// Created on: 2000-08-15
// Created by: Andrey BETENEV
-// Copyright (c) 2000-2012 OPEN CASCADE SAS
+// Copyright (c) 2000-2014 OPEN CASCADE SAS
//
-// The content of this file is subject to the Open CASCADE Technology Public
-// License Version 6.5 (the "License"). You may not use the content of this file
-// except in compliance with the License. Please obtain a copy of the License
-// at http://www.opencascade.org and read it completely before using this file.
+// This file is part of Open CASCADE Technology software library.
//
-// The Initial Developer of the Original Code is Open CASCADE S.A.S., having its
-// main offices at: 1, place des Freres Montgolfier, 78280 Guyancourt, France.
+// This library is free software; you can redistribute it and/or modify it under
+// the terms of the GNU Lesser General Public License version 2.1 as published
+// by the Free Software Foundation, with special exception defined in the file
+// OCCT_LGPL_EXCEPTION.txt. Consult the file LICENSE_LGPL_21.txt included in OCCT
+// distribution for complete text of the license and disclaimer of any warranty.
//
-// The Original Code and all software distributed under the License is
-// distributed on an "AS IS" basis, without warranty of any kind, and the
-// Initial Developer hereby disclaims all such warranties, including without
-// limitation, any warranties of merchantability, fitness for a particular
-// purpose or non-infringement. Please see the License for the specific terms
-// and conditions governing the rights and limitations under the License.
+// Alternatively, this file may be used under the terms of Open CASCADE
+// commercial license or contractual agreement.
-#include <STEPCAFControl_Reader.ixx>
-
-#include <Quantity_Color.hxx>
-#include <TCollection_HAsciiString.hxx>
-#include <TopoDS_Shape.hxx>
-#include <TopoDS_Iterator.hxx>
-#include <TopTools_MapOfShape.hxx>
-#include <TopoDS_Compound.hxx>
-
-#include <Transfer_TransientProcess.hxx>
-#include <TransferBRep.hxx>
-#include <Transfer_Binder.hxx>
+#include <BRep_Builder.hxx>
+#include <Geom_Axis2Placement.hxx>
+#include <Geom_CartesianPoint.hxx>
+#include <Geom_Plane.hxx>
+#include <Interface_EntityIterator.hxx>
#include <Interface_InterfaceModel.hxx>
-#include <XSControl_TransferReader.hxx>
-
+#include <StepData_StepModel.hxx>
+#include <HeaderSection_FileSchema.hxx>
+#include <Interface_Static.hxx>
+#include <NCollection_DataMap.hxx>
+#include <OSD_Path.hxx>
+#include <Quantity_Color.hxx>
+#include <Quantity_ColorRGBA.hxx>
+#include <StepAP214_AppliedExternalIdentificationAssignment.hxx>
+#include <StepBasic_ConversionBasedUnitAndLengthUnit.hxx>
+#include <StepBasic_ConversionBasedUnitAndPlaneAngleUnit.hxx>
+#include <StepBasic_ConversionBasedUnitAndMassUnit.hxx>
+#include <StepBasic_DerivedUnit.hxx>
+#include <StepBasic_DerivedUnitElement.hxx>
+#include <StepBasic_MeasureValueMember.hxx>
+#include <StepBasic_MeasureWithUnit.hxx>
+#include <StepBasic_NamedUnit.hxx>
#include <StepBasic_Product.hxx>
#include <StepBasic_ProductDefinition.hxx>
-#include <StepBasic_ProductDefinitionRelationship.hxx>
#include <StepBasic_ProductDefinitionFormation.hxx>
-#include <StepShape_ContextDependentShapeRepresentation.hxx>
-#include <StepShape_ShapeDefinitionRepresentation.hxx>
-#include <StepShape_ShapeDefinitionRepresentation.hxx>
-#include <StepRepr_ProductDefinitionShape.hxx>
-#include <StepRepr_PropertyDefinition.hxx>
-#include <StepRepr_ShapeAspect.hxx>
-#include <StepRepr_MeasureRepresentationItem.hxx>
-#include <StepRepr_DescriptiveRepresentationItem.hxx>
-#include <StepRepr_SequenceOfRepresentationItem.hxx>
-#include <StepVisual_StyledItem.hxx>
-#include <StepAP214_AppliedExternalIdentificationAssignment.hxx>
-
+#include <StepBasic_ProductDefinitionRelationship.hxx>
+#include <StepBasic_ProductDefinitionWithAssociatedDocuments.hxx>
+#include <StepBasic_SiUnit.hxx>
+#include <StepBasic_SiUnitAndLengthUnit.hxx>
+#include <StepBasic_Unit.hxx>
+#include <STEPCAFControl_Controller.hxx>
+#include <STEPCAFControl_DataMapIteratorOfDataMapOfShapePD.hxx>
+#include <STEPCAFControl_DataMapOfPDExternFile.hxx>
+#include <STEPCAFControl_DataMapOfSDRExternFile.hxx>
+#include <STEPCAFControl_DataMapOfShapePD.hxx>
+#include <STEPCAFControl_ExternFile.hxx>
+#include <STEPCAFControl_Reader.hxx>
#include <STEPConstruct.hxx>
-#include <STEPConstruct_Styles.hxx>
+#include <STEPConstruct_Assembly.hxx>
#include <STEPConstruct_ExternRefs.hxx>
+#include <STEPConstruct_Styles.hxx>
+#include <STEPConstruct_Tool.hxx>
#include <STEPConstruct_UnitContext.hxx>
-#include <STEPCAFControl_Controller.hxx>
-#include <STEPCAFControl_DataMapOfSDRExternFile.hxx>
-
-#include <TDataStd_Name.hxx>
-#include <TDF_Label.hxx>
-#include <XCAFDoc_ColorTool.hxx>
-#include <XCAFDoc_ShapeTool.hxx>
-#include <XCAFDoc_DocumentTool.hxx>
-#include <XCAFDoc_DimTolTool.hxx>
-#include <XCAFDoc_MaterialTool.hxx>
-#include <XCAFDoc_DataMapOfShapeLabel.hxx>
#include <STEPConstruct_ValidationProps.hxx>
+#include <STEPControl_ActorRead.hxx>
+#include <STEPControl_Reader.hxx>
+#include <StepGeom_GeometricRepresentationItem.hxx>
+#include <StepGeom_Axis2Placement3d.hxx>
+#include <StepGeom_Direction.hxx>
+#include <StepDimTol_AngularityTolerance.hxx>
+#include <StepDimTol_CircularRunoutTolerance.hxx>
+#include <StepDimTol_CoaxialityTolerance.hxx>
+#include <StepDimTol_ConcentricityTolerance.hxx>
+#include <StepDimTol_CylindricityTolerance.hxx>
+#include <StepDimTol_Datum.hxx>
+#include <StepDimTol_DatumFeature.hxx>
+#include <StepDimTol_DatumReference.hxx>
+#include <StepDimTol_DatumReferenceElement.hxx>
+#include <StepDimTol_DatumReferenceCompartment.hxx>
+#include <StepDimTol_DatumSystem.hxx>
+#include <StepDimTol_FlatnessTolerance.hxx>
+#include <StepDimTol_GeometricTolerance.hxx>
+#include <StepDimTol_GeometricToleranceWithDatumReference.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthDatRef.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthDatRefAndUneqDisGeoTol.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthMaxTol.hxx>
+#include <StepDimTol_HArray1OfDatumReference.hxx>
+#include <StepDimTol_LineProfileTolerance.hxx>
+#include <StepDimTol_ModifiedGeometricTolerance.hxx>
+#include <StepDimTol_ParallelismTolerance.hxx>
+#include <StepDimTol_PerpendicularityTolerance.hxx>
+#include <StepDimTol_PositionTolerance.hxx>
+#include <StepDimTol_ProjectedZoneDefinition.hxx>
+#include <StepDimTol_RoundnessTolerance.hxx>
+#include <StepDimTol_RunoutZoneDefinition.hxx>
+#include <StepDimTol_StraightnessTolerance.hxx>
+#include <StepDimTol_SurfaceProfileTolerance.hxx>
+#include <StepDimTol_SymmetryTolerance.hxx>
+#include <StepDimTol_ToleranceZone.hxx>
+#include <StepDimTol_ToleranceZoneForm.hxx>
+#include <StepDimTol_TotalRunoutTolerance.hxx>
+#include <StepDimTol_GeometricToleranceWithModifiers.hxx>
+#include <StepDimTol_HArray1OfGeometricToleranceModifier.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod.hxx>
+#include <StepDimTol_GeoTolAndGeoTolWthMod.hxx>
+#include <StepDimTol_GeometricToleranceWithMaximumTolerance.hxx>
+#include <StepGeom_Axis2Placement3d.hxx>
+#include <StepGeom_GeometricRepresentationContextAndGlobalUnitAssignedContext.hxx>
+#include <StepGeom_GeomRepContextAndGlobUnitAssCtxAndGlobUncertaintyAssCtx.hxx>
+#include <StepGeom_Plane.hxx>
+#include <StepGeom_Polyline.hxx>
+#include <StepDimTol_PlacedDatumTargetFeature.hxx>
+#include <StepRepr_AssemblyComponentUsage.hxx>
+#include <StepRepr_CharacterizedDefinition.hxx>
+#include <StepRepr_CompoundRepresentationItem.hxx>
+#include <StepRepr_DerivedShapeAspect.hxx>
+#include <StepRepr_DescriptiveRepresentationItem.hxx>
+#include <StepRepr_HArray1OfRepresentationItem.hxx>
+#include <StepRepr_MappedItem.hxx>
+#include <StepRepr_MeasureRepresentationItem.hxx>
+#include <StepRepr_NextAssemblyUsageOccurrence.hxx>
+#include <StepRepr_ProductDefinitionShape.hxx>
+#include <StepRepr_PropertyDefinition.hxx>
+#include <StepRepr_PropertyDefinitionRepresentation.hxx>
#include <StepRepr_Representation.hxx>
-#include <XCAFDoc_Area.hxx>
-#include <XCAFDoc_Volume.hxx>
-#include <XCAFDoc_Centroid.hxx>
-#include <StepVisual_PresentationLayerAssignment.hxx>
-#include <TColStd_HSequenceOfTransient.hxx>
-#include <StepVisual_LayeredItem.hxx>
-#include <XCAFDoc_LayerTool.hxx>
-#include <Interface_EntityIterator.hxx>
+#include <StepRepr_RepresentationItem.hxx>
+#include <StepRepr_HArray1OfRepresentationItem.hxx>
+#include <StepRepr_RepresentationMap.hxx>
+#include <StepRepr_RepresentationRelationship.hxx>
+#include <StepRepr_RepresentedDefinition.hxx>
+#include <StepRepr_ReprItemAndLengthMeasureWithUnit.hxx>
+#include <StepRepr_ReprItemAndLengthMeasureWithUnitAndQRI.hxx>
+#include <StepRepr_ReprItemAndPlaneAngleMeasureWithUnit.hxx>
+#include <StepRepr_ReprItemAndPlaneAngleMeasureWithUnitAndQRI.hxx>
+#include <StepRepr_SequenceOfRepresentationItem.hxx>
+#include <StepRepr_ShapeAspect.hxx>
+#include <StepRepr_ShapeAspectDerivingRelationship.hxx>
+#include <StepRepr_CompositeShapeAspect.hxx>
+#include <StepRepr_AllAroundShapeAspect.hxx>
+#include <StepRepr_CompShAspAndDatumFeatAndShAsp.hxx>
+#include <StepRepr_ShapeAspectRelationship.hxx>
#include <StepRepr_ShapeRepresentationRelationship.hxx>
-#include <STEPConstruct_Assembly.hxx>
-#include <TDF_Tool.hxx>
+#include <StepRepr_SpecifiedHigherUsageOccurrence.hxx>
+#include <StepRepr_ValueRange.hxx>
+#include <StepRepr_FeatureForDatumTargetRelationship.hxx>
+#include <StepShape_AdvancedFace.hxx>
+#include <StepShape_AdvancedBrepShapeRepresentation.hxx>
+#include <StepShape_AngleRelator.hxx>
+#include <StepShape_AngularSize.hxx>
+#include <StepShape_AngularLocation.hxx>
+#include <StepShape_ClosedShell.hxx>
+#include <StepShape_ConnectedFaceSet.hxx>
+#include <StepShape_ContextDependentShapeRepresentation.hxx>
+#include <StepRepr_CompGroupShAspAndCompShAspAndDatumFeatAndShAsp.hxx>
+#include <StepRepr_CompShAspAndDatumFeatAndShAsp.hxx>
+#include <StepShape_DimensionalCharacteristicRepresentation.hxx>
+#include <StepShape_DimensionalSizeWithPath.hxx>
+#include <StepShape_DimensionalLocationWithPath.hxx>
+#include <StepShape_ShapeDimensionRepresentationItem.hxx>
+#include <StepShape_ShapeRepresentationWithParameters.hxx>
+#include <StepShape_HArray1OfShapeDimensionRepresentationItem.hxx>
+#include <StepShape_DimensionalSize.hxx>
+#include <StepShape_DimensionalLocation.hxx>
+#include <StepShape_EdgeCurve.hxx>
+#include <StepShape_EdgeLoop.hxx>
+#include <StepShape_GeometricCurveSet.hxx>
+#include <StepShape_GeometricSet.hxx>
+#include <StepShape_HArray1OfFace.hxx>
+#include <StepShape_HArray1OfFaceBound.hxx>
+#include <StepShape_HArray1OfOrientedEdge.hxx>
+#include <StepShape_HArray1OfShell.hxx>
+#include <StepShape_LimitsAndFits.hxx>
+#include <StepShape_Loop.hxx>
+#include <StepShape_ManifoldSolidBrep.hxx>
+#include <StepShape_PlusMinusTolerance.hxx>
+#include <StepShape_QualifiedRepresentationItem.hxx>
+#include <StepShape_OpenShell.hxx>
+#include <StepShape_ShapeDefinitionRepresentation.hxx>
+#include <StepShape_ShapeDimensionRepresentation.hxx>
+#include <StepShape_ShapeRepresentation.hxx>
+#include <StepShape_ShellBasedSurfaceModel.hxx>
+#include <StepShape_SolidModel.hxx>
+#include <StepShape_ToleranceMethodDefinition.hxx>
+#include <StepShape_ToleranceValue.hxx>
+#include <StepShape_ValueFormatTypeQualifier.hxx>
+#include <StepShape_Vertex.hxx>
+#include <StepToGeom.hxx>
+#include <StepVisual_AnnotationCurveOccurrence.hxx>
+#include <StepVisual_AnnotationFillArea.hxx>
+#include <StepVisual_AnnotationPlane.hxx>
+#include <StepVisual_CameraModelD3.hxx>
+#include <StepVisual_CameraModelD3MultiClipping.hxx>
+#include <StepVisual_CameraModelD3MultiClippingIntersection.hxx>
+#include <StepVisual_CameraModelD3MultiClippingUnion.hxx>
+#include <StepVisual_CoordinatesList.hxx>
+#include <StepVisual_HArray1OfCameraModelD3MultiClippingInterectionSelect.hxx>
+#include <StepVisual_HArray1OfCameraModelD3MultiClippingUnionSelect.hxx>
+#include <StepVisual_DraughtingCallout.hxx>
+#include <StepVisual_DraughtingCalloutElement.hxx>
+#include <StepVisual_DraughtingModel.hxx>
#include <StepVisual_Invisibility.hxx>
-#include <TDataStd_UAttribute.hxx>
-#include <XCAFDoc.hxx>
-#include <OSD_Path.hxx>
+#include <StepVisual_LayeredItem.hxx>
+#include <StepVisual_PlanarBox.hxx>
+#include <StepVisual_PresentationLayerAssignment.hxx>
+#include <StepVisual_PresentationStyleByContext.hxx>
+#include <StepVisual_StyleContextSelect.hxx>
+#include <StepVisual_StyledItem.hxx>
+#include <StepVisual_ViewVolume.hxx>
+#include <StepShape_TypeQualifier.hxx>
+#include <TCollection_AsciiString.hxx>
+#include <TCollection_HAsciiString.hxx>
+#include <TColStd_HArray1OfReal.hxx>
+#include <TColStd_HArray1OfTransient.hxx>
+#include <TColStd_HSequenceOfTransient.hxx>
+#include <TColStd_IndexedDataMapOfTransientTransient.hxx>
+#include <TColStd_MapIteratorOfMapOfTransient.hxx>
+#include <TColStd_MapOfTransient.hxx>
#include <TColStd_SequenceOfHAsciiString.hxx>
-
+#include <TDataStd_Name.hxx>
#include <TDataStd_TreeNode.hxx>
+#include <TDataStd_UAttribute.hxx>
+#include <TDF_Label.hxx>
+#include <TDF_Tool.hxx>
+#include <TDocStd_Document.hxx>
#include <TNaming_NamedShape.hxx>
-#include <BRep_Builder.hxx>
-
-#include <STEPCAFControl_DataMapOfShapePD.hxx>
-#include <STEPCAFControl_DataMapOfPDExternFile.hxx>
-#include <StepVisual_PresentationStyleByContext.hxx>
-#include <StepVisual_StyleContextSelect.hxx>
-#include <StepRepr_RepresentedDefinition.hxx>
-#include <StepRepr_CharacterizedDefinition.hxx>
-#include <StepRepr_SpecifiedHigherUsageOccurrence.hxx>
+#include <TopExp_Explorer.hxx>
+#include <TopoDS.hxx>
+#include <TopoDS_Compound.hxx>
+#include <TopoDS_Iterator.hxx>
+#include <TopoDS_Shape.hxx>
+#include <TopTools_ListIteratorOfListOfShape.hxx>
+#include <TopTools_ListOfShape.hxx>
+#include <TopTools_MapOfShape.hxx>
+#include <Transfer_Binder.hxx>
+#include <Transfer_TransientProcess.hxx>
+#include <TransferBRep.hxx>
+#include <UnitsMethods.hxx>
+#include <XCAFDoc.hxx>
+#include <XCAFDoc_Area.hxx>
+#include <XCAFDoc_Centroid.hxx>
+#include <XCAFDoc_ClippingPlaneTool.hxx>
+#include <XCAFDoc_ColorTool.hxx>
+#include <XCAFDoc_DataMapOfShapeLabel.hxx>
+#include <XCAFDoc_DimTolTool.hxx>
+#include <XCAFDoc_Dimension.hxx>
+#include <XCAFDoc_Datum.hxx>
+#include <XCAFDoc_GeomTolerance.hxx>
+#include <XCAFDoc_DocumentTool.hxx>
#include <XCAFDoc_GraphNode.hxx>
-#include <STEPCAFControl_Reader.hxx>
+#include <XCAFDoc_LayerTool.hxx>
+#include <XCAFDoc_MaterialTool.hxx>
+#include <XCAFDoc_ShapeTool.hxx>
+#include <XCAFDoc_View.hxx>
+#include <XCAFDoc_ViewTool.hxx>
+#include <XCAFDoc_Volume.hxx>
+#include <XCAFDimTolObjects_DimensionModifiersSequence.hxx>
+#include <XCAFDimTolObjects_GeomToleranceType.hxx>
+#include <XCAFDimTolObjects_DimensionObject.hxx>
+#include <XCAFDimTolObjects_GeomToleranceObject.hxx>
+#include <XCAFDimTolObjects_DatumObject.hxx>
+#include <XCAFView_Object.hxx>
+#include <XSAlgo.hxx>
+#include <XSAlgo_AlgoContainer.hxx>
+#include <XSControl_TransferReader.hxx>
+#include <XSControl_WorkSession.hxx>
+#include <StepAP242_DraughtingModelItemAssociation.hxx>
+#include <StepAP242_GeometricItemSpecificUsage.hxx>
+#include <StepGeom_CartesianPoint.hxx>
+#include <STEPCAFControl_GDTProperty.hxx>
+#include <StepVisual_TessellatedAnnotationOccurrence.hxx>
+#include <StepVisual_TessellatedAnnotationOccurrence.hxx>
+#include <StepVisual_TessellatedItem.hxx>
+#include <StepVisual_TessellatedGeometricSet.hxx>
+#include <StepVisual_TessellatedCurveSet.hxx>
+#include <StepVisual_CoordinatesList.hxx>
+#include <NCollection_Vector.hxx>
+
+#include <TColgp_HArray1OfXYZ.hxx>
+#include <BRepBuilderAPI_MakeEdge.hxx>
+#include <BRepTools.hxx>
+#include <Transfer_ActorOfTransientProcess.hxx>
+#include <Bnd_Box.hxx>
+#include <BRepBndLib.hxx>
+#include <Resource_Unicode.hxx>
// skl 21.08.2003 for reading G&DT
-#include <StepShape_DimensionalSize.hxx>
-#include <StepDimTol_GeometricTolerance.hxx>
-#include <StepShape_EdgeCurve.hxx>
-#include <StepShape_DimensionalCharacteristicRepresentation.hxx>
-#include <StepShape_ShapeDimensionRepresentation.hxx>
-#include <StepRepr_ValueRange.hxx>
-#include <StepRepr_ReprItemAndLengthMeasureWithUnit.hxx>
-#include <StepBasic_MeasureWithUnit.hxx>
-#include <StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol.hxx>
-#include <StepDimTol_ModifiedGeometricTolerance.hxx>
-#include <StepDimTol_GeometricToleranceWithDatumReference.hxx>
//#include <StepRepr_CompoundItemDefinition.hxx>
//#include <StepRepr_CompoundItemDefinitionMember.hxx>
-#include <TColStd_HArray1OfTransient.hxx>
-#include <StepRepr_HArray1OfRepresentationItem.hxx>
-#include <TColStd_IndexedDataMapOfTransientTransient.hxx>
//#include <StepBasic_ConversionBasedUnit.hxx>
-#include <StepBasic_Unit.hxx>
-#include <StepBasic_NamedUnit.hxx>
-#include <StepBasic_SiUnit.hxx>
-#include <StepBasic_ConversionBasedUnitAndLengthUnit.hxx>
-#include <StepBasic_ConversionBasedUnitAndMassUnit.hxx>
-#include <StepBasic_DerivedUnit.hxx>
-#include <StepBasic_DerivedUnitElement.hxx>
-#include <StepBasic_MeasureValueMember.hxx>
-
//#include <TDataStd_Real.hxx>
//#include <TDataStd_Constraint.hxx>
//#include <TDataStd_ConstraintEnum.hxx>
//#include <TPrsStd_Position.hxx>
//#include <TPrsStd_AISPresentation.hxx>
//#include <TNaming_Builder.hxx>
-#include <TColStd_HArray1OfReal.hxx>
-#include <StepShape_AdvancedFace.hxx>
-#include <StepDimTol_HArray1OfDatumReference.hxx>
-#include <StepDimTol_DatumReference.hxx>
-#include <StepDimTol_Datum.hxx>
-#include <StepDimTol_DatumFeature.hxx>
-#include <StepRepr_ShapeAspectRelationship.hxx>
-
-#include <StepDimTol_AngularityTolerance.hxx>
-#include <StepDimTol_CircularRunoutTolerance.hxx>
-#include <StepDimTol_CoaxialityTolerance.hxx>
-#include <StepDimTol_ConcentricityTolerance.hxx>
-#include <StepDimTol_ParallelismTolerance.hxx>
-#include <StepDimTol_PerpendicularityTolerance.hxx>
-#include <StepDimTol_SymmetryTolerance.hxx>
-#include <StepDimTol_TotalRunoutTolerance.hxx>
-#include <StepDimTol_CylindricityTolerance.hxx>
-#include <StepDimTol_FlatnessTolerance.hxx>
-#include <StepDimTol_LineProfileTolerance.hxx>
-#include <StepDimTol_PositionTolerance.hxx>
-#include <StepDimTol_RoundnessTolerance.hxx>
-#include <StepDimTol_StraightnessTolerance.hxx>
-#include <StepDimTol_SurfaceProfileTolerance.hxx>
-
-#include <StepShape_SolidModel.hxx>
-#include <StepShape_ShellBasedSurfaceModel.hxx>
-#include <StepShape_GeometricSet.hxx>
-#include <StepBasic_ProductDefinition.hxx>
-#include <NCollection_DataMap.hxx>
-#include <StepShape_ManifoldSolidBrep.hxx>
-#include <Interface_Static.hxx>
-#include <TColStd_MapOfTransient.hxx>
-#include <TColStd_MapIteratorOfMapOfTransient.hxx>
-#include <TopTools_ListOfShape.hxx>
-#include <TopTools_ListIteratorOfListOfShape.hxx>
-#include <STEPCAFControl_DataMapIteratorOfDataMapOfShapePD.hxx>
-#include <StepShape_ClosedShell.hxx>
-#include <StepShape_HArray1OfFace.hxx>
-#include <StepShape_HArray1OfFaceBound.hxx>
-#include <StepShape_Loop.hxx>
-#include <StepShape_EdgeLoop.hxx>
-#include <StepShape_HArray1OfOrientedEdge.hxx>
-#include <StepShape_HArray1OfShell.hxx>
-
-#ifdef DEB
+#ifdef OCCT_DEBUG
//! Converts address of the passed shape (TShape) to string.
//! \param theShape [in] Shape to dump.
//! \return corresponding string.
