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* Copyright (c) 2008 Jürgen Riegel <juergen.riegel@web.de> *
* *
* This file is part of the FreeCAD CAx development system. *
* *
* This library 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. *
* *
* This library is distributed in the hope that it will be useful, *
* but WITHOUT ANY WARRANTY; without even the implied warranty of *
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *
* GNU Library General Public License for more details. *
* *
* You should have received a copy of the GNU Library General Public *
* License along with this library; see the file COPYING.LIB. If not, *
* write to the Free Software Foundation, Inc., 59 Temple Place, *
* Suite 330, Boston, MA 02111-1307, USA *
* *
***************************************************************************/
#include <cstdlib>
#include <memory>
#include <App/Application.h>
#include <App/Document.h>
#include <App/DocumentObject.h>
#include <App/DocumentObjectPy.h>
#include <Base/Interpreter.h>
#include <Base/PlacementPy.h>
#include <Mod/Part/App/OCCError.h>
#include "FemMesh.h"
#include "FemMeshObject.h"
#include "FemMeshPy.h"
#ifdef FC_USE_VTK
# include "FemPostPipeline.h"
# include "FemVTKTools.h"
# include <LibraryVersions.h>
# include <vtkVersionMacros.h>
#endif
#ifdef FC_USE_VTK_PYTHON
# include <vtkPythonUtil.h>
#endif
namespace Fem
{
class Module: public Py::ExtensionModule<Module>
{
public:
Module()
: Py::ExtensionModule<Module>("Fem")
{
add_varargs_method(
"open",
&Module::open,
"open(string) -- Create a new document and a Mesh::Import feature to "
"load the file into the document."
);
add_varargs_method(
"insert",
&Module::insert,
"insert(string|mesh,[string]) -- Load or insert a mesh into the given "
"or active document."
);
add_varargs_method(
"export",
&Module::exporter,
"export(list,string) -- Export a list of objects into a single file."
);
add_varargs_method("read", &Module::read, "Read a mesh from a file and returns a Mesh object.");
#ifdef FC_USE_VTK
add_varargs_method("frdToVTK", &Module::frdToVTK, "Convert a .frd result file to VTK file");
add_varargs_method(
"readResult",
&Module::readResult,
"Read a CFD or Mechanical result (auto detect) from a file (file format "
"detected from file suffix)"
);
add_varargs_method(
"writeResult",
&Module::writeResult,
"write a CFD or FEM result (auto detect) to a file (file format "
"detected from file suffix)"
);
add_varargs_method(
"getVtkVersion",
&Module::getVtkVersion,
"Returns the VTK version FreeCAD is linked against"
);
add_varargs_method(
"getVtkVersionNumber",
&Module::getVtkVersionNumber,
"Returns the VTK version FreeCAD is linked against as a number"
);
add_varargs_method(
"vtkVersionCheck",
&Module::vtkVersionCheck,
"Returns VTK version number from `major`, `minor` and `build` values"
);
# ifdef FC_USE_VTK_PYTHON
add_varargs_method(
"isVtkCompatible",
&Module::isVtkCompatible,
"Checks if the passed vtkObject is compatible with the c++ VTK version FreeCAD uses"
);
# endif
#endif
add_varargs_method(
"show",
&Module::show,
"show(shape,[string]) -- Add the mesh to the active document or create "
"one if no document exists."
