Ejemplo n.º 1
0
SALOME_WNT_EXPORT
  TopoDS_Shape ImportIGES (const TCollection_AsciiString& theFileName,
                       const TCollection_AsciiString& theFormatName,
                       TCollection_AsciiString&       theError,
		               const TDF_Label&               theShapeLabel)
  {
    IGESControl_Reader aReader;
    TopoDS_Shape aResShape;
    Interface_Static::SetCVal("xstep.cascade.unit","M");
    try {
      IFSelect_ReturnStatus status = aReader.ReadFile(theFileName.ToCString());

      if (status == IFSelect_RetDone) {

        if( theFormatName == "IGES_UNIT" ) {
	  Handle(IGESData_IGESModel) aModel = 
	    Handle(IGESData_IGESModel)::DownCast(aReader.Model());
	  gp_Pnt P(1.0,0.0,0.0);
	  if(!aModel.IsNull()) {
	    Handle(TCollection_HAsciiString) aUnitName = 
	      aModel->GlobalSection().UnitName();
	    //cout<<"aUnitName = "<<aUnitName->ToCString()<<endl;
	    //cout<<"aUnitFlag = "<<aModel->GlobalSection().UnitFlag()<<endl;
	    if( aUnitName->String()=="MM" ) {
	      P = gp_Pnt(0.001,0.0,0.0);
	    }
	    else if( aUnitName->String()=="CM" ) {
	      P = gp_Pnt(0.01,0.0,0.0);
	    }
	  }
	  BRep_Builder B;
	  TopoDS_Vertex V;
	  B.MakeVertex(V,P,1.e-7);
	  aResShape = V;
	  return aResShape;
	}
	if( theFormatName == "IGES_SCALE" ) {
	  //cout<<"need re-scale a model"<<endl;
	  // set UnitFlag to 'meter'
	  Handle(IGESData_IGESModel) aModel = 
	    Handle(IGESData_IGESModel)::DownCast(aReader.Model());
	  if(!aModel.IsNull()) {
	    IGESData_GlobalSection aGS = aModel->GlobalSection();
	    aGS.SetUnitFlag(6);
	    aModel->SetGlobalSection(aGS);
	  }
	}

        MESSAGE("ImportIGES : all Geometry Transfer");
        //OCC 5.1.2 porting
        //     aReader.Clear();
        //     aReader.TransferRoots(false);
        aReader.ClearShapes();
        aReader.TransferRoots();

        MESSAGE("ImportIGES : count of shapes produced = " << aReader.NbShapes());
        aResShape = aReader.OneShape();

        // BEGIN: Store names of sub-shapes from file
        Handle(Interface_InterfaceModel) Model = aReader.WS()->Model();
        Handle(XSControl_TransferReader) TR = aReader.WS()->TransferReader();
        if (!TR.IsNull()) {
          Handle(Transfer_TransientProcess) TP = /*TransientProcess();*/TR->TransientProcess();
          Standard_Integer nb = Model->NbEntities();
          for (Standard_Integer i = 1; i <= nb; i++) {
            Handle(IGESData_IGESEntity) ent = Handle(IGESData_IGESEntity)::DownCast(Model->Value(i));
            if (ent.IsNull() || ! ent->HasName()) continue;

            // find target shape
            Handle(Transfer_Binder) binder = TP->Find(ent);
            if (binder.IsNull()) continue;
            TopoDS_Shape S = TransferBRep::ShapeResult(binder);
            if (S.IsNull()) continue;

            // create label and set shape
            TDF_Label L;
            TDF_TagSource aTag;
            L = aTag.NewChild(theShapeLabel);
            TNaming_Builder tnBuild (L);
            tnBuild.Generated(S);

            // set a name
            TCollection_AsciiString string = ent->NameValue()->String();
            string.LeftAdjust();
            string.RightAdjust();
            TCollection_ExtendedString str (string);
            TDataStd_Name::Set(L, str);
          }
        }
        // END: Store names
      } else {
//        switch (status) {
//        case IFSelect_RetVoid:
//          theError = "Nothing created or No data to process";
//          break;
//        case IFSelect_RetError:
//          theError = "Error in command or input data";
//          break;
//        case IFSelect_RetFail:
//          theError = "Execution was run, but has failed";
//          break;
//        case IFSelect_RetStop:
//          theError = "Execution has been stopped. Quite possible, an exception was raised";
//          break;
//        default:
//          break;
//        }
        theError = "Wrong format of the imported file. Can't import file.";
	aResShape.Nullify();
      }
    }
    catch(Standard_Failure) {
      Handle(Standard_Failure) aFail = Standard_Failure::Caught();
      theError = aFail->GetMessageString();
      aResShape.Nullify();
    }
    return aResShape;
  }
Ejemplo n.º 2
0
int Part::ImportIgesParts(App::Document *pcDoc, const char* FileName)
{
    try {
        Base::FileInfo fi(FileName);
        // read iges file
        // http://www.opencascade.org/org/forum/thread_20801/
        IGESControl_Controller::Init();
        Interface_Static::SetIVal("read.surfacecurve.mode",3);

