blender-archive/source/blender/freestyle/intern/python/BPy_Convert.cpp

/*
 * ***** BEGIN GPL LICENSE BLOCK *****
 *
 * This program is free software; you can redistribute it and/or
 * modify it under the terms of the GNU General Public License
 * as published by the Free Software Foundation; either version 2
 * of the License, or (at your option) any later version.
 *
 * This program 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 General Public License for more details.
 *
 * You should have received a copy of the GNU General Public License
 * along with this program; if not, write to the Free Software Foundation,
 * Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
 *
 * The Original Code is Copyright (C) 2010 Blender Foundation.
 * All rights reserved.
 *
 * The Original Code is: all of this file.
 *
 * Contributor(s): none yet.
 *
 * ***** END GPL LICENSE BLOCK *****
 */

/** \file source/blender/freestyle/intern/python/BPy_Convert.cpp
 *  \ingroup freestyle
 */

#include "BPy_Convert.h"

#include "BPy_BBox.h"
#include "BPy_FrsMaterial.h"
#include "BPy_Id.h"
#include "BPy_IntegrationType.h"
#include "BPy_Interface0D.h"
#include "Interface0D/BPy_CurvePoint.h"
#include "Interface0D/CurvePoint/BPy_StrokeVertex.h"
#include "Interface0D/BPy_SVertex.h"
#include "Interface0D/BPy_ViewVertex.h"
#include "Interface0D/ViewVertex/BPy_NonTVertex.h"
#include "Interface0D/ViewVertex/BPy_TVertex.h"
#include "BPy_Interface1D.h"
#include "Interface1D/BPy_FEdge.h"
#include "Interface1D/BPy_Stroke.h"
#include "Interface1D/BPy_ViewEdge.h"
#include "Interface1D/Curve/BPy_Chain.h"
#include "Interface1D/FEdge/BPy_FEdgeSharp.h"
#include "Interface1D/FEdge/BPy_FEdgeSmooth.h"
#include "BPy_Nature.h"
#include "BPy_MediumType.h"
#include "BPy_SShape.h"
#include "BPy_StrokeAttribute.h"
#include "BPy_ViewShape.h"

#include "Iterator/BPy_AdjacencyIterator.h"
#include "Iterator/BPy_ChainPredicateIterator.h"
#include "Iterator/BPy_ChainSilhouetteIterator.h"
#include "Iterator/BPy_ChainingIterator.h"
#include "Iterator/BPy_CurvePointIterator.h"
#include "Iterator/BPy_Interface0DIterator.h"
#include "Iterator/BPy_SVertexIterator.h"
#include "Iterator/BPy_StrokeVertexIterator.h"
#include "Iterator/BPy_ViewEdgeIterator.h"
#include "Iterator/BPy_orientedViewEdgeIterator.h"

#include "../stroke/StrokeRep.h"

#ifdef __cplusplus
extern "C" {
#endif

///////////////////////////////////////////////////////////////////////////////////////////

//==============================
// C++ => Python
//==============================

PyObject *PyBool_from_bool(bool b)
{
	return PyBool_FromLong(b ? 1 : 0);
}

PyObject *Vector_from_Vec2f(Vec2f& vec)
{
	float vec_data[2]; // because vec->_coord is protected
	vec_data[0] = vec.x();
	vec_data[1] = vec.y();
	return Vector_CreatePyObject(vec_data, 2, Py_NEW, NULL);
}

PyObject *Vector_from_Vec3f(Vec3f& vec)
{
	float vec_data[3]; // because vec->_coord is protected
	vec_data[0] = vec.x();
	vec_data[1] = vec.y();
	vec_data[2] = vec.z(); 
	return Vector_CreatePyObject(vec_data, 3, Py_NEW, NULL);
}

PyObject *Vector_from_Vec3r(Vec3r& vec)
{
	float vec_data[3]; // because vec->_coord is protected
	vec_data[0] = vec.x();
	vec_data[1] = vec.y();
	vec_data[2] = vec.z();
	return Vector_CreatePyObject(vec_data, 3, Py_NEW, NULL);
}