{
std::string anAddrStr;
std::ostringstream ost;
- ost << theShape.TShape().Access();
+ ost << theShape.TShape().get();
anAddrStr = ost.str();
TCollection_AsciiString aStr =
- TCollection_AsciiString("[").Cat( anAddrStr.c_str() ).Cat("]");
+ TCollection_AsciiString("[").Cat(anAddrStr.c_str()).Cat("]");
return aStr;
}
#endif
//=======================================================================
-//function : IsEqual
-//purpose : global function to check equality of topological shapes
+//function : STEPCAFControl_Reader
+//purpose :
//=======================================================================
-inline Standard_Boolean IsEqual(const TopoDS_Shape& theShape1,
- const TopoDS_Shape& theShape2)
+STEPCAFControl_Reader::STEPCAFControl_Reader()
+: mySourceCodePage (Resource_FormatType_UTF8),
+ myColorMode(Standard_True),
+ myNameMode(Standard_True),
+ myLayerMode(Standard_True),
+ myPropsMode(Standard_True),
+ mySHUOMode(Standard_False),
+ myGDTMode(Standard_True),
+ myMatMode(Standard_True),
+ myViewMode(Standard_True)
{
- return theShape1.IsEqual(theShape2);
+ STEPCAFControl_Controller::Init();
+ mySourceCodePage = (Resource_FormatType )Interface_Static::IVal ("read.stepcaf.codepage");
}
-//=======================================================================
-//function : AllocateSubLabel
-//purpose :
-//=======================================================================
-
-static TDF_Label AllocateSubLabel(TDF_Label& theRoot)
-{
- return TDF_TagSource::NewChild(theRoot);
-}
//=======================================================================
//function : STEPCAFControl_Reader
//purpose :
//=======================================================================
-STEPCAFControl_Reader::STEPCAFControl_Reader ():
- myColorMode( Standard_True ),
- myNameMode ( Standard_True ),
- myLayerMode( Standard_True ),
- myPropsMode( Standard_True ),
- mySHUOMode ( Standard_False ),
- myGDTMode ( Standard_True ),
- myMatMode ( Standard_True )
+STEPCAFControl_Reader::STEPCAFControl_Reader(const Handle(XSControl_WorkSession)& WS,
+ const Standard_Boolean scratch)
+: mySourceCodePage (Resource_FormatType_UTF8),
+ myColorMode(Standard_True),
+ myNameMode(Standard_True),
+ myLayerMode(Standard_True),
+ myPropsMode(Standard_True),
+ mySHUOMode(Standard_False),
+ myGDTMode(Standard_True),
+ myMatMode(Standard_True),
+ myViewMode(Standard_True)
{
STEPCAFControl_Controller::Init();
- myFiles = new STEPCAFControl_DictionaryOfExternFile;
+ mySourceCodePage = (Resource_FormatType )Interface_Static::IVal ("read.stepcaf.codepage");
+ Init(WS, scratch);
}
//=======================================================================
-//function : STEPCAFControl_Reader
+//function : Init
//purpose :
//=======================================================================
-STEPCAFControl_Reader::STEPCAFControl_Reader (const Handle(XSControl_WorkSession)& WS,
- const Standard_Boolean scratch) :
- myColorMode( Standard_True ),
- myNameMode ( Standard_True ),
- myLayerMode( Standard_True ),
- myPropsMode( Standard_True ),
- mySHUOMode ( Standard_False ),
- myGDTMode ( Standard_True ),
- myMatMode ( Standard_True )
+void STEPCAFControl_Reader::Init(const Handle(XSControl_WorkSession)& WS,
+ const Standard_Boolean scratch)
{
- STEPCAFControl_Controller::Init();
- Init ( WS, scratch );
+ // necessary only in Writer, to set good actor: WS->SelectNorm ( "STEP" );
+ myReader.SetWS(WS, scratch);
+ myFiles.Clear();
}
-
//=======================================================================
-//function : Init
-//purpose :
+//function : convertName
+//purpose :
//=======================================================================
-
-void STEPCAFControl_Reader::Init (const Handle(XSControl_WorkSession)& WS,
- const Standard_Boolean scratch)
+TCollection_ExtendedString STEPCAFControl_Reader::convertName (const TCollection_AsciiString& theName) const
{
-// necessary only in Writer, to set good actor: WS->SelectNorm ( "STEP" );
- myReader.SetWS (WS,scratch);
- myFiles = new STEPCAFControl_DictionaryOfExternFile;
+ TCollection_ExtendedString aName;
+ Resource_Unicode::ConvertFormatToUnicode (mySourceCodePage, theName.ToCString(), aName);
+ return aName;
}
-
//=======================================================================
//function : ReadFile
//purpose :
//=======================================================================
-IFSelect_ReturnStatus STEPCAFControl_Reader::ReadFile (const Standard_CString filename)
+IFSelect_ReturnStatus STEPCAFControl_Reader::ReadFile(const Standard_CString filename)
{
- return myReader.ReadFile ( filename );
+ return myReader.ReadFile(filename);
}
//purpose :
//=======================================================================
-Standard_Integer STEPCAFControl_Reader::NbRootsForTransfer ()
+Standard_Integer STEPCAFControl_Reader::NbRootsForTransfer()
{
return myReader.NbRootsForTransfer();
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::TransferOneRoot (const Standard_Integer num,
- Handle(TDocStd_Document) &doc)
+Standard_Boolean STEPCAFControl_Reader::TransferOneRoot(const Standard_Integer num,
+ Handle(TDocStd_Document) &doc)
{
TDF_LabelSequence Lseq;
- return Transfer ( myReader, num, doc, Lseq );
+ return Transfer(myReader, num, doc, Lseq);
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::Transfer (Handle(TDocStd_Document) &doc)
+Standard_Boolean STEPCAFControl_Reader::Transfer(Handle(TDocStd_Document) &doc)
{
TDF_LabelSequence Lseq;
- return Transfer ( myReader, 0, doc, Lseq );
+ return Transfer(myReader, 0, doc, Lseq);
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::Perform (const Standard_CString filename,
- Handle(TDocStd_Document) &doc)
+Standard_Boolean STEPCAFControl_Reader::Perform(const Standard_CString filename,
+ Handle(TDocStd_Document) &doc)
{
- if ( ReadFile ( filename ) != IFSelect_RetDone ) return Standard_False;
- return Transfer ( doc );
+ if (ReadFile(filename) != IFSelect_RetDone) return Standard_False;
+ return Transfer(doc);
}
-
+
//=======================================================================
//function : Perform
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::Perform (const TCollection_AsciiString &filename,
- Handle(TDocStd_Document) &doc)
+Standard_Boolean STEPCAFControl_Reader::Perform(const TCollection_AsciiString &filename,
+ Handle(TDocStd_Document) &doc)
{
- if ( ReadFile ( filename.ToCString() ) != IFSelect_RetDone ) return Standard_False;
- return Transfer ( doc );
+ if (ReadFile(filename.ToCString()) != IFSelect_RetDone) return Standard_False;
+ return Transfer(doc);
}
-
+
//=======================================================================
//function : ExternFiles
//purpose :
//=======================================================================
-const Handle(STEPCAFControl_DictionaryOfExternFile) &STEPCAFControl_Reader::ExternFiles () const
+const NCollection_DataMap<TCollection_AsciiString, Handle(STEPCAFControl_ExternFile)>& STEPCAFControl_Reader::ExternFiles() const
{
return myFiles;
}
-
+
//=======================================================================
//function : ExternFile
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ExternFile (const Standard_CString name,
- Handle(STEPCAFControl_ExternFile) &ef) const
+Standard_Boolean STEPCAFControl_Reader::ExternFile(const Standard_CString name,
+ Handle(STEPCAFControl_ExternFile) &ef) const
{
ef.Nullify();
- if ( myFiles.IsNull() || ! myFiles->HasItem ( name ) )
+ if (myFiles.IsEmpty() || !myFiles.IsBound(name))
return Standard_False;
- ef = myFiles->Item ( name );
+ ef = myFiles.Find(name);
return Standard_True;
}
//purpose :
//=======================================================================
-STEPControl_Reader &STEPCAFControl_Reader::ChangeReader ()
+STEPControl_Reader &STEPCAFControl_Reader::ChangeReader()
{
return myReader;
}
-
+
//=======================================================================
//function : Reader
//purpose :
//=======================================================================
-const STEPControl_Reader &STEPCAFControl_Reader::Reader () const
+const STEPControl_Reader &STEPCAFControl_Reader::Reader() const
{
return myReader;
}
-
+
//=======================================================================
//function : FillShapesMap
//purpose : auxiliary: fill a map by all compounds and their components
//=======================================================================
-static void FillShapesMap (const TopoDS_Shape &S, TopTools_MapOfShape &map)
+static void FillShapesMap(const TopoDS_Shape &S, TopTools_MapOfShape &map)
{
TopoDS_Shape S0 = S;
TopLoc_Location loc;
- S0.Location ( loc );
- map.Add ( S0 );
- if ( S.ShapeType() != TopAbs_COMPOUND ) return;
- for ( TopoDS_Iterator it(S); it.More(); it.Next() )
- FillShapesMap ( it.Value(), map );
+ S0.Location(loc);
+ map.Add(S0);
+ if (S.ShapeType() != TopAbs_COMPOUND) return;
+ for (TopoDS_Iterator it(S); it.More(); it.Next())
+ FillShapesMap(it.Value(), map);
}
//purpose : basic working method
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::Transfer (STEPControl_Reader &reader,
- const Standard_Integer nroot,
- Handle(TDocStd_Document) &doc,
- TDF_LabelSequence &Lseq,
- const Standard_Boolean asOne)
+Standard_Boolean STEPCAFControl_Reader::Transfer(STEPControl_Reader &reader,
+ const Standard_Integer nroot,
+ Handle(TDocStd_Document) &doc,
+ TDF_LabelSequence &Lseq,
+ const Standard_Boolean asOne)
{
reader.ClearShapes();
Standard_Integer i;
-
+
// Read all shapes
Standard_Integer num = reader.NbRootsForTransfer();
- if ( num <=0 ) return Standard_False;
- if ( nroot ) {
- if ( nroot > num ) return Standard_False;
- reader.TransferOneRoot ( nroot );
+ if (num <= 0) return Standard_False;
+ if (nroot) {
+ if (nroot > num) return Standard_False;
+ reader.TransferOneRoot(nroot);
}
else {
- for ( i=1; i <= num; i++ ) reader.TransferOneRoot ( i );
+ for (i = 1; i <= num; i++) reader.TransferOneRoot(i);
}
num = reader.NbShapes();
- if ( num <=0 ) return Standard_False;
+ if (num <= 0) return Standard_False;
// Fill a map of (top-level) shapes resulting from that transfer
// Only these shapes will be considered further
TopTools_MapOfShape ShapesMap, NewShapesMap;
- for ( i=1; i <= num; i++ ) FillShapesMap ( reader.Shape(i), ShapesMap );
-
+ for (i = 1; i <= num; i++) FillShapesMap(reader.Shape(i), ShapesMap);
+
// Collect information on shapes originating from SDRs
// this will be used to distinguish compounds representing assemblies
// from the ones representing hybrid models and shape sets
STEPCAFControl_DataMapOfShapePD ShapePDMap;
STEPCAFControl_DataMapOfPDExternFile PDFileMap;
Handle(Interface_InterfaceModel) Model = reader.Model();
- Handle(Transfer_TransientProcess) TP = reader.WS()->TransferReader()->TransientProcess();
+ const Handle(Transfer_TransientProcess) &TP = reader.WS()->TransferReader()->TransientProcess();
Standard_Integer nb = Model->NbEntities();
Handle(TColStd_HSequenceOfTransient) SeqPDS = new TColStd_HSequenceOfTransient;
- for (i = 1; i <= nb; i ++) {
+ for (i = 1; i <= nb; i++) {
Handle(Standard_Transient) enti = Model->Value(i);
- if(enti->IsKind(STANDARD_TYPE(StepRepr_ProductDefinitionShape))) {
+ if (enti->IsKind(STANDARD_TYPE(StepRepr_ProductDefinitionShape))) {
// sequence for acceleration ReadMaterials
SeqPDS->Append(enti);
}
- if ( enti->IsKind ( STANDARD_TYPE(StepBasic_ProductDefinition ) ) ) {
- Handle(StepBasic_ProductDefinition) PD =
+ if (enti->IsKind(STANDARD_TYPE(StepBasic_ProductDefinition))) {
+ Handle(StepBasic_ProductDefinition) PD =
Handle(StepBasic_ProductDefinition)::DownCast(enti);
Standard_Integer index = TP->MapIndex(PD);
- if ( index >0 ) {
- Handle(Transfer_Binder) binder = TP->MapItem (index);
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = TP->MapItem(index);
TopoDS_Shape S = TransferBRep::ShapeResult(binder);
- if ( ! S.IsNull() && ShapesMap.Contains(S) ) {
+ if (!S.IsNull() && ShapesMap.Contains(S)) {
NewShapesMap.Add(S);
- ShapePDMap.Bind ( S, PD );
+ ShapePDMap.Bind(S, PD);
Handle(STEPCAFControl_ExternFile) EF;
- PDFileMap.Bind ( PD, EF );
+ PDFileMap.Bind(PD, EF);
}
}
}
- if ( enti->IsKind ( STANDARD_TYPE(StepShape_ShapeRepresentation) ) ) {
+ if (enti->IsKind(STANDARD_TYPE(StepShape_ShapeRepresentation))) {
Standard_Integer index = TP->MapIndex(enti);
- if ( index >0 ) {
- Handle(Transfer_Binder) binder = TP->MapItem (index);
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = TP->MapItem(index);
TopoDS_Shape S = TransferBRep::ShapeResult(binder);
- if ( ! S.IsNull() && ShapesMap.Contains(S) )
+ if (!S.IsNull() && ShapesMap.Contains(S))
NewShapesMap.Add(S);
}
}
}
// get directory name of the main file
- OSD_Path mainfile ( reader.WS()->LoadedFile() );
- mainfile.SetName ( "" );
- mainfile.SetExtension ( "" );
+ OSD_Path mainfile(reader.WS()->LoadedFile());
+ mainfile.SetName("");
+ mainfile.SetExtension("");
TCollection_AsciiString dpath;
- mainfile.SystemName ( dpath );
+ mainfile.SystemName(dpath);
// Load external references (only for relevant SDRs)
// and fill map SDR -> extern file
- STEPConstruct_ExternRefs ExtRefs ( reader.WS() );
+ STEPConstruct_ExternRefs ExtRefs(reader.WS());
ExtRefs.LoadExternRefs();
- for ( i=1; i <= ExtRefs.NbExternRefs(); i++ ) {
+ for (i = 1; i <= ExtRefs.NbExternRefs(); i++) {
// check extern ref format
Handle(TCollection_HAsciiString) format = ExtRefs.Format(i);
- if ( ! format.IsNull() ) {
- static Handle(TCollection_HAsciiString) ap203 = new TCollection_HAsciiString ( "STEP AP203" );
- static Handle(TCollection_HAsciiString) ap214 = new TCollection_HAsciiString ( "STEP AP214" );
- if ( ! format->IsSameString ( ap203, Standard_False ) &&
- ! format->IsSameString ( ap214, Standard_False ) ) {
-#ifdef DEB
- cout << "Warning: STEPCAFControl_Reader::Transfer: Extern document is neither STEP AP203 nor AP214" << endl;
+ if (!format.IsNull()) {
+ static Handle(TCollection_HAsciiString) ap203 = new TCollection_HAsciiString("STEP AP203");
+ static Handle(TCollection_HAsciiString) ap214 = new TCollection_HAsciiString("STEP AP214");
+ if (!format->IsSameString(ap203, Standard_False) &&
+ !format->IsSameString(ap214, Standard_False)) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: STEPCAFControl_Reader::Transfer: Extern document is neither STEP AP203 nor AP214" << std::endl;
#else
- continue;
+ continue;
#endif
}
}
-#ifdef DEB
- else cout << "Warning: STEPCAFControl_Reader::Transfer: Extern document format not defined" << endl;
+#ifdef OCCT_DEBUG
+ else std::cout << "Warning: STEPCAFControl_Reader::Transfer: Extern document format not defined" << std::endl;
#endif
-
+
// get and check filename of the current extern ref
const Standard_CString filename = ExtRefs.FileName(i);
-cout<<"filename="<<filename<<endl;
+#ifdef OCCT_DEBUG
+ std::cout << "filename=" << filename << std::endl;
+#endif
- if ( ! filename || ! filename[0] ) {
-#ifdef DEB
- cout << "Warning: STEPCAFControl_Reader::Transfer: Extern reference file name is empty" << endl;
+ if (!filename || !filename[0]) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: STEPCAFControl_Reader::Transfer: Extern reference file name is empty" << std::endl;
#endif
continue; // not a valid extern ref
}
// compute true path to the extern file
- TCollection_AsciiString fullname = OSD_Path::AbsolutePath ( dpath, filename );
- if ( fullname.Length() <= 0 ) fullname = filename;
-
-/*
- char fullname[1024];
- char *mainfile = reader.WS()->LoadedFile();
- if ( ! mainfile ) mainfile = "";
- Standard_Integer slash = 0;
- for ( Standard_Integer k=0; mainfile[k]; k++ )
- if ( mainfile[k] == '/' ) slash = k;
- strncpy ( fullname, mainfile, slash );
- sprintf ( &fullname[slash], "%s%s", ( mainfile[0] ? "/" : "" ), filename );
-*/
-
+ TCollection_AsciiString fullname = OSD_Path::AbsolutePath(dpath, filename);
+ if (fullname.Length() <= 0) fullname = filename;
+
+ /*
+ char fullname[1024];
+ char *mainfile = reader.WS()->LoadedFile();
+ if ( ! mainfile ) mainfile = "";
+ Standard_Integer slash = 0;
+ for ( Standard_Integer k=0; mainfile[k]; k++ )
+ if ( mainfile[k] == '/' ) slash = k;
+ strncpy ( fullname, mainfile, slash );
+ sprintf ( &fullname[slash], "%s%s", ( mainfile[0] ? "/" : "" ), filename );
+ */
+
// get and check PD associated with the current extern ref
Handle(StepBasic_ProductDefinition) PD = ExtRefs.ProdDef(i);
- if ( PD.IsNull() ) continue; // not a valid extern ref
- if ( ! PDFileMap.IsBound ( PD ) ) continue; // this PD is not concerned by current transfer
-
+ if (PD.IsNull()) continue; // not a valid extern ref
+ if (!PDFileMap.IsBound(PD)) continue; // this PD is not concerned by current transfer
+
// read extern file (or use existing data) and record its data
- Handle(STEPCAFControl_ExternFile) EF =
- ReadExternFile ( filename, fullname.ToCString(), doc );
- PDFileMap.Bind ( PD, EF );
+ Handle(STEPCAFControl_ExternFile) EF =
+ ReadExternFile(filename, fullname.ToCString(), doc);
+ PDFileMap.Bind(PD, EF);
}
-
+
// and insert them to the document
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( doc->Main() );
- if ( STool.IsNull() ) return Standard_False;
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(doc->Main());
+ if (STool.IsNull()) return Standard_False;
XCAFDoc_DataMapOfShapeLabel map;
- if ( asOne )
- Lseq.Append ( AddShape ( reader.OneShape(), STool, NewShapesMap, ShapePDMap, PDFileMap, map ) );
+ if (asOne)
+ Lseq.Append(AddShape(reader.OneShape(), STool, NewShapesMap, ShapePDMap, PDFileMap, map));
else {
- for ( i=1; i <= num; i++ ) {
- Lseq.Append ( AddShape ( reader.Shape(i), STool, NewShapesMap, ShapePDMap, PDFileMap, map ) );
+ for (i = 1; i <= num; i++) {
+ Lseq.Append(AddShape(reader.Shape(i), STool, NewShapesMap, ShapePDMap, PDFileMap, map));
}
}
-
+
// read colors
- if ( GetColorMode() )
- ReadColors ( reader.WS(), doc, PDFileMap, map );
-
+ if (GetColorMode())
+ ReadColors(reader.WS(), doc, map);
+
// read names
- if ( GetNameMode() )
- ReadNames ( reader.WS(), doc, PDFileMap, map );
+ if (GetNameMode())
+ ReadNames(reader.WS(), doc, PDFileMap, map);
// read validation props
- if ( GetPropsMode() )
- ReadValProps ( reader.WS(), doc, PDFileMap, map );
+ if (GetPropsMode())
+ ReadValProps(reader.WS(), doc, PDFileMap, map);
// read layers
- if ( GetLayerMode() )
- ReadLayers ( reader.WS(), doc );
-
+ if (GetLayerMode())
+ ReadLayers(reader.WS(), doc);
+
// read SHUO entities from STEP model
- if ( GetSHUOMode() )
- ReadSHUOs ( reader.WS(), doc, PDFileMap, map );
+ if (GetSHUOMode())
+ ReadSHUOs(reader.WS(), doc, PDFileMap, map);
// read GDT entities from STEP model
- if(GetGDTMode())
- ReadGDTs(reader.WS(),doc);
+ if (GetGDTMode())
+ ReadGDTs(reader.WS(), doc);
// read Material entities from STEP model
- if(GetMatMode())
- ReadMaterials(reader.WS(),doc,SeqPDS);
+ if (GetMatMode())
+ ReadMaterials(reader.WS(), doc, SeqPDS);
+
+ // read View entities from STEP model
+ if (GetViewMode())
+ ReadViews(reader.WS(), doc);
// Expand resulting CAF structure for sub-shapes (optionally with their
// names) if requested
ExpandSubShapes(STool, map, ShapePDMap);
+ // Update assembly compounds
+ STool->UpdateAssemblies();
+
return Standard_True;
}
//purpose :
//=======================================================================
-TDF_Label STEPCAFControl_Reader::AddShape (const TopoDS_Shape &S,
- const Handle(XCAFDoc_ShapeTool) &STool,
- const TopTools_MapOfShape &NewShapesMap,
- const STEPCAFControl_DataMapOfShapePD &ShapePDMap,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
+TDF_Label STEPCAFControl_Reader::AddShape(const TopoDS_Shape &S,
+ const Handle(XCAFDoc_ShapeTool) &STool,
+ const TopTools_MapOfShape &NewShapesMap,
+ const STEPCAFControl_DataMapOfShapePD &ShapePDMap,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
{
// if shape has already been mapped, just return corresponding label
- if ( ShapeLabelMap.IsBound ( S ) ) {
- return ShapeLabelMap.Find ( S );
+ if (ShapeLabelMap.IsBound(S)) {
+ return ShapeLabelMap.Find(S);
}
-
+
// if shape is located, create instance
- if ( ! S.Location().IsIdentity() ) {
+ if (!S.Location().IsIdentity()) {
TopoDS_Shape S0 = S;
TopLoc_Location loc;
- S0.Location ( loc );
- AddShape ( S0, STool, NewShapesMap, ShapePDMap, PDFileMap, ShapeLabelMap );
- TDF_Label L = STool->AddShape ( S, Standard_False ); // should create reference
- ShapeLabelMap.Bind ( S, L );
+ S0.Location(loc);
+ AddShape(S0, STool, NewShapesMap, ShapePDMap, PDFileMap, ShapeLabelMap);
+ TDF_Label L = STool->AddShape(S, Standard_False); // should create reference
+ ShapeLabelMap.Bind(S, L);
return L;
}
-
+
// if shape is not compound, simple add it
- if ( S.ShapeType() != TopAbs_COMPOUND ) {
- TDF_Label L = STool->AddShape ( S, Standard_False );
- ShapeLabelMap.Bind ( S, L );
+ if (S.ShapeType() != TopAbs_COMPOUND) {
+ TDF_Label L = STool->AddShape(S, Standard_False);
+ ShapeLabelMap.Bind(S, L);
return L;
}
-
+
// for compounds, compute number of subshapes and check whether this is assembly
Standard_Boolean isAssembly = Standard_False;
Standard_Integer nbComponents = 0;
TopoDS_Iterator it;
- for ( it.Initialize(S); it.More(); it.Next(), nbComponents++ ) {
+ for (it.Initialize(S); it.More() && !isAssembly; it.Next(), nbComponents++) {
TopoDS_Shape Sub0 = it.Value();
TopLoc_Location loc;
- Sub0.Location ( loc );
- if ( NewShapesMap.Contains ( Sub0 ) ) isAssembly = Standard_True;
+ Sub0.Location(loc);
+ if (NewShapesMap.Contains(Sub0)) isAssembly = Standard_True;
}
-// if(nbComponents>0) isAssembly = Standard_True;
-
- // check whether it has associated external ref
+ // if(nbComponents>0) isAssembly = Standard_True;
+
+ // check whether it has associated external ref
TColStd_SequenceOfHAsciiString SHAS;
- if ( ShapePDMap.IsBound ( S ) && PDFileMap.IsBound ( ShapePDMap.Find(S) ) ) {
- Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find ( ShapePDMap.Find(S) );
- if ( ! EF.IsNull() ) {
+ if (ShapePDMap.IsBound(S) && PDFileMap.IsBound(ShapePDMap.Find(S))) {
+ Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find(ShapePDMap.Find(S));
+ if (!EF.IsNull()) {
// (store information on extern refs in the document)
SHAS.Append(EF->GetName());
// if yes, just return corresponding label
- if ( ! EF->GetLabel().IsNull() ) {
- // but if components >0, ignore extern ref!
- if ( nbComponents <=0 ) {
- ShapeLabelMap.Bind ( S, EF->GetLabel() );
- STool->SetExternRefs(EF->GetLabel(),SHAS);
- return EF->GetLabel();
- }
- }
-#ifdef DEB
- if ( ! EF->GetLabel().IsNull() )
- cout << "Warning: STEPCAFControl_Reader::AddShape: Non-empty shape with external ref; ref is ignored" << endl;
- else if ( nbComponents <=0 )
- cout << "Warning: STEPCAFControl_Reader::AddShape: Result of reading extern ref is Null" << endl;
+ if (!EF->GetLabel().IsNull()) {
+ // but if components >0, ignore extern ref!
+ if (nbComponents <= 0) {
+ ShapeLabelMap.Bind(S, EF->GetLabel());
+ STool->SetExternRefs(EF->GetLabel(), SHAS);
+ return EF->GetLabel();
+ }
+ }
+#ifdef OCCT_DEBUG
+ if (!EF->GetLabel().IsNull())
+ std::cout << "Warning: STEPCAFControl_Reader::AddShape: Non-empty shape with external ref; ref is ignored" << std::endl;
+ else if (nbComponents <= 0)
+ std::cout << "Warning: STEPCAFControl_Reader::AddShape: Result of reading extern ref is Null" << std::endl;
#endif
}
}
-
+
// add compound either as a whole,
- if ( ! isAssembly ) {
- TDF_Label L = STool->AddShape ( S, Standard_False );
- if ( SHAS.Length() >0 ) STool->SetExternRefs(L,SHAS);
- ShapeLabelMap.Bind ( S, L );
+ if (!isAssembly) {
+ TDF_Label L = STool->AddShape(S, Standard_False);
+ if (SHAS.Length() > 0) STool->SetExternRefs(L, SHAS);
+ ShapeLabelMap.Bind(S, L);
return L;
}
-
+
// or as assembly, component-by-component
TDF_Label L = STool->NewShape();
- for ( it.Initialize(S); it.More(); it.Next(), nbComponents++ ) {
+ nbComponents = 0;
+ for (it.Initialize(S); it.More(); it.Next(), nbComponents++) {
TopoDS_Shape Sub0 = it.Value();
TopLoc_Location loc;
- Sub0.Location ( loc );
- TDF_Label subL = AddShape ( Sub0, STool, NewShapesMap, ShapePDMap, PDFileMap, ShapeLabelMap );
- if ( ! subL.IsNull() ) {
- STool->AddComponent ( L, subL, it.Value().Location() );
+ Sub0.Location(loc);
+ TDF_Label subL = AddShape(Sub0, STool, NewShapesMap, ShapePDMap, PDFileMap, ShapeLabelMap);
+ if (!subL.IsNull()) {
+ TDF_Label instL = STool->AddComponent(L, subL, it.Value().Location());
+ if (!ShapeLabelMap.IsBound(it.Value())) {
+ ShapeLabelMap.Bind(it.Value(), instL);
+ }
}
}
- if ( SHAS.Length() >0 ) STool->SetExternRefs(L,SHAS);
- ShapeLabelMap.Bind ( S, L );
+ if (SHAS.Length() > 0) STool->SetExternRefs(L, SHAS);
+ ShapeLabelMap.Bind(S, L);
//STool->SetShape ( L, S ); // it is necessary for assemblies OCC1747 // commemted by skl for OCC2941
return L;
//purpose :
//=======================================================================
-Handle(STEPCAFControl_ExternFile) STEPCAFControl_Reader::ReadExternFile (const Standard_CString file,
- const Standard_CString fullname,
- Handle(TDocStd_Document)& doc)
+Handle(STEPCAFControl_ExternFile) STEPCAFControl_Reader::ReadExternFile(const Standard_CString file,
+ const Standard_CString fullname,
+ Handle(TDocStd_Document)& doc)
{
// if the file is already read, associate it with SDR
- if ( myFiles->HasItem ( file, Standard_True ) ) {
- return myFiles->Item ( file );
+ if (myFiles.IsBound(file)) {
+ return myFiles.ChangeFind(file);
}
-#ifdef DEB
- cout << "Reading extern file: " << fullname << endl;
+#ifdef OCCT_DEBUG
+ std::cout << "Reading extern file: " << fullname << std::endl;
#endif
-
+
// create new WorkSession and Reader
Handle(XSControl_WorkSession) newWS = new XSControl_WorkSession;
- newWS->SelectNorm ( "STEP" );
- STEPControl_Reader sr ( newWS, Standard_False );
-
+ newWS->SelectNorm("STEP");
+ STEPControl_Reader sr(newWS, Standard_False);
+
// start to fill the resulting ExternFile structure
Handle(STEPCAFControl_ExternFile) EF = new STEPCAFControl_ExternFile;
- EF->SetWS ( newWS );
- EF->SetName ( new TCollection_HAsciiString ( file ) );
-
+ EF->SetWS(newWS);
+ EF->SetName(new TCollection_HAsciiString(file));
+
// read file
- EF->SetLoadStatus ( sr.ReadFile ( fullname ) );
-
+ EF->SetLoadStatus(sr.ReadFile(fullname));
+
// transfer in single-result mode
- if ( EF->GetLoadStatus() == IFSelect_RetDone ) {
+ if (EF->GetLoadStatus() == IFSelect_RetDone) {
TDF_LabelSequence labels;
- EF->SetTransferStatus ( Transfer ( sr, 0, doc, labels, Standard_True ) );
- if ( labels.Length() >0 ) EF->SetLabel ( labels.Value(1) );
+ EF->SetTransferStatus(Transfer(sr, 0, doc, labels, Standard_True));
+ if (labels.Length() > 0) EF->SetLabel(labels.Value(1));
}
-
- // add read file to dictionary
- myFiles->SetItem ( file, EF );
-
- return EF;
-}
+ // add read file to dictionary
+ myFiles.Bind(file, EF);
-//=======================================================================
-//function : SetColorToSubshape
-//purpose : auxilary
-//=======================================================================
-static void SetColorToSubshape(const Handle(XCAFDoc_ColorTool) & CTool,
- const TopoDS_Shape & S,
- const Quantity_Color& col,
- const XCAFDoc_ColorType type)
-{
- for (TopoDS_Iterator it(S); it.More(); it.Next())
- if (! CTool->SetColor( it.Value(), col, type)) break;
+ return EF;
}
-
//=======================================================================
//function : findStyledSR
//purpose : auxilary
//=======================================================================
-static void findStyledSR (const Handle(StepVisual_StyledItem) &style,
- Handle(StepShape_ShapeRepresentation)& aSR)
+static void findStyledSR(const Handle(StepVisual_StyledItem) &style,
+ Handle(StepShape_ShapeRepresentation)& aSR)
{
// search Shape Represenatation for component styled item
- for ( Standard_Integer j=1; j <= style->NbStyles(); j++ ) {
- Handle(StepVisual_PresentationStyleByContext) PSA =
- Handle(StepVisual_PresentationStyleByContext)::DownCast(style->StylesValue ( j ));
- if ( PSA.IsNull() )
+ for (Standard_Integer j = 1; j <= style->NbStyles(); j++) {
+ Handle(StepVisual_PresentationStyleByContext) PSA =
+ Handle(StepVisual_PresentationStyleByContext)::DownCast(style->StylesValue(j));
+ if (PSA.IsNull())
continue;
StepVisual_StyleContextSelect aStyleCntxSlct = PSA->StyleContext();
- Handle(StepShape_ShapeRepresentation) aCurrentSR =
+ Handle(StepShape_ShapeRepresentation) aCurrentSR =
Handle(StepShape_ShapeRepresentation)::DownCast(aStyleCntxSlct.Representation());
- if ( aCurrentSR.IsNull() )
+ if (aCurrentSR.IsNull())
continue;
aSR = aCurrentSR;
- break;
+ break;
}
}
+//=======================================================================
+//function : propagateColorToParts
+//purpose : auxilary, propagate color styles from assemblies to parts
+//=======================================================================
+
+static void propagateColorToParts(const Handle(XCAFDoc_ShapeTool)& theSTool,
+ const Handle(XCAFDoc_ColorTool)& theCTool,
+ const TDF_Label& theRoot)
+{
+ // collect components to propagate
+ TDF_LabelSequence aComponents;
+ if (theRoot.IsEqual(theSTool->Label()))
+ theSTool->GetFreeShapes(aComponents);
+ else
+ theSTool->GetComponents(theRoot, aComponents);
+
+ // iterate each component
+ for (TDF_LabelSequence::Iterator anIt(aComponents); anIt.More(); anIt.Next())
+ {
+ // get original label
+ TDF_Label anOriginalL = anIt.Value();
+ theSTool->GetReferredShape(anOriginalL, anOriginalL);
+
+ // propagate to components without own colors
+ TDF_Label aColorL, aDummyColorL;
+ for (Standard_Integer aType = 1; aType <= 3; aType++)
+ {
+ if (theCTool->GetColor(theRoot, (XCAFDoc_ColorType)aType, aColorL) &&
+ !theCTool->GetColor(anOriginalL, (XCAFDoc_ColorType)aType, aDummyColorL))
+ theCTool->SetColor(anOriginalL, aColorL, (XCAFDoc_ColorType)aType);
+ }
+ if (!theCTool->IsVisible(theRoot))
+ theCTool->SetVisibility(anOriginalL, Standard_False);
+
+ // propagate to next level children
+ if (theSTool->IsAssembly(anOriginalL))
+ propagateColorToParts(theSTool, theCTool, anOriginalL);
+ }
+}
//=======================================================================
//function : ReadColors
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadColors (const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
+Standard_Boolean STEPCAFControl_Reader::ReadColors(const Handle(XSControl_WorkSession) &WS,
+ Handle(TDocStd_Document)& Doc,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
{
- STEPConstruct_Styles Styles ( WS );
- if ( ! Styles.LoadStyles() ) {
-#ifdef DEB
- cout << "Warning: no styles are found in the model" << endl;
+ STEPConstruct_Styles Styles(WS);
+ if (!Styles.LoadStyles()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: no styles are found in the model" << std::endl;
#endif
return Standard_False;
}
// searching for invisible items in the model
Handle(TColStd_HSequenceOfTransient) aHSeqOfInvisStyle = new TColStd_HSequenceOfTransient;
- Styles.LoadInvisStyles( aHSeqOfInvisStyle );
-
- Handle(XCAFDoc_ColorTool) CTool = XCAFDoc_DocumentTool::ColorTool( Doc->Main() );
- if ( CTool.IsNull() ) return Standard_False;
+ Styles.LoadInvisStyles(aHSeqOfInvisStyle);
+
+ Handle(XCAFDoc_ColorTool) CTool = XCAFDoc_DocumentTool::ColorTool(Doc->Main());
+ if (CTool.IsNull()) return Standard_False;
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(Doc->Main());
+ if (STool.IsNull()) return Standard_False;
// parse and search for color attributes
Standard_Integer nb = Styles.NbStyles();
- for ( Standard_Integer i=1; i <= nb; i++ ) {
- Handle(StepVisual_StyledItem) style = Styles.Style ( i );
- if ( style.IsNull() ) continue;
-
+ for (Standard_Integer i = 1; i <= nb; i++) {
+ Handle(StepVisual_StyledItem) style = Styles.Style(i);
+ if (style.IsNull()) continue;
+
Standard_Boolean IsVisible = Standard_True;
// check the visibility of styled item.
- for (Standard_Integer si = 1; si <= aHSeqOfInvisStyle->Length(); si++ ) {
- if ( style != aHSeqOfInvisStyle->Value( si ) )
+ for (Standard_Integer si = 1; si <= aHSeqOfInvisStyle->Length(); si++) {
+ if (style != aHSeqOfInvisStyle->Value(si))
continue;
// found that current style is invisible.
IsVisible = Standard_False;
break;
}
- Handle(StepVisual_Colour) SurfCol, BoundCol, CurveCol;
+ Handle(StepVisual_Colour) SurfCol, BoundCol, CurveCol, RenderCol;
+ Standard_Real RenderTransp;
// check if it is component style
Standard_Boolean IsComponent = Standard_False;
- if ( ! Styles.GetColors ( style, SurfCol, BoundCol, CurveCol, IsComponent ) && IsVisible )
+ if (!Styles.GetColors(style, SurfCol, BoundCol, CurveCol, RenderCol, RenderTransp, IsComponent) && IsVisible)
continue;
-
- // find shape
- TopoDS_Shape S = STEPConstruct::FindShape ( Styles.TransientProcess(), style->Item() );
- Standard_Boolean isSkipSHUOstyle = Standard_False;
- // take shape with real location.
- while ( IsComponent ) {
- // take SR of NAUO
- Handle(StepShape_ShapeRepresentation) aSR;
- findStyledSR( style, aSR );
- // search for SR along model
- if (aSR.IsNull())
- break;
-// Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Interface_EntityIterator subs = WS->HGraph()->Graph().Sharings( aSR );
- Handle(StepShape_ShapeDefinitionRepresentation) aSDR;
- for (subs.Start(); subs.More(); subs.Next()) {
- aSDR = Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs.Value());
- if ( aSDR.IsNull() )
- continue;
- StepRepr_RepresentedDefinition aPDSselect = aSDR->Definition();
- Handle(StepRepr_ProductDefinitionShape) PDS =
- Handle(StepRepr_ProductDefinitionShape)::DownCast(aPDSselect.PropertyDefinition());
- if ( PDS.IsNull() )
- continue;
- StepRepr_CharacterizedDefinition aCharDef = PDS->Definition();
-
- Handle(StepRepr_AssemblyComponentUsage) ACU =
- Handle(StepRepr_AssemblyComponentUsage)::DownCast(aCharDef.ProductDefinitionRelationship());
- // PTV 10.02.2003 skip styled item that refer to SHUO
- if (ACU->IsKind(STANDARD_TYPE(StepRepr_SpecifiedHigherUsageOccurrence))) {
- isSkipSHUOstyle = Standard_True;
+
+ // collect styled items
+ NCollection_Vector<StepVisual_StyledItemTarget> anItems;
+ if (!style->ItemAP242().IsNull()) {
+ anItems.Append(style->ItemAP242());
+ }
+
+ const Handle(Transfer_TransientProcess) &TP = WS->TransferReader()->TransientProcess();
+ for (Standard_Integer itemIt = 0; itemIt < anItems.Length(); itemIt++) {
+ Standard_Integer index = TP->MapIndex(anItems.Value(itemIt).Value());
+ TopoDS_Shape S;
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = TP->MapItem(index);
+ S = TransferBRep::ShapeResult(binder);
+ }
+ Standard_Boolean isSkipSHUOstyle = Standard_False;
+ // take shape with real location.
+ while (IsComponent) {
+ // take SR of NAUO
+ Handle(StepShape_ShapeRepresentation) aSR;
+ findStyledSR(style, aSR);
+ // search for SR along model
+ if (aSR.IsNull())
break;
+ Interface_EntityIterator subs = WS->HGraph()->Graph().Sharings(aSR);
+ Handle(StepShape_ShapeDefinitionRepresentation) aSDR;
+ for (subs.Start(); subs.More(); subs.Next()) {
+ aSDR = Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs.Value());
+ if (aSDR.IsNull())
+ continue;
+ StepRepr_RepresentedDefinition aPDSselect = aSDR->Definition();
+ Handle(StepRepr_ProductDefinitionShape) PDS =
+ Handle(StepRepr_ProductDefinitionShape)::DownCast(aPDSselect.PropertyDefinition());
+ if (PDS.IsNull())
+ continue;
+ StepRepr_CharacterizedDefinition aCharDef = PDS->Definition();
+
+ Handle(StepRepr_AssemblyComponentUsage) ACU =
+ Handle(StepRepr_AssemblyComponentUsage)::DownCast(aCharDef.ProductDefinitionRelationship());
+ if (ACU.IsNull())
+ continue;
+ // PTV 10.02.2003 skip styled item that refer to SHUO
+ if (ACU->IsKind(STANDARD_TYPE(StepRepr_SpecifiedHigherUsageOccurrence))) {
+ isSkipSHUOstyle = Standard_True;
+ break;
+ }
+ Handle(StepRepr_NextAssemblyUsageOccurrence) NAUO =
+ Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(ACU);
+ if (NAUO.IsNull())
+ continue;
+
+ TopoDS_Shape aSh;
+ // PTV 10.02.2003 to find component of assembly CORRECTLY
+ STEPConstruct_Tool Tool(WS);
+ TDF_Label aShLab = FindInstance(NAUO, CTool->ShapeTool(), Tool, ShapeLabelMap);
+ aSh = CTool->ShapeTool()->GetShape(aShLab);
+ if (!aSh.IsNull()) {
+ S = aSh;
+ break;
+ }
}
- Handle(StepRepr_NextAssemblyUsageOccurrence) NAUO =
- Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(ACU);
- if ( NAUO.IsNull() )
- continue;
-
- TopoDS_Shape aSh;
- // PTV 10.02.2003 to find component of assembly CORRECTLY
- STEPConstruct_Tool Tool( WS );
- TDF_Label aShLab = FindInstance ( NAUO, CTool->ShapeTool(), Tool, PDFileMap, ShapeLabelMap );
- aSh = CTool->ShapeTool()->GetShape(aShLab);
-// Handle(Transfer_Binder) binder = TP->Find(NAUO);
-// if ( binder.IsNull() || ! binder->HasResult() )
-// continue;
-// aSh = TransferBRep::ShapeResult ( TP, binder );
- if (!aSh.IsNull()) {
- S = aSh;
- break;
+ break;
+ }
+ if (isSkipSHUOstyle)
+ continue; // skip styled item which refer to SHUO
+
+ if (S.IsNull())
+ continue;
+
+ if (!SurfCol.IsNull() || !BoundCol.IsNull() || !CurveCol.IsNull() || !RenderCol.IsNull() || !IsVisible)
+ {
+ TDF_Label aL;
+ Standard_Boolean isFound = STool->SearchUsingMap(S, aL, Standard_False, Standard_True);
+ if (!SurfCol.IsNull() || !BoundCol.IsNull() || !CurveCol.IsNull() || !RenderCol.IsNull())
+ {
+ Quantity_Color aSCol, aBCol, aCCol, aRCol;
+ Quantity_ColorRGBA aFullSCol;
+ if (!SurfCol.IsNull()) {
+ Styles.DecodeColor(SurfCol, aSCol);
+ aFullSCol = Quantity_ColorRGBA(aSCol);
+ }
+ if (!BoundCol.IsNull())
+ Styles.DecodeColor(BoundCol, aBCol);
+ if (!CurveCol.IsNull())
+ Styles.DecodeColor(CurveCol, aCCol);
+ if (!RenderCol.IsNull()) {
+ Styles.DecodeColor(RenderCol, aRCol);
+ aFullSCol = Quantity_ColorRGBA(aRCol, static_cast<float>(1.0f - RenderTransp));
+ }
+ if (isFound)
+ {
+ if (!SurfCol.IsNull() || !RenderCol.IsNull())
+ CTool->SetColor(aL, aFullSCol, XCAFDoc_ColorSurf);
+ if (!BoundCol.IsNull())
+ CTool->SetColor(aL, aBCol, XCAFDoc_ColorCurv);
+ if (!CurveCol.IsNull())
+ CTool->SetColor(aL, aCCol, XCAFDoc_ColorCurv);
+ }
+ else
+ {
+ for (TopoDS_Iterator it(S); it.More(); it.Next())
+ {
+ TDF_Label aL1;
+ if (STool->SearchUsingMap(it.Value(), aL1, Standard_False, Standard_True))
+ {
+ if (!SurfCol.IsNull() || !RenderCol.IsNull())
+ CTool->SetColor(aL1, aFullSCol, XCAFDoc_ColorSurf);
+ if (!BoundCol.IsNull())
+ CTool->SetColor(aL1, aBCol, XCAFDoc_ColorCurv);
+ if (!CurveCol.IsNull())
+ CTool->SetColor(aL1, aCCol, XCAFDoc_ColorCurv);
+ }
+ }
+ }
+ }
+ if (!IsVisible)
+ {
+ // sets the invisibility for shape.
