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+ unify DLL export defines to namespace names

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git-svn-id: https://free-cad.svn.sourceforge.net/svnroot/free-cad/trunk@5000 e8eeb9e2-ec13-0410-a4a9-efa5cf37419d
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wmayer
2011-10-10 13:44:52 +00:00
commit 120ca87015
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src/Mod/Import/Gui/AppImportGuiPy.cpp Normal file
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/***************************************************************************
* Copyright (c) 2011 Werner Mayer <wmayer[at]users.sourceforge.net> *
* *
* 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 "PreCompiled.h"
#if defined(__MINGW32__)
# define WNT // avoid conflict with GUID
#endif
#ifndef _PreComp_
# include <climits>
# include <Python.h>
# include <Standard_Version.hxx>
# include <BRep_Builder.hxx>
# include <Handle_TDocStd_Document.hxx>
# include <Handle_XCAFApp_Application.hxx>
# include <TDocStd_Document.hxx>
# include <XCAFApp_Application.hxx>
# include <XCAFDoc_DocumentTool.hxx>
# include <XCAFDoc_ShapeTool.hxx>
# include <XCAFDoc_ColorTool.hxx>
# include <TDF_Label.hxx>
# include <TDF_LabelSequence.hxx>
# include <TDF_ChildIterator.hxx>
# include <TDataStd_Name.hxx>
# include <Quantity_Color.hxx>
# include <STEPCAFControl_Reader.hxx>
# include <STEPCAFControl_Writer.hxx>
# include <IGESCAFControl_Reader.hxx>
# include <IGESCAFControl_Writer.hxx>
# include <IGESControl_Controller.hxx>
# include <Interface_Static.hxx>
# include <Transfer_TransientProcess.hxx>
# include <XSControl_WorkSession.hxx>
# include <TopTools_IndexedMapOfShape.hxx>
# include <TopTools_MapOfShape.hxx>
# include <TopExp_Explorer.hxx>
# include <TopoDS_Iterator.hxx>
#if OCC_VERSION_HEX >= 0x060500
# include <TDataXtd_Shape.hxx>
# else
# include <TDataStd_Shape.hxx>
# endif
#endif
#include <Base/PyObjectBase.h>
#include <Base/Console.h>
#include <App/Application.h>
#include <App/Document.h>
#include <App/DocumentObjectPy.h>
#include <Gui/Application.h>
#include <Mod/Part/Gui/ViewProvider.h>
#include <Mod/Part/App/PartFeature.h>
#include <Mod/Part/App/ProgressIndicator.h>
class ImportXCAF
{
public:
ImportXCAF(Handle_TDocStd_Document h, App::Document* d, const std::string& name)
: hdoc(h), doc(d), default_name(name)
{
aShapeTool = XCAFDoc_DocumentTool::ShapeTool (hdoc->Main());
hColors = XCAFDoc_DocumentTool::ColorTool(hdoc->Main());
}
void loadShapes()
{
// collect sequence of labels to display
TDF_LabelSequence shapeLabels, colorLabels;
aShapeTool->GetFreeShapes (shapeLabels);
hColors->GetColors(colorLabels);
// set presentations and show
for (Standard_Integer i=1; i <= shapeLabels.Length(); i++ ) {
// get the shapes and attributes
const TDF_Label& label = shapeLabels.Value(i);
loadShapes(label);
}
std::map<Standard_Integer, TopoDS_Shape>::iterator it;
// go through solids
for (it = mySolids.begin(); it != mySolids.end(); ++it) {
createShape(it->second, true, true);
}
// go through shells
for (it = myShells.begin(); it != myShells.end(); ++it) {
createShape(it->second, true, true);
}
// go through compounds
for (it = myCompds.begin(); it != myCompds.end(); ++it) {
createShape(it->second, true, true);
}
// do the rest
if (!myShapes.empty()) {
BRep_Builder builder;
TopoDS_Compound comp;
builder.MakeCompound(comp);
for (it = myShapes.begin(); it != myShapes.end(); ++it) {
builder.Add(comp, it->second);
}
createShape(comp, true, false);
}