PyObject *BPy_Id_from_Id(Id& id)
{
	PyObject *py_id = Id_Type.tp_new(&Id_Type, 0, 0);
	((BPy_Id *)py_id)->id = new Id(id.getFirst(), id.getSecond());
	return py_id;
}

PyObject *Any_BPy_Interface0D_from_Interface0D(Interface0D& if0D)
{
	if (typeid(if0D) == typeid(CurvePoint)) {
		return BPy_CurvePoint_from_CurvePoint(dynamic_cast<CurvePoint&>(if0D));
	}
	else if (typeid(if0D) == typeid(StrokeVertex)) {
		return BPy_StrokeVertex_from_StrokeVertex(dynamic_cast<StrokeVertex&>(if0D));
	}
	else if (typeid(if0D) == typeid(SVertex)) {
		return BPy_SVertex_from_SVertex(dynamic_cast<SVertex&>(if0D));
	}
	else if (typeid(if0D) == typeid(ViewVertex)) {
		return BPy_ViewVertex_from_ViewVertex(dynamic_cast<ViewVertex&>(if0D));
	}
	else if (typeid(if0D) == typeid(NonTVertex)) {
		return BPy_NonTVertex_from_NonTVertex(dynamic_cast<NonTVertex&>(if0D));
	}
	else if (typeid(if0D) == typeid(TVertex)) {
		return BPy_TVertex_from_TVertex(dynamic_cast<TVertex&>(if0D));
	}
	else if (typeid(if0D) == typeid(Interface0D)) {
		return BPy_Interface0D_from_Interface0D(if0D);
	}
	string msg("unexpected type: " + if0D.getExactTypeName());
	PyErr_SetString(PyExc_TypeError, msg.c_str());
	return NULL;
}

PyObject *Any_BPy_Interface1D_from_Interface1D(Interface1D& if1D)
{
	if (typeid(if1D) == typeid(ViewEdge)) {
		return BPy_ViewEdge_from_ViewEdge(dynamic_cast<ViewEdge&>(if1D));
	}
	else if (typeid(if1D) == typeid(Chain)) {
		return BPy_Chain_from_Chain(dynamic_cast<Chain&>(if1D));
	}
	else if (typeid(if1D) == typeid(Stroke)) {
		return BPy_Stroke_from_Stroke(dynamic_cast<Stroke&>(if1D));
	}
	else if (typeid(if1D) == typeid(FEdgeSharp)) {
		return BPy_FEdgeSharp_from_FEdgeSharp(dynamic_cast<FEdgeSharp&>(if1D));
	}
	else if (typeid(if1D) == typeid(FEdgeSmooth)) {
		return BPy_FEdgeSmooth_from_FEdgeSmooth(dynamic_cast<FEdgeSmooth&>(if1D));
	}
	else if (typeid(if1D) == typeid(FEdge)) {
		return BPy_FEdge_from_FEdge(dynamic_cast<FEdge&>(if1D));
	}
	else if (typeid(if1D) == typeid(Interface1D)) {
		return BPy_Interface1D_from_Interface1D(if1D);
	}
	string msg("unexpected type: " + if1D.getExactTypeName());
	PyErr_SetString(PyExc_TypeError, msg.c_str());
	return NULL;
}

PyObject *Any_BPy_FEdge_from_FEdge(FEdge& fe)
{
	if (typeid(fe) == typeid(FEdgeSharp)) {
		return BPy_FEdgeSharp_from_FEdgeSharp(dynamic_cast<FEdgeSharp&>(fe));
	}
	else if (typeid(fe) == typeid(FEdgeSmooth)) {
		return BPy_FEdgeSmooth_from_FEdgeSmooth(dynamic_cast<FEdgeSmooth&>(fe));
	}
	else if (typeid(fe) == typeid(FEdge)) {
		return BPy_FEdge_from_FEdge(fe);
	}
	string msg("unexpected type: " + fe.getExactTypeName());
	PyErr_SetString(PyExc_TypeError, msg.c_str());
	return NULL;
}