+ if (isFound)
+ CTool->SetVisibility(aL, Standard_False);
}
}
- break;
- }
- if (isSkipSHUOstyle)
- continue; // skip styled item which refer to SHUO
-
- if ( S.IsNull() )
- continue;
-
- if ( ! SurfCol.IsNull() ) {
- Quantity_Color col;
- Styles.DecodeColor ( SurfCol, col );
- if ( ! CTool->SetColor ( S, col, XCAFDoc_ColorSurf ))
- SetColorToSubshape( CTool, S, col, XCAFDoc_ColorSurf );
- }
- if ( ! BoundCol.IsNull() ) {
- Quantity_Color col;
- Styles.DecodeColor ( BoundCol, col );
- if ( ! CTool->SetColor ( S, col, XCAFDoc_ColorCurv ))
- SetColorToSubshape( CTool, S, col, XCAFDoc_ColorCurv );
- }
- if ( ! CurveCol.IsNull() ) {
- Quantity_Color col;
- Styles.DecodeColor ( CurveCol, col );
- if ( ! CTool->SetColor ( S, col, XCAFDoc_ColorCurv ))
- SetColorToSubshape( CTool, S, col, XCAFDoc_ColorCurv );
- }
- if ( !IsVisible ) {
- // sets the invisibility for shape.
- TDF_Label aInvL;
- if ( CTool->ShapeTool()->Search( S, aInvL ) )
- CTool->SetVisibility( aInvL, Standard_False );
}
}
CTool->ReverseChainsOfTreeNodes();
+
+ // some colors can be attached to assemblies, propagate them to components
+ propagateColorToParts(STool, CTool, STool->Label());
return Standard_True;
}
//purpose :
//=======================================================================
-static TDF_Label GetLabelFromPD (const Handle(StepBasic_ProductDefinition) &PD,
- const Handle(XCAFDoc_ShapeTool) &STool,
- const Handle(Transfer_TransientProcess) &TP,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
+static TDF_Label GetLabelFromPD(const Handle(StepBasic_ProductDefinition) &PD,
+ const Handle(XCAFDoc_ShapeTool) &STool,
+ const Handle(Transfer_TransientProcess) &TP,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
{
TDF_Label L;
- if ( PDFileMap.IsBound ( PD ) ) {
- Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find ( PD );
- if ( ! EF.IsNull() ) {
+ if (PDFileMap.IsBound(PD)) {
+ Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find(PD);
+ if (!EF.IsNull()) {
L = EF->GetLabel();
- if ( ! L.IsNull() ) return L;
+ if (!L.IsNull()) return L;
}
}
TopoDS_Shape S;
Handle(Transfer_Binder) binder = TP->Find(PD);
- if ( binder.IsNull() || ! binder->HasResult() ) return L;
- S = TransferBRep::ShapeResult ( TP, binder );
- if ( S.IsNull() ) return L;
-
- if ( S.IsNull() ) return L;
- if ( ShapeLabelMap.IsBound ( S ) )
- L = ShapeLabelMap.Find ( S );
- if ( L.IsNull() )
- STool->Search ( S, L, Standard_True, Standard_True, Standard_False );
+ if (binder.IsNull() || !binder->HasResult()) return L;
+ S = TransferBRep::ShapeResult(TP, binder);
+ if (S.IsNull()) return L;
+
+ if (ShapeLabelMap.IsBound(S))
+ L = ShapeLabelMap.Find(S);
+ if (L.IsNull())
+ STool->Search(S, L, Standard_True, Standard_True, Standard_False);
return L;
}
//purpose :
//=======================================================================
-TDF_Label STEPCAFControl_Reader::FindInstance (const Handle(StepRepr_NextAssemblyUsageOccurrence) &NAUO,
- const Handle(XCAFDoc_ShapeTool) &STool,
- const STEPConstruct_Tool &Tool,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
+TDF_Label STEPCAFControl_Reader::FindInstance(const Handle(StepRepr_NextAssemblyUsageOccurrence) &NAUO,
+ const Handle(XCAFDoc_ShapeTool) &STool,
+ const STEPConstruct_Tool &Tool,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
{
TDF_Label L;
-
+
// get shape resulting from CDSR (in fact, only location is interesting)
Handle(Transfer_TransientProcess) TP = Tool.TransientProcess();
Handle(Transfer_Binder) binder = TP->Find(NAUO);
- if ( binder.IsNull() || ! binder->HasResult() ) {
-#ifdef DEB
- cout << "Error: STEPCAFControl_Reader::FindInstance: NAUO is not mapped to shape" << endl;
+ if (binder.IsNull() || !binder->HasResult()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Error: STEPCAFControl_Reader::FindInstance: NAUO is not mapped to shape" << std::endl;
#endif
return L;
}
-
- TopoDS_Shape S = TransferBRep::ShapeResult ( TP, binder );
- if ( S.IsNull() ) {
-#ifdef DEB
- cout << "Error: STEPCAFControl_Reader::FindInstance: NAUO is not mapped to shape" << endl;
+
+ TopoDS_Shape S = TransferBRep::ShapeResult(TP, binder);
+ if (S.IsNull()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Error: STEPCAFControl_Reader::FindInstance: NAUO is not mapped to shape" << std::endl;
#endif
return L;
}
- // find component`s original label
- Handle(StepBasic_ProductDefinition) PD = NAUO->RelatedProductDefinition();
- if ( PD.IsNull() ) return L;
- TDF_Label Lref = GetLabelFromPD ( PD, STool, TP, PDFileMap, ShapeLabelMap );
- if ( Lref.IsNull() ) return L;
-
- // find main shape (assembly) label
- PD.Nullify();
- PD = NAUO->RelatingProductDefinition();
- if ( PD.IsNull() ) return L;
- TDF_Label L0 = GetLabelFromPD ( PD, STool, TP, PDFileMap, ShapeLabelMap );
- if ( L0.IsNull() ) return L;
-
- // if CDSR and NAUO are reversed, swap labels
- Handle(StepShape_ContextDependentShapeRepresentation) CDSR;
- Interface_EntityIterator subs1 = Tool.Graph().Sharings(NAUO);
- for (subs1.Start(); subs1.More(); subs1.Next()) {
- Handle(StepRepr_ProductDefinitionShape) PDS =
- Handle(StepRepr_ProductDefinitionShape)::DownCast(subs1.Value());
- if(PDS.IsNull()) continue;
- Interface_EntityIterator subs2 = Tool.Graph().Sharings(PDS);
- for (subs2.Start(); subs2.More(); subs2.Next()) {
- Handle(StepShape_ContextDependentShapeRepresentation) CDSRtmp =
- Handle(StepShape_ContextDependentShapeRepresentation)::DownCast(subs2.Value());
- if (CDSRtmp.IsNull()) continue;
- CDSR = CDSRtmp;
- }
- }
- if (CDSR.IsNull()) return L;
-// if ( STEPConstruct_Assembly::CheckSRRReversesNAUO ( Tool.Model(), CDSR ) ) {
-// TDF_Label Lsw = L0; L0 = Lref; Lref = Lsw;
-// }
-
- // iterate on components to find proper one
- TDF_LabelSequence seq;
- XCAFDoc_ShapeTool::GetComponents ( L0, seq );
- for ( Standard_Integer k=1; L.IsNull() && k <= seq.Length(); k++ ) {
- TDF_Label Lcomp = seq(k), Lref2;
- if ( XCAFDoc_ShapeTool::GetReferredShape ( Lcomp, Lref2 ) &&
- Lref2 == Lref &&
- S.Location() == XCAFDoc_ShapeTool::GetLocation ( Lcomp ) )
- L = Lcomp;
- }
-
+ if (ShapeLabelMap.IsBound(S))
+ L = ShapeLabelMap(S);
+ else
+ STool->Search(S, L, Standard_True, Standard_True, Standard_False);
+
return L;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadNames (const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
+Standard_Boolean STEPCAFControl_Reader::ReadNames(const Handle(XSControl_WorkSession) &WS,
+ Handle(TDocStd_Document)& Doc,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
{
// get starting data
- Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( Doc->Main() );
- if ( STool.IsNull() ) return Standard_False;
- STEPConstruct_Tool Tool ( WS );
+ const Handle(Interface_InterfaceModel) &Model = WS->Model();
+ const Handle(XSControl_TransferReader) &TR = WS->TransferReader();
+ const Handle(Transfer_TransientProcess) &TP = TR->TransientProcess();
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(Doc->Main());
+ if (STool.IsNull()) return Standard_False;
+ STEPConstruct_Tool Tool(WS);
// iterate on model to find all SDRs and CDSRs
Standard_Integer nb = Model->NbEntities();
Handle(Standard_Type) tNAUO = STANDARD_TYPE(StepRepr_NextAssemblyUsageOccurrence);
- Handle(Standard_Type) tPD = STANDARD_TYPE(StepBasic_ProductDefinition);
+ Handle(Standard_Type) tPD = STANDARD_TYPE(StepBasic_ProductDefinition);
+ Handle(Standard_Type) tPDWAD = STANDARD_TYPE(StepBasic_ProductDefinitionWithAssociatedDocuments);
Handle(TCollection_HAsciiString) name;
TDF_Label L;
for (Standard_Integer i = 1; i <= nb; i++) {
Handle(Standard_Transient) enti = Model->Value(i);
// get description of NAUO
- if ( enti->DynamicType() == tNAUO ) {
+ if (enti->DynamicType() == tNAUO) {
L.Nullify();
- Handle(StepRepr_NextAssemblyUsageOccurrence) NAUO =
- Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(enti);
- if(NAUO.IsNull()) continue;
+ Handle(StepRepr_NextAssemblyUsageOccurrence) NAUO =
+ Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(enti);
+ if (NAUO.IsNull()) continue;
Interface_EntityIterator subs = WS->Graph().Sharings(NAUO);
for (subs.Start(); subs.More(); subs.Next()) {
- Handle(StepRepr_ProductDefinitionShape) PDS =
+ Handle(StepRepr_ProductDefinitionShape) PDS =
Handle(StepRepr_ProductDefinitionShape)::DownCast(subs.Value());
- if(PDS.IsNull()) continue;
+ if (PDS.IsNull()) continue;
Handle(StepBasic_ProductDefinitionRelationship) PDR = PDS->Definition().ProductDefinitionRelationship();
- if ( PDR.IsNull() ) continue;
- if ( PDR->HasDescription() &&
- PDR->Description()->Length() >0 ) name = PDR->Description();
- else if ( !PDR->Name().IsNull() && PDR->Name()->Length() >0 ) name = PDR->Name();
- else if ( !PDR->Id().IsNull()) name = PDR->Id();
+ if (PDR.IsNull()) continue;
+ if (PDR->HasDescription() &&
+ PDR->Description()->UsefullLength() > 0) name = PDR->Description();
+ else if (!PDR->Name().IsNull() && PDR->Name()->UsefullLength() > 0) name = PDR->Name();
+ else if (!PDR->Id().IsNull()) name = PDR->Id();
else name = new TCollection_HAsciiString;
}
// find proper label
- L = FindInstance ( NAUO, STool, Tool, PDFileMap, ShapeLabelMap );
- if ( L.IsNull() ) continue;
- TCollection_ExtendedString str ( name->String() );
- TDataStd_Name::Set ( L, str );
+ L = FindInstance(NAUO, STool, Tool, ShapeLabelMap);
+ if (L.IsNull()) continue;
+
+ TCollection_ExtendedString str = convertName (name->String());
+ TDataStd_Name::Set(L, str);
}
// for PD get name of associated product
- if ( enti->DynamicType() == tPD ) {
+ if (enti->DynamicType() == tPD || enti->DynamicType() == tPDWAD) {
L.Nullify();
- Handle(StepBasic_ProductDefinition) PD =
- Handle(StepBasic_ProductDefinition)::DownCast(enti);
- if(PD.IsNull()) continue;
- Handle(StepBasic_Product) Prod = PD->Formation()->OfProduct();
- if(!Prod->Name().IsNull() && Prod->Name()->UsefullLength()>0) name = Prod->Name();
- else if (!Prod->Id().IsNull()) name = Prod->Id();
- else name = new TCollection_HAsciiString;
- L = GetLabelFromPD ( PD, STool, TP, PDFileMap, ShapeLabelMap );
- if ( L.IsNull() ) continue;
- TCollection_ExtendedString str ( name->String() );
- TDataStd_Name::Set ( L, str );
+ Handle(StepBasic_ProductDefinition) PD =
+ Handle(StepBasic_ProductDefinition)::DownCast(enti);
+ if (PD.IsNull()) continue;
+ Handle(StepBasic_Product) Prod = (!PD->Formation().IsNull() ? PD->Formation()->OfProduct() : NULL);
+ if (Prod.IsNull())
+ name = new TCollection_HAsciiString;
+ else if (!Prod->Name().IsNull() && Prod->Name()->UsefullLength() > 0)
+ name = Prod->Name();
+ else if (!Prod->Id().IsNull())
+ name = Prod->Id();
+ else
+ name = new TCollection_HAsciiString;
+ L = GetLabelFromPD(PD, STool, TP, PDFileMap, ShapeLabelMap);
+ if (L.IsNull()) continue;
+ TCollection_ExtendedString str = convertName (name->String());
+ TDataStd_Name::Set(L, str);
}
// set a name to the document
- //TCollection_ExtendedString str ( name->String() );
+ //TCollection_ExtendedString str = convertName (name->String());
//TDataStd_Name::Set ( L, str );
}
//purpose :
//=======================================================================
-static TDF_Label GetLabelFromPD (const Handle(StepBasic_ProductDefinition) &PD,
- const Handle(XCAFDoc_ShapeTool) &STool,
- const STEPConstruct_ValidationProps &Props,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
+static TDF_Label GetLabelFromPD(const Handle(StepBasic_ProductDefinition) &PD,
+ const Handle(XCAFDoc_ShapeTool) &STool,
+ const STEPConstruct_ValidationProps &Props,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
{
TDF_Label L;
- if ( PDFileMap.IsBound ( PD ) ) {
- Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find ( PD );
- if ( ! EF.IsNull() ) {
+ if (PDFileMap.IsBound(PD)) {
+ Handle(STEPCAFControl_ExternFile) EF = PDFileMap.Find(PD);
+ if (!EF.IsNull()) {
L = EF->GetLabel();
- if ( ! L.IsNull() ) return L;
+ if (!L.IsNull()) return L;
}
}
- TopoDS_Shape S = Props.GetPropShape ( PD );
- if ( S.IsNull() ) return L;
- if ( ShapeLabelMap.IsBound ( S ) )
- L = ShapeLabelMap.Find ( S );
- if ( L.IsNull() )
- STool->Search ( S, L, Standard_True, Standard_True, Standard_False );
+ TopoDS_Shape S = Props.GetPropShape(PD);
+ if (S.IsNull()) return L;
+ if (ShapeLabelMap.IsBound(S))
+ L = ShapeLabelMap.Find(S);
+ if (L.IsNull())
+ STool->Search(S, L, Standard_True, Standard_True, Standard_False);
return L;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadValProps (const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
+Standard_Boolean STEPCAFControl_Reader::ReadValProps(const Handle(XSControl_WorkSession) &WS,
+ Handle(TDocStd_Document)& Doc,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
{
// get starting data
- Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( Doc->Main() );
- if ( STool.IsNull() ) return Standard_False;
+ const Handle(XSControl_TransferReader) &TR = WS->TransferReader();
+ const Handle(Transfer_TransientProcess) &TP = TR->TransientProcess();
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(Doc->Main());
+ if (STool.IsNull()) return Standard_False;
// load props from the STEP model
TColStd_SequenceOfTransient props;
- STEPConstruct_ValidationProps Props ( WS );
- if ( ! Props.LoadProps ( props ) ) {
-#ifdef DEB
- cout << "Warning: no validation props found in the model" << endl;
+ STEPConstruct_ValidationProps Props(WS);
+ if (!Props.LoadProps(props)) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: no validation props found in the model" << std::endl;
#endif
return Standard_False;
}
// interpret props one by one
- for (Standard_Integer i = 1; i <= props.Length(); i ++) {
- Handle(StepRepr_PropertyDefinitionRepresentation) PDR =
- Handle(StepRepr_PropertyDefinitionRepresentation)::DownCast ( props.Value(i) );
- if ( PDR.IsNull() ) continue;
+ for (Standard_Integer i = 1; i <= props.Length(); i++) {
+ Handle(StepRepr_PropertyDefinitionRepresentation) PDR =
+ Handle(StepRepr_PropertyDefinitionRepresentation)::DownCast(props.Value(i));
+ if (PDR.IsNull()) continue;
TDF_Label L;
Handle(StepRepr_PropertyDefinition) PD = PDR->Definition().PropertyDefinition();
Interface_EntityIterator subs = Props.Graph().Shareds(PD);
for (subs.Start(); L.IsNull() && subs.More(); subs.Next()) {
- if ( subs.Value()->IsKind(STANDARD_TYPE(StepRepr_ProductDefinitionShape)) ) {
+ if (subs.Value()->IsKind(STANDARD_TYPE(StepRepr_ProductDefinitionShape))) {
Handle(StepRepr_ProductDefinitionShape) PDS = Handle(StepRepr_ProductDefinitionShape)::DownCast(subs.Value());
- if(PDS.IsNull()) continue;
+ if (PDS.IsNull()) continue;
// find corresponding NAUO
Handle(StepRepr_NextAssemblyUsageOccurrence) NAUO;
Interface_EntityIterator subs1 = Props.Graph().Shareds(PDS);
for (subs1.Start(); NAUO.IsNull() && subs1.More(); subs1.Next()) {
- if ( subs1.Value()->IsKind(STANDARD_TYPE(StepRepr_NextAssemblyUsageOccurrence)) )
+ if (subs1.Value()->IsKind(STANDARD_TYPE(StepRepr_NextAssemblyUsageOccurrence)))
NAUO = Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(subs1.Value());
}
- if ( !NAUO.IsNull() ) {
- L = FindInstance ( NAUO, STool, WS, PDFileMap, ShapeLabelMap );
- if ( L.IsNull() ) continue;
+ if (!NAUO.IsNull()) {
+ L = FindInstance(NAUO, STool, WS, ShapeLabelMap);
+ if (L.IsNull()) continue;
}
else {
// find corresponding ProductDefinition:
Handle(StepBasic_ProductDefinition) ProdDef;
Interface_EntityIterator subsPDS = Props.Graph().Shareds(PDS);
for (subsPDS.Start(); ProdDef.IsNull() && subsPDS.More(); subsPDS.Next()) {
- if ( subsPDS.Value()->IsKind(STANDARD_TYPE(StepBasic_ProductDefinition)) )
+ if (subsPDS.Value()->IsKind(STANDARD_TYPE(StepBasic_ProductDefinition)))
ProdDef = Handle(StepBasic_ProductDefinition)::DownCast(subsPDS.Value());
}
- if ( ProdDef.IsNull() ) continue;
- L = GetLabelFromPD ( ProdDef, STool, Props, PDFileMap, ShapeLabelMap );
+ if (ProdDef.IsNull()) continue;
+ L = GetLabelFromPD(ProdDef, STool, Props, PDFileMap, ShapeLabelMap);
}
}
- if ( subs.Value()->IsKind(STANDARD_TYPE(StepRepr_ShapeAspect)) ) {
+ if (subs.Value()->IsKind(STANDARD_TYPE(StepRepr_ShapeAspect))) {
Handle(StepRepr_ShapeAspect) SA = Handle(StepRepr_ShapeAspect)::DownCast(subs.Value());
- if(SA.IsNull()) continue;
+ if (SA.IsNull()) continue;
// find ShapeRepresentation
Handle(StepShape_ShapeRepresentation) SR;
Interface_EntityIterator subs1 = Props.Graph().Sharings(SA);
- for(subs1.Start(); subs1.More() && SR.IsNull(); subs1.Next()) {
- Handle(StepRepr_PropertyDefinition) PropD1 =
+ for (subs1.Start(); subs1.More() && SR.IsNull(); subs1.Next()) {
+ Handle(StepRepr_PropertyDefinition) PropD1 =
Handle(StepRepr_PropertyDefinition)::DownCast(subs1.Value());
- if(PropD1.IsNull()) continue;
+ if (PropD1.IsNull()) continue;
Interface_EntityIterator subs2 = Props.Graph().Sharings(PropD1);
- for(subs2.Start(); subs2.More() && SR.IsNull(); subs2.Next()) {
+ for (subs2.Start(); subs2.More() && SR.IsNull(); subs2.Next()) {
Handle(StepShape_ShapeDefinitionRepresentation) SDR =
Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs2.Value());
- if(SDR.IsNull()) continue;
+ if (SDR.IsNull()) continue;
SR = Handle(StepShape_ShapeRepresentation)::DownCast(SDR->UsedRepresentation());
}
}
- if(SR.IsNull()) continue;
+ if (SR.IsNull()) continue;
Handle(Transfer_Binder) binder;
- for(Standard_Integer ir=1; ir<=SR->NbItems() && binder.IsNull(); ir++) {
- if(SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_SolidModel))) {
- Handle(StepShape_SolidModel) SM =
+ for (Standard_Integer ir = 1; ir <= SR->NbItems() && binder.IsNull(); ir++) {
+ if (SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_SolidModel))) {
+ Handle(StepShape_SolidModel) SM =
Handle(StepShape_SolidModel)::DownCast(SR->ItemsValue(ir));
binder = TP->Find(SM);
}
- else if(SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_ShellBasedSurfaceModel))) {
+ else if (SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_ShellBasedSurfaceModel))) {
Handle(StepShape_ShellBasedSurfaceModel) SBSM =
Handle(StepShape_ShellBasedSurfaceModel)::DownCast(SR->ItemsValue(ir));
binder = TP->Find(SBSM);
}
- else if(SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_GeometricSet))) {
+ else if (SR->ItemsValue(ir)->IsKind(STANDARD_TYPE(StepShape_GeometricSet))) {
Handle(StepShape_GeometricSet) GS =
Handle(StepShape_GeometricSet)::DownCast(SR->ItemsValue(ir));
binder = TP->Find(GS);
}
}
- if ( binder.IsNull() || ! binder->HasResult() ) continue;
+ if (binder.IsNull() || !binder->HasResult()) continue;
TopoDS_Shape S;
- S = TransferBRep::ShapeResult ( TP, binder );
- if(S.IsNull()) continue;
- if ( ShapeLabelMap.IsBound ( S ) )
- L = ShapeLabelMap.Find ( S );
- if ( L.IsNull() )
- STool->Search ( S, L, Standard_True, Standard_True, Standard_True );
+ S = TransferBRep::ShapeResult(TP, binder);
+ if (S.IsNull()) continue;
+ if (ShapeLabelMap.IsBound(S))
+ L = ShapeLabelMap.Find(S);
+ if (L.IsNull())
+ STool->Search(S, L, Standard_True, Standard_True, Standard_True);
}
}
- if(L.IsNull()) continue;
-
+ if (L.IsNull()) continue;
+
// decode validation properties
Handle(StepRepr_Representation) rep = PDR->UsedRepresentation();
- for ( Standard_Integer j=1; j <= rep->NbItems(); j++ ) {
+ for (Standard_Integer j = 1; j <= rep->NbItems(); j++) {
Handle(StepRepr_RepresentationItem) ent = rep->ItemsValue(j);
Standard_Boolean isArea;
Standard_Real val;
gp_Pnt pos;
- if ( Props.GetPropReal ( ent, val, isArea ) ) {
- if ( isArea ) XCAFDoc_Area::Set ( L, val );
- else XCAFDoc_Volume::Set ( L, val );
+ if (Props.GetPropReal(ent, val, isArea)) {
+ if (isArea) XCAFDoc_Area::Set(L, val);
+ else XCAFDoc_Volume::Set(L, val);
}
- else if ( Props.GetPropPnt ( ent, rep->ContextOfItems(), pos ) ) {
- XCAFDoc_Centroid::Set ( L, pos );
+ else if (Props.GetPropPnt(ent, rep->ContextOfItems(), pos)) {
+ XCAFDoc_Centroid::Set(L, pos);
}
}
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadLayers (const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc) const
+Standard_Boolean STEPCAFControl_Reader::ReadLayers(const Handle(XSControl_WorkSession) &WS,
+ Handle(TDocStd_Document)& Doc) const
{
- Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( Doc->Main() );
- if ( STool.IsNull() ) return Standard_False;
- Handle(XCAFDoc_LayerTool) LTool = XCAFDoc_DocumentTool::LayerTool( Doc->Main() );
- if ( LTool.IsNull() ) return Standard_False;
-
+ const Handle(Interface_InterfaceModel) &Model = WS->Model();
+ const Handle(XSControl_TransferReader) &TR = WS->TransferReader();
+ const Handle(Transfer_TransientProcess) &TP = TR->TransientProcess();
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(Doc->Main());
+ if (STool.IsNull()) return Standard_False;
+ Handle(XCAFDoc_LayerTool) LTool = XCAFDoc_DocumentTool::LayerTool(Doc->Main());
+ if (LTool.IsNull()) return Standard_False;
+
Handle(Standard_Type) tSVPLA = STANDARD_TYPE(StepVisual_PresentationLayerAssignment);
Standard_Integer nb = Model->NbEntities();
Handle(TCollection_HAsciiString) name;
-
- for (Standard_Integer i = 1; i <= nb; i ++) {
+
+ for (Standard_Integer i = 1; i <= nb; i++) {
Handle(Standard_Transient) enti = Model->Value(i);
- if ( ! enti->IsKind ( tSVPLA ) ) continue;
- Handle(StepVisual_PresentationLayerAssignment) SVPLA =
+ if (!enti->IsKind(tSVPLA)) continue;
+ Handle(StepVisual_PresentationLayerAssignment) SVPLA =
Handle(StepVisual_PresentationLayerAssignment)::DownCast(enti);
-
+ if (SVPLA->AssignedItems().IsNull())
+ continue;
+
Handle(TCollection_HAsciiString) descr = SVPLA->Description();
Handle(TCollection_HAsciiString) hName = SVPLA->Name();
- TCollection_ExtendedString aLayerName ( hName->String() );
-
+ TCollection_ExtendedString aLayerName(hName->String());
+
// find a target shape and its label in the document
- for (Standard_Integer j = 1; j <= SVPLA->NbAssignedItems(); j++ ) {
+ for (Standard_Integer j = 1; j <= SVPLA->NbAssignedItems(); j++) {
StepVisual_LayeredItem LI = SVPLA->AssignedItemsValue(j);
- Handle(Transfer_Binder) binder = TP->Find( LI.Value() );
- if ( binder.IsNull() || ! binder->HasResult() ) continue;
-
- TopoDS_Shape S = TransferBRep::ShapeResult ( TP, binder );
- if ( S.IsNull() ) continue;
-
+ Handle(Transfer_Binder) binder = TP->Find(LI.Value());
+ if (binder.IsNull() || !binder->HasResult()) continue;
+
+ TopoDS_Shape S = TransferBRep::ShapeResult(TP, binder);
+ if (S.IsNull()) continue;
+
TDF_Label shL;
- if ( ! STool->Search ( S, shL, Standard_True, Standard_True, Standard_True ) ) continue;
- LTool->SetLayer ( shL, aLayerName );
+ if (!STool->Search(S, shL, Standard_True, Standard_True, Standard_True)) continue;
+ LTool->SetLayer(shL, aLayerName);
}
-
+
// check invisibility
Interface_EntityIterator subs = WS->Graph().Sharings(SVPLA);
for (subs.Start(); subs.More(); subs.Next()) {
- if ( ! subs.Value()->IsKind(STANDARD_TYPE(StepVisual_Invisibility)) ) continue;
-#ifdef DEB
- cout<< "\tLayer \"" << aLayerName << "\" is invisible"<<endl;
+ if (!subs.Value()->IsKind(STANDARD_TYPE(StepVisual_Invisibility))) continue;
+#ifdef OCCT_DEBUG
+ std::cout << "\tLayer \"" << aLayerName << "\" is invisible" << std::endl;
#endif
//TDF_Label InvLayerLab = LTool->FindLayer(aLayerName);
TDF_Label InvLayerLab = LTool->AddLayer(aLayerName); //skl for OCC3926
- Handle(TDataStd_UAttribute) aUAttr;
- aUAttr->Set( InvLayerLab, XCAFDoc::InvisibleGUID() );
+ TDataStd_UAttribute::Set (InvLayerLab, XCAFDoc::InvisibleGUID());
}
}
return Standard_True;
//purpose :
//=======================================================================
-static Standard_Boolean findNextSHUOlevel (const Handle(XSControl_WorkSession) &WS,
- const Handle(StepRepr_SpecifiedHigherUsageOccurrence)& SHUO,
- const Handle(XCAFDoc_ShapeTool)& STool,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap,
- TDF_LabelSequence& aLabels)
+static Standard_Boolean findNextSHUOlevel(const Handle(XSControl_WorkSession) &WS,
+ const Handle(StepRepr_SpecifiedHigherUsageOccurrence)& SHUO,
+ const Handle(XCAFDoc_ShapeTool)& STool,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap,
+ TDF_LabelSequence& aLabels)
{
Interface_EntityIterator subs = WS->HGraph()->Graph().Sharings(SHUO);
Handle(StepRepr_SpecifiedHigherUsageOccurrence) subSHUO;
}
if (subSHUO.IsNull())
return Standard_False;
-
- Handle(StepRepr_NextAssemblyUsageOccurrence) NUNAUO =
- Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(subSHUO->NextUsage());
+
+ Handle(StepRepr_NextAssemblyUsageOccurrence) NUNAUO = subSHUO->NextUsage();
if (NUNAUO.IsNull())
return Standard_False;
-// Handle(Interface_InterfaceModel) Model = WS->Model();
-// Handle(XSControl_TransferReader) TR = WS->TransferReader();
-// Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
-// Handle(Transfer_Binder) binder = TP->Find(NUNAUO);
-// if ( binder.IsNull() || ! binder->HasResult() )
-// return Standard_False;
-// TopoDS_Shape NUSh = TransferBRep::ShapeResult ( TP, binder );
- // get label of NAUO next level
+ // Handle(Interface_InterfaceModel) Model = WS->Model();
+ // Handle(XSControl_TransferReader) TR = WS->TransferReader();
+ // Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
+ // Handle(Transfer_Binder) binder = TP->Find(NUNAUO);
+ // if ( binder.IsNull() || ! binder->HasResult() )
+ // return Standard_False;
+ // TopoDS_Shape NUSh = TransferBRep::ShapeResult ( TP, binder );
+ // get label of NAUO next level
TDF_Label NULab;
- STEPConstruct_Tool Tool( WS );
- NULab = STEPCAFControl_Reader::FindInstance ( NUNAUO, STool, Tool, PDFileMap, ShapeLabelMap );
-// STool->Search(NUSh, NUlab);
+ STEPConstruct_Tool Tool(WS);
+ NULab = STEPCAFControl_Reader::FindInstance(NUNAUO, STool, Tool, ShapeLabelMap);
+ // STool->Search(NUSh, NUlab);
if (NULab.IsNull())
return Standard_False;
- aLabels.Append( NULab );
+ aLabels.Append(NULab);
// and check by recurse.
- findNextSHUOlevel( WS, subSHUO, STool, PDFileMap, ShapeLabelMap, aLabels );
+ findNextSHUOlevel(WS, subSHUO, STool, PDFileMap, ShapeLabelMap, aLabels);
return Standard_True;
}
//function : setSHUOintoDoc
//purpose : auxilary
//=======================================================================
-static TDF_Label setSHUOintoDoc (const Handle(XSControl_WorkSession) &WS,
- const Handle(StepRepr_SpecifiedHigherUsageOccurrence)& SHUO,
- const Handle(XCAFDoc_ShapeTool)& STool,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
+static TDF_Label setSHUOintoDoc(const Handle(XSControl_WorkSession) &WS,
+ const Handle(StepRepr_SpecifiedHigherUsageOccurrence)& SHUO,
+ const Handle(XCAFDoc_ShapeTool)& STool,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap)
{
TDF_Label aMainLabel;
// get upper usage NAUO from SHUO.
