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AppPart.cpp
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AppPart.cpp
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/***************************************************************************
* *
* This program is free software; you can redistribute it and/or modify *
* it under the terms of the GNU Library General Public License as *
* published by the Free Software Foundation; either version 2 of the *
* License, or (at your option) any later version. *
* for detail see the LICENCE text file. *
* Jürgen Riegel 2002 *
* *
***************************************************************************/
#include "PreCompiled.h"
#ifndef _PreComp_
# include <Python.h>
# include <Interface_Static.hxx>
# include <IGESControl_Controller.hxx>
# include <STEPControl_Controller.hxx>
# include <OSD.hxx>
# include <sstream>
#endif
#include <Base/Console.h>
#include <Base/Interpreter.h>
#include <Base/Parameter.h>
#include <App/Application.h>
#include "OCCError.h"
#include "TopoShape.h"
#include "FeaturePartBox.h"
#include "FeaturePartBoolean.h"
#include "FeaturePartCommon.h"
#include "FeaturePartCut.h"
#include "FeaturePartFuse.h"
#include "FeaturePartSection.h"
#include "FeaturePartImportStep.h"
#include "FeaturePartImportIges.h"
#include "FeaturePartImportBrep.h"
#include "FeaturePartCurveNet.h"
#include "FeaturePartCircle.h"
#include "FeaturePartPolygon.h"
#include "FeaturePartSpline.h"
#include "FeatureGeometrySet.h"
#include "FeatureChamfer.h"
#include "FeatureCompound.h"
#include "FeatureFace.h"
#include "FeatureExtrusion.h"
#include "FeatureFillet.h"
#include "FeatureMirroring.h"
#include "FeatureRevolution.h"
#include "PartFeatures.h"
#include "PrimitiveFeature.h"
#include "Part2DObject.h"
#include "CustomFeature.h"
#include "TopoShapePy.h"
#include "TopoShapeVertexPy.h"
#include "TopoShapeFacePy.h"
#include "TopoShapeWirePy.h"
#include "TopoShapeEdgePy.h"
#include "TopoShapeSolidPy.h"
#include "TopoShapeCompoundPy.h"
#include "TopoShapeCompSolidPy.h"
#include "TopoShapeShellPy.h"
#include "LinePy.h"
#include "PointPy.h"
#include "CirclePy.h"
#include "EllipsePy.h"
#include "ArcPy.h"
#include "ArcOfCirclePy.h"
#include "ArcOfEllipsePy.h"
#include "ArcOfParabolaPy.h"
#include "ArcOfHyperbolaPy.h"
#include "BezierCurvePy.h"
#include "BSplineCurvePy.h"
#include "HyperbolaPy.h"
#include "OffsetCurvePy.h"
#include "ParabolaPy.h"
#include "BezierSurfacePy.h"
#include "BSplineSurfacePy.h"
#include "ConePy.h"
#include "CylinderPy.h"
#include "OffsetSurfacePy.h"
#include "PlateSurfacePy.h"
#include "PlanePy.h"
#include "RectangularTrimmedSurfacePy.h"
#include "SpherePy.h"
#include "SurfaceOfExtrusionPy.h"
#include "SurfaceOfRevolutionPy.h"
#include "ToroidPy.h"
#include "BRepOffsetAPI_MakePipeShellPy.h"
#include "PartFeaturePy.h"
#include "PropertyGeometryList.h"
namespace Part {
extern PyObject* initModule();
}
using namespace Part;
PyObject* Part::PartExceptionOCCError;
PyObject* Part::PartExceptionOCCDomainError;
PyObject* Part::PartExceptionOCCRangeError;
PyObject* Part::PartExceptionOCCConstructionError;
PyObject* Part::PartExceptionOCCDimensionError;
PyMODINIT_FUNC initPart()
{
Base::Console().Log("Module: Part\n");
// This is highly experimental and we should keep an eye on it
// if we have mysterious crashes
// The argument must be 'Standard_False' to avoid FPE caused by
// Python's cmath module.