PyObject *Any_BPy_ViewVertex_from_ViewVertex(ViewVertex& vv)
{
	if (typeid(vv) == typeid(NonTVertex)) {
		return BPy_NonTVertex_from_NonTVertex(dynamic_cast<NonTVertex&>(vv));
	}
	else if (typeid(vv) == typeid(TVertex)) {
		return BPy_TVertex_from_TVertex(dynamic_cast<TVertex&>(vv));
	}
	else if (typeid(vv) == typeid(ViewVertex)) {
		return BPy_ViewVertex_from_ViewVertex(vv);
	}
	string msg("unexpected type: " + vv.getExactTypeName());
	PyErr_SetString(PyExc_TypeError, msg.c_str());
	return NULL;
}

PyObject *BPy_Interface0D_from_Interface0D(Interface0D& if0D)
{
	PyObject *py_if0D =  Interface0D_Type.tp_new(&Interface0D_Type, 0, 0);
	((BPy_Interface0D *)py_if0D)->if0D = &if0D;
	((BPy_Interface0D *)py_if0D)->borrowed = 1;
	return py_if0D;
}

PyObject *BPy_Interface1D_from_Interface1D(Interface1D& if1D)
{
	PyObject *py_if1D =  Interface1D_Type.tp_new(&Interface1D_Type, 0, 0);
	((BPy_Interface1D *)py_if1D)->if1D = &if1D;
	((BPy_Interface1D *)py_if1D)->borrowed = 1;
	return py_if1D;
}

PyObject *BPy_SVertex_from_SVertex(SVertex& sv)
{
	PyObject *py_sv = SVertex_Type.tp_new(&SVertex_Type, 0, 0);
	((BPy_SVertex *)py_sv)->sv = &sv;
	((BPy_SVertex *)py_sv)->py_if0D.if0D = ((BPy_SVertex *)py_sv)->sv;
	((BPy_SVertex *)py_sv)->py_if0D.borrowed = 1;
	return py_sv;
}

PyObject *BPy_FEdgeSharp_from_FEdgeSharp(FEdgeSharp& fes)
{
	PyObject *py_fe = FEdgeSharp_Type.tp_new(&FEdgeSharp_Type, 0, 0);
	((BPy_FEdgeSharp *)py_fe)->fes = &fes;
	((BPy_FEdgeSharp *)py_fe)->py_fe.fe = ((BPy_FEdgeSharp *)py_fe)->fes;
	((BPy_FEdgeSharp *)py_fe)->py_fe.py_if1D.if1D = ((BPy_FEdgeSharp *)py_fe)->fes;
	((BPy_FEdgeSharp *)py_fe)->py_fe.py_if1D.borrowed = 1;
	return py_fe;
}

PyObject *BPy_FEdgeSmooth_from_FEdgeSmooth(FEdgeSmooth& fes)
{
	PyObject *py_fe = FEdgeSmooth_Type.tp_new(&FEdgeSmooth_Type, 0, 0);
	((BPy_FEdgeSmooth *)py_fe)->fes = &fes;
	((BPy_FEdgeSmooth *)py_fe)->py_fe.fe = ((BPy_FEdgeSmooth *)py_fe)->fes;
	((BPy_FEdgeSmooth *)py_fe)->py_fe.py_if1D.if1D = ((BPy_FEdgeSmooth *)py_fe)->fes;
	((BPy_FEdgeSmooth *)py_fe)->py_fe.py_if1D.borrowed = 1;
	return py_fe;
}

PyObject *BPy_FEdge_from_FEdge(FEdge& fe)
{
	PyObject *py_fe = FEdge_Type.tp_new(&FEdge_Type, 0, 0);
	((BPy_FEdge *)py_fe)->fe = &fe;
	((BPy_FEdge *)py_fe)->py_if1D.if1D = ((BPy_FEdge *)py_fe)->fe;
	((BPy_FEdge *)py_fe)->py_if1D.borrowed = 1;
	return py_fe;
}

PyObject *BPy_Nature_from_Nature(unsigned short n)
{
	PyObject *args = PyTuple_New(1);
	PyTuple_SET_ITEM(args, 0, PyLong_FromLong(n));
	PyObject *py_n =  Nature_Type.tp_new(&Nature_Type, args, NULL);
	Py_DECREF(args);
	return py_n;
}