);
initialize("This module is the Fem module."); // register with Python
}
private:
Py::Object invoke_method_varargs(void* method_def, const Py::Tuple& args) override
{
try {
return Py::ExtensionModule<Module>::invoke_method_varargs(method_def, args);
}
catch (const Standard_Failure& e) {
std::string str;
Standard_CString msg = e.GetMessageString();
str += typeid(e).name();
str += " ";
if (msg) {
str += msg;
}
else {
str += "No OCCT Exception Message";
}
throw Py::Exception(Part::PartExceptionOCCError, str);
}
catch (const Base::Exception& e) {
throw Py::RuntimeError(e.what());
}
catch (const std::exception& e) {
throw Py::RuntimeError(e.what());
}
}
Py::Object open(const Py::Tuple& args)
{
char* Name;
if (!PyArg_ParseTuple(args.ptr(), "et", "utf-8", &Name)) {
throw Py::Exception();
}
std::string EncodedName = std::string(Name);
PyMem_Free(Name);
std::unique_ptr<FemMesh> mesh(new FemMesh);
mesh->read(EncodedName.c_str());
Base::FileInfo file(EncodedName.c_str());
// create new document and add Import feature
App::Document* pcDoc = App::GetApplication().newDocument();
FemMeshObject* pcFeature = pcDoc->addObject<FemMeshObject>(file.fileNamePure().c_str());
pcFeature->Label.setValue(file.fileNamePure().c_str());
pcFeature->FemMesh.setValuePtr(mesh.release());
pcFeature->purgeTouched();
return Py::None();
}
Py::Object insert(const Py::Tuple& args)
{
char* Name;
const char* DocName = nullptr;
if (!PyArg_ParseTuple(args.ptr(), "et|s", "utf-8", &Name, &DocName)) {
throw Py::Exception();
}
std::string EncodedName = std::string(Name);
PyMem_Free(Name);
App::Document* pcDoc = nullptr;
if (DocName) {
pcDoc = App::GetApplication().getDocument(DocName);
}
else {
pcDoc = App::GetApplication().getActiveDocument();
}
if (!pcDoc) {
pcDoc = App::GetApplication().newDocument(DocName);
}
Base::FileInfo file(EncodedName.c_str());
try {
std::unique_ptr<FemMesh> mesh(new FemMesh);
mesh->read(EncodedName.c_str());
FemMeshObject* pcFeature = pcDoc->addObject<FemMeshObject>(file.fileNamePure().c_str());
pcFeature->Label.setValue(file.fileNamePure().c_str());
pcFeature->FemMesh.setValuePtr(mesh.release());
pcFeature->purgeTouched();
}
catch (Base::Exception&) {
#ifdef FC_USE_VTK
if (FemPostPipeline::canRead(file)) {
auto* pcFeature = pcDoc->addObject<FemPostPipeline>(file.fileNamePure().c_str());
pcFeature->Label.setValue(file.fileNamePure().c_str());
pcFeature->read(file);
pcFeature->touch();
pcDoc->recomputeFeature(pcFeature);
}
else {
throw;
}
#else
throw;
#endif
}
return Py::None();
}
Py::Object exporter(const Py::Tuple& args)
{
PyObject* object;
char* Name;
if (!PyArg_ParseTuple(args.ptr(), "Oet", &object, "utf-8", &Name)) {
throw Py::Exception();
}
Base::FileInfo file(Name);
PyMem_Free(Name);
ParameterGrp::handle hGrp = App::GetApplication().GetParameterGroupByPath(
"User parameter:BaseApp/Preferences/Mod/Fem"
);
Py::Sequence list(object);
for (Py::Sequence::iterator it = list.begin(); it != list.end(); ++it) {
PyObject* item = (*it).ptr();
if (PyObject_TypeCheck(item, &(App::DocumentObjectPy::Type))) {
App::DocumentObject* obj
= static_cast<App::DocumentObjectPy*>(item)->getDocumentObjectPtr();
if (obj->isDerivedFrom<Fem::FemMeshObject>()) {
auto femMesh = static_cast<FemMeshObject*>(obj)->FemMesh.getValue();
if (file.hasExtension({"vtk", "vtu"})) {
// get VTK prefs
ParameterGrp::handle g = hGrp->GetGroup("InOutVtk");
std::string level = g->GetASCII("MeshExportLevel", "Highest");
femMesh.writeVTK(file.filePath().c_str(), level == "Highest" ? true : false);
}
else if (file.hasExtension("inp")) {
// get Abaqus inp prefs
ParameterGrp::handle g = hGrp->GetGroup("Abaqus");
int elemParam = g->GetInt("AbaqusElementChoice", 2);
bool groupParam = g->GetBool("AbaqusWriteGroups", true);
// write ABAQUS Output
femMesh.writeABAQUS(file.filePath(), elemParam, groupParam);
}
else {
femMesh.write(file.filePath().c_str());
