingPointType r,vtkFloatingPointType g,vtkFloatingPointType b)
+::SetFacesOrientationColor(double r,double g,double b)
{
myFaceOrientation->GetProperty()->SetColor( r, g, b );
}
void
SMESH_DeviceActor
-::GetFacesOrientationColor(vtkFloatingPointType& r,vtkFloatingPointType& g,vtkFloatingPointType& b)
+::GetFacesOrientationColor(double& r,double& g,double& b)
{
myFaceOrientation->GetProperty()->GetColor( r, g, b );
}
void
SMESH_DeviceActor
-::SetFacesOrientationScale(vtkFloatingPointType theScale)
+::SetFacesOrientationScale(double theScale)
{
myFaceOrientationFilter->SetOrientationScale( theScale );
}
-vtkFloatingPointType
+double
SMESH_DeviceActor
::GetFacesOrientationScale()
{
return aRetID;
}
-vtkFloatingPointType*
+double*
SMESH_DeviceActor
::GetNodeCoord(int theObjID)
{
vtkDataSet* aDataSet = myMergeFilter->GetOutput();
vtkIdType anID = myVisualObj->GetNodeVTKId(theObjID);
- vtkFloatingPointType* aCoord = (anID >=0) ? aDataSet->GetPoint(anID) : NULL;
+ double* aCoord = (anID >=0) ? aDataSet->GetPoint(anID) : NULL;
if(MYDEBUG) MESSAGE("GetNodeCoord - theObjID = "<<theObjID<<"; anID = "<<anID);
return aCoord;
}
}
-vtkFloatingPointType
+double
SMESH_DeviceActor
::GetShrinkFactor()
{
void
SMESH_DeviceActor
-::SetShrinkFactor(vtkFloatingPointType theValue)
+::SetShrinkFactor(double theValue)
{
theValue = theValue > 0.1? theValue: 0.8;
myShrinkFilter->SetShrinkFactor(theValue);
::Render(vtkRenderer *ren, vtkMapper* m)
{
int aResolveCoincidentTopology = vtkMapper::GetResolveCoincidentTopology();
- vtkFloatingPointType aStoredFactor, aStoredUnit;
+ double aStoredFactor, aStoredUnit;
vtkMapper::GetResolveCoincidentTopologyPolygonOffsetParameters(aStoredFactor,aStoredUnit);
vtkMapper::SetResolveCoincidentTopologyToPolygonOffset();
- vtkFloatingPointType aFactor = myPolygonOffsetFactor, aUnits = myPolygonOffsetUnits;
+ double aFactor = myPolygonOffsetFactor, aUnits = myPolygonOffsetUnits;
if(myIsHighlited){
- static vtkFloatingPointType EPS = .01;
+ static double EPS = .01;
aUnits *= (1.0-EPS);
}
vtkMapper::SetResolveCoincidentTopologyPolygonOffsetParameters(aFactor,aUnits);
void
SMESH_DeviceActor
-::SetPolygonOffsetParameters(vtkFloatingPointType factor,
- vtkFloatingPointType units)
+::SetPolygonOffsetParameters(double factor,
+ double units)
{
myPolygonOffsetFactor = factor;
myPolygonOffsetUnits = units;
/*!
* Set Max angle for representation 2D quadratic element as arked polygon
*/
-void SMESH_DeviceActor::SetQuadraticArcAngle(vtkFloatingPointType theMaxAngle){
+void SMESH_DeviceActor::SetQuadraticArcAngle(double theMaxAngle){
myGeomFilter->SetQuadraticArcAngle(theMaxAngle);
}
/*!
* Return Max angle of the representation 2D quadratic element as arked polygon
*/
-vtkFloatingPointType SMESH_DeviceActor::GetQuadraticArcAngle(){
+double SMESH_DeviceActor::GetQuadraticArcAngle(){
return myGeomFilter->GetQuadraticArcAngle();
}
myMapper->SetMarkerEnabled( theMarkerEnabled );
}
+/*!
+ * Set point marker enabled
+ * \param theBallEnabled flag to enable/disable ball drawing
+ */
+void SMESH_DeviceActor::SetBallEnabled( bool theBallEnabled ) {
+ myMapper->SetBallEnabled( theBallEnabled );
+}
+
+/*!
+ * Set point marker scale factor
+ * \param theBallScale double value which specifies a scale factor of ball element
+ */
+void SMESH_DeviceActor::SetBallScale( double theBallScale )
+{
+ myMapper->SetBallScale( theBallScale );
+ myMapper->Modified();
+}
+
/*!
* Set standard point marker
* \param theMarkerType type of the marker
return myMapper->GetMarkerTexture();
}
+/*!
+ * Get scale factor of ball element
+ * \return scale factor of ball element
+ */
+double SMESH_DeviceActor::GetBallScale()
+{
+ return myMapper->GetBallScale();
+}
+
void SMESH_DeviceActor::SetCoincident3DAllowed(bool theFlag) {
myGeomFilter->SetAppendCoincident3D(theFlag);
}