PyObject *BPy_Stroke_from_Stroke(Stroke& s)
{
	PyObject *py_s = Stroke_Type.tp_new(&Stroke_Type, 0, 0);
	((BPy_Stroke *)py_s)->s = &s;
	((BPy_Stroke *)py_s)->py_if1D.if1D = ((BPy_Stroke *)py_s)->s;
	((BPy_Stroke *)py_s)->py_if1D.borrowed = 1;
	return py_s;
}

PyObject *BPy_StrokeAttribute_from_StrokeAttribute(StrokeAttribute& sa)
{
	PyObject *py_sa = StrokeAttribute_Type.tp_new(&StrokeAttribute_Type, 0, 0);
	((BPy_StrokeAttribute *)py_sa)->sa = &sa;
	((BPy_StrokeAttribute *)py_sa)->borrowed = 1;
	return py_sa;
}

PyObject *BPy_MediumType_from_MediumType(Stroke::MediumType n)
{
	PyObject *args = PyTuple_New(1);
	PyTuple_SET_ITEM(args, 0, PyLong_FromLong(n));
	PyObject *py_mt = MediumType_Type.tp_new(&MediumType_Type, args, NULL);
	Py_DECREF(args);
	return py_mt;
}

PyObject *BPy_StrokeVertex_from_StrokeVertex(StrokeVertex& sv)
{
	PyObject *py_sv = StrokeVertex_Type.tp_new(&StrokeVertex_Type, 0, 0);
	((BPy_StrokeVertex *)py_sv)->sv = &sv;
	((BPy_StrokeVertex *)py_sv)->py_cp.cp = ((BPy_StrokeVertex *)py_sv)->sv;
	((BPy_StrokeVertex *)py_sv)->py_cp.py_if0D.if0D = ((BPy_StrokeVertex *)py_sv)->sv;
	((BPy_StrokeVertex *)py_sv)->py_cp.py_if0D.borrowed = 1;
	return py_sv;
}

PyObject *BPy_ViewVertex_from_ViewVertex(ViewVertex& vv)
{
	PyObject *py_vv = ViewVertex_Type.tp_new(&ViewVertex_Type, 0, 0);
	((BPy_ViewVertex *)py_vv)->vv = &vv;
	((BPy_ViewVertex *)py_vv)->py_if0D.if0D = ((BPy_ViewVertex *)py_vv)->vv;
	((BPy_ViewVertex *)py_vv)->py_if0D.borrowed = 1;
	return py_vv;
}

PyObject *BPy_NonTVertex_from_NonTVertex(NonTVertex& ntv)
{
	PyObject *py_ntv = NonTVertex_Type.tp_new(&NonTVertex_Type, 0, 0);
	((BPy_NonTVertex *)py_ntv)->ntv = &ntv;
	((BPy_NonTVertex *)py_ntv)->py_vv.vv = ((BPy_NonTVertex *)py_ntv)->ntv;
	((BPy_NonTVertex *)py_ntv)->py_vv.py_if0D.if0D = ((BPy_NonTVertex *)py_ntv)->ntv;
	((BPy_NonTVertex *)py_ntv)->py_vv.py_if0D.borrowed = 1;
	return py_ntv;
}

PyObject *BPy_TVertex_from_TVertex(TVertex& tv)
{
	PyObject *py_tv = TVertex_Type.tp_new(&TVertex_Type, 0, 0);
	((BPy_TVertex *)py_tv)->tv = &tv;
	((BPy_TVertex *)py_tv)->py_vv.vv = ((BPy_TVertex *)py_tv)->tv;
	((BPy_TVertex *)py_tv)->py_vv.py_if0D.if0D = ((BPy_TVertex *)py_tv)->tv;
	((BPy_TVertex *)py_tv)->py_vv.py_if0D.borrowed = 1;
	return py_tv;
}

PyObject *BPy_BBox_from_BBox(const BBox< Vec3r > &bb)
{
	PyObject *py_bb = BBox_Type.tp_new(&BBox_Type, 0, 0);
	((BPy_BBox *)py_bb)->bb = new BBox< Vec3r >(bb);
	return py_bb;
}

