create/src/Mod/Drawing/App/AppDrawingPy.cpp

/***************************************************************************
 *   Copyright (c) Jürgen Riegel          (juergen.riegel@web.de) 2002     *
 *                                                                         *
 *   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"
#ifndef _PreComp_
# include <boost/regex.hpp>
#endif

#include <Base/Console.h>
#include <Base/Interpreter.h>
#include <Base/VectorPy.h>
#include <Mod/Part/App/OCCError.h>
#include <Mod/Part/App/TopoShapePy.h>

#include "ProjectionAlgos.h"


using namespace std;
using Part::TopoShapePy;
using Part::TopoShape;

namespace Drawing {

  /** Copies a Python dictionary of Python strings to a C++ container.
   * 
   * After the function call, the key-value pairs of the Python
   * dictionary are copied into the target buffer as C++ pairs
   * (pair<string, string>).
   *
   * @param sourceRange is a Python dictionary (Py::Dict). Both, the
   * keys and the values must be Python strings.
   *
   * @param targetIt refers to where the data should be inserted. Must
   * be of concept output iterator.
   */
  template<typename OutputIt>
  void copy(Py::Dict sourceRange, OutputIt targetIt)
  {
    string key;
    string value;

    for (const auto& keyPy : sourceRange.keys()) {
      key = Py::String(keyPy);
      value = Py::String(sourceRange[keyPy]);
      *targetIt = {key, value};
      ++targetIt;
    }
  }


class Module : public Py::ExtensionModule<Module>
{
public:
    Module() : Py::ExtensionModule<Module>("Drawing")
    {
        add_varargs_method("project",&Module::project,
            "[visiblyG0,visiblyG1,hiddenG0,hiddenG1] = project(TopoShape[,App.Vector Direction, string type])\n"
            " -- Project a shape and return the visible/invisible parts of it."
        );
        add_varargs_method("projectEx",&Module::projectEx,
            "[V,V1,VN,VO,VI,H,H1,HN,HO,HI] = projectEx(TopoShape[,App.Vector Direction, string type])\n"
            " -- Project a shape and return the all parts of it."
        );
        add_keyword_method("projectToSVG",&Module::projectToSVG,
            "string = projectToSVG(TopoShape[, App.Vector direction, string type, float tolerance, dict vStyle, dict v0Style, dict v1Style, dict hStyle, dict h0Style, dict h1Style])\n"
            " -- Project a shape and return the SVG representation as string."
        );
        add_varargs_method("projectToDXF",&Module::projectToDXF,
            "string = projectToDXF(TopoShape[,App.Vector Direction, string type])\n"
            " -- Project a shape and return the DXF representation as string."
        );
        add_varargs_method("removeSvgTags",&Module::removeSvgTags,
            "string = removeSvgTags(string) -- Removes the opening and closing svg tags\n"
            "and other metatags from a svg code, making it embeddable"
        );
        initialize("This module is the Drawing module."); // register with Python
    }

    virtual ~Module() {}

private:
    virtual Py::Object invoke_method_varargs(void *method_def, const Py::Tuple &args)
    {
        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";}
            Base::Console().Error("%s\n", str.c_str());
            throw Py::Exception(Part::PartExceptionOCCError, str);
        }
        catch (const Base::Exception &e) {
            std::string str;
            str += "FreeCAD exception thrown (";
            str += e.what();
            str += ")";
            e.ReportException();
            throw Py::RuntimeError(str);
        }
        catch (const std::exception &e) {
            std::string str;
            str += "C++ exception thrown (";
            str += e.what();
            str += ")";
            Base::Console().Error("%s\n", str.c_str());
            throw Py::RuntimeError(str);
        }
    }
    Py::Object project(const Py::Tuple& args)
    {
        PyObject *pcObjShape;
        PyObject *pcObjDir=nullptr;

        if (!PyArg_ParseTuple(args.ptr(), "O!|O!",
            &(Part::TopoShapePy::Type), &pcObjShape,
            &(Base::VectorPy::Type), &pcObjDir))
            throw Py::Exception();