}
private:
void createShape(const TopoDS_Shape& shape, bool perface=false, bool setname=false) const
{
Part::Feature* part;
part = static_cast<Part::Feature*>(doc->addObject("Part::Feature", default_name.c_str()));
part->Shape.setValue(shape);
std::map<Standard_Integer, Quantity_Color>::const_iterator jt;
jt = myColorMap.find(shape.HashCode(INT_MAX));
if (jt != myColorMap.end()) {
Gui::ViewProvider* vp = Gui::Application::Instance->getViewProvider(part);
if (vp && vp->isDerivedFrom(PartGui::ViewProviderPart::getClassTypeId())) {
App::Color color;
color.r = jt->second.Red();
color.g = jt->second.Green();
color.b = jt->second.Blue();
static_cast<PartGui::ViewProviderPart*>(vp)->ShapeColor.setValue(color);
}
}
// set label name if defined
if (setname && !myNameMap.empty()) {
std::map<Standard_Integer, std::string>::const_iterator jt;
jt = myNameMap.find(shape.HashCode(INT_MAX));
if (jt != myNameMap.end()) {
part->Label.setValue(jt->second);
}
}
// check for colors per face
if (perface && !myColorMap.empty()) {
TopTools_IndexedMapOfShape faces;
TopExp_Explorer xp(shape,TopAbs_FACE);
while (xp.More()) {
faces.Add(xp.Current());
xp.Next();
}
bool found_face_color = false;
std::vector<App::Color> faceColors;
faceColors.resize(faces.Extent(), App::Color(0.8f,0.8f,0.8f));
xp.Init(shape,TopAbs_FACE);
while (xp.More()) {
jt = myColorMap.find(xp.Current().HashCode(INT_MAX));
if (jt != myColorMap.end()) {
int index = faces.FindIndex(xp.Current());
App::Color color;
color.r = jt->second.Red();
color.g = jt->second.Green();
color.b = jt->second.Blue();
faceColors[index-1] = color;
found_face_color = true;
}
xp.Next();
}
if (found_face_color) {
Gui::ViewProvider* vp = Gui::Application::Instance->getViewProvider(part);
if (vp && vp->isDerivedFrom(PartGui::ViewProviderPartExt::getClassTypeId())) {
static_cast<PartGui::ViewProviderPartExt*>(vp)->DiffuseColor.setValues(faceColors);
}
}
}
}
void loadShapes(const TDF_Label& label)
{
TopoDS_Shape aShape;
if (aShapeTool->GetShape(label,aShape)) {
if (aShapeTool->IsTopLevel(label)) {
int ctSolids = 0, ctShells = 0, ctComps = 0;
// add the shapes
TopExp_Explorer xp;
for (xp.Init(aShape, TopAbs_SOLID); xp.More(); xp.Next(), ctSolids++)
this->mySolids[xp.Current().HashCode(INT_MAX)] = (xp.Current());
for (xp.Init(aShape, TopAbs_SHELL, TopAbs_SOLID); xp.More(); xp.Next(), ctShells++)
this->myShells[xp.Current().HashCode(INT_MAX)] = (xp.Current());
// if no solids and no shells were found then go for compounds
if (ctSolids == 0 && ctShells == 0) {
for (xp.Init(aShape, TopAbs_COMPOUND); xp.More(); xp.Next(), ctComps++)
this->myCompds[xp.Current().HashCode(INT_MAX)] = (xp.Current());
}
if (ctComps == 0) {
for (xp.Init(aShape, TopAbs_FACE, TopAbs_SHELL); xp.More(); xp.Next())
this->myShapes[xp.Current().HashCode(INT_MAX)] = (xp.Current());
for (xp.Init(aShape, TopAbs_WIRE, TopAbs_FACE); xp.More(); xp.Next())
this->myShapes[xp.Current().HashCode(INT_MAX)] = (xp.Current());
for (xp.Init(aShape, TopAbs_EDGE, TopAbs_WIRE); xp.More(); xp.Next())
this->myShapes[xp.Current().HashCode(INT_MAX)] = (xp.Current());
for (xp.Init(aShape, TopAbs_VERTEX, TopAbs_EDGE); xp.More(); xp.Next())
this->myShapes[xp.Current().HashCode(INT_MAX)] = (xp.Current());
}
}
// getting color
Quantity_Color col;
if (hColors->GetColor(label, XCAFDoc_ColorGen, col) ||
hColors->GetColor(label, XCAFDoc_ColorSurf, col) ||
hColors->GetColor(label, XCAFDoc_ColorCurv, col)) {
// add defined color
myColorMap[aShape.HashCode(INT_MAX)] = col;
}
else {