        // load data exchange message files
        Message_MsgFile::LoadFromEnv("CSF_XSMessage","IGES");

        // load shape healing message files
        Message_MsgFile::LoadFromEnv("CSF_SHMessageStd","SHAPEStd");

        IGESControl_Reader aReader;
        if (aReader.ReadFile((const Standard_CString)FileName) != IFSelect_RetDone)
            throw Base::Exception("Error in reading IGES");

        // check file conformity and output stats
        aReader.PrintCheckLoad(Standard_True,IFSelect_GeneralInfo);

#if 1
        std::string aName = fi.fileNamePure();
        Handle_Message_ProgressIndicator pi = new ProgressIndicator(100);
        pi->NewScope(100, "Reading IGES file...");
        pi->Show();
        aReader.WS()->MapReader()->SetProgress(pi);

        // make model
        aReader.ClearShapes();
        Standard_Integer nbRootsForTransfer = aReader.NbRootsForTransfer();
        aReader.TransferRoots();
        pi->EndScope();

        // put all other free-flying shapes into a single compound
        Standard_Boolean emptyComp = Standard_True;
        BRep_Builder builder;
        TopoDS_Compound comp;
        builder.MakeCompound(comp);

        Standard_Integer nbShapes = aReader.NbShapes();
        for (Standard_Integer i=1; i<=nbShapes; i++) {
            TopoDS_Shape aShape = aReader.Shape(i);
            if (!aShape.IsNull()) {
                if (aShape.ShapeType() == TopAbs_SOLID ||
                    aShape.ShapeType() == TopAbs_COMPOUND ||
                    aShape.ShapeType() == TopAbs_SHELL) {
                        App::DocumentObject* obj = pcDoc->addObject("Part::Feature", aName.c_str());
                        static_cast<Part::Feature*>(obj)->Shape.setValue(aShape);
                }
                else {
                    builder.Add(comp, aShape);
                    emptyComp = Standard_False;
                }
            }
        }
        if (!emptyComp) {
            std::string name = fi.fileNamePure();
            Part::Feature *pcFeature = static_cast<Part::Feature*>(pcDoc->addObject
                ("Part::Feature", name.c_str()));
            pcFeature->Shape.setValue(comp);
        }
#else
        // put all other free-flying shapes into a single compound
        Standard_Boolean emptyComp = Standard_True;
        BRep_Builder builder;
        TopoDS_Compound comp;
        builder.MakeCompound(comp);

        // get all entities
        Handle_TColStd_HSequenceOfTransient aRootList=aReader.GiveList("xst-transferrable-roots");
        Base::SequencerLauncher seq("Reading IGES file...", aRootList->Length());
        Standard_Integer j;
        for (j=1; j<=aRootList->Length(); j++) {
            seq.next();
            Handle(IGESData_IGESEntity) igesEntity = Handle(IGESData_IGESEntity)::DownCast(aRootList->Value(j));
            if (igesEntity.IsNull()) continue;
            // clear any old shape
            aReader.ClearShapes();

#ifdef _DEBUG
            std::string type = igesEntity->DynamicType()->Name();
            (void)type;
#endif
            
            // is it a group, singular sub-figure or solid?
            if (igesEntity->IsKind(STANDARD_TYPE(IGESBasic_Group)) ||
                igesEntity->IsKind(STANDARD_TYPE(IGESBasic_SingularSubfigure)) || 
                igesEntity->IsKind(STANDARD_TYPE(IGESSolid_ManifoldSolid))) {
                try {
                    if (aReader.TransferEntity(igesEntity)) {
                        if (aReader.NbShapes()>0) {
                            // get the shape
                            std::string aName = fi.fileNamePure();
                            if (igesEntity->HasShortLabel()) {
                                Handle(TCollection_HAsciiString) aLabel=igesEntity->ShortLabel();
                                aName = aLabel->ToCString();
                            }
                            TopoDS_Shape aShape=aReader.OneShape();
                            App::DocumentObject* obj = pcDoc->addObject("Part::Feature", aName.c_str());
                            obj->Label.setValue(aName);
                            static_cast<Part::Feature*>(obj)->Shape.setValue(aShape);
                            int iColor;
                            if (igesEntity->RankColor()>-1) {
                                iColor = igesEntity->RankColor();
                            }
                        }
                    }
                }
                catch (Standard_Failure) {
                }
            }
            // normal shapes
            else {
                try {
                    if (aReader.TransferEntity(igesEntity)) {
                        if (aReader.NbShapes()>0) {
                            TopoDS_Shape aShape=aReader.OneShape();
                            builder.Add(comp, aShape);
                            emptyComp = Standard_False;
                        }
                    }
                }
                catch (Standard_Failure) {
                }
            }
        }

        if (!emptyComp) {
            std::string name = fi.fileNamePure();
            Part::Feature *pcFeature = static_cast<Part::Feature*>(pcDoc->addObject
                ("Part::Feature", name.c_str()));
            pcFeature->Shape.setValue(comp);
        }
#endif
    }
    catch (Standard_Failure) {
        Handle(Standard_Failure) aFail = Standard_Failure::Caught();
        throw Base::Exception(aFail->GetMessageString());
    }

    return 0;
}