        Part::TopoShapePy* pShape = static_cast<Part::TopoShapePy*>(pcObjShape);
        Base::Vector3d Vector(0,0,1);
        if (pcObjDir)
            Vector = *static_cast<Base::VectorPy*>(pcObjDir)->getVectorPtr();

        ProjectionAlgos Alg(pShape->getTopoShapePtr()->getShape(),Vector);

        Py::List list;
        list.append(Py::Object(new Part::TopoShapePy(new Part::TopoShape(Alg.V)) , true));
        list.append(Py::Object(new Part::TopoShapePy(new Part::TopoShape(Alg.V1)), true));
        list.append(Py::Object(new Part::TopoShapePy(new Part::TopoShape(Alg.H)) , true));
        list.append(Py::Object(new Part::TopoShapePy(new Part::TopoShape(Alg.H1)), true));

        return list;
    }
    Py::Object projectEx(const Py::Tuple& args)
    {
        PyObject *pcObjShape;
        PyObject *pcObjDir=nullptr;

        if (!PyArg_ParseTuple(args.ptr(), "O!|O!",
            &(TopoShapePy::Type), &pcObjShape,
            &(Base::VectorPy::Type), &pcObjDir))
            throw Py::Exception();

        TopoShapePy* pShape = static_cast<TopoShapePy*>(pcObjShape);
        Base::Vector3d Vector(0,0,1);
        if (pcObjDir)
            Vector = *static_cast<Base::VectorPy*>(pcObjDir)->getVectorPtr();

        ProjectionAlgos Alg(pShape->getTopoShapePtr()->getShape(),Vector);

        Py::List list;
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.V1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.VI)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H)) , true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.H1)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HN)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HO)), true));
        list.append(Py::Object(new TopoShapePy(new TopoShape(Alg.HI)), true));

        return list;
    }

    Py::Object projectToSVG(const Py::Tuple& args, const Py::Dict& keys)
        {
            static char* argNames[] = {"topoShape", "direction", "type", "tolerance", "vStyle", "v0Style", "v1Style", "hStyle", "h0Style", "h1Style", nullptr};
            PyObject *pcObjShape = nullptr;
            PyObject *pcObjDir = nullptr;
            const char *extractionTypePy = nullptr;
            ProjectionAlgos::ExtractionType extractionType = ProjectionAlgos::Plain;
            const float tol = 0.1f;
            PyObject* vStylePy = nullptr;
            ProjectionAlgos::XmlAttributes vStyle;
            PyObject* v0StylePy = nullptr;
            ProjectionAlgos::XmlAttributes v0Style;
            PyObject* v1StylePy = nullptr;
            ProjectionAlgos::XmlAttributes v1Style;
            PyObject* hStylePy = nullptr;
            ProjectionAlgos::XmlAttributes hStyle;
            PyObject* h0StylePy = nullptr;
            ProjectionAlgos::XmlAttributes h0Style;
            PyObject* h1StylePy = nullptr;
            ProjectionAlgos::XmlAttributes h1Style;
        
            // Get the arguments

            if (!PyArg_ParseTupleAndKeywords(
                    args.ptr(), keys.ptr(), 
                    "O!|O!sfOOOOOO", 
                    argNames,
                    &(TopoShapePy::Type), &pcObjShape,
                    &(Base::VectorPy::Type), &pcObjDir, 
                    &extractionTypePy, &tol, 
                    &vStylePy, &v0StylePy, &v1StylePy, 
                    &hStylePy, &h0StylePy, &h1StylePy))
          
                throw Py::Exception();

            // Convert all arguments into the right format

            TopoShapePy* pShape = static_cast<TopoShapePy*>(pcObjShape);