// http://www.opencascade.org/org/forum/thread_17107/
TopoDS_Iterator it;
for (it.Initialize(aShape);it.More(); it.Next()) {
if (hColors->GetColor(it.Value(), XCAFDoc_ColorGen, col) ||
hColors->GetColor(it.Value(), XCAFDoc_ColorSurf, col) ||
hColors->GetColor(it.Value(), XCAFDoc_ColorCurv, col)) {
// add defined color
myColorMap[it.Value().HashCode(INT_MAX)] = col;
}
}
}
// getting names
Handle(TDataStd_Name) name;
if (label.FindAttribute(TDataStd_Name::GetID(),name)) {
TCollection_ExtendedString extstr = name->Get();
char* str = new char[extstr.LengthOfCString()+1];
extstr.ToUTF8CString(str);
std::string label(str);
if (!label.empty())
myNameMap[aShape.HashCode(INT_MAX)] = label;
delete [] str;
}
if (label.HasChild()) {
TDF_ChildIterator it;
for (it.Initialize(label); it.More(); it.Next()) {
loadShapes(it.Value());
}
}
}
}
private:
Handle_TDocStd_Document hdoc;
App::Document* doc;
Handle_XCAFDoc_ShapeTool aShapeTool;
Handle_XCAFDoc_ColorTool hColors;
std::string default_name;
std::map<Standard_Integer, TopoDS_Shape> mySolids;
std::map<Standard_Integer, TopoDS_Shape> myShells;
std::map<Standard_Integer, TopoDS_Shape> myCompds;
std::map<Standard_Integer, TopoDS_Shape> myShapes;
std::map<Standard_Integer, Quantity_Color> myColorMap;
std::map<Standard_Integer, std::string> myNameMap;
};
/* module functions */
static PyObject * importer(PyObject *self, PyObject *args)
{
const char* Name;
const char* DocName;
if (!PyArg_ParseTuple(args, "ss",&Name,&DocName))
return 0;
PY_TRY {
//Base::Console().Log("Insert in Part with %s",Name);
Base::FileInfo file(Name);
App::Document *pcDoc = App::GetApplication().getDocument(DocName);
if (!pcDoc) {
pcDoc = App::GetApplication().newDocument(DocName);
}
Handle(XCAFApp_Application) hApp = XCAFApp_Application::GetApplication();
Handle(TDocStd_Document) hDoc;
hApp->NewDocument(TCollection_ExtendedString("MDTV-CAF"), hDoc);
if (file.hasExtension("stp") || file.hasExtension("step")) {
STEPCAFControl_Reader aReader;
aReader.SetColorMode(true);
aReader.SetNameMode(true);
aReader.SetLayerMode(true);
if (aReader.ReadFile((Standard_CString)Name) != IFSelect_RetDone) {
PyErr_SetString(PyExc_Exception, "cannot read STEP file");
return 0;
}
Handle_Message_ProgressIndicator pi = new Part::ProgressIndicator(100);
aReader.Reader().WS()->MapReader()->SetProgress(pi);
pi->NewScope(100, "Reading STEP file...");
pi->Show();
aReader.Transfer(hDoc);
pi->EndScope();
}
else if (file.hasExtension("igs") || file.hasExtension("iges")) {
IGESControl_Controller::Init();
Interface_Static::SetIVal("read.surfacecurve.mode",3);
IGESCAFControl_Reader aReader;
if (aReader.ReadFile((Standard_CString)Name) != IFSelect_RetDone) {
PyErr_SetString(PyExc_Exception, "cannot read IGES file");
return 0;
}
Handle_Message_ProgressIndicator pi = new Part::ProgressIndicator(100);
aReader.WS()->MapReader()->SetProgress(pi);
pi->NewScope(100, "Reading IGES file...");
pi->Show();
aReader.Transfer(hDoc);
pi->EndScope();
}
else {
PyErr_SetString(PyExc_Exception, "no supported file format");
return 0;
}
ImportXCAF xcaf(hDoc, pcDoc, file.fileNamePure());
xcaf.loadShapes();
pcDoc->recompute();
}
catch (Standard_Failure) {
Handle_Standard_Failure e = Standard_Failure::Caught();
PyErr_SetString(PyExc_Exception, e->GetMessageString());
return 0;
}
PY_CATCH
Py_Return;
}
static PyObject * exporter(PyObject *self, PyObject *args)
{
PyObject* object;
const char* filename;
if (!PyArg_ParseTuple(args, "Os",&object,&filename))
return NULL;
PY_TRY {
Handle(XCAFApp_Application) hApp = XCAFApp_Application::GetApplication();