Handle(StepRepr_NextAssemblyUsageOccurrence) UUNAUO =
Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(SHUO->UpperUsage());
- Handle(StepRepr_NextAssemblyUsageOccurrence) NUNAUO =
- Handle(StepRepr_NextAssemblyUsageOccurrence)::DownCast(SHUO->NextUsage());
- if ( UUNAUO.IsNull() || NUNAUO.IsNull() ) {
-#ifdef DEB
- cout << "Warning: " << __FILE__ <<": Upper_usage or Next_usage of styled SHUO is null. Skip it" << endl;
+ Handle(StepRepr_NextAssemblyUsageOccurrence) NUNAUO = SHUO->NextUsage();
+ if (UUNAUO.IsNull() || NUNAUO.IsNull()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: " << __FILE__ << ": Upper_usage or Next_usage of styled SHUO is null. Skip it" << std::endl;
#endif
return aMainLabel;
}
-// Handle(Interface_InterfaceModel) Model = WS->Model();
-// Handle(XSControl_TransferReader) TR = WS->TransferReader();
-// Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
-// TopoDS_Shape UUSh, NUSh;
-// Handle(Transfer_Binder) binder = TP->Find(UUNAUO);
-// if ( binder.IsNull() || ! binder->HasResult() )
-// return aMainLabel;
-// UUSh = TransferBRep::ShapeResult ( TP, binder );
-// binder = TP->Find(NUNAUO);
-// if ( binder.IsNull() || ! binder->HasResult() )
-// return aMainLabel;
-// NUSh = TransferBRep::ShapeResult ( TP, binder );
-
- // get first labels for first SHUO attribute
+ // Handle(Interface_InterfaceModel) Model = WS->Model();
+ // Handle(XSControl_TransferReader) TR = WS->TransferReader();
+ // Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
+ // TopoDS_Shape UUSh, NUSh;
+ // Handle(Transfer_Binder) binder = TP->Find(UUNAUO);
+ // if ( binder.IsNull() || ! binder->HasResult() )
+ // return aMainLabel;
+ // UUSh = TransferBRep::ShapeResult ( TP, binder );
+ // binder = TP->Find(NUNAUO);
+ // if ( binder.IsNull() || ! binder->HasResult() )
+ // return aMainLabel;
+ // NUSh = TransferBRep::ShapeResult ( TP, binder );
+
+ // get first labels for first SHUO attribute
TDF_Label UULab, NULab;
- STEPConstruct_Tool Tool( WS );
- UULab = STEPCAFControl_Reader::FindInstance ( UUNAUO, STool, Tool, PDFileMap, ShapeLabelMap );
- NULab = STEPCAFControl_Reader::FindInstance ( NUNAUO, STool, Tool, PDFileMap, ShapeLabelMap );
-
-// STool->Search(UUSh, UULab);
-// STool->Search(NUSh, NULab);
+ STEPConstruct_Tool Tool(WS);
+ UULab = STEPCAFControl_Reader::FindInstance(UUNAUO, STool, Tool, ShapeLabelMap);
+ NULab = STEPCAFControl_Reader::FindInstance(NUNAUO, STool, Tool, ShapeLabelMap);
+
+ // STool->Search(UUSh, UULab);
+ // STool->Search(NUSh, NULab);
if (UULab.IsNull() || NULab.IsNull()) return aMainLabel;
//create sequence fo labels to set SHUO structure into the document
TDF_LabelSequence ShuoLabels;
- ShuoLabels.Append( UULab );
- ShuoLabels.Append( NULab );
+ ShuoLabels.Append(UULab);
+ ShuoLabels.Append(NULab);
// add all other labels of sub SHUO entities
- findNextSHUOlevel( WS, SHUO, STool, PDFileMap, ShapeLabelMap, ShuoLabels );
+ findNextSHUOlevel(WS, SHUO, STool, PDFileMap, ShapeLabelMap, ShuoLabels);
// last accord for SHUO
Handle(XCAFDoc_GraphNode) anSHUOAttr;
- if ( STool->SetSHUO( ShuoLabels, anSHUOAttr ) )
+ if (STool->SetSHUO(ShuoLabels, anSHUOAttr))
aMainLabel = anSHUOAttr->Label();
-
+
return aMainLabel;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadSHUOs (const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc,
- const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
- const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
+Standard_Boolean STEPCAFControl_Reader::ReadSHUOs(const Handle(XSControl_WorkSession) &WS,
+ Handle(TDocStd_Document)& Doc,
+ const STEPCAFControl_DataMapOfPDExternFile &PDFileMap,
+ const XCAFDoc_DataMapOfShapeLabel &ShapeLabelMap) const
{
// the big part code duplication from ReadColors.
// It is possible to share this code functionality, just to decide how ???
- Handle(XCAFDoc_ColorTool) CTool = XCAFDoc_DocumentTool::ColorTool( Doc->Main() );
+ Handle(XCAFDoc_ColorTool) CTool = XCAFDoc_DocumentTool::ColorTool(Doc->Main());
Handle(XCAFDoc_ShapeTool) STool = CTool->ShapeTool();
-
- STEPConstruct_Styles Styles ( WS );
- if ( ! Styles.LoadStyles() ) {
-#ifdef DEB
- cout << "Warning: no styles are found in the model" << endl;
+
+ STEPConstruct_Styles Styles(WS);
+ if (!Styles.LoadStyles()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: no styles are found in the model" << std::endl;
#endif
return Standard_False;
}
// searching for invisible items in the model
Handle(TColStd_HSequenceOfTransient) aHSeqOfInvisStyle = new TColStd_HSequenceOfTransient;
- Styles.LoadInvisStyles( aHSeqOfInvisStyle );
+ Styles.LoadInvisStyles(aHSeqOfInvisStyle);
// parse and search for color attributes
Standard_Integer nb = Styles.NbStyles();
- for ( Standard_Integer i=1; i <= nb; i++ ) {
- Handle(StepVisual_StyledItem) style = Styles.Style ( i );
- if ( style.IsNull() ) continue;
-
+ for (Standard_Integer i = 1; i <= nb; i++) {
+ Handle(StepVisual_StyledItem) style = Styles.Style(i);
+ if (style.IsNull()) continue;
+
Standard_Boolean IsVisible = Standard_True;
// check the visibility of styled item.
- for (Standard_Integer si = 1; si <= aHSeqOfInvisStyle->Length(); si++ ) {
- if ( style != aHSeqOfInvisStyle->Value( si ) )
+ for (Standard_Integer si = 1; si <= aHSeqOfInvisStyle->Length(); si++) {
+ if (style != aHSeqOfInvisStyle->Value(si))
continue;
// found that current style is invisible.
-#ifdef DEB
- cout << "Warning: item No " << i << "(" << style->Item()->DynamicType()->Name() << ") is invisible" << endl;
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: item No " << i << "(" << style->Item()->DynamicType()->Name() << ") is invisible" << std::endl;
#endif
IsVisible = Standard_False;
break;
}
- Handle(StepVisual_Colour) SurfCol, BoundCol, CurveCol;
+ Handle(StepVisual_Colour) SurfCol, BoundCol, CurveCol, RenderCol;
+ Standard_Real RenderTransp;
// check if it is component style
Standard_Boolean IsComponent = Standard_False;
- if ( ! Styles.GetColors ( style, SurfCol, BoundCol, CurveCol, IsComponent ) && IsVisible )
+ if (!Styles.GetColors(style, SurfCol, BoundCol, CurveCol, RenderCol, RenderTransp, IsComponent) && IsVisible)
continue;
if (!IsComponent)
continue;
Handle(StepShape_ShapeRepresentation) aSR;
- findStyledSR( style, aSR );
+ findStyledSR(style, aSR);
// search for SR along model
- if ( aSR.IsNull() )
+ if (aSR.IsNull())
continue;
- Interface_EntityIterator subs = WS->HGraph()->Graph().Sharings( aSR );
+ Interface_EntityIterator subs = WS->HGraph()->Graph().Sharings(aSR);
Handle(StepShape_ShapeDefinitionRepresentation) aSDR;
for (subs.Start(); subs.More(); subs.Next()) {
aSDR = Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs.Value());
- if ( aSDR.IsNull() )
+ if (aSDR.IsNull())
continue;
StepRepr_RepresentedDefinition aPDSselect = aSDR->Definition();
- Handle(StepRepr_ProductDefinitionShape) PDS =
+ Handle(StepRepr_ProductDefinitionShape) PDS =
Handle(StepRepr_ProductDefinitionShape)::DownCast(aPDSselect.PropertyDefinition());
- if ( PDS.IsNull() )
+ if (PDS.IsNull())
continue;
StepRepr_CharacterizedDefinition aCharDef = PDS->Definition();
Handle(StepRepr_SpecifiedHigherUsageOccurrence) SHUO =
Handle(StepRepr_SpecifiedHigherUsageOccurrence)::DownCast(aCharDef.ProductDefinitionRelationship());
- if ( SHUO.IsNull() )
+ if (SHUO.IsNull())
continue;
-
+
// set the SHUO structure to the document
- TDF_Label aLabelForStyle = setSHUOintoDoc( WS, SHUO, STool, PDFileMap, ShapeLabelMap );
- if ( aLabelForStyle.IsNull() ) {
-#ifdef DEB
- cout << "Warning: " << __FILE__ <<": coudnot create SHUO structure in the document" << endl;
+ TDF_Label aLabelForStyle = setSHUOintoDoc(WS, SHUO, STool, PDFileMap, ShapeLabelMap);
+ if (aLabelForStyle.IsNull()) {
+#ifdef OCCT_DEBUG
+ std::cout << "Warning: " << __FILE__ << ": coudnot create SHUO structure in the document" << std::endl;
#endif
continue;
}
// now set the style to the SHUO main label.
- if ( ! SurfCol.IsNull() ) {
+ if (!SurfCol.IsNull() || !RenderCol.IsNull()) {
Quantity_Color col;
- Styles.DecodeColor ( SurfCol, col );
- CTool->SetColor ( aLabelForStyle, col, XCAFDoc_ColorSurf );
+ Quantity_ColorRGBA colRGBA;
+ if (!SurfCol.IsNull()) {
+ Styles.DecodeColor(SurfCol, col);
+ colRGBA = Quantity_ColorRGBA(col);
+ }
+ if (!RenderCol.IsNull()) {
+ Styles.DecodeColor(RenderCol, col);
+ colRGBA = Quantity_ColorRGBA(col, static_cast<float>(1.0 - RenderTransp));
+ }
+ CTool->SetColor(aLabelForStyle, colRGBA, XCAFDoc_ColorSurf);
}
- if ( ! BoundCol.IsNull() ) {
+ if (!BoundCol.IsNull()) {
Quantity_Color col;
- Styles.DecodeColor ( BoundCol, col );
- CTool->SetColor ( aLabelForStyle, col, XCAFDoc_ColorCurv );
+ Styles.DecodeColor(BoundCol, col);
+ CTool->SetColor(aLabelForStyle, col, XCAFDoc_ColorCurv);
}
- if ( ! CurveCol.IsNull() ) {
+ if (!CurveCol.IsNull()) {
Quantity_Color col;
- Styles.DecodeColor ( CurveCol, col );
- CTool->SetColor ( aLabelForStyle, col, XCAFDoc_ColorCurv );
+ Styles.DecodeColor(CurveCol, col);
+ CTool->SetColor(aLabelForStyle, col, XCAFDoc_ColorCurv);
}
- if ( !IsVisible )
+ if (!IsVisible)
// sets the invisibility for shape.
- CTool->SetVisibility( aLabelForStyle, Standard_False );
-
+ CTool->SetVisibility(aLabelForStyle, Standard_False);
+
} // end search SHUO by SDR
} // end iterates on styles
-
+
return Standard_True;
}
-
//=======================================================================
-//function : GetLengthConversionFactor
+//function : GetMassConversionFactor
//purpose :
//=======================================================================
-static Standard_Boolean GetLengthConversionFactor(Handle(StepBasic_NamedUnit)& NU,
- Standard_Real& afact)
+static Standard_Boolean GetMassConversionFactor(Handle(StepBasic_NamedUnit)& NU,
+ Standard_Real& afact)
{
- afact=1.;
- if( !NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndLengthUnit)) ) return Standard_False;
- Handle(StepBasic_ConversionBasedUnitAndLengthUnit) CBULU =
- Handle(StepBasic_ConversionBasedUnitAndLengthUnit)::DownCast(NU);
- Handle(StepBasic_MeasureWithUnit) MWUCBU = CBULU->ConversionFactor();
+ afact = 1.;
+ if (!NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndMassUnit))) return Standard_False;
+ Handle(StepBasic_ConversionBasedUnitAndMassUnit) CBUMU =
+ Handle(StepBasic_ConversionBasedUnitAndMassUnit)::DownCast(NU);
+ Handle(StepBasic_MeasureWithUnit) MWUCBU = CBUMU->ConversionFactor();
afact = MWUCBU->ValueComponent();
StepBasic_Unit anUnit2 = MWUCBU->UnitComponent();
- if(anUnit2.CaseNum(anUnit2.Value())==1) {
+ if (anUnit2.CaseNum(anUnit2.Value()) == 1) {
Handle(StepBasic_NamedUnit) NU2 = anUnit2.NamedUnit();
- if(NU2->IsKind(STANDARD_TYPE(StepBasic_SiUnit))) {
+ if (NU2->IsKind(STANDARD_TYPE(StepBasic_SiUnit))) {
Handle(StepBasic_SiUnit) SU = Handle(StepBasic_SiUnit)::DownCast(NU2);
- if(SU->Name()==StepBasic_sunMetre) {
- if(SU->HasPrefix())
- afact *= STEPConstruct_UnitContext::ConvertSiPrefix (SU->Prefix());
- // convert m to mm
- afact *= 1000.;
+ if (SU->Name() == StepBasic_sunGram) {
+ if (SU->HasPrefix())
+ afact *= STEPConstruct_UnitContext::ConvertSiPrefix(SU->Prefix());
}
}
}
return Standard_True;
}
+//=======================================================================
+//function : readPMIPresentation
+//purpose : read polyline or tessellated presentation for
+// (Annotation_Curve_Occurrence or Draughting_Callout)
+//=======================================================================
+Standard_Boolean readPMIPresentation(const Handle(Standard_Transient)& thePresentEntity,
+ const Handle(XSControl_TransferReader)& theTR,
+ const Standard_Real theFact,
+ TopoDS_Shape& thePresentation,
+ Handle(TCollection_HAsciiString)& thePresentName,
+ Bnd_Box& theBox)
+{
+ if (thePresentEntity.IsNull())
+ return Standard_False;
+ Handle(Transfer_TransientProcess) aTP = theTR->TransientProcess();
+ Handle(StepVisual_AnnotationOccurrence) anAO;
+ NCollection_Vector<Handle(StepVisual_StyledItem)> anAnnotations;
+ if (thePresentEntity->IsKind(STANDARD_TYPE(StepVisual_AnnotationOccurrence)))
+ {
+ anAO = Handle(StepVisual_AnnotationOccurrence)::DownCast(thePresentEntity);
+ if (!anAO.IsNull()) {
+ thePresentName = anAO->Name();
+ anAnnotations.Append(anAO);
+ }
+ }
+ else if (thePresentEntity->IsKind(STANDARD_TYPE(StepVisual_DraughtingCallout)))
+ {
+ Handle(StepVisual_DraughtingCallout) aDCallout =
+ Handle(StepVisual_DraughtingCallout)::DownCast(thePresentEntity);
+ thePresentName = aDCallout->Name();
+ for (Standard_Integer i = 1; i <= aDCallout->NbContents() && anAO.IsNull(); i++) {
+ anAO = Handle(StepVisual_AnnotationOccurrence)::DownCast(aDCallout->ContentsValue(i).Value());
+ if (!anAO.IsNull())
+ {
+ anAnnotations.Append(anAO);
+ continue;
+ }
+ Handle(StepVisual_TessellatedAnnotationOccurrence) aTesselation =
+ aDCallout->ContentsValue(i).TessellatedAnnotationOccurrence();
+ if (!aTesselation.IsNull())
+ anAnnotations.Append(aTesselation);
+ }
+ }
+
+ if (!anAnnotations.Length())
+ return Standard_False;
+
+
+ BRep_Builder aB;
+ TopoDS_Compound aResAnnotation;
+ aB.MakeCompound(aResAnnotation);
+
+ Standard_Integer i = 0;
+ Bnd_Box aBox;
+ Standard_Integer nbShapes = 0;
+ for (; i < anAnnotations.Length(); i++)
+ {
+ Handle(StepVisual_StyledItem) anItem = anAnnotations(i);
+ anAO = Handle(StepVisual_AnnotationOccurrence)::DownCast(anItem);
+ TopoDS_Shape anAnnotationShape;
+ if (!anAO.IsNull())
+ {
+ Handle(StepRepr_RepresentationItem) aCurveItem = anAO->Item();
+ anAnnotationShape = STEPConstruct::FindShape(aTP, aCurveItem);
+ if (anAnnotationShape.IsNull())
+ {
+ Handle(Transfer_Binder) binder = theTR->Actor()->Transfer(aCurveItem, aTP);
+ if (!binder.IsNull() && binder->HasResult()) {
+ anAnnotationShape = TransferBRep::ShapeResult(aTP, binder);
+ }
+ }
+ }
+ //case of tessellated entities
+ else
+ {
+ Handle(StepRepr_RepresentationItem) aTessItem = anItem->Item();
+ if (aTessItem.IsNull())
+ continue;
+ Handle(StepVisual_TessellatedGeometricSet) aTessSet = Handle(StepVisual_TessellatedGeometricSet)::DownCast(aTessItem);
+ if (aTessSet.IsNull())
+ continue;
+ NCollection_Handle<StepVisual_Array1OfTessellatedItem> aListItems = aTessSet->Items();
+ Standard_Integer nb = aListItems.IsNull() ? 0 : aListItems->Length();
+ Handle(StepVisual_TessellatedCurveSet) aTessCurve;
+ for (Standard_Integer n = 1; n <= nb && aTessCurve.IsNull(); n++)
+ {
+ aTessCurve = Handle(StepVisual_TessellatedCurveSet)::DownCast(aListItems->Value(n));
+ }
+ if (aTessCurve.IsNull())
+ continue;
+ Handle(StepVisual_CoordinatesList) aCoordList = aTessCurve->CoordList();
+ if (aCoordList.IsNull())
+ continue;
+ Handle(TColgp_HArray1OfXYZ) aPoints = aCoordList->Points();
+
+ if (aPoints.IsNull() || aPoints->Length() == 0)
+ continue;
+ NCollection_Handle<StepVisual_VectorOfHSequenceOfInteger> aCurves = aTessCurve->Curves();
+ Standard_Integer aNbC = (aCurves.IsNull() ? 0 : aCurves->Length());
+ TopoDS_Compound aComp;
+ aB.MakeCompound(aComp);
+
+ Standard_Integer k = 0;
+ for (; k < aNbC; k++)
+ {
+ Handle(TColStd_HSequenceOfInteger) anIndexes = aCurves->Value(k);
+ TopoDS_Wire aCurW;
+ aB.MakeWire(aCurW);
+
+ for (Standard_Integer n = 1; n < anIndexes->Length(); n++)
+ {
+ Standard_Integer ind = anIndexes->Value(n);
+ Standard_Integer indnext = anIndexes->Value(n + 1);
+ if (ind > aPoints->Length() || indnext > aPoints->Length())
+ continue;
+ gp_Pnt aP1(aPoints->Value(ind) * theFact);
+ gp_Pnt aP2(aPoints->Value(indnext) * theFact);
+ BRepBuilderAPI_MakeEdge aMaker(aP1, aP2);
+ if (aMaker.IsDone())
+ {
+ TopoDS_Edge aCurE = aMaker.Edge();
+ aB.Add(aCurW, aCurE);
+ }
+ }
+ aB.Add(aComp, aCurW);
+ }
+ anAnnotationShape = aComp;
+ }
+ if (!anAnnotationShape.IsNull())
+ {
+ nbShapes++;
+ aB.Add(aResAnnotation, anAnnotationShape);
+ if (i == anAnnotations.Length() - 1)
+ BRepBndLib::AddClose(anAnnotationShape, aBox);
+ }
+ }
+
+ thePresentation = aResAnnotation;
+ theBox = aBox;
+ return (nbShapes > 0);
+}
+
+//=======================================================================
+//function : readAnnotationPlane
+//purpose : read annotation plane
+//=======================================================================
+Standard_Boolean readAnnotationPlane(const Handle(StepVisual_AnnotationPlane) theAnnotationPlane,
+ gp_Ax2& thePlane)
+{
+ if (theAnnotationPlane.IsNull())
+ return Standard_False;
+ Handle(StepRepr_RepresentationItem) aPlaneItem = theAnnotationPlane->Item();
+ if (aPlaneItem.IsNull())
+ return Standard_False;
+ Handle(StepGeom_Axis2Placement3d) aA2P3D;
+ //retrieve axes from AnnotationPlane
+ if (aPlaneItem->IsKind(STANDARD_TYPE(StepGeom_Plane))) {
+ Handle(StepGeom_Plane) aPlane = Handle(StepGeom_Plane)::DownCast(aPlaneItem);
+ aA2P3D = aPlane->Position();
+ }
+ else if (aPlaneItem->IsKind(STANDARD_TYPE(StepVisual_PlanarBox))) {
+ Handle(StepVisual_PlanarBox) aBox = Handle(StepVisual_PlanarBox)::DownCast(aPlaneItem);
+ aA2P3D = aBox->Placement().Axis2Placement3d();
+ }
+ if (aA2P3D.IsNull())
+ return Standard_False;
+
+ Handle(Geom_Axis2Placement) anAxis = StepToGeom::MakeAxis2Placement(aA2P3D);
+ thePlane = anAxis->Ax2();
+ return Standard_True;
+}
//=======================================================================
-//function : GetMassConversionFactor
+//function : readAnnotation
+//purpose : read annotation plane and position for given GDT
+// (Dimension, Geometric_Tolerance, Datum_Feature or Placed_Datum_Target_Feature)
+//=======================================================================
+void readAnnotation(const Handle(XSControl_TransferReader)& theTR,
+ const Handle(Standard_Transient)& theGDT,
+ const Handle(Standard_Transient)& theDimObject)
+{
+ if (theGDT.IsNull() || theDimObject.IsNull())
+ return;
+ Handle(TCollection_HAsciiString) aPresentName;
+ TopoDS_Compound aResAnnotation;
+ Handle(Transfer_TransientProcess) aTP = theTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ // find the proper DraughtingModelItemAssociation
+ Interface_EntityIterator subs = aGraph.Sharings(theGDT);
+ Handle(StepAP242_DraughtingModelItemAssociation) aDMIA;
+ for (subs.Start(); subs.More() && aDMIA.IsNull(); subs.Next()) {
+ if (!subs.Value()->IsKind(STANDARD_TYPE(StepAP242_DraughtingModelItemAssociation)))
+ continue;
+ aDMIA = Handle(StepAP242_DraughtingModelItemAssociation)::DownCast(subs.Value());
+ Handle(TCollection_HAsciiString) aName = aDMIA->Name();
+ aName->LowerCase();
+ if (!aName->Search(new TCollection_HAsciiString("pmi representation to presentation link"))) {
+ aDMIA = NULL;
+ }
+ }
+ if (aDMIA.IsNull() || aDMIA->NbIdentifiedItem() == 0)
+ return;
+
+ // calculate units
+ Handle(StepVisual_DraughtingModel) aDModel =
+ Handle(StepVisual_DraughtingModel)::DownCast(aDMIA->UsedRepresentation());
+ XSAlgo::AlgoContainer()->PrepareForTransfer();
+ STEPControl_ActorRead anActor;
+ anActor.PrepareUnits(aDModel, aTP);
+ Standard_Real aFact = UnitsMethods::LengthFactor();
+
+ // retrieve AnnotationPlane
+ Handle(StepRepr_RepresentationItem) aDMIAE = aDMIA->IdentifiedItemValue(1);
+ if (aDMIAE.IsNull())
+ return;
+ gp_Ax2 aPlaneAxes;
+ subs = aGraph.Sharings(aDMIAE);
+ Handle(StepVisual_AnnotationPlane) anAnPlane;
+ for (subs.Start(); subs.More() && anAnPlane.IsNull(); subs.Next()) {
+ anAnPlane = Handle(StepVisual_AnnotationPlane)::DownCast(subs.Value());
+ }
+ Standard_Boolean isHasPlane = readAnnotationPlane(anAnPlane, aPlaneAxes);
+
+ // set plane axes to XCAF
+ if (isHasPlane) {
+ if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_DimensionObject))) {
+ Handle(XCAFDimTolObjects_DimensionObject) anObj =
+ Handle(XCAFDimTolObjects_DimensionObject)::DownCast(theDimObject);
+ Handle(TColgp_HArray1OfPnt) aPnts = new TColgp_HArray1OfPnt(1, 1);
+ anObj->SetPlane(aPlaneAxes);
+ }
+ else if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_DatumObject))) {
+ Handle(XCAFDimTolObjects_DatumObject) anObj =
+ Handle(XCAFDimTolObjects_DatumObject)::DownCast(theDimObject);
+ anObj->SetPlane(aPlaneAxes);
+ }
+ else if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_GeomToleranceObject))) {
+ Handle(XCAFDimTolObjects_GeomToleranceObject) anObj =
+ Handle(XCAFDimTolObjects_GeomToleranceObject)::DownCast(theDimObject);
+ anObj->SetPlane(aPlaneAxes);
+ }
+ }
+
+ // Retrieve presentation
+ Bnd_Box aBox;
+ if (!readPMIPresentation(aDMIAE, theTR, aFact, aResAnnotation, aPresentName, aBox))
+ return;
+ gp_Pnt aPtext(0., 0., 0.);
+ // if Annotation plane location inside bounding box set it to text position
+ // else set the center of bounding box to text position 0027372
+ if (!aBox.IsVoid())
+ {
+ Standard_Real aXmin, aYmin, aZmin, aXmax, aYmax, aZmax;
+ aBox.Get(aXmin, aYmin, aZmin, aXmax, aYmax, aZmax);
+ if (isHasPlane && !aBox.IsOut(aPlaneAxes.Location())) {
+ aPtext = aPlaneAxes.Location();
+ }
+ else {
+ aPtext = gp_Pnt((aXmin + aXmax) * 0.5, (aYmin + aYmax) * 0.5, (aZmin + aZmax) * 0.5);
+ }
+ }
+ else {
+ aPtext = aPlaneAxes.Location();
+ }
+
+ // set point to XCAF
+ if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_DimensionObject))) {
+ Handle(XCAFDimTolObjects_DimensionObject) anObj =
+ Handle(XCAFDimTolObjects_DimensionObject)::DownCast(theDimObject);
+ anObj->SetPointTextAttach(aPtext);
+ anObj->SetPresentation(aResAnnotation, aPresentName);
+ }
+ else if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_DatumObject))) {
+ Handle(XCAFDimTolObjects_DatumObject) anObj =
+ Handle(XCAFDimTolObjects_DatumObject)::DownCast(theDimObject);
+ anObj->SetPointTextAttach(aPtext);
+ anObj->SetPresentation(aResAnnotation, aPresentName);
+ }
+ else if (theDimObject->IsKind(STANDARD_TYPE(XCAFDimTolObjects_GeomToleranceObject))) {
+ Handle(XCAFDimTolObjects_GeomToleranceObject) anObj =
+ Handle(XCAFDimTolObjects_GeomToleranceObject)::DownCast(theDimObject);
+ anObj->SetPointTextAttach(aPtext);
+ anObj->SetPresentation(aResAnnotation, aPresentName);
+ }
+ return;
+}
+
+//=======================================================================
+//function : readConnectionPoints
+//purpose : read connection points for given dimension
+//=======================================================================
+void readConnectionPoints(const Handle(XSControl_TransferReader)& theTR,
+ const Handle(Standard_Transient) theGDT,
+ const Handle(XCAFDimTolObjects_DimensionObject)& theDimObject)
+{
+ if (theGDT.IsNull() || theDimObject.IsNull())
+ return;
+ Handle(Transfer_TransientProcess) aTP = theTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+
+
+ Standard_Real aFact = 1.;
+
+ Handle(StepShape_ShapeDimensionRepresentation) aSDR = NULL;
+ for (Interface_EntityIterator anIt = aGraph.Sharings(theGDT); aSDR.IsNull() && anIt.More(); anIt.Next()) {
+ Handle(Standard_Transient) anEnt = anIt.Value();
+ Handle(StepShape_DimensionalCharacteristicRepresentation) aDCR =
+ Handle(StepShape_DimensionalCharacteristicRepresentation)::DownCast(anEnt);
+ if (!aDCR.IsNull())
+ aSDR = !aDCR.IsNull() ? aDCR->Representation() : Handle(StepShape_ShapeDimensionRepresentation)::DownCast(anEnt);
+ }
+ if (!aSDR.IsNull())
+ {
+ XSAlgo::AlgoContainer()->PrepareForTransfer();
+ STEPControl_ActorRead anActor;
+ anActor.PrepareUnits(aSDR, aTP);
+ aFact = UnitsMethods::LengthFactor();
+ }
+
+ if (theGDT->IsKind(STANDARD_TYPE(StepShape_DimensionalSize))) {
+ // retrieve derived geometry
+ Handle(StepShape_DimensionalSize) aDim = Handle(StepShape_DimensionalSize)::DownCast(theGDT);
+ Handle(StepRepr_DerivedShapeAspect) aDSA = Handle(StepRepr_DerivedShapeAspect)::DownCast(aDim->AppliesTo());
+ if (aDSA.IsNull())
+ return;
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU = NULL;
+ for (Interface_EntityIterator anIt = aGraph.Sharings(aDSA); aGISU.IsNull() && anIt.More(); anIt.Next()) {
+ aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIt.Value());
+ }
+ if (aGISU.IsNull() || aGISU->NbIdentifiedItem() == 0)
+ return;
+ Handle(StepGeom_CartesianPoint) aPoint = Handle(StepGeom_CartesianPoint)::DownCast(aGISU->IdentifiedItem()->Value(1));
+ if (aPoint.IsNull()) {
+ // try Axis2Placement3d.location instead of CartesianPoint
+ Handle(StepGeom_Axis2Placement3d) anA2P3D =
+ Handle(StepGeom_Axis2Placement3d)::DownCast(aGISU->IdentifiedItem()->Value(1));
+ if (anA2P3D.IsNull())
+ return;
+ aPoint = anA2P3D->Location();
+ }
+
+ // set connection point to object
+ gp_Pnt aPnt(aPoint->CoordinatesValue(1) * aFact, aPoint->CoordinatesValue(2) * aFact, aPoint->CoordinatesValue(3) * aFact);
+ theDimObject->SetPoint(aPnt);
+ }
+ else if (theGDT->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation))) {
+ // retrieve derived geometry
+ Handle(StepShape_DimensionalLocation) aDim = Handle(StepShape_DimensionalLocation)::DownCast(theGDT);
+ Handle(StepRepr_DerivedShapeAspect) aDSA1 = Handle(StepRepr_DerivedShapeAspect)::DownCast(aDim->RelatingShapeAspect());
+ Handle(StepRepr_DerivedShapeAspect) aDSA2 = Handle(StepRepr_DerivedShapeAspect)::DownCast(aDim->RelatedShapeAspect());
+ if (aDSA1.IsNull() && aDSA2.IsNull())
+ return;
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU1 = NULL;
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU2 = NULL;
+ if (!aDSA1.IsNull()) {
+ for (Interface_EntityIterator anIt = aGraph.Sharings(aDSA1); aGISU1.IsNull() && anIt.More(); anIt.Next()) {
+ aGISU1 = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIt.Value());
+ }
+ }
+ if (!aDSA2.IsNull()) {
+ for (Interface_EntityIterator anIt = aGraph.Sharings(aDSA2); aGISU2.IsNull() && anIt.More(); anIt.Next()) {
+ aGISU2 = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIt.Value());
+ }
+ }
+ // first point
+ if (!aGISU1.IsNull() && aGISU1->NbIdentifiedItem() > 0) {
+ Handle(StepGeom_CartesianPoint) aPoint = Handle(StepGeom_CartesianPoint)::DownCast(aGISU1->IdentifiedItem()->Value(1));
+ if (aPoint.IsNull()) {
+ // try Axis2Placement3d.location instead of CartesianPoint
+ Handle(StepGeom_Axis2Placement3d) anA2P3D =
+ Handle(StepGeom_Axis2Placement3d)::DownCast(aGISU1->IdentifiedItem()->Value(1));
+ if (!anA2P3D.IsNull())
+ aPoint = anA2P3D->Location();
+ }
+ if (!aPoint.IsNull()) {
+ // set connection point to object
+ gp_Pnt aPnt(aPoint->CoordinatesValue(1) * aFact, aPoint->CoordinatesValue(2) * aFact, aPoint->CoordinatesValue(3) * aFact);
+ theDimObject->SetPoint(aPnt);
+ }
+ }
+ // second point
+ if (!aGISU2.IsNull() && aGISU2->NbIdentifiedItem() > 0) {
+ Handle(StepGeom_CartesianPoint) aPoint = Handle(StepGeom_CartesianPoint)::DownCast(aGISU2->IdentifiedItem()->Value(1));
+ if (aPoint.IsNull()) {
+ // try Axis2Placement3d.location instead of CartesianPoint
+ Handle(StepGeom_Axis2Placement3d) anA2P3D =
+ Handle(StepGeom_Axis2Placement3d)::DownCast(aGISU2->IdentifiedItem()->Value(1));
+ if (!anA2P3D.IsNull())
+ aPoint = anA2P3D->Location();
+ }
+ if (!aPoint.IsNull()) {
+ // set connection point to object
+ gp_Pnt aPnt(aPoint->CoordinatesValue(1) * aFact, aPoint->CoordinatesValue(2) * aFact, aPoint->CoordinatesValue(3) * aFact);
+ theDimObject->SetPoint2(aPnt);
+ }
+ }
+ }
+}
+
+//=======================================================================
+//function : ReadDatums
+//purpose : auxilary
+//=======================================================================
+static Standard_Boolean ReadDatums(const Handle(XCAFDoc_ShapeTool) &STool,
+ const Handle(XCAFDoc_DimTolTool) &DGTTool,
+ const Interface_Graph &graph,
+ const Handle(Transfer_TransientProcess) &TP,
+ const TDF_Label TolerL,
+ const Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR)
+{
+ if (GTWDR.IsNull()) return Standard_False;
+ Handle(StepDimTol_HArray1OfDatumReference) HADR = GTWDR->DatumSystem();
+ if (HADR.IsNull()) return Standard_False;
+ for (Standard_Integer idr = 1; idr <= HADR->Length(); idr++) {
+ Handle(StepDimTol_DatumReference) DR = HADR->Value(idr);
+ Handle(StepDimTol_Datum) aDatum = DR->ReferencedDatum();
+ if (aDatum.IsNull()) continue;
+ Interface_EntityIterator subs4 = graph.Sharings(aDatum);
+ for (subs4.Start(); subs4.More(); subs4.Next()) {
+ Handle(StepRepr_ShapeAspectRelationship) SAR =
+ Handle(StepRepr_ShapeAspectRelationship)::DownCast(subs4.Value());
+ if (SAR.IsNull()) continue;
+ Handle(StepDimTol_DatumFeature) DF =
+ Handle(StepDimTol_DatumFeature)::DownCast(SAR->RelatingShapeAspect());
+ if (DF.IsNull()) continue;
+ Interface_EntityIterator subs5 = graph.Sharings(DF);
+ Handle(StepRepr_PropertyDefinition) PropDef;
+ for (subs5.Start(); subs5.More() && PropDef.IsNull(); subs5.Next()) {
+ PropDef = Handle(StepRepr_PropertyDefinition)::DownCast(subs5.Value());
+ }
+ if (PropDef.IsNull()) continue;
+ Handle(StepShape_AdvancedFace) AF;
+ subs5 = graph.Sharings(PropDef);
+ for (subs5.Start(); subs5.More(); subs5.Next()) {
+ Handle(StepShape_ShapeDefinitionRepresentation) SDR =
+ Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs5.Value());
+ if (!SDR.IsNull()) {
+ Handle(StepRepr_Representation) Repr = SDR->UsedRepresentation();
+ if (!Repr.IsNull() && Repr->NbItems() > 0) {
+ Handle(StepRepr_RepresentationItem) RI = Repr->ItemsValue(1);
+ AF = Handle(StepShape_AdvancedFace)::DownCast(RI);
+ }
+ }
+ }
+ if (AF.IsNull()) return Standard_False;
+ Standard_Integer index = TP->MapIndex(AF);
+ TopoDS_Shape aSh;
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = TP->MapItem(index);
+ aSh = TransferBRep::ShapeResult(binder);
+ }
+ if (aSh.IsNull()) continue;
+ TDF_Label shL;
+ if (!STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True)) continue;
+ DGTTool->SetDatum(shL, TolerL, PropDef->Name(), PropDef->Description(), aDatum->Identification());
+ }
+ }
+ return Standard_True;
+}
+
+//=======================================================================
+//function : FindShapeIndexForDGT
+//purpose : auxiliary find shape index in map og imported shapes
+//=======================================================================
+static Standard_Integer FindShapeIndexForDGT(const Handle(Standard_Transient)& theEnt,
+ const Handle(XSControl_WorkSession)& theWS)
+{
+ const Handle(Transfer_TransientProcess) &aTP = theWS->TransferReader()->TransientProcess();
+ // try to find index of given entity
+ Standard_Integer anIndex = aTP->MapIndex(theEnt);
+ if (anIndex > 0)
+ return anIndex;
+ // if theEnt is a geometry item try to find its topological item
+ const Interface_Graph& aGraph = aTP->Graph();
+ Interface_EntityIterator anIter = aGraph.Sharings(theEnt);
+ for (anIter.Start(); anIter.More(); anIter.Next()) {
+ if (anIter.Value()->IsKind(STANDARD_TYPE(StepShape_TopologicalRepresentationItem)))
+ {
+ anIndex = aTP->MapIndex(anIter.Value());
+ if (anIndex > 0)
+ return anIndex;
+ }
+ }
+ return 0;
+}
+
+//=======================================================================
+//function : collectShapeAspect
+//purpose :
+//=======================================================================
+static void collectShapeAspect(const Handle(StepRepr_ShapeAspect)& theSA,
+ const Handle(XSControl_WorkSession)& theWS,
+ NCollection_Sequence<Handle(StepRepr_ShapeAspect)>& theSAs)
+{
+ if (theSA.IsNull())
+ return;
+ Handle(XSControl_TransferReader) aTR = theWS->TransferReader();
+ Handle(Transfer_TransientProcess) aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ // Retrieve Shape_Aspect, connected to Representation_Item from Derived_Shape_Aspect
+ if (theSA->IsKind(STANDARD_TYPE(StepRepr_DerivedShapeAspect))) {
+ Interface_EntityIterator anIter = aGraph.Sharings(theSA);
+ Handle(StepRepr_ShapeAspectDerivingRelationship) aSADR = NULL;
+ for (; aSADR.IsNull() && anIter.More(); anIter.Next()) {
+ aSADR = Handle(StepRepr_ShapeAspectDerivingRelationship)::DownCast(anIter.Value());
+ }
+ if (!aSADR.IsNull())
+ collectShapeAspect(aSADR->RelatedShapeAspect(), theWS, theSAs);
+ }
+ else if (theSA->IsKind(STANDARD_TYPE(StepDimTol_DatumFeature)) ||
+ theSA->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget))) {
+ theSAs.Append(theSA);
+ return;
+ }
+ else {
+ // Find all children Shape_Aspect
+ Standard_Boolean isSimple = Standard_True;
+ Interface_EntityIterator anIter = aGraph.Sharings(theSA);
+ for (; anIter.More(); anIter.Next()) {
+ if (anIter.Value()->IsKind(STANDARD_TYPE(StepRepr_ShapeAspectRelationship)) &&
+ !anIter.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation))) {
+ Handle(StepRepr_ShapeAspectRelationship) aSAR =
+ Handle(StepRepr_ShapeAspectRelationship)::DownCast(anIter.Value());
+ if (aSAR->RelatingShapeAspect() == theSA && !aSAR->RelatedShapeAspect().IsNull()
+ && !aSAR->RelatedShapeAspect()->IsKind(STANDARD_TYPE(StepDimTol_Datum))) {
+ collectShapeAspect(aSAR->RelatedShapeAspect(), theWS, theSAs);
+ isSimple = Standard_False;
+ }
+ }
+ }
+ // If not Composite_Shape_Aspect (or subtype) append to sequence.
