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/***************************************************************************
* Copyright (c) 2020 sliptonic <shopinthewoods@gmail.com> *
* *
* 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 "Base/Vector3D.h"
#include "Base/VectorPy.h"
#include "VoronoiCellPy.h"
#include "VoronoiCellPy.cpp"
#include "VoronoiEdgePy.h"
using namespace Path;
// returns a string which represents the object e.g. when printed in python
std::string VoronoiCellPy::representation() const
{
std::stringstream ss;
ss.precision(5);
ss << "VoronoiCell(";
VoronoiCell* c = getVoronoiCellPtr();
if (c->isBound()) {
ss << c->ptr->source_category() << ":" << c->ptr->source_index();
}
ss << ")";
return ss.str();
}
PyObject* VoronoiCellPy::PyMake(struct _typeobject*, PyObject*, PyObject*) // Python wrapper
{
// create a new instance of VoronoiCellPy and the Twin object
return new VoronoiCellPy(new VoronoiCell);
}
// constructor method
int VoronoiCellPy::PyInit(PyObject* args, PyObject* /*kwd*/)
{
if (!PyArg_ParseTuple(args, "")) {
PyErr_SetString(PyExc_RuntimeError, "no arguments accepted");
return -1;
}
return 0;
}
PyObject* VoronoiCellPy::richCompare(PyObject* lhs, PyObject* rhs, int op)
{
PyObject* cmp = (op == Py_EQ) ? Py_False : Py_True;
if (PyObject_TypeCheck(lhs, &VoronoiCellPy::Type)
&& PyObject_TypeCheck(rhs, &VoronoiCellPy::Type) && (op == Py_EQ || op == Py_NE)) {
const VoronoiCell* vl = static_cast<VoronoiCellPy*>(lhs)->getVoronoiCellPtr();
const VoronoiCell* vr = static_cast<VoronoiCellPy*>(rhs)->getVoronoiCellPtr();
if (vl->index == vr->index && vl->dia == vr->dia) {
cmp = (op == Py_EQ) ? Py_True : Py_False;
}
}
Py_INCREF(cmp);
return cmp;
}
const Voronoi::voronoi_diagram_type::cell_type* getCellFromPy(
VoronoiCellPy* c,
bool throwIfNotBound = true
)
{
auto self = c->getVoronoiCellPtr();
if (self->isBound()) {
return self->ptr;
}
if (throwIfNotBound) {
throw Py::TypeError("Cell not bound to voronoi diagram");
}
return nullptr;
}
VoronoiCell* getVoronoiCellFromPy(const VoronoiCellPy* c, PyObject* args = nullptr)
{
VoronoiCell* self = c->getVoronoiCellPtr();
if (!self->isBound()) {
throw Py::TypeError("Cell not bound to voronoi diagram");
}
if (args && !PyArg_ParseTuple(args, "")) {
throw Py::RuntimeError("No arguments accepted");
}
return self;
}
Py::Long VoronoiCellPy::getIndex() const
{
VoronoiCell* c = getVoronoiCellPtr();
if (c->isBound()) {
return Py::Long(c->dia->index(c->ptr));
}
return Py::Long(-1);
}
Py::Long VoronoiCellPy::getColor() const
{
VoronoiCell* c = getVoronoiCellPtr();
if (c->isBound()) {
Voronoi::color_type color = c->ptr->color() & Voronoi::ColorMask;
return Py::Long(PyLong_FromSize_t(color));
}
return Py::Long(0);
}
void VoronoiCellPy::setColor(Py::Long color)
{
getCellFromPy(this)->color(long(color) & Voronoi::ColorMask);
}
Py::Long VoronoiCellPy::getSourceIndex() const
{
VoronoiCell* c = getVoronoiCellFromPy(this);
long index = c->ptr->source_index();
return Py::Long(index);
}
Py::Long VoronoiCellPy::getSourceCategory() const
{
VoronoiCell* c = getVoronoiCellFromPy(this);
return Py::Long(c->ptr->source_category());
}
Py::String VoronoiCellPy::getSourceCategoryName() const
{
VoronoiCell* c = getVoronoiCellFromPy(this);
switch (c->ptr->source_category()) {
case boost::polygon::SOURCE_CATEGORY_SINGLE_POINT:
return Py::String("SINGLE_POINT");
case boost::polygon::SOURCE_CATEGORY_SEGMENT_START_POINT:
return Py::String("SEGMENT_START_POINT");
case boost::polygon::SOURCE_CATEGORY_SEGMENT_END_POINT:
return Py::String("SEGMENT_END_POINT");
case boost::polygon::SOURCE_CATEGORY_INITIAL_SEGMENT:
return Py::String("INITIAL_SEGMENT");
case boost::polygon::SOURCE_CATEGORY_REVERSE_SEGMENT:
return Py::String("REVERSE_SEGMENT");
case boost::polygon::SOURCE_CATEGORY_GEOMETRY_SHIFT:
return Py::String("GEOMETRY_SHIFT");
case boost::polygon::SOURCE_CATEGORY_BITMASK:
return Py::String("BITMASK");
}
return Py::String("");
}
Py::Object VoronoiCellPy::getIncidentEdge() const
{
VoronoiCell* c = getVoronoiCellFromPy(this);
return Py::asObject(new VoronoiEdgePy(new VoronoiEdge(c->dia, c->ptr->incident_edge())));
}
PyObject* VoronoiCellPy::containsPoint(PyObject* args) const
{
VoronoiCell* c = getVoronoiCellFromPy(this, args);
PyObject* chk = c->ptr->contains_point() ? Py_True : Py_False;
Py_INCREF(chk);
return chk;
}
PyObject* VoronoiCellPy::containsSegment(PyObject* args) const
{
VoronoiCell* c = getVoronoiCellFromPy(this, args);
PyObject* chk = c->ptr->contains_segment() ? Py_True : Py_False;
Py_INCREF(chk);
return chk;
}
PyObject* VoronoiCellPy::isDegenerate(PyObject* args) const
{
VoronoiCell* c = getVoronoiCellFromPy(this, args);
PyObject* chk = c->ptr->is_degenerate() ? Py_True : Py_False;
Py_INCREF(chk);
return chk;
}
PyObject* VoronoiCellPy::getSource(PyObject* args) const
{
double z = 0;
if (!PyArg_ParseTuple(args, "|d", &z)) {
throw Py::TypeError("Optional z argument (double) accepted");
}
VoronoiCell* c = getVoronoiCellFromPy(this);
if (c->ptr->contains_point()) {
Base::Vector3d v = c->dia->scaledVector(c->dia->retrievePoint(c->ptr), z);
return new Base::VectorPy(new Base::Vector3d(v));
}
Voronoi::segment_type s = c->dia->retrieveSegment(c->ptr);
Base::Vector3d v0 = c->dia->scaledVector(low(s), z);
Base::Vector3d v1 = c->dia->scaledVector(high(s), z);
Py::List list;
list.append(Py::asObject(new Base::VectorPy(new Base::Vector3d(v0))));
list.append(Py::asObject(new Base::VectorPy(new Base::Vector3d(v1))));
return Py::new_reference_to(list);
}
// custom attributes get/set
PyObject* VoronoiCellPy::getCustomAttributes(const char* /*attr*/) const
{
return nullptr;
}
int VoronoiCellPy::setCustomAttributes(const char* /*attr*/, PyObject* /*obj*/)
{
return 0;
}
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