Handle(TDocStd_Document) hDoc;
hApp->NewDocument(TCollection_ExtendedString("MDTV-CAF"), hDoc);
Handle_XCAFDoc_ShapeTool hShapeTool = XCAFDoc_DocumentTool::ShapeTool(hDoc->Main());
Handle_XCAFDoc_ColorTool hColors = XCAFDoc_DocumentTool::ColorTool(hDoc->Main());
TDF_Label rootLabel= TDF_TagSource::NewChild(hDoc->Main());
Py::List list(object);
for (Py::List::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->getTypeId().isDerivedFrom(Part::Feature::getClassTypeId())) {
Part::Feature* part = static_cast<Part::Feature*>(obj);
const TopoDS_Shape& shape = part->Shape.getValue();
// Add shape and name
//TDF_Label shapeLabel = hShapeTool->AddShape(shape, Standard_False);
TDF_Label shapeLabel= TDF_TagSource::NewChild(rootLabel);
#if OCC_VERSION_HEX >= 0x060500
TDataXtd_Shape::Set(shapeLabel, shape);
#else
TDataStd_Shape::Set(shapeLabel, shape);
#endif
TDataStd_Name::Set(shapeLabel, TCollection_ExtendedString(part->Label.getValue(), 1));
// Add color information
Quantity_Color col;
Gui::ViewProvider* vp = Gui::Application::Instance->getViewProvider(part);
bool per_face = false;
if (vp && vp->isDerivedFrom(PartGui::ViewProviderPartExt::getClassTypeId())) {
const std::vector<App::Color>& c = static_cast<PartGui::ViewProviderPartExt*>
(vp)->DiffuseColor.getValues();
// define color per face
if (c.size() > 1) {
per_face = true;
std::set<int> face_index;
TopTools_IndexedMapOfShape faces;
TopExp_Explorer xp(shape,TopAbs_FACE);
while (xp.More()) {
face_index.insert(faces.Add(xp.Current()));
xp.Next();
}
xp.Init(shape,TopAbs_FACE);
while (xp.More()) {
int index = faces.FindIndex(xp.Current());
if (face_index.find(index) != face_index.end()) {
face_index.erase(index);
TDF_Label faceLabel= TDF_TagSource::NewChild(shapeLabel);
#if OCC_VERSION_HEX >= 0x060500
TDataXtd_Shape::Set(faceLabel, xp.Current());
#else
TDataStd_Shape::Set(faceLabel, xp.Current());
#endif
const App::Color& color = c[index-1];
Quantity_Parameter mat[3];
mat[0] = color.r;
mat[1] = color.g;
mat[2] = color.b;
col.SetValues(mat[0],mat[1],mat[2],Quantity_TOC_RGB);
hColors->SetColor(faceLabel, col, XCAFDoc_ColorSurf);
}
xp.Next();
}
}
}
if (!per_face && vp && vp->isDerivedFrom(PartGui::ViewProviderPart::getClassTypeId())) {
App::Color color = static_cast<PartGui::ViewProviderPart*>(vp)->ShapeColor.getValue();
Quantity_Parameter mat[3];
mat[0] = color.r;
mat[1] = color.g;
mat[2] = color.b;
col.SetValues(mat[0],mat[1],mat[2],Quantity_TOC_RGB);
hColors->SetColor(shapeLabel, col, XCAFDoc_ColorGen);
}
}
else {
Base::Console().Message("'%s' is not a shape, export will be ignored.\n", obj->Label.getValue());
}
}
}
Base::FileInfo file(filename);
if (file.hasExtension("stp") || file.hasExtension("step")) {
STEPCAFControl_Writer writer;
writer.Transfer(hDoc, STEPControl_AsIs);
writer.Write(filename);
}
else if (file.hasExtension("igs") || file.hasExtension("iges")) {
IGESControl_Controller::Init();
IGESCAFControl_Writer writer;
writer.Transfer(hDoc);
writer.Write(filename);
}
}
catch (Standard_Failure) {
Handle_Standard_Failure e = Standard_Failure::Caught();
PyErr_SetString(PyExc_Exception, e->GetMessageString());
return 0;
}
PY_CATCH
Py_Return;
}
/* registration table */
struct PyMethodDef ImportGui_Import_methods[] = {
{"insert" ,importer ,METH_VARARGS,
"insert(string,string) -- Insert the file into the given document."},
{"export" ,exporter ,METH_VARARGS,
"export(list,string) -- Export a list of objects into a single file."},
{NULL, NULL} /* end of table marker */
};