}
return Py::None();
}
}
}
throw Py::RuntimeError("No FEM mesh for export selected");
}
Py::Object read(const Py::Tuple& args)
{
char* Name;
if (!PyArg_ParseTuple(args.ptr(), "et", "utf-8", &Name)) {
throw Py::Exception();
}
std::string EncodedName = std::string(Name);
PyMem_Free(Name);
std::unique_ptr<FemMesh> mesh(new FemMesh);
mesh->read(EncodedName.c_str());
return Py::asObject(new FemMeshPy(mesh.release()));
}
#ifdef FC_USE_VTK
Py::Object frdToVTK(const Py::Tuple& args)
{
char* filename = nullptr;
PyObject* binary = Py_True;
if (!PyArg_ParseTuple(args.ptr(), "et|O!", "utf-8", &filename, &PyBool_Type, &binary)) {
throw Py::Exception();
}
std::string encodedName = std::string(filename);
PyMem_Free(filename);
FemVTKTools::frdToVTK(encodedName.c_str(), Base::asBoolean(binary));
return Py::None();
}
Py::Object readResult(const Py::Tuple& args)
{
char* fileName = nullptr;
char* objName = nullptr;
if (!PyArg_ParseTuple(args.ptr(), "et|et", "utf-8", &fileName, "utf-8", &objName)) {
throw Py::Exception();
}
std::string EncodedName = std::string(fileName);
PyMem_Free(fileName);
std::string resName = std::string(objName);
PyMem_Free(objName);
if (resName.length()) {
App::Document* pcDoc = App::GetApplication().getActiveDocument();
App::DocumentObject* obj = pcDoc->getObject(resName.c_str());
FemVTKTools::readResult(EncodedName.c_str(), obj);
}
else {
FemVTKTools::readResult(EncodedName.c_str()); // assuming activeObject can hold Result
}
return Py::None();
}
Py::Object writeResult(const Py::Tuple& args)
{
char* fileName = nullptr;
PyObject* pcObj = nullptr;
if (!PyArg_ParseTuple(
args.ptr(),
"et|O!",
"utf-8",
&fileName,
&(App::DocumentObjectPy::Type),
&pcObj
)) {
throw Py::Exception();
}
std::string EncodedName = std::string(fileName);
PyMem_Free(fileName);
if (pcObj) {
if (PyObject_TypeCheck(pcObj, &(App::DocumentObjectPy::Type))) {
App::DocumentObject* obj
= static_cast<App::DocumentObjectPy*>(pcObj)->getDocumentObjectPtr();
FemVTKTools::writeResult(EncodedName.c_str(), obj);
}
}
else {
FemVTKTools::writeResult(EncodedName.c_str());
}
return Py::None();
}
Py::Object getVtkVersion(const Py::Tuple& args)
{
if (!PyArg_ParseTuple(args.ptr(), "")) {
throw Py::Exception();
}
return Py::String(fcVtkVersion);
}
Py::Object getVtkVersionNumber(const Py::Tuple& args)
{
if (!PyArg_ParseTuple(args.ptr(), "")) {
throw Py::Exception();
}
return Py::Long(VTK_VERSION_NUMBER);
}
Py::Object vtkVersionCheck(const Py::Tuple& args)
{
int major;
int minor;
int build = 0;
if (!PyArg_ParseTuple(args.ptr(), "ii|i", &major, &minor, &build)) {
throw Py::Exception();
}
return Py::Long(VTK_VERSION_CHECK(major, minor, build));
}
# ifdef FC_USE_VTK_PYTHON
Py::Object isVtkCompatible(const Py::Tuple& args)
{
PyObject* pcObj = nullptr;
if (!PyArg_ParseTuple(args.ptr(), "O", &pcObj)) {
throw Py::Exception();
}
// if none is returned the VTK object was created by another VTK library, and the
// python api used to create it cannot be used with FreeCAD
vtkObjectBase* obj = vtkPythonUtil::GetPointerFromObject(pcObj, "vtkObject");
if (!obj) {
PyErr_Clear();
return Py::False();
}
return Py::True();
}
# endif
#endif
Py::Object show(const Py::Tuple& args)
{
PyObject* pcObj;
const char* name = "Mesh";
if (!PyArg_ParseTuple(args.ptr(), "O!|s", &(FemMeshPy::Type), &pcObj, &name)) {
throw Py::Exception();
}
App::Document* pcDoc = App::GetApplication().getActiveDocument();
if (!pcDoc) {
pcDoc = App::GetApplication().newDocument();
}
FemMeshPy* pShape = static_cast<FemMeshPy*>(pcObj);
Fem::FemMeshObject* pcFeature = pcDoc->addObject<Fem::FemMeshObject>(name);
// copy the data
pcFeature->FemMesh.setValue(*(pShape->getFemMeshPtr()));
pcDoc->recompute();
return Py::None();
}
};
PyObject* initModule()
{
return Base::Interpreter().addModule(new Module);
}
} // namespace Fem
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