PyObject *BPy_ViewEdge_from_ViewEdge(ViewEdge& ve)
{
	PyObject *py_ve = ViewEdge_Type.tp_new(&ViewEdge_Type, 0, 0);
	((BPy_ViewEdge *)py_ve)->ve = &ve;
	((BPy_ViewEdge *)py_ve)->py_if1D.if1D = ((BPy_ViewEdge *)py_ve)->ve;
	((BPy_ViewEdge *)py_ve)->py_if1D.borrowed = 1;
	return py_ve;
}

PyObject *BPy_Chain_from_Chain(Chain& c)
{
	PyObject *py_c = Chain_Type.tp_new(&Chain_Type, 0, 0);
	((BPy_Chain *)py_c)->c = &c;
	((BPy_Chain *)py_c)->py_c.c = ((BPy_Chain *)py_c)->c;
	((BPy_Chain *)py_c)->py_c.py_if1D.if1D = ((BPy_Chain *)py_c)->c;
	((BPy_Chain *)py_c)->py_c.py_if1D.borrowed = 1;
	return py_c;
}

PyObject *BPy_SShape_from_SShape(SShape& ss)
{
	PyObject *py_ss = SShape_Type.tp_new(&SShape_Type, 0, 0);
	((BPy_SShape *)py_ss)->ss = &ss;
	((BPy_SShape *)py_ss)->borrowed = 1;
	return py_ss;	
}

PyObject *BPy_ViewShape_from_ViewShape(ViewShape& vs)
{
	PyObject *py_vs = ViewShape_Type.tp_new(&ViewShape_Type, 0, 0);
	((BPy_ViewShape *)py_vs)->vs = &vs;
	((BPy_ViewShape *)py_vs)->borrowed = 1;
	((BPy_ViewShape *)py_vs)->py_ss = NULL;
	return py_vs;
}

PyObject *BPy_FrsMaterial_from_FrsMaterial(const FrsMaterial& m)
{
	PyObject *py_m = FrsMaterial_Type.tp_new(&FrsMaterial_Type, 0, 0);
	((BPy_FrsMaterial*) py_m)->m = new FrsMaterial(m);
	return py_m;
}

PyObject *BPy_IntegrationType_from_IntegrationType(IntegrationType i)
{
	PyObject *args = PyTuple_New(1);
	PyTuple_SET_ITEM(args, 0, PyLong_FromLong(i));
	PyObject *py_it = IntegrationType_Type.tp_new(&IntegrationType_Type, args, NULL);
	Py_DECREF(args);
	return py_it;
}

PyObject *BPy_CurvePoint_from_CurvePoint(CurvePoint& cp)
{
	PyObject *py_cp = CurvePoint_Type.tp_new(&CurvePoint_Type, 0, 0);
	((BPy_CurvePoint*) py_cp)->cp = &cp;
	((BPy_CurvePoint*) py_cp)->py_if0D.if0D = ((BPy_CurvePoint*) py_cp)->cp;
	((BPy_CurvePoint*) py_cp)->py_if0D.borrowed = 1;
	return py_cp;
}

PyObject *BPy_directedViewEdge_from_directedViewEdge(ViewVertex::directedViewEdge& dve)
{
	PyObject *py_dve = PyTuple_New(2);
	PyTuple_SET_ITEM(py_dve, 0, BPy_ViewEdge_from_ViewEdge(*(dve.first)));
	PyTuple_SET_ITEM(py_dve, 1, PyBool_from_bool(dve.second));
	return py_dve;
}

//==============================
// Iterators
//==============================

PyObject *BPy_AdjacencyIterator_from_AdjacencyIterator(AdjacencyIterator& a_it)
{
	PyObject *py_a_it = AdjacencyIterator_Type.tp_new(&AdjacencyIterator_Type, 0, 0);
	((BPy_AdjacencyIterator *)py_a_it)->a_it = new AdjacencyIterator(a_it);
	((BPy_AdjacencyIterator *)py_a_it)->py_it.it = ((BPy_AdjacencyIterator *)py_a_it)->a_it;
	return py_a_it;
}