+ if (isSimple)
+ theSAs.Append(theSA);
+ }
+}
+
+//=======================================================================
+//function : getShapeLabel
+//purpose :
+//=======================================================================
+
+static TDF_Label getShapeLabel(const Handle(StepRepr_RepresentationItem)& theItem,
+ const Handle(XSControl_WorkSession)& theWS,
+ const Handle(XCAFDoc_ShapeTool)& theShapeTool)
+{
+ TDF_Label aShapeL;
+ const Handle(Transfer_TransientProcess) &aTP = theWS->TransferReader()->TransientProcess();
+ Standard_Integer index = FindShapeIndexForDGT(theItem, theWS);
+ TopoDS_Shape aShape;
+ if (index > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(index);
+ aShape = TransferBRep::ShapeResult(aBinder);
+ }
+ if (aShape.IsNull())
+ return aShapeL;
+ theShapeTool->Search(aShape, aShapeL, Standard_True, Standard_True, Standard_True);
+ return aShapeL;
+}
+
+//=======================================================================
+//function : setDatumToXCAF
+//purpose :
+//=======================================================================
+
+Standard_Boolean STEPCAFControl_Reader::setDatumToXCAF(const Handle(StepDimTol_Datum)& theDat,
+ const TDF_Label theGDTL,
+ const Standard_Integer thePositionCounter,
+ const XCAFDimTolObjects_DatumModifiersSequence& theXCAFModifiers,
+ const XCAFDimTolObjects_DatumModifWithValue theXCAFModifWithVal,
+ const Standard_Real theModifValue,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(XSControl_WorkSession)& theWS)
+{
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ const Handle(Transfer_TransientProcess) &aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ Handle(XCAFDoc_Datum) aDat;
+ TDF_LabelSequence aShapeLabels;
+ Handle(XCAFDimTolObjects_DatumObject) aDatObj = new XCAFDimTolObjects_DatumObject();
+
+ // Collect all links to shapes
+ NCollection_Sequence<Handle(StepRepr_ShapeAspect)> aSAs;
+ Interface_EntityIterator anIterD = aGraph.Sharings(theDat);
+ for (anIterD.Start(); anIterD.More(); anIterD.Next()) {
+ Handle(StepRepr_ShapeAspectRelationship) aSAR = Handle(StepRepr_ShapeAspectRelationship)::DownCast(anIterD.Value());
+ if (aSAR.IsNull() || aSAR->RelatingShapeAspect().IsNull())
+ continue;
+ collectShapeAspect(aSAR->RelatingShapeAspect(), theWS, aSAs);
+ Handle(StepDimTol_DatumFeature) aDF = Handle(StepDimTol_DatumFeature)::DownCast(aSAR->RelatingShapeAspect());
+ if (!aSAR->RelatingShapeAspect()->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget)))
+ readAnnotation(aTR, aSAR->RelatingShapeAspect(), aDatObj);
+ }
+
+ // Collect shape labels
+ for (Standard_Integer i = 1; i <= aSAs.Length(); i++) {
+ Handle(StepRepr_ShapeAspect) aSA = aSAs.Value(i);
+ if (aSA.IsNull())
+ continue;
+ // Skip datum targets
+ if (aSA->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget)))
+ continue;
+
+ // Process all connected GISU
+ Interface_EntityIterator anIter = aGraph.Sharings(aSA);
+ for (; anIter.More(); anIter.Next()) {
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIter.Value());
+ if (aGISU.IsNull())
+ continue;
+ for (Standard_Integer j = 1; j <= aGISU->NbIdentifiedItem(); j++) {
+ TDF_Label aShapeL = getShapeLabel(aGISU->IdentifiedItemValue(j), theWS, aSTool);
+ if (!aShapeL.IsNull())
+ aShapeLabels.Append(aShapeL);
+ }
+ }
+ }
+
+ // Process datum targets and create objects for them
+ Standard_Boolean isExistDatumTarget = Standard_False;
+ for (Standard_Integer i = 1; i <= aSAs.Length(); i++) {
+ Handle(StepDimTol_PlacedDatumTargetFeature) aDT = Handle(StepDimTol_PlacedDatumTargetFeature)::DownCast(aSAs.Value(i));
+ if (aDT.IsNull())
+ continue;
+ Handle(XCAFDimTolObjects_DatumObject) aDatTargetObj = new XCAFDimTolObjects_DatumObject();
+ XCAFDimTolObjects_DatumTargetType aType;
+ if (!STEPCAFControl_GDTProperty::GetDatumTargetType(aDT->Description(), aType))
+ continue;
+ aDatTargetObj->SetDatumTargetType(aType);
+ Standard_Boolean isValidDT = Standard_False;
+
+ // Feature for datum target
+ TDF_LabelSequence aDTShapeLabels;
+ Interface_EntityIterator aDTIter = aGraph.Sharings(aDT);
+ Handle(StepRepr_FeatureForDatumTargetRelationship) aRelationship;
+ for (; aDTIter.More() && aRelationship.IsNull(); aDTIter.Next()) {
+ aRelationship = Handle(StepRepr_FeatureForDatumTargetRelationship)::DownCast(aDTIter.Value());
+ }
+ if (!aRelationship.IsNull()) {
+ Handle(StepRepr_ShapeAspect) aSA = aRelationship->RelatingShapeAspect();
+ Interface_EntityIterator aSAIter = aGraph.Sharings(aSA);
+ for (; aSAIter.More(); aSAIter.Next()) {
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(aSAIter.Value());
+ if (aGISU.IsNull())
+ continue;
+ for (Standard_Integer j = 1; j <= aGISU->NbIdentifiedItem(); j++) {
+ TDF_Label aShapeL = getShapeLabel(aGISU->IdentifiedItemValue(j), theWS, aSTool);
+ if (!aShapeL.IsNull()) {
+ aDTShapeLabels.Append(aShapeL);
+ isValidDT = Standard_True;
+ }
+ }
+ }
+ }
+
+ if (aType != XCAFDimTolObjects_DatumTargetType_Area && !isValidDT) {
+ // Try another way of feature connection
+ for (aDTIter.Start(); aDTIter.More(); aDTIter.Next()) {
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(aDTIter.Value());
+ if (aGISU.IsNull())
+ continue;
+ for (Standard_Integer j = 1; j <= aGISU->NbIdentifiedItem(); j++) {
+ TDF_Label aShapeL = getShapeLabel(aGISU->IdentifiedItemValue(j), theWS, aSTool);
+ if (!aShapeL.IsNull()) {
+ aDTShapeLabels.Append(aShapeL);
+ isValidDT = Standard_True;
+ }
+ }
+ }
+ }
+
+ if (aType == XCAFDimTolObjects_DatumTargetType_Area) {
+ // Area datum target
+ Interface_EntityIterator anIterDTF = aGraph.Shareds(aDT);
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU;
+ for (; anIterDTF.More() && aGISU.IsNull(); anIterDTF.Next()) {
+ aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIterDTF.Value());
+ }
+ Handle(StepRepr_RepresentationItem) anItem;
+ if (aGISU->NbIdentifiedItem() > 0)
+ anItem = aGISU->IdentifiedItemValue(1);
+ if (anItem.IsNull())
+ continue;
+ Standard_Integer anItemIndex = FindShapeIndexForDGT(anItem, theWS);
+ if (anItemIndex > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(anItemIndex);
+ TopoDS_Shape anItemShape = TransferBRep::ShapeResult(aBinder);
+ aDatTargetObj->SetDatumTarget(anItemShape);
+ isValidDT = Standard_True;
+ }
+ }
+ else {
+ // Point/line/rectangle/circle datum targets
+ Interface_EntityIterator anIter = aGraph.Sharings(aDT);
+ Handle(StepRepr_PropertyDefinition) aPD;
+ for (; anIter.More() && aPD.IsNull(); anIter.Next()) {
+ aPD = Handle(StepRepr_PropertyDefinition)::DownCast(anIter.Value());
+ }
+ if (!aPD.IsNull()) {
+ anIter = aGraph.Sharings(aPD);
+ Handle(StepShape_ShapeDefinitionRepresentation) aSDR;
+ for (; anIter.More() && aSDR.IsNull(); anIter.Next()) {
+ aSDR = Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(anIter.Value());
+ }
+ if (!aSDR.IsNull()) {
+ Handle(StepShape_ShapeRepresentationWithParameters) aSRWP
+ = Handle(StepShape_ShapeRepresentationWithParameters)::DownCast(aSDR->UsedRepresentation());
+ if (!aSRWP.IsNull()) {
+ isValidDT = Standard_True;
+ // Collect parameters of datum target
+ for (Standard_Integer j = aSRWP->Items()->Lower(); j <= aSRWP->Items()->Upper(); j++)
+ {
+ if (aSRWP->ItemsValue(j).IsNull())
+ continue;
+ if (aSRWP->ItemsValue(j)->IsKind(STANDARD_TYPE(StepGeom_Axis2Placement3d)))
+ {
+ Handle(StepGeom_Axis2Placement3d) anAx
+ = Handle(StepGeom_Axis2Placement3d)::DownCast(aSRWP->ItemsValue(j));
+ XSAlgo::AlgoContainer()->PrepareForTransfer();
+ STEPControl_ActorRead anActor;
+ anActor.PrepareUnits(aSRWP, aTP);
+ Handle(Geom_Axis2Placement) anAxis = StepToGeom::MakeAxis2Placement(anAx);
+ aDatTargetObj->SetDatumTargetAxis(anAxis->Ax2());
+ }
+ else if (aSRWP->ItemsValue(j)->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit)))
+ {
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit) aM =
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit)::DownCast(aSRWP->ItemsValue(j));
+ Standard_Real aVal = aM->GetMeasureWithUnit()->ValueComponent();
+ StepBasic_Unit anUnit = aM->GetMeasureWithUnit()->UnitComponent();
+ if (anUnit.IsNull())
+ continue;
+ Handle(StepBasic_NamedUnit) aNU = anUnit.NamedUnit();
+ if (aNU.IsNull())
+ continue;
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(aNU);
+ aVal = aVal * anUnitCtx.LengthFactor();
+ if (aM->Name()->String().IsEqual("target length") ||
+ aM->Name()->String().IsEqual("target diameter"))
+ aDatTargetObj->SetDatumTargetLength(aVal);
+ else
+ aDatTargetObj->SetDatumTargetWidth(aVal);
+ }
+ }
+ }
+ }
+ }
+ }
+
+ // Create datum target object
+ if (isValidDT) {
+ TDF_Label aDatL = aDGTTool->AddDatum();
+ myGDTMap.Bind(aDT, aDatL);
+ aDGTTool->Lock(aDatL);
+ aDat = XCAFDoc_Datum::Set(aDatL);
+ aDGTTool->SetDatum(aDTShapeLabels, aDatL);
+ aDatTargetObj->SetName(theDat->Identification());
+ aDatTargetObj->SetPosition(thePositionCounter);
+ if (!theXCAFModifiers.IsEmpty())
+ aDatTargetObj->SetModifiers(theXCAFModifiers);
+ if (theXCAFModifWithVal != XCAFDimTolObjects_DatumModifWithValue_None)
+ aDatTargetObj->SetModifierWithValue(theXCAFModifWithVal, theModifValue);
+ aDGTTool->SetDatumToGeomTol(aDatL, theGDTL);
+ aDatTargetObj->IsDatumTarget(Standard_True);
+ aDatTargetObj->SetDatumTargetNumber(aDT->TargetId()->IntegerValue());
+ readAnnotation(aTR, aDT, aDatTargetObj);
+ aDat->SetObject(aDatTargetObj);
+ isExistDatumTarget = Standard_True;
+ }
+ }
+
+ if (aShapeLabels.Length() > 0 || !isExistDatumTarget) {
+ // Create object for datum
+ TDF_Label aDatL = aDGTTool->AddDatum();
+ myGDTMap.Bind(theDat, aDatL);
+ // bind datum label with all reference datum_feature entities
+ for (Standard_Integer i = 1; i <= aSAs.Length(); i++) {
+ Handle(StepRepr_ShapeAspect) aSA = aSAs.Value(i);
+ if (aSA.IsNull() || aSA->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget)))
+ continue;
+ myGDTMap.Bind(aSA, aDatL);
+ }
+ aDGTTool->Lock(aDatL);
+ aDat = XCAFDoc_Datum::Set(aDatL);
+ aDGTTool->SetDatum(aShapeLabels, aDatL);
+ aDatObj->SetName(theDat->Identification());
+ aDatObj->SetPosition(thePositionCounter);
+ if (!theXCAFModifiers.IsEmpty())
+ aDatObj->SetModifiers(theXCAFModifiers);
+ if (theXCAFModifWithVal != XCAFDimTolObjects_DatumModifWithValue_None)
+ aDatObj->SetModifierWithValue(theXCAFModifWithVal, theModifValue);
+ aDGTTool->SetDatumToGeomTol(aDatL, theGDTL);
+ if (aDatObj->GetPresentation().IsNull()) {
+ // Try find annotation connected to datum entity (not right case, according recommended practices)
+ readAnnotation(aTR, theDat, aDatObj);
+ }
+ aDat->SetObject(aDatObj);
+ }
+
+ return Standard_True;
+}
+
+
+//=======================================================================
+//function : ReadDatums
+//purpose : auxilary
+//=======================================================================
+Standard_Boolean STEPCAFControl_Reader::readDatumsAP242(const Handle(Standard_Transient)& theEnt,
+ const TDF_Label theGDTL,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(XSControl_WorkSession)& theWS)
+{
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ const Handle(Transfer_TransientProcess) &aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+
+ Interface_EntityIterator anIter = aGraph.Shareds(theEnt);
+ for (anIter.Start(); anIter.More(); anIter.Next()) {
+ Handle(Standard_Transient) anAtr = anIter.Value();
+ if (anAtr->IsKind(STANDARD_TYPE(StepDimTol_DatumSystem)))
+ {
+ Standard_Integer aPositionCounter = 0;//position on frame
+ Handle(StepDimTol_DatumSystem) aDS = Handle(StepDimTol_DatumSystem)::DownCast(anAtr);
+ Interface_EntityIterator anIterDS = aGraph.Sharings(aDS);
+ for (anIterDS.Start(); anIterDS.More(); anIterDS.Next()) {
+ Handle(Standard_Transient) anAtrDS = anIterDS.Value();
+ if (anAtrDS->IsKind(STANDARD_TYPE(StepAP242_GeometricItemSpecificUsage)))
+ {
+ //get axis
+ Handle(StepAP242_GeometricItemSpecificUsage)aAxGISUI
+ = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anAtrDS);
+ if (aAxGISUI->IdentifiedItemValue(1)->IsKind(STANDARD_TYPE(StepGeom_Axis2Placement3d)))
+ {
+ Handle(StepGeom_Axis2Placement3d) anAx
+ = Handle(StepGeom_Axis2Placement3d)::DownCast(aAxGISUI->IdentifiedItemValue(1));
+ Handle(XCAFDoc_GeomTolerance) aTol;
+ if (theGDTL.FindAttribute(XCAFDoc_GeomTolerance::GetID(), aTol))
+ {
+ Handle(XCAFDimTolObjects_GeomToleranceObject) anObj = aTol->GetObject();
+ Handle(TColStd_HArray1OfReal) aDirArr = anAx->Axis()->DirectionRatios();
+ Handle(TColStd_HArray1OfReal) aDirRArr = anAx->RefDirection()->DirectionRatios();
+ Handle(TColStd_HArray1OfReal) aLocArr = anAx->Location()->Coordinates();
+ gp_Dir aDir;
+ gp_Dir aDirR;
+ gp_Pnt aPnt;
+ if (!aDirArr.IsNull() && aDirArr->Length() > 2 &&
+ !aDirRArr.IsNull() && aDirRArr->Length() > 2 &&
+ !aLocArr.IsNull() && aLocArr->Length() > 2)
+ {
+ aDir.SetCoord(aDirArr->Lower(), aDirArr->Lower() + 1, aDirArr->Lower() + 2);
+ aDirR.SetCoord(aDirRArr->Lower(), aDirRArr->Lower() + 1, aDirRArr->Lower() + 2);
+ aPnt.SetCoord(aLocArr->Lower(), aLocArr->Lower() + 1, aLocArr->Lower() + 2);
+ gp_Ax2 anA(aPnt, aDir, aDirR);
+ anObj->SetAxis(anA);
+ aTol->SetObject(anObj);
+ }
+ }
+ }
+ }
+ }
+ if (aDS->NbConstituents() > 0)
+ {
+ //get datum feature and datum target from datum system
+ Handle(StepDimTol_HArray1OfDatumReferenceCompartment) aDRCA = aDS->Constituents();
+ if (!aDRCA.IsNull())
+ {
+ for (Standard_Integer i = aDRCA->Lower(); i <= aDRCA->Upper(); i++)
+ {
+ Handle(StepDimTol_DatumReferenceCompartment) aDRC = aDRCA->Value(i);
+ //gete modifiers
+ Handle(StepDimTol_HArray1OfDatumReferenceModifier) aModif = aDRC->Modifiers();
+ XCAFDimTolObjects_DatumModifiersSequence aXCAFModifiers;
+ XCAFDimTolObjects_DatumModifWithValue aXCAFModifWithVal = XCAFDimTolObjects_DatumModifWithValue_None;
+ Standard_Real aModifValue = 0;
+ if (!aModif.IsNull())
+ {
+ for (Standard_Integer m = aModif->Lower(); m <= aModif->Upper(); m++)
+ {
+ if (aModif->Value(m).CaseNumber() == 2)
+ aXCAFModifiers.Append(
+ (XCAFDimTolObjects_DatumSingleModif)aModif->Value(m).
+ SimpleDatumReferenceModifierMember()->Value());
+ else if (aModif->Value(m).CaseNumber() == 1)
+ {
+ aXCAFModifWithVal = (XCAFDimTolObjects_DatumModifWithValue)(aModif->Value(m).DatumReferenceModifierWithValue()->ModifierType() + 1);
+ Standard_Real aVal = aModif->Value(m).DatumReferenceModifierWithValue()->ModifierValue()->ValueComponent();
+ StepBasic_Unit anUnit = aModif->Value(m).DatumReferenceModifierWithValue()->ModifierValue()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ aModifValue = aVal * anUnitCtx.LengthFactor();
+ }
+ }
+ }
+ aPositionCounter++;
+ Interface_EntityIterator anIterDRC = aGraph.Shareds(aDRC);
+ for (anIterDRC.Start(); anIterDRC.More(); anIterDRC.Next()) {
+
+ if (anIterDRC.Value()->IsKind(STANDARD_TYPE(StepDimTol_Datum)))
+ {
+ Handle(StepDimTol_Datum) aD = Handle(StepDimTol_Datum)::DownCast(anIterDRC.Value());
+ setDatumToXCAF(aD, theGDTL, aPositionCounter, aXCAFModifiers, aXCAFModifWithVal, aModifValue, theDoc, theWS);
+ }
+ else if (anIterDRC.Value()->IsKind(STANDARD_TYPE(StepDimTol_DatumReferenceElement)))
+ {
+ Handle(StepDimTol_DatumReferenceElement) aDRE
+ = Handle(StepDimTol_DatumReferenceElement)::DownCast(anIterDRC.Value());
+ //get modifiers from group of datums
+ Handle(StepDimTol_HArray1OfDatumReferenceModifier) aModifE = aDRE->Modifiers();
+ if (!aModifE.IsNull())
+ {
+ for (Standard_Integer k = aModifE->Lower(); k <= aModifE->Upper(); k++)
+ {
+ if (aModifE->Value(k).CaseNumber() == 2)
+ aXCAFModifiers.Append(
+ (XCAFDimTolObjects_DatumSingleModif)aModifE->Value(k).
+ SimpleDatumReferenceModifierMember()->Value());
+ else if (aModifE->Value(k).CaseNumber() == 1)
+ {
+ aXCAFModifWithVal = (XCAFDimTolObjects_DatumModifWithValue)(aModifE->Value(k).DatumReferenceModifierWithValue()->ModifierType() + 1);
+ Standard_Real aVal = aModifE->Value(k).DatumReferenceModifierWithValue()->ModifierValue()->ValueComponent();
+ StepBasic_Unit anUnit = aModifE->Value(k).DatumReferenceModifierWithValue()->ModifierValue()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ aModifValue = aVal * anUnitCtx.LengthFactor();
+ }
+ }
+ }
+ Interface_EntityIterator anIterDRE = aGraph.Shareds(aDRE);
+ for (anIterDRE.Start(); anIterDRE.More(); anIterDRE.Next()) {
+ if (anIterDRE.Value()->IsKind(STANDARD_TYPE(StepDimTol_Datum)))
+ {
+ Handle(StepDimTol_Datum) aD = Handle(StepDimTol_Datum)::DownCast(anIterDRE.Value());
+ setDatumToXCAF(aD, theGDTL, aPositionCounter, aXCAFModifiers, aXCAFModifWithVal, aModifValue, theDoc, theWS);
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ }
+ return Standard_True;
+}
+
+//=======================================================================
+//function : createGeomTolObjectInXCAF
+//purpose :
+//=======================================================================
+TDF_Label STEPCAFControl_Reader::createGDTObjectInXCAF(const Handle(Standard_Transient)& theEnt,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(XSControl_WorkSession)& theWS)
+{
+ TDF_Label aGDTL;
+ if (!theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)) &&
+ !theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)) &&
+ !theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance)))
+ {
+ return aGDTL;
+ }
+
+ Handle(TCollection_HAsciiString) aSemanticName;
+
+ // protection against invalid input
+ if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ Handle(StepDimTol_GeometricTolerance) aGeomTol = Handle(StepDimTol_GeometricTolerance)::DownCast(theEnt);
+ if (aGeomTol->TolerancedShapeAspect().IsNull())
+ return aGDTL;
+ aSemanticName = aGeomTol->Name();
+ }
+ if (theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize))) {
+ Handle(StepShape_DimensionalSize) aDim = Handle(StepShape_DimensionalSize)::DownCast(theEnt);
+ if (aDim->AppliesTo().IsNull())
+ return aGDTL;
+ aSemanticName = aDim->Name();
+ }
+ if (theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation))) {
+ Handle(StepShape_DimensionalLocation) aDim = Handle(StepShape_DimensionalLocation)::DownCast(theEnt);
+ if (aDim->RelatedShapeAspect().IsNull() || aDim->RelatingShapeAspect().IsNull())
+ return aGDTL;
+ aSemanticName = aDim->Name();
+ }
+
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ const Handle(Transfer_TransientProcess) &aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ Standard_Boolean isAllAround = Standard_False;
+ Standard_Boolean isAllOver = Standard_False;
+
+ // find RepresentationItem for current Ent
+ NCollection_Sequence<Handle(Standard_Transient)> aSeqRI1, aSeqRI2;
+
+ // Collect all Shape_Aspect entities
+ Interface_EntityIterator anIter = aGraph.Shareds(theEnt);
+ for (anIter.Start(); anIter.More(); anIter.Next()) {
+ Handle(Standard_Transient) anAtr = anIter.Value();
+ NCollection_Sequence<Handle(StepRepr_ShapeAspect)> aSAs;
+ if (anAtr->IsKind(STANDARD_TYPE(StepRepr_ProductDefinitionShape)))
+ {
+ //if associating tolerances with part (All-Over)
+ Interface_EntityIterator anIterSDR = aGraph.Sharings(anAtr);
+ for (anIterSDR.Start(); anIterSDR.More(); anIterSDR.Next())
+ {
+ Handle(Standard_Transient) anAtrSDR = anIterSDR.Value();
+ if (anAtrSDR->IsKind(STANDARD_TYPE(StepShape_ShapeDefinitionRepresentation)))
+ {
+ isAllOver = Standard_True;
+ Interface_EntityIterator anIterABSR = aGraph.Shareds(anAtrSDR);
+ for (anIterABSR.Start(); anIterABSR.More(); anIterABSR.Next())
+ {
+ Handle(Standard_Transient) anAtrABSR = anIterABSR.Value();
+ if (anAtrABSR->IsKind(STANDARD_TYPE(StepShape_AdvancedBrepShapeRepresentation)))
+ {
+ aSeqRI1.Append(anAtrABSR);
+ }
+ }
+ }
+ }
+ }
+ else if (anAtr->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)) ||
+ anAtr->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)))
+ {
+ //if tolerance attached to dimension
+ Interface_EntityIterator anIterDim = aGraph.Shareds(anAtr);
+ for (anIterDim.Start(); anIterDim.More(); anIterDim.Next())
+ {
+ Handle(StepRepr_ShapeAspect) aSA = Handle(StepRepr_ShapeAspect)::DownCast(anIterDim.Value());
+ if (!aSA.IsNull()) {
+ collectShapeAspect(aSA, theWS, aSAs);
+ }
+ }
+ }
+ else if (anAtr->IsKind(STANDARD_TYPE(StepRepr_ShapeAspect)))
+ {
+ if (anAtr->IsKind(STANDARD_TYPE(StepRepr_AllAroundShapeAspect)))
+ {
+ // if applyed AllAround Modifier
+ isAllAround = Standard_True;
+ }
+ // dimensions and default tolerances
+ Handle(StepRepr_ShapeAspect) aSA = Handle(StepRepr_ShapeAspect)::DownCast(anAtr);
+ if (!aSA.IsNull()) {
+ collectShapeAspect(aSA, theWS, aSAs);
+ }
+ }
+
+ // Collect all representation items
+ if (!aSAs.IsEmpty())
+ {
+ //get representation items
+ NCollection_Sequence<Handle(Standard_Transient)> aSeqRI;
+ for (Standard_Integer i = aSAs.Lower(); i <= aSAs.Upper(); i++)
+ {
+ Interface_EntityIterator anIterSA = aGraph.Sharings(aSAs.Value(i));
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU;
+ Handle(StepRepr_PropertyDefinition) PropD;
+ for (anIterSA.Start(); anIterSA.More() && aGISU.IsNull() && PropD.IsNull(); anIterSA.Next()) {
+ aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIterSA.Value());
+ PropD = Handle(StepRepr_PropertyDefinition)::DownCast(anIterSA.Value());
+ }
+ if (!PropD.IsNull())//for old version
+ {
+ Handle(StepRepr_RepresentationItem) RI;
+ Interface_EntityIterator subs4 = aGraph.Sharings(PropD);
+ for (subs4.Start(); subs4.More(); subs4.Next()) {
+ Handle(StepShape_ShapeDefinitionRepresentation) SDR =
+ Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs4.Value());
+ if (!SDR.IsNull()) {
+ Handle(StepRepr_Representation) Repr = SDR->UsedRepresentation();
+ if (!Repr.IsNull() && Repr->NbItems() > 0) {
+ RI = Repr->ItemsValue(1);
+ }
+ }
+ }
+ if (RI.IsNull()) continue;
+
+ if (theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize))) {
+ // read dimensions
+ Handle(StepShape_EdgeCurve) EC = Handle(StepShape_EdgeCurve)::DownCast(RI);
+ if (EC.IsNull()) continue;
+ Handle(TCollection_HAsciiString) aName;
+ Handle(StepShape_DimensionalSize) DimSize =
+ Handle(StepShape_DimensionalSize)::DownCast(theEnt);
+ Standard_Real dim1 = -1., dim2 = -1.;
+ subs4 = aGraph.Sharings(DimSize);
+ for (subs4.Start(); subs4.More(); subs4.Next()) {
+ Handle(StepShape_DimensionalCharacteristicRepresentation) DimCharR =
+ Handle(StepShape_DimensionalCharacteristicRepresentation)::DownCast(subs4.Value());
+ if (!DimCharR.IsNull()) {
+ Handle(StepShape_ShapeDimensionRepresentation) SDimR = DimCharR->Representation();
+ if (!SDimR.IsNull() && SDimR->NbItems() > 0) {
+ Handle(StepRepr_RepresentationItem) anItem = SDimR->ItemsValue(1);
+ Handle(StepRepr_ValueRange) VR = Handle(StepRepr_ValueRange)::DownCast(anItem);
+ if (!VR.IsNull()) {
+ aName = VR->Name();
+ //StepRepr_CompoundItemDefinition CID = VR->ItemElement();
+ //if(CID.IsNull()) continue;
+ //Handle(StepRepr_CompoundItemDefinitionMember) CIDM =
+ // Handle(StepRepr_CompoundItemDefinitionMember)::DownCast(CID.Value());
+ //if(CIDM.IsNull()) continue;
+ //if(CIDM->ArrTransient().IsNull()) continue;
+ //Handle(StepRepr_HArray1OfRepresentationItem) HARI;
+ //if(CID.CaseMem(CIDM)==1)
+ // HARI = CID.ListRepresentationItem();
+ //if(CID.CaseMem(CIDM)==2)
+ // HARI = CID.SetRepresentationItem();
+ Handle(StepRepr_HArray1OfRepresentationItem) HARI = VR->ItemElement();
+ if (HARI.IsNull()) continue;
+ if (HARI->Length() > 0) {
+ Handle(StepRepr_RepresentationItem) RI1 = HARI->Value(1);
+ if (RI1.IsNull()) continue;
+ if (RI1->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit))) {
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit) RILMWU =
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit)::DownCast(RI1);
+ dim1 = RILMWU->GetMeasureWithUnit()->ValueComponent();
+ StepBasic_Unit anUnit = RILMWU->GetMeasureWithUnit()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ dim1 = dim1 * anUnitCtx.LengthFactor();
+ }
+ }
+ if (HARI->Length() > 1) {
+ Handle(StepRepr_RepresentationItem) RI2 = HARI->Value(2);
+ if (RI2.IsNull()) continue;
+ if (RI2->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit))) {
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit) RILMWU =
+ Handle(StepRepr_ReprItemAndLengthMeasureWithUnit)::DownCast(RI2);
+ dim2 = RILMWU->GetMeasureWithUnit()->ValueComponent();
+ StepBasic_Unit anUnit = RILMWU->GetMeasureWithUnit()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ dim2 = dim2 * anUnitCtx.LengthFactor();
+ }
+ }
+ }
+ }
+ }
+ }
+ if (dim1 < 0) continue;
+ if (dim2 < 0) dim2 = dim1;
+ //std::cout<<"DimensionalSize: dim1="<<dim1<<" dim2="<<dim2<<std::endl;
+ // now we know edge_curve and value range therefore
+ // we can create corresponding D> labels
+ Standard_Integer index = aTP->MapIndex(EC);
+ TopoDS_Shape aSh;
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = aTP->MapItem(index);
+ aSh = TransferBRep::ShapeResult(binder);
+ }
+ if (aSh.IsNull()) continue;
+ TDF_Label shL;
+ if (!aSTool->Search(aSh, shL, Standard_True, Standard_True, Standard_True)) continue;
+ Handle(TColStd_HArray1OfReal) arr = new TColStd_HArray1OfReal(1, 2);
+ arr->SetValue(1, dim1);
+ arr->SetValue(2, dim2);
+ aDGTTool->SetDimTol(shL, 1, arr, aName, DimSize->Name());
+ }
+ // read tolerances and datums
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ Handle(StepDimTol_GeometricTolerance) GT =
+ Handle(StepDimTol_GeometricTolerance)::DownCast(theEnt);
+ // read common data for tolerance
+ //Standard_Real dim = GT->Magnitude()->ValueComponent();
+ Handle(StepBasic_MeasureWithUnit) dim3 = GT->Magnitude();
+ if (dim3.IsNull()) continue;
+ Standard_Real dim = dim3->ValueComponent();
+ StepBasic_Unit anUnit = GT->Magnitude()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ dim = dim * anUnitCtx.LengthFactor();
+ //std::cout<<"GeometricTolerance: Magnitude = "<<dim<<std::endl;
+ Handle(TColStd_HArray1OfReal) arr = new TColStd_HArray1OfReal(1, 1);
+ arr->SetValue(1, dim);
+ Handle(TCollection_HAsciiString) aName = GT->Name();
+ Handle(TCollection_HAsciiString) aDescription = GT->Description();
+ Handle(StepShape_AdvancedFace) AF = Handle(StepShape_AdvancedFace)::DownCast(RI);
+ if (AF.IsNull()) continue;
+ Standard_Integer index = aTP->MapIndex(AF);
+ TopoDS_Shape aSh;
+ if (index > 0) {
+ Handle(Transfer_Binder) binder = aTP->MapItem(index);
+ aSh = TransferBRep::ShapeResult(binder);
+ }
+ if (aSh.IsNull()) continue;
+ TDF_Label shL;
+ if (!aSTool->Search(aSh, shL, Standard_True, Standard_True, Standard_True)) continue;
+ // read specific data for tolerance
+ if (GT->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol))) {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol) GTComplex =
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol)::DownCast(theEnt);
+ Standard_Integer kind = 20;
+ Handle(StepDimTol_ModifiedGeometricTolerance) MGT =
+ GTComplex->GetModifiedGeometricTolerance();
+ if (!MGT.IsNull()) {
+ kind = kind + MGT->Modifier() + 1;
+ }
+ TDF_Label TolerL = aDGTTool->SetDimTol(shL, kind, arr, aName, aDescription);
+ // translate datums connected with this tolerance
+ Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR =
+ GTComplex->GetGeometricToleranceWithDatumReference();
+ if (!GTWDR.IsNull()) {
+ ReadDatums(aSTool, aDGTTool, aGraph, aTP, TolerL, GTWDR);
+ }
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_GeometricToleranceWithDatumReference))) {
+ Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR =
+ Handle(StepDimTol_GeometricToleranceWithDatumReference)::DownCast(theEnt);
+ if (GTWDR.IsNull()) continue;
+ Standard_Integer kind = 0;
+ if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_AngularityTolerance))) kind = 24;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_CircularRunoutTolerance))) kind = 25;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_CoaxialityTolerance))) kind = 26;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_ConcentricityTolerance))) kind = 27;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_ParallelismTolerance))) kind = 28;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_PerpendicularityTolerance))) kind = 29;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_SymmetryTolerance))) kind = 30;
+ else if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_TotalRunoutTolerance))) kind = 31;
+ //std::cout<<"GTWDR: kind="<<kind<<std::endl;
+ TDF_Label TolerL = aDGTTool->SetDimTol(shL, kind, arr, aName, aDescription);
+ ReadDatums(aSTool, aDGTTool, aGraph, aTP, TolerL, GTWDR);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_ModifiedGeometricTolerance))) {
+ Handle(StepDimTol_ModifiedGeometricTolerance) MGT =
+ Handle(StepDimTol_ModifiedGeometricTolerance)::DownCast(theEnt);
+ Standard_Integer kind = 35 + MGT->Modifier();
+ aDGTTool->SetDimTol(shL, kind, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_CylindricityTolerance))) {
+ aDGTTool->SetDimTol(shL, 38, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_FlatnessTolerance))) {
+ aDGTTool->SetDimTol(shL, 39, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_LineProfileTolerance))) {
+ aDGTTool->SetDimTol(shL, 40, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_PositionTolerance))) {
+ aDGTTool->SetDimTol(shL, 41, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_RoundnessTolerance))) {
+ aDGTTool->SetDimTol(shL, 42, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_StraightnessTolerance))) {
+ aDGTTool->SetDimTol(shL, 43, arr, aName, aDescription);
+ }
+ else if (GT->IsKind(STANDARD_TYPE(StepDimTol_SurfaceProfileTolerance))) {
+ aDGTTool->SetDimTol(shL, 44, arr, aName, aDescription);
+ }
+ }
+ }
+ else
+ {
+ if (aGISU.IsNull()) continue;
+ Standard_Integer j = 1;
+ for (; j <= aGISU->NbIdentifiedItem(); j++) {
+ aSeqRI.Append(aGISU->IdentifiedItemValue(j));
+ }
+ }
+ }
+ if (!aSeqRI.IsEmpty())
+ {
+ if (aSeqRI1.IsEmpty())
+ aSeqRI1 = aSeqRI;
+ else
+ aSeqRI2 = aSeqRI;
+ }
+ }
+ }
+ if (aSeqRI1.IsEmpty())
+ return aGDTL;
+
+ TDF_LabelSequence aShLS1, aShLS2;
+
+ // Collect shapes
+ for (Standard_Integer i = aSeqRI1.Lower(); i <= aSeqRI1.Upper();i++)
+ {
+ Standard_Integer anIndex = FindShapeIndexForDGT(aSeqRI1.Value(i), theWS);
+ TopoDS_Shape aSh;
+ if (anIndex > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(anIndex);
+ aSh = TransferBRep::ShapeResult(aBinder);
+ }
+ if (!aSh.IsNull())
+ {
+ TDF_Label aShL;
+ aSTool->Search(aSh, aShL, Standard_True, Standard_True, Standard_True);
+ if (aShL.IsNull() && aSh.ShapeType() == TopAbs_WIRE)
+ {
+ TopExp_Explorer ex(aSh, TopAbs_EDGE, TopAbs_SHAPE);
+ while (ex.More())
+ {
+ TDF_Label edgeL;
+ aSTool->Search(ex.Current(), edgeL, Standard_True, Standard_True, Standard_True);
