Exemple #1
0
int main(void) {
	TopoDS_Shape topoDSShape;
	IGESControl_Reader igesReader;

	IFSelect_ReturnStatus returnStatus = igesReader.ReadFile("./TestFiles/circuit-board-pcb-mock-example.snapshot.4/Buoy_Circuitbuoy.igs");

	switch(returnStatus){
	case IFSelect_RetDone:
		std::cout << "File read successful" << std::endl;
		break;
	default:
		std::cout << "File read not succesful!" << std::endl;
		exit(-1);
	}
	Standard_Boolean failsonly = Standard_False;
	IFSelect_PrintCount mode;
	igesReader.PrintCheckLoad(failsonly,mode);
	std::cout << "Mode: " << mode << std::endl;

	Standard_Integer ic =  Interface_Static::IVal("read.iges.bspline.continuity");
	std::cout << "ic: " << ic << std::endl;
	//All Entities:
	Handle_TColStd_HSequenceOfTransient list = igesReader.GiveList();
	//All faces:
	//Handle_TColStd_HSequenceOfTransient list = igesReader.GiveList("iges-faces");
	//Translate all entitites in one operation

//	for (Standard_Integer i = 1; i  <= 425; i ++) {
//	    Handle(Standard_Transient) ent = list.;
//	    Standard_Boolean OK = reader.TransferEntity (ent);
//	}

	Standard_Integer nbtrans =  igesReader.TransferList(list);
	std::cout << "Number of translations: " << nbtrans << std::endl;
	Standard_Integer nbs =  igesReader.NbShapes();
	std::cout << "Number of shapes: " << nbs << std::endl;
	TopoDS_Shape shape;
//	for(Standard_Integer i = 1; i <= nbs; i++){
//		std::cout << "i: " << i << " ... ";
//		shape = igesReader.Shape(i);
//		std::cout << "successful!" << std::endl;
//	}
	TopoDS_Shape shape2 = igesReader.OneShape();
	StlAPI_Writer stlWriter;
	stlWriter.Write(shape2, "./circuitBuoy.stl");
	return EXIT_SUCCESS;
}
Exemple #2
0
void loadIGES(char* filename)
{
    if(!filename) return;
    std::cout << "test" << std::endl;

    boost::interprocess::managed_shared_memory segment(boost::interprocess::open_only, "OCCSharedMem");  
    TestFaces *m_trisp = segment.find<TestFaces>("m_tris").first;
    //TestFaces *m_facesp = segment.find<TestFaces>("m_faces").first;

    Vector3DfAllocator vector3df_alloc_inst(segment.get_segment_manager());
    TestFace *m_facep = segment.construct<TestFace>("m_facep")(vector3df_alloc_inst);

    std::cout << "connected to shared mem" << std::endl;
    std::cout << filename << std::endl;

    //STEPControl_Reader *readerp = new STEPControl_Reader;
    IGESControl_Controller::Init();
    Message_MsgFile::LoadFromEnv("CSF_XSMessage","IGES");
    Message_MsgFile::LoadFromEnv("CSF_SHMessageStd","SHAPEStd");
    IGESControl_Reader reader;
    std::cout << filename << std::endl;
    reader.ReadFile(filename);
    reader.PrintCheckLoad(Standard_True,IFSelect_GeneralInfo);

    Standard_Integer NbRoots = reader.NbRootsForTransfer();
    std::cout << "Number of Roots in the IGES File: " << NbRoots << std::endl;
    Standard_Integer NbTrans = reader.TransferRoots();
    std::cout << "IGES roots transferred: " << NbTrans << std::endl;
    std::cout << "Number of resulting shapes is: " << reader.NbShapes() << std::endl;
    TopoDS_Shape resulting_shape = reader.OneShape();
    // gp_Trsf theTrans;
    // gp_Axl Axis = gp_Axl(gp_Pnt(200,60,60),gp_Dir(0.,1.,0.)); 
    // theTrans.SetRotation(Axis,30*PI/180); // Rotation of 30 degrees 
    // BRepBuilderAPI_Transform myBRepTransformation(resulting_shape,theTrans,true); 
    // TopoDS_Shape TransformedShape = myBRepTransformation.Shape();
    TopoDS_Iterator topo_iter;
    //m_topodsshapes.push_back(resulting_shape);
    //BRepMesh::Mesh(resulting_shape, 1.0);
    TopExp_Explorer faceExp(resulting_shape, TopAbs_FACE);

    for(; faceExp.More(); faceExp.Next())
    {


        //  TopExp_Explorer vertexExp(faceExp.Current(), TopAbs_VERTEX);
        //int f_n = 0;
        TopLoc_Location L = faceExp.Current().Location();
        BRepMesh::Mesh(faceExp.Current(), .1);
        Handle (Poly_Triangulation) facing = BRep_Tool::Triangulation(TopoDS::Face(faceExp.Current()),L);
        //  const Poly_Array1OfTriangle & triangles = facing->Triangles();
        //  const TColgp_Array1OfPnt & nodes = facing->Nodes();
        //  std::cout << "opencascaded: facing->NbTriangles() = " << facing->NbTriangles() << std::endl;
        if (!facing.IsNull())
        {
            TopExp_Explorer vertexExp(faceExp.Current(), TopAbs_VERTEX);
            //int f_n = 0;
            //TopLoc_Location L = faceExp.Current().Location();
            // BRepMesh::Mesh(faceExp.Current(), .1);
            // Handle (Poly_Triangulation) facing = BRep_Tool::Triangulation(TopoDS::Face(faceExp.Current()),L);
            const Poly_Array1OfTriangle & triangles = facing->Triangles();
            const TColgp_Array1OfPnt & nodes = facing->Nodes();
            std::cout << "opencascaded: facing->NbTriangles() = " << facing->NbTriangles() << std::endl;

            for ( int i=facing->NbTriangles(); i >= 1; --i )
            {
                m_facep->clear();
                Poly_Triangle triangle = triangles(i);

                Standard_Integer node1,node2,node3;
                triangle.Get(node1, node2, node3);

                gp_Pnt v1 = nodes(node1).Transformed(L);
                gp_Pnt v2 = nodes(node2).Transformed(L);
                gp_Pnt v3 = nodes(node3).Transformed(L);

                m_facep->push_back(Vector3Df(v1.X(), v1.Y(), v1.Z()));
                m_facep->push_back(Vector3Df(v2.X(), v2.Y(), v2.Z()));
                m_facep->push_back(Vector3Df(v3.X(), v3.Y(), v3.Z()));
                m_trisp->push_back(*m_facep);

            }
        }

    }

}
Exemple #3
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;
}