PyObject *BPy_Interface0DIterator_from_Interface0DIterator(Interface0DIterator& if0D_it, int reversed)
{
	PyObject *py_if0D_it = Interface0DIterator_Type.tp_new(&Interface0DIterator_Type, 0, 0);
	((BPy_Interface0DIterator *)py_if0D_it)->if0D_it = new Interface0DIterator(if0D_it);
	((BPy_Interface0DIterator *)py_if0D_it)->py_it.it = ((BPy_Interface0DIterator *)py_if0D_it)->if0D_it;
	((BPy_Interface0DIterator *)py_if0D_it)->reversed = reversed;
	return py_if0D_it;
}

PyObject *BPy_CurvePointIterator_from_CurvePointIterator(CurveInternal::CurvePointIterator& cp_it)
{
	PyObject *py_cp_it = CurvePointIterator_Type.tp_new(&CurvePointIterator_Type, 0, 0);
	((BPy_CurvePointIterator *)py_cp_it)->cp_it = new CurveInternal::CurvePointIterator(cp_it);
	((BPy_CurvePointIterator *)py_cp_it)->py_it.it = ((BPy_CurvePointIterator *)py_cp_it)->cp_it;
	return py_cp_it;
}

PyObject *BPy_StrokeVertexIterator_from_StrokeVertexIterator(StrokeInternal::StrokeVertexIterator& sv_it, int reversed)
{
	PyObject *py_sv_it = StrokeVertexIterator_Type.tp_new(&StrokeVertexIterator_Type, 0, 0);
	((BPy_StrokeVertexIterator *)py_sv_it)->sv_it = new StrokeInternal::StrokeVertexIterator(sv_it);
	((BPy_StrokeVertexIterator *)py_sv_it)->py_it.it = ((BPy_StrokeVertexIterator *)py_sv_it)->sv_it;
	((BPy_StrokeVertexIterator *)py_sv_it)->reversed = reversed;
	return py_sv_it;
}

PyObject *BPy_SVertexIterator_from_SVertexIterator(ViewEdgeInternal::SVertexIterator& sv_it)
{
	PyObject *py_sv_it = SVertexIterator_Type.tp_new(&SVertexIterator_Type, 0, 0);
	((BPy_SVertexIterator *)py_sv_it)->sv_it = new ViewEdgeInternal::SVertexIterator(sv_it);
	((BPy_SVertexIterator *)py_sv_it)->py_it.it = ((BPy_SVertexIterator *)py_sv_it)->sv_it;
	return py_sv_it;
}

PyObject *BPy_orientedViewEdgeIterator_from_orientedViewEdgeIterator(ViewVertexInternal::orientedViewEdgeIterator& ove_it, int reversed)
{
	PyObject *py_ove_it = orientedViewEdgeIterator_Type.tp_new(&orientedViewEdgeIterator_Type, 0, 0);
	((BPy_orientedViewEdgeIterator *)py_ove_it)->ove_it = new ViewVertexInternal::orientedViewEdgeIterator(ove_it);
	((BPy_orientedViewEdgeIterator *)py_ove_it)->py_it.it = ((BPy_orientedViewEdgeIterator *)py_ove_it)->ove_it;
	((BPy_orientedViewEdgeIterator *)py_ove_it)->reversed = reversed;
	return py_ove_it;
}

PyObject *BPy_ViewEdgeIterator_from_ViewEdgeIterator(ViewEdgeInternal::ViewEdgeIterator& ve_it)
{
	PyObject *py_ve_it = ViewEdgeIterator_Type.tp_new(&ViewEdgeIterator_Type, 0, 0);
	((BPy_ViewEdgeIterator *)py_ve_it)->ve_it = new ViewEdgeInternal::ViewEdgeIterator(ve_it);
	((BPy_ViewEdgeIterator *)py_ve_it)->py_it.it =	((BPy_ViewEdgeIterator *)py_ve_it)->ve_it;
	return py_ve_it;
}

PyObject *BPy_ChainingIterator_from_ChainingIterator(ChainingIterator& c_it)
{
	PyObject *py_c_it = ChainingIterator_Type.tp_new(&ChainingIterator_Type, 0, 0);
	((BPy_ChainingIterator *)py_c_it)->c_it = new ChainingIterator(c_it);
	((BPy_ChainingIterator *)py_c_it)->py_ve_it.py_it.it = ((BPy_ChainingIterator *)py_c_it)->c_it;
	return py_c_it;
}