+ if (!edgeL.IsNull())
+ aShLS1.Append(edgeL);
+ ex.Next();
+ }
+ }
+ if (!aShL.IsNull())
+ aShLS1.Append(aShL);
+ }
+ }
+ if (!aSeqRI2.IsEmpty())
+ {
+ //for dimensional location
+ for (Standard_Integer i = aSeqRI2.Lower(); i <= aSeqRI2.Upper();i++)
+ {
+ Standard_Integer anIndex = FindShapeIndexForDGT(aSeqRI2.Value(i), theWS);
+ TopoDS_Shape aSh;
+ if (anIndex > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(anIndex);
+ aSh = TransferBRep::ShapeResult(aBinder);
+ }
+ if (!aSh.IsNull())
+ {
+ TDF_Label aShL;
+ aSTool->Search(aSh, aShL, Standard_True, Standard_True, Standard_True);
+ if (aShL.IsNull() && aSh.ShapeType() == TopAbs_WIRE)
+ {
+ TopExp_Explorer ex(aSh, TopAbs_EDGE, TopAbs_SHAPE);
+ while (ex.More())
+ {
+ TDF_Label edgeL;
+ aSTool->Search(ex.Current(), edgeL, Standard_True, Standard_True, Standard_True);
+ if (!edgeL.IsNull())
+ aShLS2.Append(edgeL);
+ ex.Next();
+ }
+ }
+ if (!aShL.IsNull())
+ aShLS2.Append(aShL);
+ }
+ }
+ }
+
+ if (!aShLS1.IsEmpty())
+ {
+ // add to XCAF
+ if (!theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance)))
+ {
+ aGDTL = aDGTTool->AddDimension();
+ myGDTMap.Bind(theEnt, aGDTL);
+ aDGTTool->Lock(aGDTL);
+ Handle(XCAFDoc_Dimension) aDim = XCAFDoc_Dimension::Set(aGDTL);
+ TCollection_AsciiString aStr("DGT:Dimensional_");
+ if (theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)))
+ {
+ aStr.AssignCat("Size");
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)))
+ {
+ aStr.AssignCat("Location");
+ }
+ TDataStd_Name::Set(aGDTL, aStr);
+
+ if (!aShLS2.IsEmpty())
+ {
+ aDGTTool->SetDimension(aShLS1, aShLS2, aGDTL);
+ }
+ else
+ {
+ TDF_LabelSequence aEmptySeq;
+ aDGTTool->SetDimension(aShLS1, aEmptySeq, aGDTL);
+ }
+ }
+ else
+ {
+ aGDTL = aDGTTool->AddGeomTolerance();
+ myGDTMap.Bind(theEnt, aGDTL);
+ aDGTTool->Lock(aGDTL);
+ Handle(XCAFDoc_GeomTolerance) aGTol = XCAFDoc_GeomTolerance::Set(aGDTL);
+ TCollection_AsciiString aStr("DGT:GeomTolerance");
+ TDataStd_Name::Set(aGDTL, aStr);
+ aDGTTool->SetGeomTolerance(aShLS1, aGDTL);
+ Handle(XCAFDimTolObjects_GeomToleranceObject) anObj = aGTol->GetObject();
+ if (isAllAround)
+ anObj->AddModifier(XCAFDimTolObjects_GeomToleranceModif_All_Around);
+ else if (isAllOver)
+ anObj->AddModifier(XCAFDimTolObjects_GeomToleranceModif_All_Over);
+ aGTol->SetObject(anObj);
+ }
+
+ if (aSemanticName)
+ {
+ TCollection_ExtendedString str(aSemanticName->String());
+ TDataStd_Name::Set(aGDTL, str);
+ }
+
+ readDatumsAP242(theEnt, aGDTL, theDoc, theWS);
+ }
+ return aGDTL;
+}
+
+//=======================================================================
+//function : convertAngleValue
+//purpose : auxilary
+//=======================================================================
+void convertAngleValue(
+ const STEPConstruct_UnitContext& anUnitCtx,
+ Standard_Real& aVal)
+{
+ // convert radian to deg
+ Standard_Real aFact = anUnitCtx.PlaneAngleFactor() * 180 / M_PI;
+ // in order to avoid inaccuracy of calculation perform conversion
+ // only if aFact not eqaul 1 with some precision
+ if (fabs(1. - aFact) > Precision::Confusion())
+ {
+ aVal = aVal * aFact;
+ }
+}
+
+
+//=======================================================================
+//function : setDimObjectToXCAF
+//purpose :
+//=======================================================================
+static void setDimObjectToXCAF(const Handle(Standard_Transient)& theEnt,
+ const TDF_Label& aDimL,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(XSControl_WorkSession)& theWS)
+{
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ const Handle(Transfer_TransientProcess) &aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ Handle(XCAFDimTolObjects_DimensionObject) aDimObj;
+ if (!theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)) &&
+ !theEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)))
+ return;
+
+ Handle(StepShape_DimensionalSize) aDimSize =
+ Handle(StepShape_DimensionalSize)::DownCast(theEnt);
+ Handle(StepShape_DimensionalLocation) aDimLocation =
+ Handle(StepShape_DimensionalLocation)::DownCast(theEnt);
+
+ aDimObj = new XCAFDimTolObjects_DimensionObject();
+ Standard_Real aDim1 = -1., aDim2 = -1., aDim3 = -1.;
+ Standard_Boolean isPlusMinusTolerance = Standard_False;
+ Handle(StepShape_TypeQualifier) aTQ;
+ Handle(StepShape_ValueFormatTypeQualifier) aVFTQ;
+ Handle(StepShape_ToleranceValue) aTV;
+ Handle(StepShape_LimitsAndFits) aLAF;
+ Handle(StepRepr_CompoundRepresentationItem) aCRI;
+ Handle(StepGeom_Axis2Placement3d) anAP;
+
+ Interface_EntityIterator anIterDim;
+ if (!aDimSize.IsNull())
+ {
+ anIterDim = aGraph.Sharings(aDimSize);
+ }
+ else
+ {
+ anIterDim = aGraph.Sharings(aDimLocation);
+ }
+ for (anIterDim.Start(); anIterDim.More(); anIterDim.Next()) {
+ Handle(StepShape_DimensionalCharacteristicRepresentation) aDCR =
+ Handle(StepShape_DimensionalCharacteristicRepresentation)::DownCast(anIterDim.Value());
+ Handle(StepShape_PlusMinusTolerance) aPMT =
+ Handle(StepShape_PlusMinusTolerance)::DownCast(anIterDim.Value());
+ if (!aDCR.IsNull()) {
+ Handle(StepShape_ShapeDimensionRepresentation) aSDR = aDCR->Representation();
+ if (!aSDR.IsNull()) {
+ Handle(StepRepr_HArray1OfRepresentationItem) aHARI = aSDR->Items();
+
+ if (!aHARI.IsNull())
+ {
+ for (Standard_Integer nr = aHARI->Lower(); nr <= aHARI->Upper(); nr++)
+ {
+ Handle(StepRepr_RepresentationItem) aDRI = aHARI->Value(nr);
+ if (aDRI.IsNull()) continue;
+
+ if (aDRI->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndMeasureWithUnit))) {
+ // simple value / range
+ Handle(StepRepr_ReprItemAndMeasureWithUnit) aMWU =
+ Handle(StepRepr_ReprItemAndMeasureWithUnit)::DownCast(aDRI);
+ Standard_Real aVal = aMWU->GetMeasureWithUnit()->ValueComponent();
+ StepBasic_Unit anUnit = aMWU->GetMeasureWithUnit()->UnitComponent();
+ if (anUnit.IsNull())
+ continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1))
+ continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ if (aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit))) {
+ aVal = aVal * anUnitCtx.LengthFactor();
+
+ }
+ else
+ if (aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndPlaneAngleMeasureWithUnit))) {
+ convertAngleValue(anUnitCtx, aVal);
+ }
+ Handle(TCollection_HAsciiString) aName = aMWU->Name();
+ if (aName->Search("upper") > 0) // upper limit
+ aDim2 = aVal;
+ else // lower limit or simple nominal value
+ aDim1 = aVal;
+ }
+ else if (aDRI->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndMeasureWithUnitAndQRI))) {
+ // value with qualifier (minimum/maximum/average)
+ Handle(StepRepr_ReprItemAndMeasureWithUnitAndQRI) aMWU =
+ Handle(StepRepr_ReprItemAndMeasureWithUnitAndQRI)::DownCast(aDRI);
+ Standard_Real aVal = aMWU->GetMeasureWithUnit()->ValueComponent();
+ StepBasic_Unit anUnit = aMWU->GetMeasureWithUnit()->UnitComponent();
+ if (anUnit.IsNull())
+ continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1))
+ continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ if (aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnitAndQRI))) {
+ aVal = aVal * anUnitCtx.LengthFactor();
+ }
+ else
+ if (aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndPlaneAngleMeasureWithUnitAndQRI))) {
+ convertAngleValue(anUnitCtx, aVal);
+ }
+ Handle(StepShape_QualifiedRepresentationItem) aQRI = aMWU->GetQualifiedRepresentationItem();
+ if (aQRI->Qualifiers()->Length() == 0) {
+ aDim1 = aVal;
+ continue;
+ }
+ Handle(StepShape_TypeQualifier) aValueType = aQRI->Qualifiers()->Value(1).TypeQualifier();
+ if (aValueType->Name()->String().IsEqual("minimum"))
+ aDim2 = aVal;
+ else if (aValueType->Name()->String().IsEqual("maximum"))
+ aDim3 = aVal;
+ else aDim1 = aVal;
+ }
+ else if (aDRI->IsKind(STANDARD_TYPE(StepShape_QualifiedRepresentationItem))) {
+ //get qualifier
+ Handle(StepShape_QualifiedRepresentationItem) aQRI =
+ Handle(StepShape_QualifiedRepresentationItem)::DownCast(aDRI);
+ for (Standard_Integer l = 1; l <= aQRI->NbQualifiers(); l++)
+ {
+ aTQ = aQRI->Qualifiers()->Value(l).TypeQualifier();
+ aVFTQ = aQRI->Qualifiers()->Value(l).ValueFormatTypeQualifier();
+ }
+ }
+ else if (aDRI->IsKind(STANDARD_TYPE(StepRepr_DescriptiveRepresentationItem))) {
+ Handle(StepRepr_DescriptiveRepresentationItem) aDescription =
+ Handle(StepRepr_DescriptiveRepresentationItem)::DownCast(aDRI);
+ aDimObj->AddDescription(aDescription->Description(), aDescription->Name());
+ }
+ else if (aDRI->IsKind(STANDARD_TYPE(StepRepr_CompoundRepresentationItem))) {
+ aCRI = Handle(StepRepr_CompoundRepresentationItem)::DownCast(aDRI);
+ }
+ else if (aDRI->IsKind(STANDARD_TYPE(StepGeom_Axis2Placement3d)))
+ {
+ anAP = Handle(StepGeom_Axis2Placement3d)::DownCast(aDRI);
+ }
+ }
+ }
+ }
+ }
+ else if (!aPMT.IsNull())
+ {
+ isPlusMinusTolerance = Standard_True;
+ StepShape_ToleranceMethodDefinition aTMD = aPMT->Range();
+ if (aPMT.IsNull()) continue;
+ if (aTMD.CaseNumber() == 1)
+ //! 1 -> ToleranceValue from StepShape
+ //! 2 -> LimitsAndFits from StepShape
+ {
+ //plus minus tolerance
+ aTV = aTMD.ToleranceValue();
+ if (aTV.IsNull()) continue;
+
+ Handle(Standard_Transient) aUpperBound = aTV->UpperBound();
+ if(aUpperBound.IsNull())
+ continue;
+ Handle(StepBasic_MeasureWithUnit) aMWU;
+ if(aUpperBound->IsKind(STANDARD_TYPE(StepBasic_MeasureWithUnit)) )
+ aMWU = Handle(StepBasic_MeasureWithUnit)::DownCast(aUpperBound);
+ else if(aUpperBound->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndMeasureWithUnit)) )
+ {
+ Handle(StepRepr_ReprItemAndMeasureWithUnit) aReprMeasureItem =
+ Handle(StepRepr_ReprItemAndMeasureWithUnit)::DownCast(aUpperBound);
+ aMWU = aReprMeasureItem->GetMeasureWithUnit();
+
+ }
+ if(aMWU.IsNull())
+ continue;
+ Standard_Real aVal = aMWU->ValueComponent();
+ StepBasic_Unit anUnit = aMWU->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ if (aMWU->IsKind(STANDARD_TYPE(StepBasic_LengthMeasureWithUnit)) ||
+ aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnitAndQRI)))
+ {
+ aVal = aVal * anUnitCtx.LengthFactor();
+ }
+ else if (aMWU->IsKind(STANDARD_TYPE(StepBasic_PlaneAngleMeasureWithUnit)) ||
+ aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndPlaneAngleMeasureWithUnitAndQRI)))
+ {
+ convertAngleValue(anUnitCtx, aVal);
+ }
+ aDim3 = aVal;
+
+
+ Handle(Standard_Transient) aLowerBound = aTV->LowerBound();
+ if(aLowerBound.IsNull())
+ continue;
+
+ if(aLowerBound->IsKind(STANDARD_TYPE(StepBasic_MeasureWithUnit)) )
+ aMWU = Handle(StepBasic_MeasureWithUnit)::DownCast(aLowerBound);
+ else if(aLowerBound->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndMeasureWithUnit)) )
+ {
+ Handle(StepRepr_ReprItemAndMeasureWithUnit) aReprMeasureItem =
+ Handle(StepRepr_ReprItemAndMeasureWithUnit)::DownCast(aLowerBound);
+ aMWU = aReprMeasureItem->GetMeasureWithUnit();
+
+ }
+ if(aMWU.IsNull())
+ continue;
+
+ aVal = aMWU->ValueComponent();
+ anUnit = aMWU->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ NU = anUnit.NamedUnit();
+ anUnitCtx.ComputeFactors(NU);
+ if (aMWU->IsKind(STANDARD_TYPE(StepBasic_LengthMeasureWithUnit)) ||
+ aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnitAndQRI)))
+ {
+ aVal = aVal * anUnitCtx.LengthFactor();
+ }
+ else if (aMWU->IsKind(STANDARD_TYPE(StepBasic_PlaneAngleMeasureWithUnit)) ||
+ aMWU->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndPlaneAngleMeasureWithUnitAndQRI)))
+ {
+ convertAngleValue(anUnitCtx, aVal);
+ }
+ aDim2 = Abs(aVal);
+ }
+ else
+ {
+ // class of tolerance
+ aLAF = aTMD.LimitsAndFits();
+ }
+ }
+ }
+
+ if (aDim1 < 0) return;
+
+ if (aDim2 < 0)
+ aDimObj->SetValue(aDim1);
+ else if (aDim3 < 0)
+ {
+ Handle(TColStd_HArray1OfReal) anArr = new TColStd_HArray1OfReal(1, 2);
+ anArr->SetValue(1, aDim1);
+ anArr->SetValue(2, aDim2);
+ aDimObj->SetValues(anArr);
+ }
+ else
+ {
+ Handle(TColStd_HArray1OfReal) anArr = new TColStd_HArray1OfReal(1, 3);
+ if (!isPlusMinusTolerance)
+ {
+ aDim2 = aDim1 - aDim2;
+ aDim3 = aDim3 - aDim1;
+ }
+ anArr->SetValue(1, aDim1);
+ anArr->SetValue(2, aDim2);
+ anArr->SetValue(3, aDim3);
+ aDimObj->SetValues(anArr);
+ }
+ if (!aTQ.IsNull())
+ {
+ XCAFDimTolObjects_DimensionQualifier aQ;
+ if (STEPCAFControl_GDTProperty::GetDimQualifierType(aTQ->Name(), aQ))
+ {
+ aDimObj->SetQualifier(aQ);
+ }
+ }
+
+ if (!aVFTQ.IsNull())
+ {
+ //A typical value would be 'NR2 2.2'
+ TCollection_HAsciiString aFormat = aVFTQ->FormatType();
+ Standard_Integer i = aFormat.Location(1, ' ', 1, aFormat.Length());
+ aFormat.SubString(i + 1, i + 1)->IntegerValue();
+ aDimObj->SetNbOfDecimalPlaces(aFormat.SubString(i + 1, i + 1)->IntegerValue(),
+ aFormat.SubString(i + 3, i + 3)->IntegerValue());
+ }
+
+ if (!aLAF.IsNull())
+ {
+ //get class of tolerance
+ Standard_Boolean aHolle = Standard_False;
+ XCAFDimTolObjects_DimensionFormVariance aFV = XCAFDimTolObjects_DimensionFormVariance_None;
+ XCAFDimTolObjects_DimensionGrade aG = XCAFDimTolObjects_DimensionGrade_IT01;
+ STEPCAFControl_GDTProperty::GetDimClassOfTolerance(aLAF, aHolle, aFV, aG);
+ aDimObj->SetClassOfTolerance(aHolle, aFV, aG);
+ }
+
+ if (!aCRI.IsNull() && !aCRI->ItemElement().IsNull() && aCRI->ItemElement()->Length() > 0)
+ {
+ //get modifiers
+ XCAFDimTolObjects_DimensionModifiersSequence aModifiers;
+ STEPCAFControl_GDTProperty::GetDimModifiers(aCRI, aModifiers);
+ if (aModifiers.Length() > 0)
+ aDimObj->SetModifiers(aModifiers);
+ }
+
+ Handle(TCollection_HAsciiString) aName;
+ if (!aDimSize.IsNull())
+ {
+ aName = aDimSize->Name();
+ }
+ else
+ {
+ aName = aDimLocation->Name();
+ }
+ XCAFDimTolObjects_DimensionType aType = XCAFDimTolObjects_DimensionType_Location_None;
+ if (!STEPCAFControl_GDTProperty::GetDimType(aName, aType))
+ {
+ if (!aDimSize.IsNull())
+ {
+ Handle(StepShape_AngularSize) anAngSize =
+ Handle(StepShape_AngularSize)::DownCast(aDimSize);
+ if (!anAngSize.IsNull())
+ {
+ //get qualifier for angular value
+ aType = XCAFDimTolObjects_DimensionType_Size_Angular;
+ if (anAngSize->AngleSelection() == StepShape_Equal)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Avg);
+ else if (anAngSize->AngleSelection() == StepShape_Large)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Max);
+ else if (anAngSize->AngleSelection() == StepShape_Small)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Min);
+ }
+ }
+ else
+ {
+ Handle(StepShape_AngularLocation) anAngLoc =
+ Handle(StepShape_AngularLocation)::DownCast(aDimLocation);
+ if (!anAngLoc.IsNull())
+ {
+ //get qualifier for angular value
+ aType = XCAFDimTolObjects_DimensionType_Location_Angular;
+ if (anAngLoc->AngleSelection() == StepShape_Equal)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Avg);
+ else if (anAngLoc->AngleSelection() == StepShape_Large)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Max);
+ else if (anAngLoc->AngleSelection() == StepShape_Small)
+ aDimObj->SetQualifier(XCAFDimTolObjects_DimensionQualifier_Min);
+ }
+ }
+ if (aType == XCAFDimTolObjects_DimensionType_Location_None)
+ {
+ Handle(StepRepr_ShapeAspect) aPSA;
+ if (!aDimSize.IsNull())
+ {
+ Handle(StepShape_DimensionalSizeWithPath) aDimSizeWithPath =
+ Handle(StepShape_DimensionalSizeWithPath)::DownCast(aDimSize);
+ if (!aDimSizeWithPath.IsNull())
+ {
+ aType = XCAFDimTolObjects_DimensionType_Size_WithPath;
+ aPSA = aDimSizeWithPath->Path();
+ }
+ }
+ else
+ {
+ Handle(StepShape_DimensionalLocationWithPath) aDimLocWithPath =
+ Handle(StepShape_DimensionalLocationWithPath)::DownCast(aDimLocation);
+ if (!aDimLocWithPath.IsNull())
+ {
+ aType = XCAFDimTolObjects_DimensionType_Location_WithPath;
+ aPSA = aDimLocWithPath->Path();
+ }
+ }
+
+ if (!aPSA.IsNull())
+ {
+ //for DimensionalLocationWithPath
+ Handle(StepGeom_GeometricRepresentationItem) aGRI;
+ Handle(StepAP242_GeometricItemSpecificUsage) aPGISU;
+ Interface_EntityIterator anIterDSWP = aGraph.Sharings(aPSA);
+ for (anIterDSWP.Start(); anIterDSWP.More() && aPGISU.IsNull(); anIterDSWP.Next()) {
+ aPGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIterDSWP.Value());
+ }
+ if (aPGISU.IsNull()) return;
+ if (aPGISU->NbIdentifiedItem() > 0) {
+ aGRI = Handle(StepGeom_GeometricRepresentationItem)::DownCast(aPGISU->IdentifiedItemValue(1));
+ }
+ if (aGRI.IsNull()) return;
+ Handle(StepRepr_RepresentationItem) aPRI;
+ Interface_EntityIterator anIterGRI = aGraph.Sharings(aGRI);
+ for (anIterGRI.Start(); anIterGRI.More() && aPGISU.IsNull(); anIterGRI.Next()) {
+ aPRI = Handle(StepRepr_RepresentationItem)::DownCast(anIterGRI.Value());
+ }
+ Standard_Integer anIndex = FindShapeIndexForDGT(aPRI, theWS);
+ TopoDS_Edge aSh;
+ if (anIndex > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(anIndex);
+ aSh = TopoDS::Edge(TransferBRep::ShapeResult(aBinder));
+ }
+ if (aSh.IsNull()) return;
+ aDimObj->SetPath(aSh);
+ }
+ else if (!anAP.IsNull())
+ {
+ if (anAP->Name()->String().IsEqual("orientation") && !anAP->Axis().IsNull())
+ {
+ //for Oriented Dimensional Location
+ Handle(TColStd_HArray1OfReal) aDirArr = anAP->RefDirection()->DirectionRatios();
+ gp_Dir aDir;
+ if (!aDirArr.IsNull() && aDirArr->Length() > 2)
+ {
+ aDir.SetCoord(aDirArr->Lower(), aDirArr->Lower() + 1, aDirArr->Lower() + 2);
+ aDimObj->SetDirection(aDir);
+ }
+ else if (aDirArr->Length() > 1)
+ {
+ aDir.SetCoord(aDirArr->Lower(), aDirArr->Lower() + 1, 0);
+ aDimObj->SetDirection(aDir);
+ }
+ }
+ }
+ }
+ }
+ aDimObj->SetType(aType);
+
+
+ if (!aDimObj.IsNull())
+ {
+
+ Handle(XCAFDoc_Dimension) aDim;
+
+ if (aDimL.FindAttribute(XCAFDoc_Dimension::GetID(), aDim))
+ {
+ readAnnotation(aTR, theEnt, aDimObj);
+ readConnectionPoints(aTR, theEnt, aDimObj);
+ aDim->SetObject(aDimObj);
+ }
+ }
+}
+
+//=======================================================================
+//function : getTolType
//purpose :
//=======================================================================
-static Standard_Boolean GetMassConversionFactor(Handle(StepBasic_NamedUnit)& NU,
- Standard_Real& afact)
+static Standard_Boolean getTolType(const Handle(Standard_Transient)& theEnt,
+ XCAFDimTolObjects_GeomToleranceType& theType)
{
- afact=1.;
- if( !NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndMassUnit)) ) return Standard_False;
- Handle(StepBasic_ConversionBasedUnitAndMassUnit) CBUMU =
- Handle(StepBasic_ConversionBasedUnitAndMassUnit)::DownCast(NU);
- Handle(StepBasic_MeasureWithUnit) MWUCBU = CBUMU->ConversionFactor();
- afact = MWUCBU->ValueComponent();
- StepBasic_Unit anUnit2 = MWUCBU->UnitComponent();
- if(anUnit2.CaseNum(anUnit2.Value())==1) {
- Handle(StepBasic_NamedUnit) NU2 = anUnit2.NamedUnit();
- if(NU2->IsKind(STANDARD_TYPE(StepBasic_SiUnit))) {
- Handle(StepBasic_SiUnit) SU = Handle(StepBasic_SiUnit)::DownCast(NU2);
- if(SU->Name()==StepBasic_sunGram) {
- if(SU->HasPrefix())
- afact *= STEPConstruct_UnitContext::ConvertSiPrefix (SU->Prefix());
- }
- }
+ if (theEnt.IsNull() || !theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance)))
+ return Standard_False;
+ theType = XCAFDimTolObjects_GeomToleranceType_None;
+ if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRef)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRef) anE = Handle(StepDimTol_GeoTolAndGeoTolWthDatRef)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol) anE =
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod) anE =
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthMaxTol)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthMaxTol) anE =
+ Handle(StepDimTol_GeoTolAndGeoTolWthMaxTol)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthMod)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthMod) anE =
+ Handle(StepDimTol_GeoTolAndGeoTolWthMod)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndUneqDisGeoTol)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndUneqDisGeoTol) anE =
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndUneqDisGeoTol)::DownCast(theEnt);
+ theType = STEPCAFControl_GDTProperty::GetGeomToleranceType(anE->GetToleranceType());
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_AngularityTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Angularity;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_CircularRunoutTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_CircularRunout;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_RoundnessTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_CircularityOrRoundness;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_CoaxialityTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Coaxiality;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_ConcentricityTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Concentricity;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_CylindricityTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Cylindricity;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_FlatnessTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Flatness;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_ParallelismTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Parallelism;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_PerpendicularityTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Perpendicularity;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_PositionTolerance)) ||
+ theEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Position;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_LineProfileTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_ProfileOfLine;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_SurfaceProfileTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_ProfileOfSurface;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_StraightnessTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Straightness;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_SymmetryTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_Symmetry;
+ }
+ else if (theEnt->IsKind(STANDARD_TYPE(StepDimTol_TotalRunoutTolerance)))
+ {
+ theType = XCAFDimTolObjects_GeomToleranceType_TotalRunout;
}
return Standard_True;
}
-
-
//=======================================================================
-//function : ReadDatums
-//purpose : auxilary
+//function : setGeomTolObjectToXCAF
+//purpose :
//=======================================================================
-static Standard_Boolean ReadDatums(const Handle(XCAFDoc_ShapeTool) &STool,
- const Handle(XCAFDoc_DimTolTool) &DGTTool,
- const Interface_Graph &graph,
- Handle(Transfer_TransientProcess) &TP,
- const TDF_Label TolerL,
- const Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR)
+static void setGeomTolObjectToXCAF(const Handle(Standard_Transient)& theEnt,
+ const TDF_Label& theTolL,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(XSControl_WorkSession)& theWS)
{
- if(GTWDR.IsNull()) return Standard_False;
- Handle(StepDimTol_HArray1OfDatumReference) HADR = GTWDR->DatumSystem();
- if(HADR.IsNull()) return Standard_False;
- for(Standard_Integer idr=1; idr<=HADR->Length(); idr++) {
- Handle(StepDimTol_DatumReference) DR = HADR->Value(idr);
- Handle(StepDimTol_Datum) aDatum = DR->ReferencedDatum();
- if(aDatum.IsNull()) continue;
- Interface_EntityIterator subs4 = graph.Sharings(aDatum);
- for(subs4.Start(); subs4.More(); subs4.Next()) {
- Handle(StepRepr_ShapeAspectRelationship) SAR =
- Handle(StepRepr_ShapeAspectRelationship)::DownCast(subs4.Value());
- if(SAR.IsNull()) continue;
- Handle(StepDimTol_DatumFeature) DF =
- Handle(StepDimTol_DatumFeature)::DownCast(SAR->RelatingShapeAspect());
- if(DF.IsNull()) continue;
- Interface_EntityIterator subs5 = graph.Sharings(DF);
- Handle(StepRepr_PropertyDefinition) PropDef;
- for(subs5.Start(); subs5.More() && PropDef.IsNull(); subs5.Next()) {
- PropDef = Handle(StepRepr_PropertyDefinition)::DownCast(subs5.Value());
- }
- if(PropDef.IsNull()) continue;
- Handle(StepShape_AdvancedFace) AF;
- subs5 = graph.Sharings(PropDef);
- for(subs5.Start(); subs5.More(); subs5.Next()) {
- Handle(StepShape_ShapeDefinitionRepresentation) SDR =
- Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs5.Value());
- if(!SDR.IsNull()) {
- Handle(StepRepr_Representation) Repr = SDR->UsedRepresentation();
- if( !Repr.IsNull() && Repr->NbItems()>0 ) {
- Handle(StepRepr_RepresentationItem) RI = Repr->ItemsValue(1);
- AF = Handle(StepShape_AdvancedFace)::DownCast(RI);
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ const Handle(Transfer_TransientProcess) &aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ Handle(XCAFDoc_GeomTolerance) aGTol;
+ if (!theTolL.FindAttribute(XCAFDoc_GeomTolerance::GetID(), aGTol))
+ {
+ return;
+ }
+ Handle(XCAFDimTolObjects_GeomToleranceObject) aTolObj = aGTol->GetObject();
+ Handle(StepDimTol_GeometricTolerance) aTolEnt = Handle(StepDimTol_GeometricTolerance)::DownCast(theEnt);
+
+ XCAFDimTolObjects_GeomToleranceType aType = XCAFDimTolObjects_GeomToleranceType_None;
+ getTolType(theEnt, aType);
+ aTolObj->SetType(aType);
+ if (!aTolEnt->Magnitude().IsNull()) {
+ //get value
+ Standard_Real aVal = aTolEnt->Magnitude()->ValueComponent();
+ StepBasic_Unit anUnit = aTolEnt->Magnitude()->UnitComponent();
+ if (anUnit.IsNull()) return;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) return;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ aVal = aVal * anUnitCtx.LengthFactor();
+ aTolObj->SetValue(aVal);
+ }
+ //get modifiers
+ XCAFDimTolObjects_GeomToleranceTypeValue aTypeV = XCAFDimTolObjects_GeomToleranceTypeValue_None;
+ Interface_EntityIterator anIter = aGraph.Sharings(aTolEnt);
+ for (anIter.Start(); anIter.More(); anIter.Next()) {
+ if (anIter.Value()->IsKind(STANDARD_TYPE(StepDimTol_ToleranceZone))) {
+ Handle(StepDimTol_ToleranceZoneForm) aForm
+ = Handle(StepDimTol_ToleranceZone)::DownCast(anIter.Value())->Form();
+ STEPCAFControl_GDTProperty::GetTolValueType(aForm->Name(), aTypeV);
+ Interface_EntityIterator anIt = aGraph.Sharings(anIter.Value());
+ for (anIt.Start(); anIt.More(); anIt.Next()) {
+ if (anIt.Value()->IsKind(STANDARD_TYPE(StepDimTol_ProjectedZoneDefinition))) {
+ Handle(StepDimTol_ProjectedZoneDefinition) aPZone
+ = Handle(StepDimTol_ProjectedZoneDefinition)::DownCast(anIt.Value());
+ if (!aPZone->ProjectionLength().IsNull())
+ {
+ Standard_Real aVal = aPZone->ProjectionLength()->ValueComponent();
+ StepBasic_Unit anUnit = aPZone->ProjectionLength()->UnitComponent();
+ if (anUnit.IsNull()) return;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) return;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ aVal = aVal * anUnitCtx.LengthFactor();
+ aTolObj->SetValueOfZoneModifier(aVal);
+ aTolObj->SetZoneModifier(XCAFDimTolObjects_GeomToleranceZoneModif_Projected);
+ }
+ }
+ else if (anIt.Value()->IsKind(STANDARD_TYPE(StepDimTol_RunoutZoneDefinition)))
+ {
+ Handle(StepDimTol_RunoutZoneDefinition) aRZone
+ = Handle(StepDimTol_RunoutZoneDefinition)::DownCast(anIt.Value());
+ if (!aRZone->Orientation().IsNull())
+ {
+ Standard_Real aVal = aRZone->Orientation()->Angle()->ValueComponent();
+ StepBasic_Unit anUnit = aRZone->Orientation()->Angle()->UnitComponent();
+ if (anUnit.IsNull()) continue;
+ if (!(anUnit.CaseNum(anUnit.Value()) == 1)) continue;
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ convertAngleValue(anUnitCtx, aVal);
+ aTolObj->SetValueOfZoneModifier(aVal);
+ aTolObj->SetZoneModifier(XCAFDimTolObjects_GeomToleranceZoneModif_Runout);
}
}
}
- if(AF.IsNull()) return Standard_False;
- Standard_Integer index = TP->MapIndex(AF);
- TopoDS_Shape aSh;
- if(index >0) {
- Handle(Transfer_Binder) binder = TP->MapItem(index);
- aSh = TransferBRep::ShapeResult(binder);
- }
- if(aSh.IsNull()) continue;
- TDF_Label shL;
- if( !STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True) ) continue;
- DGTTool->SetDatum(shL,TolerL,PropDef->Name(),PropDef->Description(),aDatum->Identification());
+ aTolObj->SetTypeOfValue(aTypeV);
}
}
- return Standard_True;
-}
+ Handle(StepDimTol_HArray1OfGeometricToleranceModifier) aModifiers;
+ if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricToleranceWithModifiers)))
+ {
+ aModifiers = Handle(StepDimTol_GeometricToleranceWithModifiers)::DownCast(aTolEnt)->Modifiers();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod)))
+ {
+ aModifiers = Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMod)
+ ::DownCast(aTolEnt)->GetGeometricToleranceWithModifiers()->Modifiers();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthMod)))
+ {
+ aModifiers = Handle(StepDimTol_GeoTolAndGeoTolWthMod)
+ ::DownCast(aTolEnt)->GetGeometricToleranceWithModifiers()->Modifiers();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthMaxTol)))
+ {
+ aModifiers = Handle(StepDimTol_GeoTolAndGeoTolWthMaxTol)
+ ::DownCast(aTolEnt)->GetGeometricToleranceWithModifiers()->Modifiers();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)))
+ {
+ aModifiers = Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)
+ ::DownCast(aTolEnt)->GetGeometricToleranceWithModifiers()->Modifiers();
+ }
+ if (!aModifiers.IsNull())
+ {
+ for (Standard_Integer i = aModifiers->Lower(); i <= aModifiers->Upper(); i++)
+ {
+ if (aModifiers->Value(i) == StepDimTol_GTMLeastMaterialRequirement)
+ aTolObj->SetMaterialRequirementModifier(XCAFDimTolObjects_GeomToleranceMatReqModif_L);
+ else if (aModifiers->Value(i) == StepDimTol_GTMMaximumMaterialRequirement)
+ aTolObj->SetMaterialRequirementModifier(XCAFDimTolObjects_GeomToleranceMatReqModif_M);
+ else
+ aTolObj->AddModifier((XCAFDimTolObjects_GeomToleranceModif)aModifiers->Value(i));
+ }
+ }
+ Standard_Real aVal = 0;
+ StepBasic_Unit anUnit;
+ if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricToleranceWithMaximumTolerance)))
+ {
+ Handle(StepDimTol_GeometricToleranceWithMaximumTolerance) aMax = Handle(StepDimTol_GeometricToleranceWithMaximumTolerance)::DownCast(aTolEnt);
+ aVal = aMax->MaximumUpperTolerance()->ValueComponent();
+ anUnit = aMax->MaximumUpperTolerance()->UnitComponent();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthMaxTol)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthMaxTol) aMax =
+ Handle(StepDimTol_GeoTolAndGeoTolWthMaxTol)::DownCast(aTolEnt);
+ aVal = aMax->GetMaxTolerance()->ValueComponent();
+ anUnit = aMax->GetMaxTolerance()->UnitComponent();
+ }
+ else if (aTolEnt->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)))
+ {
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol) aMax =
+ Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndGeoTolWthMaxTol)::DownCast(aTolEnt);
+ aVal = aMax->GetMaxTolerance()->ValueComponent();
+ anUnit = aMax->GetMaxTolerance()->UnitComponent();
+ }