#if !defined(_DEBUG)
OSD::SetSignal(Standard_False);
#endif
PyObject* partModule = Part::initModule();
Base::Console().Log("Loading Part module... done\n");
// Python exceptions
//
PyObject* OCCError = 0;
if (PyObject_IsSubclass(Base::BaseExceptionFreeCADError, PyExc_RuntimeError)) {
OCCError = PyErr_NewException("Part.OCCError", Base::BaseExceptionFreeCADError, NULL);
}
else {
Base::Console().Error("Can not inherit Part.OCCError form BaseFreeCADError.\n");
OCCError = PyErr_NewException("Part.OCCError", PyExc_RuntimeError, NULL);
}
Py_INCREF(OCCError);
PyModule_AddObject(partModule, "OCCError", OCCError);
PartExceptionOCCError = OCCError; //set global variable ;(
// domain error
PartExceptionOCCDomainError = PyErr_NewException("Part.OCCDomainError", PartExceptionOCCError, NULL);
Py_INCREF(PartExceptionOCCDomainError);
PyModule_AddObject(partModule, "OCCDomainError", PartExceptionOCCDomainError);
// range error
PartExceptionOCCRangeError = PyErr_NewException("Part.OCCRangeError", PartExceptionOCCDomainError, NULL);
Py_INCREF(PartExceptionOCCRangeError);
PyModule_AddObject(partModule, "OCCRangeError", PartExceptionOCCRangeError);
// construction error
PartExceptionOCCConstructionError = PyErr_NewException("Part.OCCConstructionError", PartExceptionOCCDomainError, NULL);
Py_INCREF(PartExceptionOCCConstructionError);
PyModule_AddObject(partModule, "OCCConstructionError", PartExceptionOCCConstructionError);
// dimension error
PartExceptionOCCDimensionError = PyErr_NewException("Part.OCCDimensionError", PartExceptionOCCDomainError, NULL);
Py_INCREF(PartExceptionOCCConstructionError);
PyModule_AddObject(partModule, "OCCDimensionError", PartExceptionOCCDimensionError);
//rename the types properly to pickle and unpickle them
Part::TopoShapePy ::Type.tp_name = "Part.Shape";
Part::TopoShapeVertexPy ::Type.tp_name = "Part.Vertex";
Part::TopoShapeWirePy ::Type.tp_name = "Part.Wire";
Part::TopoShapeEdgePy ::Type.tp_name = "Part.Edge";
Part::TopoShapeSolidPy ::Type.tp_name = "Part.Solid";
Part::TopoShapeFacePy ::Type.tp_name = "Part.Face";
Part::TopoShapeCompoundPy ::Type.tp_name = "Part.Compound";
Part::TopoShapeCompSolidPy::Type.tp_name = "Part.CompSolid";
Part::TopoShapeShellPy ::Type.tp_name = "Part.Shell";
// Add Types to module
Base::Interpreter().addType(&Part::TopoShapePy ::Type,partModule,"Shape");
Base::Interpreter().addType(&Part::TopoShapeVertexPy ::Type,partModule,"Vertex");
Base::Interpreter().addType(&Part::TopoShapeWirePy ::Type,partModule,"Wire");
Base::Interpreter().addType(&Part::TopoShapeEdgePy ::Type,partModule,"Edge");
Base::Interpreter().addType(&Part::TopoShapeSolidPy ::Type,partModule,"Solid");
Base::Interpreter().addType(&Part::TopoShapeFacePy ::Type,partModule,"Face");
Base::Interpreter().addType(&Part::TopoShapeCompoundPy ::Type,partModule,"Compound");
Base::Interpreter().addType(&Part::TopoShapeCompSolidPy ::Type,partModule,"CompSolid");
Base::Interpreter().addType(&Part::TopoShapeShellPy ::Type,partModule,"Shell");
Base::Interpreter().addType(&Part::LinePy ::Type,partModule,"Line");
Base::Interpreter().addType(&Part::PointPy ::Type,partModule,"Point");
Base::Interpreter().addType(&Part::CirclePy ::Type,partModule,"Circle");
Base::Interpreter().addType(&Part::EllipsePy ::Type,partModule,"Ellipse");
Base::Interpreter().addType(&Part::HyperbolaPy ::Type,partModule,"Hyperbola");
Base::Interpreter().addType(&Part::ParabolaPy ::Type,partModule,"Parabola");
Base::Interpreter().addType(&Part::ArcPy ::Type,partModule,"Arc");
Base::Interpreter().addType(&Part::ArcOfCirclePy ::Type,partModule,"ArcOfCircle");
Base::Interpreter().addType(&Part::ArcOfEllipsePy ::Type,partModule,"ArcOfEllipse");
Base::Interpreter().addType(&Part::ArcOfParabolaPy ::Type,partModule,"ArcOfParabola");
Base::Interpreter().addType(&Part::ArcOfHyperbolaPy ::Type,partModule,"ArcOfHyperbola");
Base::Interpreter().addType(&Part::BezierCurvePy ::Type,partModule,"BezierCurve");
Base::Interpreter().addType(&Part::BSplineCurvePy ::Type,partModule,"BSplineCurve");
Base::Interpreter().addType(&Part::OffsetCurvePy ::Type,partModule,"OffsetCurve");
Base::Interpreter().addType(&Part::PlanePy ::Type,partModule,"Plane");