            Base::Vector3d directionVector(0,0,1);
            if (pcObjDir)
                directionVector = static_cast<Base::VectorPy*>(pcObjDir)->value();

            if (extractionTypePy && string(extractionTypePy) == "ShowHiddenLines")
                extractionType = ProjectionAlgos::WithHidden;

            if (vStylePy)
                copy(Py::Dict(vStylePy), inserter(vStyle, vStyle.begin()));
            if (v0StylePy)
                copy(Py::Dict(v0StylePy), inserter(v0Style, v0Style.begin()));
            if (v1StylePy)
                copy(Py::Dict(v1StylePy), inserter(v1Style, v1Style.begin()));
            if (hStylePy)
                copy(Py::Dict(hStylePy), inserter(hStyle, hStyle.begin()));
            if (h0StylePy)
                copy(Py::Dict(h0StylePy), inserter(h0Style, h0Style.begin()));
            if (h1StylePy)
                copy(Py::Dict(h1StylePy), inserter(h1Style, h1Style.begin()));
        
            // Execute the SVG generation

            ProjectionAlgos Alg(pShape->getTopoShapePtr()->getShape(), 
                                directionVector);
            Py::String result(Alg.getSVG(extractionType, tol, 
                                         vStyle, v0Style, v1Style, 
                                         hStyle, h0Style, h1Style));
            return result;
        }

    Py::Object projectToDXF(const Py::Tuple& args)
    {
        PyObject *pcObjShape;
        PyObject *pcObjDir=nullptr;
        const char *type=nullptr;
        float scale=1.0f;
        float tol=0.1f;

        if (!PyArg_ParseTuple(args.ptr(), "O!|O!sff",
            &(TopoShapePy::Type), &pcObjShape,
            &(Base::VectorPy::Type), &pcObjDir, &type, &scale, &tol))
            throw Py::Exception();

        TopoShapePy* pShape = static_cast<TopoShapePy*>(pcObjShape);
        Base::Vector3d Vector(0,0,1);
        if (pcObjDir)
            Vector = static_cast<Base::VectorPy*>(pcObjDir)->value();
        ProjectionAlgos Alg(pShape->getTopoShapePtr()->getShape(),Vector);

        bool hidden = false;
        if (type && std::string(type) == "ShowHiddenLines")
            hidden = true;

        Py::String result(Alg.getDXF(hidden?ProjectionAlgos::WithHidden:ProjectionAlgos::Plain, scale, tol));
        return result;
    }
    Py::Object removeSvgTags(const Py::Tuple& args)
    {
        const char* svgcode;
        if (!PyArg_ParseTuple(args.ptr(), "s",&svgcode))
            throw Py::Exception();

        std::string svg(svgcode);
        std::string empty = "";
        std::string endline = "--endOfLine--";
        std::string linebreak = "\\n";
        // removing linebreaks for regex to work
        boost::regex e1 ("\\n");
        svg = boost::regex_replace(svg, e1, endline);
        // removing starting xml definition
        boost::regex e2 ("<\\?xml.*?\\?>");
        svg = boost::regex_replace(svg, e2, empty);
        // removing starting svg tag
        boost::regex e3 ("<svg.*?>");
        svg = boost::regex_replace(svg, e3, empty);
        // removing sodipodi tags -- DANGEROUS, some sodipodi tags are single, better leave it
        //boost::regex e4 ("<sodipodi.*?>");
        //svg = boost::regex_replace(svg, e4, empty);
        // removing metadata tags
        boost::regex e5 ("<metadata.*?</metadata>");
        svg = boost::regex_replace(svg, e5, empty);
        // removing closing svg tags
        boost::regex e6 ("</svg>");
        svg = boost::regex_replace(svg, e6, empty);
        // restoring linebreaks
        boost::regex e7 ("--endOfLine--");
        svg = boost::regex_replace(svg, e7, linebreak);
        Py::String result(svg);
        return result;
    }
};

PyObject* initModule()
{
    return Base::Interpreter().addModule(new Module);
}

} // namespace Drawing