+ if (!anUnit.IsNull() && (anUnit.CaseNum(anUnit.Value()) == 1))
+ {
+ Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ convertAngleValue(anUnitCtx, aVal);
+ aTolObj->SetMaxValueModifier(aVal);
+ }
+ readAnnotation(aTR, theEnt, aTolObj);
+ aGTol->SetObject(aTolObj);
+}
//=======================================================================
//function : ReadGDTs
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::ReadGDTs(const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc) const
+Standard_Boolean STEPCAFControl_Reader::ReadGDTs(const Handle(XSControl_WorkSession)& theWS,
+ Handle(TDocStd_Document)& theDoc)
{
- Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( Doc->Main() );
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Handle(XCAFDoc_DimTolTool) DGTTool = XCAFDoc_DocumentTool::DimTolTool( Doc->Main() );
- if ( DGTTool.IsNull() ) return Standard_False;
-
- Standard_Integer nb = Model->NbEntities();
- const Interface_Graph& graph = TP->Graph();
- for(Standard_Integer i=1; i<=nb; i++) {
- Handle(Standard_Transient) ent = Model->Value(i);
- if(ent->IsKind(STANDARD_TYPE(StepRepr_ShapeAspect))) {
- Handle(StepRepr_ShapeAspect) SA = Handle(StepRepr_ShapeAspect)::DownCast(ent);
- // find RepresentationItem for current ShapeAspect
- Handle(StepRepr_RepresentationItem) RI;
- Handle(StepRepr_PropertyDefinition) PropD;
- Interface_EntityIterator subs3 = graph.Sharings(SA);
- for(subs3.Start(); subs3.More() && PropD.IsNull(); subs3.Next()) {
- PropD = Handle(StepRepr_PropertyDefinition)::DownCast(subs3.Value());
- }
- if(PropD.IsNull()) continue;
- Interface_EntityIterator subs4 = graph.Sharings(PropD);
- for(subs4.Start(); subs4.More(); subs4.Next()) {
- Handle(StepShape_ShapeDefinitionRepresentation) SDR =
- Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs4.Value());
- if(!SDR.IsNull()) {
- Handle(StepRepr_Representation) Repr = SDR->UsedRepresentation();
- if( !Repr.IsNull() && Repr->NbItems()>0 ) {
- RI = Repr->ItemsValue(1);
- }
+ const Handle(Interface_InterfaceModel) &aModel = theWS->Model();
+ const Interface_Graph& aGraph = theWS->Graph();
+ const Handle(XSControl_TransferReader) &aTR = theWS->TransferReader();
+ Handle(StepData_StepModel) aSM = Handle(StepData_StepModel)::DownCast(aModel);
+ Interface_EntityIterator anI = aSM->Header();
+ Handle(HeaderSection_FileSchema) aH;
+ for (anI.Start(); anI.More() && aH.IsNull();anI.Next())
+ aH = Handle(HeaderSection_FileSchema)::DownCast(anI.Value());
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ if (aDGTTool.IsNull()) return Standard_False;
+
+ Standard_Integer nb = aModel->NbEntities();
+ for (Standard_Integer i = 1; i <= nb; i++) {
+ Handle(Standard_Transient) anEnt = aModel->Value(i);
+ if (anEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)) ||
+ anEnt->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)) ||
+ anEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ TDF_Label aGDTL = createGDTObjectInXCAF(anEnt, theDoc, theWS);
+ if (!aGDTL.IsNull()) {
+ if (anEnt->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ setGeomTolObjectToXCAF(anEnt, aGDTL, theDoc, theWS);
+ }
+ else {
+ setDimObjectToXCAF(anEnt, aGDTL, theDoc, theWS);
}
}
- if(RI.IsNull()) continue;
- // read DGT entities:
- subs3 = graph.Sharings(SA);
- for(subs3.Start(); subs3.More(); subs3.Next()) {
- if(subs3.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalSize))) {
- // read dimensions
- Handle(StepShape_EdgeCurve) EC = Handle(StepShape_EdgeCurve)::DownCast(RI);
- if(EC.IsNull()) continue;
- Handle(TCollection_HAsciiString) aName;
- Handle(StepShape_DimensionalSize) DimSize =
- Handle(StepShape_DimensionalSize)::DownCast(subs3.Value());
- Standard_Real dim1=-1.,dim2=-1.;
- subs4 = graph.Sharings(DimSize);
- for(subs4.Start(); subs4.More(); subs4.Next()) {
- Handle(StepShape_DimensionalCharacteristicRepresentation) DimCharR =
- Handle(StepShape_DimensionalCharacteristicRepresentation)::DownCast(subs4.Value());
- if(!DimCharR.IsNull()) {
- Handle(StepShape_ShapeDimensionRepresentation) SDimR = DimCharR->Representation();
- if(!SDimR.IsNull() && SDimR->NbItems()>0) {
- Handle(StepRepr_RepresentationItem) RI = SDimR->ItemsValue(1);
- Handle(StepRepr_ValueRange) VR = Handle(StepRepr_ValueRange)::DownCast(RI);
- if(!VR.IsNull()) {
- aName = VR->Name();
- //StepRepr_CompoundItemDefinition CID = VR->ItemElement();
- //if(CID.IsNull()) continue;
- //Handle(StepRepr_CompoundItemDefinitionMember) CIDM =
- // Handle(StepRepr_CompoundItemDefinitionMember)::DownCast(CID.Value());
- //if(CIDM.IsNull()) continue;
- //if(CIDM->ArrTransient().IsNull()) continue;
- //Handle(StepRepr_HArray1OfRepresentationItem) HARI;
- //if(CID.CaseMem(CIDM)==1)
- // HARI = CID.ListRepresentationItem();
- //if(CID.CaseMem(CIDM)==2)
- // HARI = CID.SetRepresentationItem();
- Handle(StepRepr_HArray1OfRepresentationItem) HARI = VR->ItemElement();
- if(HARI.IsNull()) continue;
- if(HARI->Length()>0) {
- Handle(StepRepr_RepresentationItem) RI1 =
- Handle(StepRepr_RepresentationItem)::DownCast(HARI->Value(1));
- if(RI1.IsNull()) continue;
- if(RI1->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit))) {
- Handle(StepRepr_ReprItemAndLengthMeasureWithUnit) RILMWU =
- Handle(StepRepr_ReprItemAndLengthMeasureWithUnit)::DownCast(RI1);
- dim1 = RILMWU->GetMeasureWithUnit()->ValueComponent();
- StepBasic_Unit anUnit = RILMWU->GetMeasureWithUnit()->UnitComponent();
- Standard_Real afact=1.;
- if(anUnit.IsNull()) continue;
- if( !(anUnit.CaseNum(anUnit.Value())==1) ) continue;
- Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
- if(GetLengthConversionFactor(NU,afact)) dim1=dim1*afact;
- }
- }
- if(HARI->Length()>1) {
- Handle(StepRepr_RepresentationItem) RI2 =
- Handle(StepRepr_RepresentationItem)::DownCast(HARI->Value(2));
- if(RI2.IsNull()) continue;
- if(RI2->IsKind(STANDARD_TYPE(StepRepr_ReprItemAndLengthMeasureWithUnit))) {
- Handle(StepRepr_ReprItemAndLengthMeasureWithUnit) RILMWU =
- Handle(StepRepr_ReprItemAndLengthMeasureWithUnit)::DownCast(RI2);
- dim2 = RILMWU->GetMeasureWithUnit()->ValueComponent();
- StepBasic_Unit anUnit = RILMWU->GetMeasureWithUnit()->UnitComponent();
- Standard_Real afact=1.;
- if(anUnit.IsNull()) continue;
- if( !(anUnit.CaseNum(anUnit.Value())==1) ) continue;
- Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
- if(GetLengthConversionFactor(NU,afact)) dim2 = dim2*afact;
- }
+ }
+ else if (anEnt->IsKind(STANDARD_TYPE(StepVisual_DraughtingCallout)) ||
+ anEnt->IsKind(STANDARD_TYPE(StepVisual_AnnotationOccurrence)))
+ {
+ // Protection against import presentation twice
+ Handle(StepVisual_DraughtingCallout) aDC;
+ for (Interface_EntityIterator anIter = aGraph.Sharings(anEnt); anIter.More() && aDC.IsNull(); anIter.Next()) {
+ aDC = Handle(StepVisual_DraughtingCallout)::DownCast(anIter.Value());
+ }
+ if (!aDC.IsNull())
+ continue;
+ // Read presentations for PMIs without semantic data.
+ Handle(StepAP242_DraughtingModelItemAssociation) aDMIA;
+ TDF_LabelSequence aShapesL;
+ for (Interface_EntityIterator anIter = aGraph.Sharings(anEnt); anIter.More() && aDMIA.IsNull(); anIter.Next()) {
+ aDMIA = Handle(StepAP242_DraughtingModelItemAssociation)::DownCast(anIter.Value());
+ }
+ if (!aDMIA.IsNull()) {
+ // Check entity, skip all, attached to GDTs
+ Handle(StepRepr_ShapeAspect) aDefinition = aDMIA->Definition().ShapeAspect();
+ if (!aDefinition.IsNull()) {
+ Standard_Boolean isConnectedToGDT = Standard_False;
+ // Skip if definition is a datum
+ if (aDefinition->IsKind(STANDARD_TYPE(StepDimTol_Datum)) ||
+ aDefinition->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget)) ||
+ aDefinition->IsKind(STANDARD_TYPE(StepDimTol_DatumFeature)) ||
+ aDefinition->IsKind(STANDARD_TYPE(StepRepr_CompShAspAndDatumFeatAndShAsp))) {
+ isConnectedToGDT = Standard_True;
+ }
+ // Skip if any GDT is applied to definition
+ for (Interface_EntityIterator anIter = aGraph.Sharings(aDefinition); anIter.More() && !isConnectedToGDT; anIter.Next()) {
+ if (anIter.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)) ||
+ anIter.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)) ||
+ anIter.Value()->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ isConnectedToGDT = Standard_True;
+ continue;
+ }
+ Handle(StepRepr_ShapeAspectRelationship) aSAR = Handle(StepRepr_ShapeAspectRelationship)::DownCast(anIter.Value());
+ if (!aSAR.IsNull()) {
+ Handle(StepRepr_ShapeAspect) aSA = aSAR->RelatedShapeAspect();
+ if (!aSA.IsNull()) {
+ if (aSA->IsKind(STANDARD_TYPE(StepDimTol_Datum)) ||
+ aSA->IsKind(STANDARD_TYPE(StepDimTol_DatumTarget)) ||
+ aSA->IsKind(STANDARD_TYPE(StepDimTol_DatumFeature)) ||
+ aSA->IsKind(STANDARD_TYPE(StepRepr_CompShAspAndDatumFeatAndShAsp))) {
+ isConnectedToGDT = Standard_True;
+ }
+ for (Interface_EntityIterator aDimIter = aGraph.Sharings(aSA); aDimIter.More() && !isConnectedToGDT; aDimIter.Next()) {
+ if (aDimIter.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalSize)) ||
+ aDimIter.Value()->IsKind(STANDARD_TYPE(StepShape_DimensionalLocation)) ||
+ aDimIter.Value()->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
+ isConnectedToGDT = Standard_True;
+ continue;
}
}
}
}
}
- if(dim1<0) continue;
- if(dim2<0) dim2=dim1;
- //cout<<"DimensionalSize: dim1="<<dim1<<" dim2="<<dim2<<endl;
- // now we know edge_curve and value range therefore
- // we can create corresponding D> labels
- Standard_Integer index = TP->MapIndex(EC);
- TopoDS_Shape aSh;
- if(index >0) {
- Handle(Transfer_Binder) binder = TP->MapItem(index);
- aSh = TransferBRep::ShapeResult(binder);
- }
- if(aSh.IsNull()) continue;
- TDF_Label shL;
- if( !STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True) ) continue;
- Handle(TColStd_HArray1OfReal) arr = new TColStd_HArray1OfReal(1,2);
- arr->SetValue(1,dim1);
- arr->SetValue(2,dim2);
- DGTTool->SetDimTol(shL,1,arr,aName,DimSize->Name());
+ if (isConnectedToGDT)
+ continue;
}
- // read tolerances and datums
- else if(subs3.Value()->IsKind(STANDARD_TYPE(StepDimTol_GeometricTolerance))) {
- Handle(StepDimTol_GeometricTolerance) GT =
- Handle(StepDimTol_GeometricTolerance)::DownCast(subs3.Value());
- // read common data for tolerance
- //Standard_Real dim = GT->Magnitude()->ValueComponent();
- Handle (StepBasic_MeasureWithUnit) dim3 = GT->Magnitude();
- if(dim3.IsNull()) continue;
- Standard_Real dim = dim3->ValueComponent();
- StepBasic_Unit anUnit = GT->Magnitude()->UnitComponent();
- Standard_Real afact=1.;
- if(anUnit.IsNull()) continue;
- if( !(anUnit.CaseNum(anUnit.Value())==1) ) continue;
- Handle(StepBasic_NamedUnit) NU = anUnit.NamedUnit();
- if(GetLengthConversionFactor(NU,afact)) dim = dim*afact;
- //cout<<"GeometricTolerance: Magnitude = "<<dim<<endl;
- Handle(TColStd_HArray1OfReal) arr = new TColStd_HArray1OfReal(1,1);
- arr->SetValue(1,dim);
- Handle(TCollection_HAsciiString) aName = GT->Name();
- Handle(TCollection_HAsciiString) aDescription = GT->Description();
- Handle(StepShape_AdvancedFace) AF = Handle(StepShape_AdvancedFace)::DownCast(RI);
- if(AF.IsNull()) continue;
- Standard_Integer index = TP->MapIndex(AF);
- TopoDS_Shape aSh;
- if(index >0) {
- Handle(Transfer_Binder) binder = TP->MapItem(index);
- aSh = TransferBRep::ShapeResult(binder);
- }
- if(aSh.IsNull()) continue;
- TDF_Label shL;
- if( !STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True) ) continue;
- // read specific data for tolerance
- if(GT->IsKind(STANDARD_TYPE(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol))) {
- Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol) GTComplex =
- Handle(StepDimTol_GeoTolAndGeoTolWthDatRefAndModGeoTolAndPosTol)::DownCast(subs3.Value());
- Standard_Integer kind=20;
- Handle(StepDimTol_ModifiedGeometricTolerance) MGT =
- GTComplex->GetModifiedGeometricTolerance();
- if(!MGT.IsNull()) {
- kind = kind + MGT->Modifier()+1;
- }
- TDF_Label TolerL = DGTTool->SetDimTol(shL,kind,arr,aName,aDescription);
- // translate datums connected with this tolerance
- Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR =
- GTComplex->GetGeometricToleranceWithDatumReference();
- if(!GTWDR.IsNull()) {
- ReadDatums(STool,DGTTool,graph,TP,TolerL,GTWDR);
- }
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_GeometricToleranceWithDatumReference))) {
- Handle(StepDimTol_GeometricToleranceWithDatumReference) GTWDR =
- Handle(StepDimTol_GeometricToleranceWithDatumReference)::DownCast(subs3.Value());
- if(GTWDR.IsNull()) continue;
- Standard_Integer kind = 0;
- if (GTWDR->IsKind(STANDARD_TYPE(StepDimTol_AngularityTolerance))) kind = 24;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_CircularRunoutTolerance))) kind = 25;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_CoaxialityTolerance))) kind = 26;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_ConcentricityTolerance))) kind = 27;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_ParallelismTolerance))) kind = 28;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_PerpendicularityTolerance))) kind = 29;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_SymmetryTolerance))) kind = 30;
- else if(GTWDR->IsKind(STANDARD_TYPE(StepDimTol_TotalRunoutTolerance))) kind = 31;
- //cout<<"GTWDR: kind="<<kind<<endl;
- TDF_Label TolerL = DGTTool->SetDimTol(shL,kind,arr,aName,aDescription);
- ReadDatums(STool,DGTTool,graph,TP,TolerL,GTWDR);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_ModifiedGeometricTolerance))) {
- Handle(StepDimTol_ModifiedGeometricTolerance) MGT =
- Handle(StepDimTol_ModifiedGeometricTolerance)::DownCast(subs3.Value());
- Standard_Integer kind = 35 + MGT->Modifier();
- DGTTool->SetDimTol(shL,kind,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_CylindricityTolerance))) {
- DGTTool->SetDimTol(shL,38,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_FlatnessTolerance))) {
- DGTTool->SetDimTol(shL,39,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_LineProfileTolerance))) {
- DGTTool->SetDimTol(shL,40,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_PositionTolerance))) {
- DGTTool->SetDimTol(shL,41,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_RoundnessTolerance))) {
- DGTTool->SetDimTol(shL,42,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_StraightnessTolerance))) {
- DGTTool->SetDimTol(shL,43,arr,aName,aDescription);
- }
- else if(GT->IsKind(STANDARD_TYPE(StepDimTol_SurfaceProfileTolerance))) {
- DGTTool->SetDimTol(shL,44,arr,aName,aDescription);
+ else if (aDMIA->Definition().PropertyDefinition().IsNull())
+ continue;
+
+ // Get shapes
+ NCollection_Sequence<Handle(StepRepr_ShapeAspect)> aSAs;
+ collectShapeAspect(aDefinition, theWS, aSAs);
+ for (Standard_Integer aSAIt = 1; aSAIt <= aSAs.Length(); aSAIt++) {
+ Handle(StepAP242_GeometricItemSpecificUsage) aGISU;
+ for (Interface_EntityIterator anIter = aGraph.Sharings(aSAs.Value(aSAIt)); anIter.More() && aGISU.IsNull(); anIter.Next())
+ aGISU = Handle(StepAP242_GeometricItemSpecificUsage)::DownCast(anIter.Value());
+ if (aGISU.IsNull())
+ continue;
+ for (Standard_Integer anItemIt = 1; anItemIt <= aGISU->NbIdentifiedItem(); anItemIt++) {
+ TDF_Label aLabel = getShapeLabel(aGISU->IdentifiedItemValue(anItemIt), theWS, XCAFDoc_DocumentTool::ShapeTool(theDoc->Main()));
+ if (!aLabel.IsNull())
+ aShapesL.Append(aLabel);
}
}
}
+ Standard_Boolean isCommonLabel = (aShapesL.Length() == 0);
+
+ // Calculate unit
+ Standard_Real aFact = 1.0;
+ if (!aDMIA.IsNull())
+ {
+ XSAlgo::AlgoContainer()->PrepareForTransfer();
+ STEPControl_ActorRead anActor;
+ Handle(Transfer_TransientProcess) aTP = aTR->TransientProcess();
+ anActor.PrepareUnits(aDMIA->UsedRepresentation(), aTP);
+ aFact = UnitsMethods::LengthFactor();
+ }
+
+ // Presentation
+ TopoDS_Shape aPresentation;
+ Handle(TCollection_HAsciiString) aPresentName;
+ Bnd_Box aBox;
+ if (!readPMIPresentation(anEnt, aTR, aFact, aPresentation, aPresentName, aBox))
+ continue;
+ // Annotation plane
+ Handle(StepVisual_AnnotationPlane) anAnPlane;
+ for (Interface_EntityIterator anIter = aGraph.Sharings(anEnt); anIter.More() && anAnPlane.IsNull(); anIter.Next())
+ anAnPlane = Handle(StepVisual_AnnotationPlane)::DownCast(anIter.Value());
+
+ // Set object to XCAF
+ TDF_Label aGDTL = aDGTTool->AddDimension();
+ myGDTMap.Bind(anEnt, aGDTL);
+ aDGTTool->Lock(aGDTL);
+ Handle(XCAFDimTolObjects_DimensionObject) aDimObj = new XCAFDimTolObjects_DimensionObject();
+ Handle(XCAFDoc_Dimension) aDim = XCAFDoc_Dimension::Set(aGDTL);
+ TCollection_AsciiString aStr("DGT:");
+ if (isCommonLabel) {
+ aStr.AssignCat("Common_label");
+ aDimObj->SetType(XCAFDimTolObjects_DimensionType_CommonLabel);
+ }
+ else {
+ aStr.AssignCat("Dimension");
+ aDimObj->SetType(XCAFDimTolObjects_DimensionType_DimensionPresentation);
+ }
+ TDataStd_Name::Set(aGDTL, aStr);
+ TDF_LabelSequence anEmptySeq2;
+ aDGTTool->SetDimension(aShapesL, anEmptySeq2, aGDTL);
+ gp_Ax2 aPlaneAxes;
+ if (!anAnPlane.IsNull()) {
+ if (readAnnotationPlane(anAnPlane, aPlaneAxes))
+ aDimObj->SetPlane(aPlaneAxes);
+ }
+ aDimObj->SetPresentation(aPresentation, aPresentName);
+ aDim->SetObject(aDimObj);
}
}
-
return Standard_True;
}
//=======================================================================
static Handle(StepShape_SolidModel) FindSolidForPDS(const Handle(StepRepr_ProductDefinitionShape) &PDS,
- const Interface_Graph &graph)
+ const Interface_Graph &graph)
{
Handle(StepShape_SolidModel) SM;
Interface_EntityIterator subs = graph.Sharings(PDS);
Handle(StepShape_ShapeRepresentation) SR;
- for(subs.Start(); subs.More() && SM.IsNull(); subs.Next()) {
+ for (subs.Start(); subs.More() && SM.IsNull(); subs.Next()) {
Handle(StepShape_ShapeDefinitionRepresentation) SDR =
Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(subs.Value());
- if(SDR.IsNull()) continue;
+ if (SDR.IsNull()) continue;
SR = Handle(StepShape_ShapeRepresentation)::DownCast(SDR->UsedRepresentation());
- if(SR.IsNull()) continue;
- for(Standard_Integer i=1; i<=SR->NbItems() && SM.IsNull(); i++) {
+ if (SR.IsNull()) continue;
+ for (Standard_Integer i = 1; i <= SR->NbItems() && SM.IsNull(); i++) {
SM = Handle(StepShape_SolidModel)::DownCast(SR->ItemsValue(i));
}
- if(SM.IsNull()) {
+ if (SM.IsNull()) {
Interface_EntityIterator subs1 = graph.Sharings(SR);
- for(subs1.Start(); subs1.More() && SM.IsNull(); subs1.Next()) {
+ for (subs1.Start(); subs1.More() && SM.IsNull(); subs1.Next()) {
Handle(StepRepr_RepresentationRelationship) RR =
Handle(StepRepr_RepresentationRelationship)::DownCast(subs1.Value());
- if(RR.IsNull()) continue;
+ if (RR.IsNull()) continue;
Handle(StepShape_ShapeRepresentation) SR2;
- if(RR->Rep1()==SR) SR2 = Handle(StepShape_ShapeRepresentation)::DownCast(RR->Rep2());
+ if (RR->Rep1() == SR) SR2 = Handle(StepShape_ShapeRepresentation)::DownCast(RR->Rep2());
else SR2 = Handle(StepShape_ShapeRepresentation)::DownCast(RR->Rep1());
- if(SR2.IsNull()) continue;
- for(Standard_Integer i2=1; i2<=SR2->NbItems() && SM.IsNull(); i2++) {
+ if (SR2.IsNull()) continue;
+ for (Standard_Integer i2 = 1; i2 <= SR2->NbItems() && SM.IsNull(); i2++) {
SM = Handle(StepShape_SolidModel)::DownCast(SR2->ItemsValue(i2));
}
}
//=======================================================================
Standard_Boolean STEPCAFControl_Reader::ReadMaterials(const Handle(XSControl_WorkSession) &WS,
- Handle(TDocStd_Document)& Doc,
- const Handle(TColStd_HSequenceOfTransient) &SeqPDS) const
-{
- Handle(Interface_InterfaceModel) Model = WS->Model();
- Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool( Doc->Main() );
- Handle(XSControl_TransferReader) TR = WS->TransferReader();
- Handle(Transfer_TransientProcess) TP = TR->TransientProcess();
- Handle(XCAFDoc_MaterialTool) MatTool = XCAFDoc_DocumentTool::MaterialTool( Doc->Main() );
- if(MatTool.IsNull()) return Standard_False;
-
+ Handle(TDocStd_Document)& Doc,
+ const Handle(TColStd_HSequenceOfTransient) &SeqPDS) const
+{
+ const Handle(XSControl_TransferReader) &TR = WS->TransferReader();
+ const Handle(Transfer_TransientProcess) &TP = TR->TransientProcess();
+ Handle(XCAFDoc_ShapeTool) STool = XCAFDoc_DocumentTool::ShapeTool(Doc->Main());
+ Handle(XCAFDoc_MaterialTool) MatTool = XCAFDoc_DocumentTool::MaterialTool(Doc->Main());
+ if (MatTool.IsNull()) return Standard_False;
+
const Interface_Graph& graph = TP->Graph();
- for(Standard_Integer i=1; i<=SeqPDS->Length(); i++) {
+ for (Standard_Integer i = 1; i <= SeqPDS->Length(); i++) {
Handle(StepRepr_ProductDefinitionShape) PDS =
Handle(StepRepr_ProductDefinitionShape)::DownCast(SeqPDS->Value(i));
- if(PDS.IsNull())
+ if (PDS.IsNull())
continue;
Handle(StepBasic_ProductDefinition) aProdDef = PDS->Definition().ProductDefinition();
- if(aProdDef.IsNull())
+ if (aProdDef.IsNull())
continue;
Handle(TCollection_HAsciiString) aName = new TCollection_HAsciiString("");
Handle(TCollection_HAsciiString) aDescription = new TCollection_HAsciiString("");
Handle(TCollection_HAsciiString) aDensName = new TCollection_HAsciiString("");
Handle(TCollection_HAsciiString) aDensValType = new TCollection_HAsciiString("");
- Standard_Real aDensity=0;
- Interface_EntityIterator subs = graph.Sharings( aProdDef);
- for(subs.Start(); subs.More(); subs.Next()) {
+ Standard_Real aDensity = 0;
+ Interface_EntityIterator subs = graph.Sharings(aProdDef);
+ for (subs.Start(); subs.More(); subs.Next()) {
Handle(StepRepr_PropertyDefinition) PropD =
Handle(StepRepr_PropertyDefinition)::DownCast(subs.Value());
- if(PropD.IsNull()) continue;
+ if (PropD.IsNull()) continue;
Interface_EntityIterator subs1 = graph.Sharings(PropD);
- for(subs1.Start(); subs1.More(); subs1.Next()) {
+ for (subs1.Start(); subs1.More(); subs1.Next()) {
Handle(StepRepr_PropertyDefinitionRepresentation) PDR =
Handle(StepRepr_PropertyDefinitionRepresentation)::DownCast(subs1.Value());
- if(PDR.IsNull()) continue;
+ if (PDR.IsNull()) continue;
Handle(StepRepr_Representation) Repr = PDR->UsedRepresentation();
- if(Repr.IsNull()) continue;
+ if (Repr.IsNull()) continue;
Standard_Integer ir;
- for(ir=1; ir<=Repr->NbItems(); ir++) {
+ for (ir = 1; ir <= Repr->NbItems(); ir++) {
Handle(StepRepr_RepresentationItem) RI = Repr->ItemsValue(ir);
- if(RI.IsNull()) continue;
- if(RI->IsKind(STANDARD_TYPE(StepRepr_DescriptiveRepresentationItem))) {
+ if (RI.IsNull()) continue;
+ if (RI->IsKind(STANDARD_TYPE(StepRepr_DescriptiveRepresentationItem))) {
// find name and description for material
Handle(StepRepr_DescriptiveRepresentationItem) DRI =
Handle(StepRepr_DescriptiveRepresentationItem)::DownCast(RI);
aName = DRI->Name();
-
+
aDescription = DRI->Description();
- if(aName.IsNull())
+ if (aName.IsNull())
aName = aDescription;
}
- if(RI->IsKind(STANDARD_TYPE(StepRepr_MeasureRepresentationItem))) {
+ if (RI->IsKind(STANDARD_TYPE(StepRepr_MeasureRepresentationItem))) {
// try to find density for material
Handle(StepRepr_MeasureRepresentationItem) MRI =
Handle(StepRepr_MeasureRepresentationItem)::DownCast(RI);
aDensName = MRI->Name();
aDensValType = new TCollection_HAsciiString(MRI->Measure()->ValueComponentMember()->Name());
StepBasic_Unit aUnit = MRI->Measure()->UnitComponent();
- if(!aUnit.IsNull()) {
+ if (!aUnit.IsNull()) {
Handle(StepBasic_DerivedUnit) DU = aUnit.DerivedUnit();
- if(DU.IsNull()) continue;
- for(Standard_Integer idu=1; idu<=DU->NbElements(); idu++) {
+ if (DU.IsNull()) continue;
+ for (Standard_Integer idu = 1; idu <= DU->NbElements(); idu++) {
Handle(StepBasic_DerivedUnitElement) DUE = DU->ElementsValue(idu);
Handle(StepBasic_NamedUnit) NU = DUE->Unit();
- Standard_Real afact=1.;
- if(NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndLengthUnit))) {
- if(GetLengthConversionFactor(NU,afact)) aDensity = aDensity/(afact*afact*afact);
+ if (NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndLengthUnit)) ||
+ NU->IsKind(STANDARD_TYPE(StepBasic_SiUnitAndLengthUnit)))
+ {
+ STEPConstruct_UnitContext anUnitCtx;
+ anUnitCtx.ComputeFactors(NU);
+ aDensity = aDensity / (anUnitCtx.LengthFactor()*anUnitCtx.LengthFactor()*anUnitCtx.LengthFactor());
// transfer length value for Density from millimeter to santimeter
// in order to result density has dimension gram/(sm*sm*sm)
- aDensity = aDensity*1000.;
+ aDensity = aDensity*1000. / (UnitsMethods::GetCasCadeLengthUnit()
+ * UnitsMethods::GetCasCadeLengthUnit() * UnitsMethods::GetCasCadeLengthUnit());
}
- if(NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndMassUnit))) {
- if(GetMassConversionFactor(NU,afact)) aDensity=aDensity*afact;
+ if (NU->IsKind(STANDARD_TYPE(StepBasic_ConversionBasedUnitAndMassUnit))) {
+ Standard_Real afact = 1.;
+ if (GetMassConversionFactor(NU, afact))
+ {
+ aDensity = aDensity*afact;
+ }
}
}
}
}
}
}
-
- if( aName.IsNull() || aName->Length()==0 )
+
+ if (aName.IsNull() || aName->Length() == 0)
continue;
// find shape label amd create Material link
TopoDS_Shape aSh;
- Handle(StepShape_SolidModel) SM = FindSolidForPDS(PDS,graph);
- if(!SM.IsNull()) {
+ Handle(StepShape_SolidModel) SM = FindSolidForPDS(PDS, graph);
+ if (!SM.IsNull()) {
Standard_Integer index = TP->MapIndex(SM);
- if(index >0) {
+ if (index > 0) {
Handle(Transfer_Binder) binder = TP->MapItem(index);
- if(!binder.IsNull())
+ if (!binder.IsNull())
aSh = TransferBRep::ShapeResult(binder);
}
}
- if(aSh.IsNull()) continue;
+ if (aSh.IsNull()) continue;
TDF_Label shL;
- if( !STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True) ) continue;
- MatTool->SetMaterial(shL,aName,aDescription,aDensity,aDensName,aDensValType);
+ if (!STool->Search(aSh, shL, Standard_True, Standard_True, Standard_True)) continue;
+ MatTool->SetMaterial(shL, aName, aDescription, aDensity, aDensName, aDensValType);
+ }
+
+ return Standard_True;
+}
+
+//=======================================================================
+//function : collectViewShapes
+//purpose : collect all labels of representations in given representation
+//=======================================================================
+
+void collectViewShapes(const Handle(XSControl_WorkSession)& theWS,
+ const Handle(TDocStd_Document)& theDoc,
+ const Handle(StepRepr_Representation) theRepr,
+ TDF_LabelSequence& theShapes)
+{
+ Handle(XSControl_TransferReader) aTR = theWS->TransferReader();
+ Handle(Transfer_TransientProcess) aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Standard_Integer anIndex = aTP->MapIndex(theRepr);
+ TopoDS_Shape aSh;
+ if (anIndex > 0) {
+ Handle(Transfer_Binder) aBinder = aTP->MapItem(anIndex);
+ aSh = TransferBRep::ShapeResult(aBinder);
+ }
+ if (!aSh.IsNull()) {
+ TDF_Label aShL;
+ aSTool->FindShape(aSh, aShL);
+ if (!aShL.IsNull())
+ theShapes.Append(aShL);
+ }
+ Interface_EntityIterator anIter = aGraph.Sharings(theRepr);
+ for (; anIter.More(); anIter.Next()) {
+ if (!anIter.Value()->IsKind(STANDARD_TYPE(StepRepr_RepresentationRelationship)))
+ continue;
+ Handle(StepRepr_RepresentationRelationship) aReprRelationship = Handle(StepRepr_RepresentationRelationship)::DownCast(anIter.Value());
+ if (!aReprRelationship->Rep1().IsNull() && aReprRelationship->Rep1() != theRepr)
+ collectViewShapes(theWS, theDoc, aReprRelationship->Rep1(), theShapes);
+ }
+}
+
+//=======================================================================
+//function : buildClippingPlanes
+//purpose :
+//=======================================================================
+Handle(TCollection_HAsciiString) buildClippingPlanes(const Handle(StepGeom_GeometricRepresentationItem)& theClippingCameraModel,
+ TDF_LabelSequence& theClippingPlanes,
+ const Handle(XCAFDoc_ClippingPlaneTool) theTool)
+{
+ Handle(TCollection_HAsciiString) anExpression = new TCollection_HAsciiString();
+ NCollection_Sequence<Handle(StepGeom_GeometricRepresentationItem)> aPlanes;
+ Handle(TCollection_HAsciiString) anOperation = new TCollection_HAsciiString("*");
+
+ // Store operands
+ if (theClippingCameraModel->IsKind(STANDARD_TYPE(StepVisual_CameraModelD3MultiClipping))) {
+ Handle(StepVisual_CameraModelD3MultiClipping) aCameraModel =
+ Handle(StepVisual_CameraModelD3MultiClipping)::DownCast(theClippingCameraModel);
+
+ if (aCameraModel->ShapeClipping().IsNull())
+ return anExpression;
+
+ // Root of clipping planes tree
+ if (aCameraModel->ShapeClipping()->Length() == 1) {
+ Handle(StepVisual_CameraModelD3MultiClippingUnion) aCameraModelUnion =
+ aCameraModel->ShapeClipping()->Value(1).CameraModelD3MultiClippingUnion();
+ if (!aCameraModelUnion.IsNull())
+ return buildClippingPlanes(aCameraModelUnion, theClippingPlanes, theTool);
+ }
+ for (Standard_Integer i = 1; i <= aCameraModel->ShapeClipping()->Length(); i++) {
+ aPlanes.Append(Handle(StepGeom_GeometricRepresentationItem)::DownCast(aCameraModel->ShapeClipping()->Value(i).Value()));
+ }
+ }
+ else if (theClippingCameraModel->IsKind(STANDARD_TYPE(StepVisual_CameraModelD3MultiClippingUnion))) {
+ Handle(StepVisual_CameraModelD3MultiClippingUnion) aCameraModel =
+ Handle(StepVisual_CameraModelD3MultiClippingUnion)::DownCast(theClippingCameraModel);
+ anOperation = new TCollection_HAsciiString("+");
+ for (Standard_Integer i = 1; i <= aCameraModel->ShapeClipping()->Length(); i++) {
+ aPlanes.Append(Handle(StepGeom_GeometricRepresentationItem)::DownCast(aCameraModel->ShapeClipping()->Value(i).Value()));
+ }
+ }
+ else if (theClippingCameraModel->IsKind(STANDARD_TYPE(StepVisual_CameraModelD3MultiClippingIntersection))) {
+ Handle(StepVisual_CameraModelD3MultiClippingIntersection) aCameraModel =
+ Handle(StepVisual_CameraModelD3MultiClippingIntersection)::DownCast(theClippingCameraModel);
+ for (Standard_Integer i = 1; i <= aCameraModel->ShapeClipping()->Length(); i++) {
+ aPlanes.Append(Handle(StepGeom_GeometricRepresentationItem)::DownCast(aCameraModel->ShapeClipping()->Value(i).Value()));
+ }
+ }
+ // Build expression
+ anExpression->AssignCat("(");
+ for (Standard_Integer i = 1; i <= aPlanes.Length(); i++) {
+ Handle(StepGeom_Plane) aPlaneEnt = Handle(StepGeom_Plane)::DownCast(aPlanes.Value(i));
+ if (!aPlaneEnt.IsNull()) {
+ Handle(Geom_Plane) aPlane = StepToGeom::MakePlane(aPlaneEnt);
+ if (!aPlane.IsNull()) {
+ TDF_Label aPlaneL = theTool->AddClippingPlane(aPlane->Pln(), aPlaneEnt->Name());
+ theClippingPlanes.Append(aPlaneL);
+ TCollection_AsciiString anEntry;
+ TDF_Tool::Entry(aPlaneL, anEntry);
+ anExpression->AssignCat(new TCollection_HAsciiString(anEntry));
+ }
+ }
+ else {
+ anExpression->AssignCat(buildClippingPlanes(aPlanes.Value(i), theClippingPlanes, theTool));
+ }
+ anExpression->AssignCat(anOperation);
}
+ // Insert brace instead of operation after last operand.