Base::Interpreter().addType(&Part::CylinderPy ::Type,partModule,"Cylinder");
Base::Interpreter().addType(&Part::ConePy ::Type,partModule,"Cone");
Base::Interpreter().addType(&Part::SpherePy ::Type,partModule,"Sphere");
Base::Interpreter().addType(&Part::ToroidPy ::Type,partModule,"Toroid");
Base::Interpreter().addType(&Part::BezierSurfacePy ::Type,partModule,"BezierSurface");
Base::Interpreter().addType(&Part::BSplineSurfacePy ::Type,partModule,"BSplineSurface");
Base::Interpreter().addType(&Part::OffsetSurfacePy ::Type,partModule,"OffsetSurface");
Base::Interpreter().addType(&Part::PlateSurfacePy ::Type,partModule,"PlateSurface");
Base::Interpreter().addType(&Part::SurfaceOfExtrusionPy ::Type,partModule,"SurfaceOfExtrusion");
Base::Interpreter().addType(&Part::SurfaceOfRevolutionPy::Type,partModule,"SurfaceOfRevolution");
Base::Interpreter().addType(&Part::RectangularTrimmedSurfacePy
::Type,partModule,"RectangularTrimmedSurface");
Base::Interpreter().addType(&Part::PartFeaturePy ::Type,partModule,"Feature");
PyObject* brepModule = Py_InitModule3("BRepOffsetAPI", 0, "BrepOffsetAPI");
Py_INCREF(brepModule);
PyModule_AddObject(partModule, "BRepOffsetAPI", brepModule);
Base::Interpreter().addType(&Part::BRepOffsetAPI_MakePipeShellPy::Type,brepModule,"MakePipeShell");
Part::TopoShape ::init();
Part::PropertyPartShape ::init();
Part::PropertyGeometryList ::init();
Part::PropertyShapeHistory ::init();
Part::PropertyFilletEdges ::init();
Part::Feature ::init();
Part::FeatureExt ::init();
Part::FeaturePython ::init();
Part::FeatureGeometrySet ::init();
Part::CustomFeature ::init();
Part::CustomFeaturePython ::init();
Part::Primitive ::init();
Part::Box ::init();
Part::Spline ::init();
Part::Boolean ::init();
Part::Common ::init();
Part::MultiCommon ::init();
Part::Cut ::init();
Part::Fuse ::init();
Part::MultiFuse ::init();
Part::Section ::init();
Part::FilletBase ::init();
Part::Fillet ::init();
Part::Chamfer ::init();
Part::Compound ::init();
Part::Extrusion ::init();
Part::Revolution ::init();
Part::Mirroring ::init();
Part::ImportStep ::init();
Part::ImportIges ::init();
Part::ImportBrep ::init();
Part::CurveNet ::init();
Part::Polygon ::init();
Part::Circle ::init();
Part::Ellipse ::init();
Part::Vertex ::init();
Part::Line ::init();
Part::Ellipsoid ::init();
Part::Plane ::init();
Part::Sphere ::init();
Part::Cylinder ::init();
Part::Prism ::init();
Part::RegularPolygon ::init();
Part::Cone ::init();
Part::Torus ::init();
Part::Helix ::init();
Part::Spiral ::init();
Part::Wedge ::init();
Part::Part2DObject ::init();
Part::Part2DObjectPython ::init();
Part::Face ::init();
Part::RuledSurface ::init();
Part::Loft ::init();
Part::Sweep ::init();
Part::Offset ::init();
Part::Thickness ::init();
// Geometry types
Part::Geometry ::init();
Part::GeomPoint ::init();
Part::GeomCurve ::init();
Part::GeomBezierCurve ::init();
Part::GeomBSplineCurve ::init();
Part::GeomCircle ::init();
Part::GeomArcOfCircle ::init();
Part::GeomArcOfEllipse ::init();
Part::GeomArcOfParabola ::init();
Part::GeomArcOfHyperbola ::init();
Part::GeomEllipse ::init();
Part::GeomHyperbola ::init();
Part::GeomParabola ::init();
Part::GeomLine ::init();
Part::GeomLineSegment ::init();
Part::GeomOffsetCurve ::init();
Part::GeomTrimmedCurve ::init();
Part::GeomSurface ::init();
Part::GeomBezierSurface ::init();
Part::GeomBSplineSurface ::init();
Part::GeomCylinder ::init();
Part::GeomCone ::init();
Part::GeomSphere ::init();
Part::GeomToroid ::init();
Part::GeomPlane ::init();
Part::GeomOffsetSurface ::init();
Part::GeomPlateSurface ::init();
Part::GeomTrimmedSurface ::init();
Part::GeomSurfaceOfRevolution ::init();
Part::GeomSurfaceOfExtrusion ::init();
IGESControl_Controller::Init();
STEPControl_Controller::Init();
// set the user-defined settings
Base::Reference<ParameterGrp> hGrp = App::GetApplication().GetUserParameter()
.GetGroup("BaseApp")->GetGroup("Preferences")->GetGroup("Mod/Part");
// General
Base::Reference<ParameterGrp> hGenGrp = hGrp->GetGroup("General");
// http://www.opencascade.org/org/forum/thread_20801/
// read.surfacecurve.mode:
// A preference for the computation of curves in an entity which has both 2D and 3D representation.