PyObject *BPy_ChainPredicateIterator_from_ChainPredicateIterator(ChainPredicateIterator& cp_it)
{
	PyObject *py_cp_it = ChainPredicateIterator_Type.tp_new(&ChainPredicateIterator_Type, 0, 0);
	((BPy_ChainPredicateIterator *)py_cp_it)->cp_it = new ChainPredicateIterator(cp_it);
	((BPy_ChainPredicateIterator *)py_cp_it)->py_c_it.py_ve_it.py_it.it = ((BPy_ChainPredicateIterator *)py_cp_it)->cp_it;
	return py_cp_it;
}

PyObject *BPy_ChainSilhouetteIterator_from_ChainSilhouetteIterator(ChainSilhouetteIterator& cs_it)
{
	PyObject *py_cs_it = ChainSilhouetteIterator_Type.tp_new(&ChainSilhouetteIterator_Type, 0, 0);
	((BPy_ChainSilhouetteIterator *)py_cs_it)->cs_it = new ChainSilhouetteIterator(cs_it);
	((BPy_ChainSilhouetteIterator *)py_cs_it)->py_c_it.py_ve_it.py_it.it = ((BPy_ChainSilhouetteIterator *)py_cs_it)->cs_it;
	return py_cs_it;
}

//==============================
// Python => C++
//==============================

bool bool_from_PyBool(PyObject *b)
{
	return PyObject_IsTrue(b) != 0;
}

IntegrationType IntegrationType_from_BPy_IntegrationType(PyObject* obj)
{
	return static_cast<IntegrationType>(PyLong_AsLong(obj));
}

Stroke::MediumType MediumType_from_BPy_MediumType(PyObject* obj)
{
	return static_cast<Stroke::MediumType>(PyLong_AsLong(obj));
}

Nature::EdgeNature EdgeNature_from_BPy_Nature(PyObject* obj)
{
	return static_cast<Nature::EdgeNature>(PyLong_AsLong(obj));
}

Vec2f * Vec2f_ptr_from_PyObject(PyObject* obj)
{
	Vec2f *v;
	if ((v = Vec2f_ptr_from_Vector(obj)))
		return v;
	if ((v = Vec2f_ptr_from_PyList(obj)))
		return v;
	if ((v = Vec2f_ptr_from_PyTuple(obj)))
		return v;
	return NULL;
}

Vec3f * Vec3f_ptr_from_PyObject(PyObject* obj)
{
	Vec3f *v;
	if ((v = Vec3f_ptr_from_Vector(obj)))
		return v;
	if ((v = Vec3f_ptr_from_Color(obj)))
		return v;
	if ((v = Vec3f_ptr_from_PyList(obj)))
		return v;
	if ((v = Vec3f_ptr_from_PyTuple(obj)))
		return v;
	return NULL;
}

Vec3r * Vec3r_ptr_from_PyObject(PyObject* obj)
{
	Vec3r *v;
	if ((v = Vec3r_ptr_from_Vector(obj)))
		return v;
	if ((v = Vec3r_ptr_from_Color(obj)))
		return v;
	if ((v = Vec3r_ptr_from_PyList(obj)))
		return v;
	if ((v = Vec3r_ptr_from_PyTuple(obj)))
		return v;
	return NULL;
}

Vec2f * Vec2f_ptr_from_Vector(PyObject* obj)
{
	if (!VectorObject_Check(obj) || ((VectorObject *)obj)->size != 2)
		return NULL;
	float x = ((VectorObject *)obj)->vec[0];
	float y = ((VectorObject *)obj)->vec[1];
	return new Vec2f(x, y);
}

Vec3f * Vec3f_ptr_from_Vector(PyObject* obj)
{
	if (!VectorObject_Check(obj) || ((VectorObject *)obj)->size != 3)
		return NULL;
	float x = ((VectorObject *)obj)->vec[0];
	float y = ((VectorObject *)obj)->vec[1];
	float z = ((VectorObject *)obj)->vec[2];
	return new Vec3f(x,y,z);
}