+ anExpression->SetValue(anExpression->Length(), ')');
+ return anExpression;
+}
+
+
+//=======================================================================
+//function : ReadViews
+//purpose :
+//=======================================================================
+Standard_Boolean STEPCAFControl_Reader::ReadViews(const Handle(XSControl_WorkSession)& theWS, Handle(TDocStd_Document)& theDoc) const
+{
+ const Handle(Interface_InterfaceModel) &aModel = theWS->Model();
+ Handle(XCAFDoc_ShapeTool) aSTool = XCAFDoc_DocumentTool::ShapeTool(theDoc->Main());
+ Handle(XCAFDoc_DimTolTool) aDGTTool = XCAFDoc_DocumentTool::DimTolTool(theDoc->Main());
+ Handle(XCAFDoc_ViewTool) aViewTool = XCAFDoc_DocumentTool::ViewTool(theDoc->Main());
+ if (aDGTTool.IsNull()) return Standard_False;
+
+ Standard_Integer nb = aModel->NbEntities();
+ for (Standard_Integer i = 1; i <= nb; i++) {
+ Handle(Standard_Transient) anEnt = aModel->Value(i);
+ if (!anEnt->IsKind(STANDARD_TYPE(StepVisual_CameraModelD3)))
+ continue;
+ Handle(XCAFView_Object) anObj = new XCAFView_Object();
+ // Import attributes of view
+ Handle(StepVisual_CameraModelD3) aCameraModel = Handle(StepVisual_CameraModelD3)::DownCast(anEnt);
+
+ const Handle(XSControl_TransferReader)& aTR = theWS->TransferReader();
+ Handle(Transfer_TransientProcess) aTP = aTR->TransientProcess();
+ const Interface_Graph& aGraph = aTP->Graph();
+ // find the proper DraughtingModel
+ Interface_EntityIterator subs = aGraph.Sharings(aCameraModel);
+ Handle(StepVisual_DraughtingModel) aDModel;
+ for (subs.Start(); subs.More() && aDModel.IsNull(); subs.Next())
+ {
+ if (!subs.Value()->IsKind(STANDARD_TYPE(StepVisual_DraughtingModel)))
+ {
+ continue;
+ }
+ aDModel = Handle(StepVisual_DraughtingModel)::DownCast(subs.Value());
+ }
+ if (!aDModel.IsNull())
+ {
+ XSAlgo::AlgoContainer()->PrepareForTransfer();
+ STEPControl_ActorRead anActor;
+ anActor.PrepareUnits(aDModel, aTP);
+ }
+ anObj->SetName(aCameraModel->Name());
+ Handle(Geom_Axis2Placement) anAxis = StepToGeom::MakeAxis2Placement(aCameraModel->ViewReferenceSystem());
+ anObj->SetViewDirection(anAxis->Direction());
+ anObj->SetUpDirection(anAxis->Direction() ^ anAxis->XDirection());
+ Handle(StepVisual_ViewVolume) aViewVolume = aCameraModel->PerspectiveOfVolume();
+ XCAFView_ProjectionType aType = XCAFView_ProjectionType_NoCamera;
+ if (aViewVolume->ProjectionType() == StepVisual_copCentral)
+ aType = XCAFView_ProjectionType_Central;
+ else if (aViewVolume->ProjectionType() == StepVisual_copParallel)
+ aType = XCAFView_ProjectionType_Parallel;
+ anObj->SetType(aType);
+ Handle(Geom_CartesianPoint) aPoint = StepToGeom::MakeCartesianPoint(aViewVolume->ProjectionPoint());
+ anObj->SetProjectionPoint(aPoint->Pnt());
+ anObj->SetZoomFactor(aViewVolume->ViewPlaneDistance());
+ anObj->SetWindowHorizontalSize(aViewVolume->ViewWindow()->SizeInX());
+ anObj->SetWindowVerticalSize(aViewVolume->ViewWindow()->SizeInY());
+ if (aViewVolume->FrontPlaneClipping())
+ anObj->SetFrontPlaneDistance(aViewVolume->FrontPlaneDistance());
+ if (aViewVolume->BackPlaneClipping())
+ anObj->SetBackPlaneDistance(aViewVolume->BackPlaneDistance());
+ anObj->SetViewVolumeSidesClipping(aViewVolume->ViewVolumeSidesClipping());
+ // Clipping plane
+ Handle(StepVisual_CameraModelD3MultiClipping) aClippingCameraModel =
+ Handle(StepVisual_CameraModelD3MultiClipping)::DownCast(aCameraModel);
+ TDF_LabelSequence aClippingPlanes;
+ if (!aClippingCameraModel.IsNull()) {
+ Handle(TCollection_HAsciiString) aClippingExpression;
+ Handle(XCAFDoc_ClippingPlaneTool) aClippingPlaneTool = XCAFDoc_DocumentTool::ClippingPlaneTool(theDoc->Main());
+ aClippingExpression = buildClippingPlanes(aClippingCameraModel, aClippingPlanes, aClippingPlaneTool);
+ anObj->SetClippingExpression(aClippingExpression);
+ }
+
+ // Collect shapes and GDTs
+ if (aDModel.IsNull())
+ return Standard_False;
+ TDF_LabelSequence aShapes, aGDTs;
+ Interface_EntityIterator anIter = aGraph.Shareds(aDModel);
+ for (; anIter.More(); anIter.Next()) {
+ if (anIter.Value()->IsKind(STANDARD_TYPE(StepRepr_MappedItem))) {
+ Handle(StepRepr_MappedItem) anItem = Handle(StepRepr_MappedItem)::DownCast(anIter.Value());
+ Handle(StepRepr_Representation) aRepr = anItem->MappingSource()->MappedRepresentation();
+ collectViewShapes(theWS, theDoc, aRepr, aShapes);
+ }
+ else if (anIter.Value()->IsKind(STANDARD_TYPE(StepVisual_AnnotationOccurrence)) ||
+ anIter.Value()->IsKind(STANDARD_TYPE(StepVisual_DraughtingCallout))) {
+ Interface_EntityIterator aDMIAIter = aGraph.Sharings(anIter.Value());
+ for (; aDMIAIter.More(); aDMIAIter.Next()) {
+ if (!aDMIAIter.Value()->IsKind(STANDARD_TYPE(StepAP242_DraughtingModelItemAssociation)))
+ continue;
+ Handle(StepAP242_DraughtingModelItemAssociation) aDMIA =
+ Handle(StepAP242_DraughtingModelItemAssociation)::DownCast(aDMIAIter.Value());
+ TDF_Label aGDTL;
+ Standard_Boolean isFind = myGDTMap.Find(aDMIA->Definition().Value(), aGDTL);
+ if (!isFind) {
+ isFind = myGDTMap.Find(anIter.Value(), aGDTL);
+ }
+ if (isFind)
+ aGDTs.Append(aGDTL);
+ }
+ }
+ else if (anIter.Value()->IsKind(STANDARD_TYPE(StepVisual_AnnotationPlane))) {
+ Handle(StepVisual_AnnotationPlane) aPlane = Handle(StepVisual_AnnotationPlane)::DownCast(anIter.Value());
+ for (Standard_Integer j = 1; j <= aPlane->NbElements(); j++) {
+ Interface_EntityIterator aDMIAIter = aGraph.Sharings(anIter.Value());
+ for (; aDMIAIter.More(); aDMIAIter.Next()) {
+ if (!aDMIAIter.Value()->IsKind(STANDARD_TYPE(StepAP242_DraughtingModelItemAssociation)))
+ continue;
+ Handle(StepAP242_DraughtingModelItemAssociation) aDMIA =
+ Handle(StepAP242_DraughtingModelItemAssociation)::DownCast(aDMIAIter.Value());
+ TDF_Label aGDTL;
+ Standard_Boolean isFind = myGDTMap.Find(aDMIA->Definition().Value(), aGDTL);
+ if (isFind)
+ aGDTs.Append(aGDTL);
+ }
+ }
+ }
+ }
+ TDF_Label aViewL = aViewTool->AddView();
+ Handle(XCAFDoc_View) aView = XCAFDoc_View::Set(aViewL);
+ aView->SetObject(anObj);
+ aViewTool->SetView(aShapes, aGDTs, aClippingPlanes, aViewL);
+ aViewTool->Lock(aViewL);
+ }
return Standard_True;
}
//=======================================================================
TDF_Label STEPCAFControl_Reader::SettleShapeData(const Handle(StepRepr_RepresentationItem)& theItem,
- TDF_Label& theLab,
- const Handle(XCAFDoc_ShapeTool)& theShapeTool,
- const Handle(Transfer_TransientProcess)& TP) const
+ const TDF_Label& theLab,
+ const Handle(XCAFDoc_ShapeTool)& theShapeTool,
+ const Handle(Transfer_TransientProcess)& TP) const
{
TDF_Label aResult = theLab;
Handle(TCollection_HAsciiString) hName = theItem->Name();
- if ( hName.IsNull() || hName->IsEmpty() )
+ if (hName.IsNull() || hName->IsEmpty())
return aResult;
Handle(Transfer_Binder) aBinder = TP->Find(theItem);
- if ( aBinder.IsNull() )
+ if (aBinder.IsNull())
return aResult;
TopoDS_Shape aShape = TransferBRep::ShapeResult(aBinder);
- if ( aShape.IsNull() )
+ if (aShape.IsNull())
return aResult;
// Allocate sub-Label
- aResult = AllocateSubLabel(theLab);
+ aResult = theShapeTool->AddSubShape(theLab, aShape);
+ if (aResult.IsNull())
+ return aResult;
TCollection_AsciiString aName = hName->String();
TDataStd_Name::Set(aResult, aName);
return aResult;
}
+//=======================================================================
+//function : collectRepresentationItems
+//purpose : recursive collection of representation items for given representation
+// with all representations, related to it.
+//=======================================================================
+
+void collectRepresentationItems(const Interface_Graph& theGraph,
+ const Handle(StepShape_ShapeRepresentation)& theRepresentation,
+ NCollection_Sequence<Handle(StepRepr_RepresentationItem)>& theItems)
+{
+ Handle(StepRepr_HArray1OfRepresentationItem) aReprItems = theRepresentation->Items();
+ for (Standard_Integer itemIt = aReprItems->Lower(); itemIt <= aReprItems->Upper(); itemIt++)
+ theItems.Append(aReprItems->Value(itemIt));
+
+ Interface_EntityIterator entIt = theGraph.TypedSharings(theRepresentation, STANDARD_TYPE(StepRepr_RepresentationRelationship));
+ for (entIt.Start(); entIt.More(); entIt.Next())
+ {
+ Handle(StepRepr_RepresentationRelationship) aRelationship = Handle(StepRepr_RepresentationRelationship)::DownCast(entIt.Value());
+ if (aRelationship->Rep1() == theRepresentation)
+ {
+ Handle(StepShape_ShapeRepresentation)
+ aRepr = Handle(StepShape_ShapeRepresentation)::DownCast(aRelationship->Rep2());
+ if (!aRepr.IsNull())
+ collectRepresentationItems(theGraph, aRepr, theItems);
+ }
+ }
+}
+
//=======================================================================
//function : ExpandSubShapes
//purpose :
//=======================================================================
void STEPCAFControl_Reader::ExpandSubShapes(const Handle(XCAFDoc_ShapeTool)& ShapeTool,
- const XCAFDoc_DataMapOfShapeLabel& ShapeLabelMap,
- const STEPCAFControl_DataMapOfShapePD& ShapePDMap) const
+ const XCAFDoc_DataMapOfShapeLabel& ShapeLabelMap,
+ const STEPCAFControl_DataMapOfShapePD& ShapePDMap) const
{
const Handle(Transfer_TransientProcess)& TP = Reader().WS()->TransferReader()->TransientProcess();
NCollection_DataMap<TopoDS_Shape, Handle(TCollection_HAsciiString)> ShapeNameMap;
// Read translation control variables
Standard_Boolean doReadSNames = (Interface_Static::IVal("read.stepcaf.subshapes.name") > 0);
- if ( !doReadSNames )
+ if (!doReadSNames)
return;
const Interface_Graph& Graph = Reader().WS()->Graph();
- for ( STEPCAFControl_DataMapIteratorOfDataMapOfShapePD it(ShapePDMap); it.More(); it.Next() )
+ for (STEPCAFControl_DataMapIteratorOfDataMapOfShapePD it(ShapePDMap); it.More(); it.Next())
{
const TopoDS_Shape& aRootShape = it.Key();
const Handle(StepBasic_ProductDefinition)& aPDef = it.Value();
- if ( aPDef.IsNull() )
+ if (aPDef.IsNull())
continue;
// Find SDR by Product
Handle(StepShape_ShapeDefinitionRepresentation) aSDR;
- Interface_EntityIterator entIt = Graph.TypedSharings( aPDef, STANDARD_TYPE(StepShape_ShapeDefinitionRepresentation) );
- for ( entIt.Start(); entIt.More(); entIt.Next() )
+ Interface_EntityIterator entIt = Graph.TypedSharings(aPDef, STANDARD_TYPE(StepShape_ShapeDefinitionRepresentation));
+ for (entIt.Start(); entIt.More(); entIt.Next())
{
const Handle(Standard_Transient)& aReferer = entIt.Value();
aSDR = Handle(StepShape_ShapeDefinitionRepresentation)::DownCast(aReferer);
- if ( !aSDR.IsNull() )
+ if (!aSDR.IsNull())
break;
}
- if ( aSDR.IsNull() )
+ if (aSDR.IsNull())
continue;
// Access shape representation
Handle(StepShape_ShapeRepresentation)
- aShapeRepr = Handle(StepShape_ShapeRepresentation)::DownCast( aSDR->UsedRepresentation() );
+ aShapeRepr = Handle(StepShape_ShapeRepresentation)::DownCast(aSDR->UsedRepresentation());
- if ( aShapeRepr.IsNull() )
+ if (aShapeRepr.IsNull())
continue;
// Access representation items
- Handle(StepRepr_HArray1OfRepresentationItem) aReprItems = aShapeRepr->Items();
+ NCollection_Sequence<Handle(StepRepr_RepresentationItem)> aReprItems;
+ collectRepresentationItems(Graph, aShapeRepr, aReprItems);
- if ( aReprItems.IsNull() )
+ if (aReprItems.Length() == 0)
continue;
- if ( !ShapeLabelMap.IsBound(aRootShape) )
+ if (!ShapeLabelMap.IsBound(aRootShape))
continue;
TDF_Label aRootLab = ShapeLabelMap.Find(aRootShape);
+ // Do not add subshapes to assembly,
+ // they will be processed with corresponding Shape_Product_Definition of necessary part.
+ if (ShapeTool->IsAssembly(aRootLab))
+ continue;
StepRepr_SequenceOfRepresentationItem aMSBSeq;
StepRepr_SequenceOfRepresentationItem aSBSMSeq;
// Iterate over the top level representation items collecting the
// topological containers to expand
- for ( Standard_Integer i = aReprItems->Lower(); i <= aReprItems->Upper(); ++i )
+ for (Standard_Integer i = 1; i <= aReprItems.Length(); ++i)
{
- Handle(StepRepr_RepresentationItem) aTRepr = aReprItems->Value(i);
- if ( aTRepr->IsKind( STANDARD_TYPE(StepShape_ManifoldSolidBrep) ) )
+ Handle(StepRepr_RepresentationItem) aTRepr = aReprItems.Value(i);
+ if (aTRepr->IsKind(STANDARD_TYPE(StepShape_ManifoldSolidBrep)))
aMSBSeq.Append(aTRepr);
- else if ( aTRepr->IsKind( STANDARD_TYPE(StepShape_ShellBasedSurfaceModel) ) )
+ else if (aTRepr->IsKind(STANDARD_TYPE(StepShape_ShellBasedSurfaceModel)))
aSBSMSeq.Append(aTRepr);
}
Standard_Boolean doInsertSolidLab = (aMSBSeq.Length() > 1);
// Expand Manifold Solid BReps
- for ( Standard_Integer i = 1; i <= aMSBSeq.Length(); ++i )
+ for (Standard_Integer i = 1; i <= aMSBSeq.Length(); ++i)
{
- const Handle(StepRepr_RepresentationItem)& aManiRepr = aMSBSeq.Value(i);
-
// Put additional Label for SOLID
- TDF_Label aManiLab;
- if ( doInsertSolidLab )
- aManiLab = SettleShapeData(aManiRepr, aRootLab, ShapeTool, TP);
- else
- aManiLab = aRootLab;
+ if (doInsertSolidLab)
+ SettleShapeData(aMSBSeq.Value(i), aRootLab, ShapeTool, TP);
- ExpandManifoldSolidBrep(aManiLab, aMSBSeq.Value(i), TP, ShapeTool);
+ ExpandManifoldSolidBrep(aRootLab, aMSBSeq.Value(i), TP, ShapeTool);
}
// Expand Shell-Based Surface Models
- for ( Standard_Integer i = 1; i <= aSBSMSeq.Length(); ++i )
+ for (Standard_Integer i = 1; i <= aSBSMSeq.Length(); ++i)
ExpandSBSM(aRootLab, aSBSMSeq.Value(i), TP, ShapeTool);
}
}
//=======================================================================
void STEPCAFControl_Reader::ExpandManifoldSolidBrep(TDF_Label& ShapeLab,
- const Handle(StepRepr_RepresentationItem)& Repr,
- const Handle(Transfer_TransientProcess)& TP,
- const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
+ const Handle(StepRepr_RepresentationItem)& Repr,
+ const Handle(Transfer_TransientProcess)& TP,
+ const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
{
// Access outer shell
Handle(StepShape_ManifoldSolidBrep) aMSB = Handle(StepShape_ManifoldSolidBrep)::DownCast(Repr);
- Handle(StepShape_ClosedShell) aShell = aMSB->Outer();
+ Handle(StepShape_ConnectedFaceSet) aShell = aMSB->Outer();
// Expand shell contents to CAF tree
ExpandShell(aShell, ShapeLab, TP, ShapeTool);
//=======================================================================
void STEPCAFControl_Reader::ExpandSBSM(TDF_Label& ShapeLab,
- const Handle(StepRepr_RepresentationItem)& Repr,
- const Handle(Transfer_TransientProcess)& TP,
- const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
+ const Handle(StepRepr_RepresentationItem)& Repr,
+ const Handle(Transfer_TransientProcess)& TP,
+ const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
{
Handle(StepShape_ShellBasedSurfaceModel) aSBSM = Handle(StepShape_ShellBasedSurfaceModel)::DownCast(Repr);
// Access boundary shells
Handle(StepShape_HArray1OfShell) aShells = aSBSM->SbsmBoundary();
- for ( Standard_Integer s = aShells->Lower(); s <= aShells->Upper(); ++s )
+ for (Standard_Integer s = aShells->Lower(); s <= aShells->Upper(); ++s)
{
const StepShape_Shell& aShell = aShells->Value(s);
Handle(StepShape_ConnectedFaceSet) aCFS;
Handle(StepShape_OpenShell) anOpenShell = aShell.OpenShell();
Handle(StepShape_ClosedShell) aClosedShell = aShell.ClosedShell();
- if ( !anOpenShell.IsNull() )
+ if (!anOpenShell.IsNull())
aCFS = anOpenShell;
else
aCFS = aClosedShell;
//=======================================================================
void STEPCAFControl_Reader::ExpandShell(const Handle(StepShape_ConnectedFaceSet)& Shell,
- TDF_Label& RootLab,
- const Handle(Transfer_TransientProcess)& TP,
- const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
+ TDF_Label& RootLab,
+ const Handle(Transfer_TransientProcess)& TP,
+ const Handle(XCAFDoc_ShapeTool)& ShapeTool) const
{
// Record CAF data
- TDF_Label aShellLab = SettleShapeData(Shell, RootLab, ShapeTool, TP);
+ SettleShapeData(Shell, RootLab, ShapeTool, TP);
// Access faces
Handle(StepShape_HArray1OfFace) aFaces = Shell->CfsFaces();
- for ( Standard_Integer f = aFaces->Lower(); f <= aFaces->Upper(); ++f )
+ for (Standard_Integer f = aFaces->Lower(); f <= aFaces->Upper(); ++f)
{
const Handle(StepShape_Face)& aFace = aFaces->Value(f);
+ if (aFace.IsNull())
+ continue;
// Record CAF data
- TDF_Label aFaceLab = SettleShapeData(aFace, aShellLab, ShapeTool, TP);
+ SettleShapeData(aFace, RootLab, ShapeTool, TP);
// Access face bounds
Handle(StepShape_HArray1OfFaceBound) aWires = aFace->Bounds();
- for ( Standard_Integer w = aWires->Lower(); w <= aWires->Upper(); ++w )
+ if (aWires.IsNull())
+ continue;
+ for (Standard_Integer w = aWires->Lower(); w <= aWires->Upper(); ++w)
{
const Handle(StepShape_Loop)& aWire = aWires->Value(w)->Bound();
// Record CAF data
- TDF_Label aWireLab = SettleShapeData(aWire, aFaceLab, ShapeTool, TP);
+ SettleShapeData(aWire, RootLab, ShapeTool, TP);
// Access wire edges
// Currently only EDGE LOOPs are considered (!)
- if ( !aWire->IsInstance( STANDARD_TYPE(StepShape_EdgeLoop) ) )
+ if (!aWire->IsInstance(STANDARD_TYPE(StepShape_EdgeLoop)))
continue;
// Access edges
Handle(StepShape_EdgeLoop) anEdgeLoop = Handle(StepShape_EdgeLoop)::DownCast(aWire);
Handle(StepShape_HArray1OfOrientedEdge) anEdges = anEdgeLoop->EdgeList();
- for ( Standard_Integer e = anEdges->Lower(); e <= anEdges->Upper(); ++e )
+ for (Standard_Integer e = anEdges->Lower(); e <= anEdges->Upper(); ++e)
{
- Handle(StepShape_Edge) anEdge = anEdges->Value(e)->EdgeElement();
+ Handle(StepShape_OrientedEdge) anOrientedEdge = anEdges->Value(e);
+ if (anOrientedEdge.IsNull())
+ continue;
+ Handle(StepShape_Edge) anEdge = anOrientedEdge->EdgeElement();
+ if (anEdge.IsNull())
+ continue;
// Record CAF data
- TDF_Label anEdgeLab = SettleShapeData(anEdge, aWireLab, ShapeTool, TP);
+ SettleShapeData(anEdge, RootLab, ShapeTool, TP);
// Access vertices
Handle(StepShape_Vertex) aV1 = anEdge->EdgeStart();
Handle(StepShape_Vertex) aV2 = anEdge->EdgeEnd();
// Record CAF data
- SettleShapeData(aV1, anEdgeLab, ShapeTool, TP);
- SettleShapeData(aV2, anEdgeLab, ShapeTool, TP);
+ SettleShapeData(aV1, RootLab, ShapeTool, TP);
+ SettleShapeData(aV2, RootLab, ShapeTool, TP);
}
}
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetColorMode (const Standard_Boolean colormode)
+void STEPCAFControl_Reader::SetColorMode(const Standard_Boolean colormode)
{
myColorMode = colormode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetColorMode () const
+Standard_Boolean STEPCAFControl_Reader::GetColorMode() const
{
return myColorMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetNameMode (const Standard_Boolean namemode)
+void STEPCAFControl_Reader::SetNameMode(const Standard_Boolean namemode)
{
myNameMode = namemode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetNameMode () const
+Standard_Boolean STEPCAFControl_Reader::GetNameMode() const
{
return myNameMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetLayerMode (const Standard_Boolean layermode)
+void STEPCAFControl_Reader::SetLayerMode(const Standard_Boolean layermode)
{
myLayerMode = layermode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetLayerMode () const
+Standard_Boolean STEPCAFControl_Reader::GetLayerMode() const
{
return myLayerMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetPropsMode (const Standard_Boolean propsmode)
+void STEPCAFControl_Reader::SetPropsMode(const Standard_Boolean propsmode)
{
myPropsMode = propsmode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetPropsMode () const
+Standard_Boolean STEPCAFControl_Reader::GetPropsMode() const
{
return myPropsMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetSHUOMode (const Standard_Boolean mode)
+void STEPCAFControl_Reader::SetSHUOMode(const Standard_Boolean mode)
{
mySHUOMode = mode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetSHUOMode () const
+Standard_Boolean STEPCAFControl_Reader::GetSHUOMode() const
{
return mySHUOMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetGDTMode (const Standard_Boolean gdtmode)
+void STEPCAFControl_Reader::SetGDTMode(const Standard_Boolean gdtmode)
{
myGDTMode = gdtmode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetGDTMode () const
+Standard_Boolean STEPCAFControl_Reader::GetGDTMode() const
{
return myGDTMode;
}
//purpose :
//=======================================================================
-void STEPCAFControl_Reader::SetMatMode (const Standard_Boolean matmode)
+void STEPCAFControl_Reader::SetMatMode(const Standard_Boolean matmode)
{
myMatMode = matmode;
}
//purpose :
//=======================================================================
-Standard_Boolean STEPCAFControl_Reader::GetMatMode () const
+Standard_Boolean STEPCAFControl_Reader::GetMatMode() const
{
return myMatMode;
}
+
+//=======================================================================
+//function : SetViewMode
+//purpose :
+//=======================================================================
+
+void STEPCAFControl_Reader::SetViewMode(const Standard_Boolean viewmode)
+{
+ myViewMode = viewmode;
+}
+
+//=======================================================================
+//function : GetViewMode
+//purpose :
+//=======================================================================
+
+Standard_Boolean STEPCAFControl_Reader::GetViewMode() const
+{
+ return myViewMode;
+}