// Each TopoDS_Edge in TopoDS_Face must have a 3D and 2D curve that references the surface.
// If both 2D and 3D representation of the entity are present, the computation of these curves depends on
// the following values of parameter:
// 0: "Default" - no preference, both curves are taken
// 3: "3DUse_Preferred" - 3D curves are used to rebuild 2D ones
// Additional modes for IGES
// 2: "2DUse_Preferred" - the 2D is used to rebuild the 3D in case of their inconsistency
// -2: "2DUse_Forced" - the 2D is always used to rebuild the 3D (even if 2D is present in the file)
// -3: "3DUse_Forced" - the 3D is always used to rebuild the 2D (even if 2D is present in the file)
int readsurfacecurve = hGenGrp->GetInt("ReadSurfaceCurveMode", 0);
Interface_Static::SetIVal("read.surfacecurve.mode", readsurfacecurve);
// write.surfacecurve.mode (STEP-only):
// This parameter indicates whether parametric curves (curves in parametric space of surface) should be
// written into the STEP file. This parameter can be set to Off in order to minimize the size of the resulting
// STEP file.
// Off (0) : writes STEP files without pcurves. This mode decreases the size of the resulting file.
// On (1) : (default) writes pcurves to STEP file
int writesurfacecurve = hGenGrp->GetInt("WriteSurfaceCurveMode", 1);
Interface_Static::SetIVal("write.surfacecurve.mode", writesurfacecurve);
//IGES handling
Base::Reference<ParameterGrp> hIgesGrp = hGrp->GetGroup("IGES");
int value = Interface_Static::IVal("write.iges.brep.mode");
bool brep = hIgesGrp->GetBool("BrepMode", value > 0);
Interface_Static::SetIVal("write.iges.brep.mode",brep ? 1 : 0);
Interface_Static::SetCVal("write.iges.header.company", hIgesGrp->GetASCII("Company").c_str());
Interface_Static::SetCVal("write.iges.header.author", hIgesGrp->GetASCII("Author").c_str());
Interface_Static::SetCVal("write.iges.header.product", hIgesGrp->GetASCII("Product",
Interface_Static::CVal("write.iges.header.product")).c_str());
int unitIges = hIgesGrp->GetInt("Unit", 0);
switch (unitIges) {
case 1:
Interface_Static::SetCVal("write.iges.unit","M");
break;
case 2:
Interface_Static::SetCVal("write.iges.unit","IN");
break;
default:
Interface_Static::SetCVal("write.iges.unit","MM");
break;
}
//STEP handling
Base::Reference<ParameterGrp> hStepGrp = hGrp->GetGroup("STEP");
int unitStep = hStepGrp->GetInt("Unit", 0);
switch (unitStep) {
case 1:
Interface_Static::SetCVal("write.step.unit","M");
break;
case 2:
Interface_Static::SetCVal("write.step.unit","IN");
break;
default:
Interface_Static::SetCVal("write.step.unit","MM");
break;
}
std::string ap = hStepGrp->GetASCII("Scheme", Interface_Static::CVal("write.step.schema"));
Interface_Static::SetCVal("write.step.schema", ap.c_str());
Interface_Static::SetCVal("write.step.product.name", hStepGrp->GetASCII("Product",
Interface_Static::CVal("write.step.product.name")).c_str());
}