Vec3r * Vec3r_ptr_from_Vector(PyObject* obj)
{
	if (!VectorObject_Check(obj) || ((VectorObject *)obj)->size != 3)
		return NULL;
	real x = ((VectorObject *)obj)->vec[0];
	real y = ((VectorObject *)obj)->vec[1];
	real z = ((VectorObject *)obj)->vec[2];
	return new Vec3r(x,y,z);
}

Vec3f * Vec3f_ptr_from_Color(PyObject* obj)
{
	if (!ColorObject_Check(obj))
		return NULL;
	float r = ((ColorObject *)obj)->col[0];
	float g = ((ColorObject *)obj)->col[1];
	float b = ((ColorObject *)obj)->col[2];
	return new Vec3f(r,g,b);
}

Vec3r * Vec3r_ptr_from_Color(PyObject* obj)
{
	if (!ColorObject_Check(obj))
		return NULL;
	real r = ((ColorObject *)obj)->col[0];
	real g = ((ColorObject *)obj)->col[1];
	real b = ((ColorObject *)obj)->col[2];
	return new Vec3r(r,g,b);
}

Vec2f * Vec2f_ptr_from_PyList(PyObject* obj)
{
	if (!PyList_Check(obj) || PyList_Size(obj) != 2)
		return NULL;
	float x = PyFloat_AsDouble(PyList_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyList_GetItem(obj, 1));
	return new Vec2f(x,y);
}

Vec3f * Vec3f_ptr_from_PyList(PyObject* obj)
{
	if (!PyList_Check(obj) || PyList_Size(obj) != 3)
		return NULL;
	float x = PyFloat_AsDouble(PyList_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyList_GetItem(obj, 1));
	float z = PyFloat_AsDouble(PyList_GetItem(obj, 2));
	return new Vec3f(x,y,z);
}

Vec3r * Vec3r_ptr_from_PyList(PyObject* obj)
{
	if (!PyList_Check(obj) || PyList_Size(obj) != 3)
		return NULL;
	float x = PyFloat_AsDouble(PyList_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyList_GetItem(obj, 1));
	float z = PyFloat_AsDouble(PyList_GetItem(obj, 2));
	return new Vec3r(x,y,z);
}

Vec2f * Vec2f_ptr_from_PyTuple(PyObject* obj)
{
	if (!PyTuple_Check(obj) || PyTuple_Size(obj) != 2)
		return NULL;
	float x = PyFloat_AsDouble(PyTuple_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyTuple_GetItem(obj, 1));
	return new Vec2f(x,y);
}

Vec3f * Vec3f_ptr_from_PyTuple(PyObject* obj)
{
	if (!PyTuple_Check(obj) || PyTuple_Size(obj) != 3)
		return NULL;
	float x = PyFloat_AsDouble(PyTuple_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyTuple_GetItem(obj, 1));
	float z = PyFloat_AsDouble(PyTuple_GetItem(obj, 2));
	return new Vec3f(x,y,z);
}

Vec3r * Vec3r_ptr_from_PyTuple(PyObject* obj)
{
	if (!PyTuple_Check(obj) || PyTuple_Size(obj) != 3)
		return NULL;
	float x = PyFloat_AsDouble(PyTuple_GetItem(obj, 0));
	float y = PyFloat_AsDouble(PyTuple_GetItem(obj, 1));
	float z = PyFloat_AsDouble(PyTuple_GetItem(obj, 2));
	return new Vec3r(x,y,z);
}

// helper for argument parsing

int float_array_from_PyObject(PyObject *obj, float *v, int n)
{
	if (VectorObject_Check(obj) && ((VectorObject *)obj)->size == n) {
		for (int i = 0; i < n; i++)
			v[i] = ((VectorObject *)obj)->vec[i];
	}
	else if (PyList_Check(obj) && PyList_Size(obj) == n) {
		for (int i = 0; i < n; i++)
			v[i] = PyFloat_AsDouble(PyList_GetItem(obj, i));
	}
	else if (PyTuple_Check(obj) && PyTuple_Size(obj) == n) {
		for (int i = 0; i < n; i++)
			v[i] = PyFloat_AsDouble(PyTuple_GetItem(obj, i));
	}
	else {
		return 0;
	}
	return 1;
}

///////////////////////////////////////////////////////////////////////////////////////////

#ifdef __cplusplus
}
#endif