// SPDX-License-Identifier: LGPL-2.1-or-later /*************************************************************************** * Copyright (c) 2019 Abdullah Tahiri * * * * 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 #include #include #include #include #include #include #include #include "GeometryFacadePy.h" #include "GeometryFacadePy.cpp" using namespace Sketcher; // returns a string which represents the object e.g. when printed in python std::string GeometryFacadePy::representation() const { std::stringstream str; str << ""; return str.str(); } PyObject* GeometryFacadePy::PyMake(struct _typeobject*, PyObject*, PyObject*) // Python wrapper { // create a new instance of PointPy and the Twin object return new GeometryFacadePy(new GeometryFacade()); } // constructor method int GeometryFacadePy::PyInit(PyObject* args, PyObject* /*kwd*/) { PyObject* object; if (PyArg_ParseTuple(args, "O!", &(Part::GeometryPy::Type), &object)) { Part::Geometry* geo = static_cast(object)->getGeometryPtr(); getGeometryFacadePtr()->setGeometry(geo->clone()); return 0; } PyErr_SetString( PyExc_TypeError, "Sketcher::GeometryFacade constructor accepts:\n" "-- Part.Geometry\n" ); return -1; } Py::Long GeometryFacadePy::getId() const { return Py::Long(this->getGeometryFacadePtr()->getId()); } void GeometryFacadePy::setId(Py::Long Id) { this->getGeometryFacadePtr()->setId(long(Id)); } Py::String GeometryFacadePy::getInternalType() const { int internaltypeindex = (int)this->getGeometryFacadePtr()->getInternalType(); if (internaltypeindex >= InternalType::NumInternalGeometryType) { throw Py::NotImplementedError("String name of enum not implemented"); } std::string typestr = SketchGeometryExtension::internaltype2str[internaltypeindex]; return Py::String(typestr); } void GeometryFacadePy::setInternalType(Py::String arg) { std::string argstr = arg; InternalType::InternalType type; if (SketchGeometryExtension::getInternalTypeFromName(argstr, type)) { this->getGeometryFacadePtr()->setInternalType(type); return; } throw Py::ValueError("Argument is not a valid internal geometry type."); } Py::Boolean GeometryFacadePy::getBlocked() const { return Py::Boolean(getGeometryFacadePtr()->getBlocked()); } void GeometryFacadePy::setBlocked(Py::Boolean arg) { getGeometryFacadePtr()->setBlocked(arg); } PyObject* GeometryFacadePy::testGeometryMode(PyObject* args) const { char* flag; if (PyArg_ParseTuple(args, "s", &flag)) { GeometryMode::GeometryMode mode; if (SketchGeometryExtension::getGeometryModeFromName(flag, mode)) { return new_reference_to(Py::Boolean(getGeometryFacadePtr()->testGeometryMode(mode))); } PyErr_SetString(PyExc_TypeError, "Flag string does not exist."); return nullptr; } PyErr_SetString(PyExc_TypeError, "No flag string provided."); return nullptr; } PyObject* GeometryFacadePy::setGeometryMode(PyObject* args) { char* flag; PyObject* bflag = Py_True; if (PyArg_ParseTuple(args, "s|O!", &flag, &PyBool_Type, &bflag)) { GeometryMode::GeometryMode mode; if (SketchGeometryExtension::getGeometryModeFromName(flag, mode)) { getGeometryFacadePtr()->setGeometryMode(mode, Base::asBoolean(bflag)); Py_Return; } PyErr_SetString(PyExc_TypeError, "Flag string does not exist."); return nullptr; } PyErr_SetString(PyExc_TypeError, "No flag string provided."); Py_Return; } PyObject* GeometryFacadePy::mirror(PyObject* args) { PyObject* o; if (PyArg_ParseTuple(args, "O!", &(Base::VectorPy::Type), &o)) { Base::Vector3d vec = static_cast(o)->value(); getGeometryFacadePtr()->mirror(vec); Py_Return; } PyErr_Clear(); PyObject* axis; if (PyArg_ParseTuple(args, "O!O!", &(Base::VectorPy::Type), &o, &(Base::VectorPy::Type), &axis)) { Base::Vector3d pnt = static_cast(o)->value(); Base::Vector3d dir = static_cast(axis)->value(); getGeometryFacadePtr()->mirror(pnt, dir); Py_Return; } PyErr_SetString( Part::PartExceptionOCCError, "either a point (vector) or axis (vector, vector) must be given" ); return nullptr; } PyObject* GeometryFacadePy::rotate(PyObject* args) { PyObject* o; if (!PyArg_ParseTuple(args, "O!", &(Base::PlacementPy::Type), &o)) { return nullptr; } Base::Placement* plm = static_cast(o)->getPlacementPtr(); getGeometryFacadePtr()->rotate(*plm); Py_Return; } PyObject* GeometryFacadePy::scale(PyObject* args) { PyObject* o; double scale; Base::Vector3d vec; if (PyArg_ParseTuple(args, "O!d", &(Base::VectorPy::Type), &o, &scale)) { vec = static_cast(o)->value(); getGeometryFacadePtr()->scale(vec, scale); Py_Return; } PyErr_Clear(); if (PyArg_ParseTuple(args, "O!d", &PyTuple_Type, &o, &scale)) { vec = Base::getVectorFromTuple(o); getGeometryFacadePtr()->scale(vec, scale); Py_Return; } PyErr_SetString(Part::PartExceptionOCCError, "either vector or tuple and float expected"); return nullptr; } PyObject* GeometryFacadePy::transform(PyObject* args) { PyObject* o; if (!PyArg_ParseTuple(args, "O!", &(Base::MatrixPy::Type), &o)) { return nullptr; } Base::Matrix4D mat = static_cast(o)->value(); getGeometryFacadePtr()->transform(mat); Py_Return; } PyObject* GeometryFacadePy::translate(PyObject* args) { PyObject* o; Base::Vector3d vec; if (PyArg_ParseTuple(args, "O!", &(Base::VectorPy::Type), &o)) { vec = static_cast(o)->value(); getGeometryFacadePtr()->translate(vec); Py_Return; } PyErr_Clear(); if (PyArg_ParseTuple(args, "O!", &PyTuple_Type, &o)) { vec = Base::getVectorFromTuple(o); getGeometryFacadePtr()->translate(vec); Py_Return; } PyErr_SetString(Part::PartExceptionOCCError, "either vector or tuple expected"); return nullptr; } PyObject* GeometryFacadePy::setExtension(PyObject* args) { PyObject* o; if (PyArg_ParseTuple(args, "O!", &(Part::GeometryExtensionPy::Type), &o)) { Part::GeometryExtension* ext; ext = static_cast(o)->getGeometryExtensionPtr(); // make copy of Python managed memory and wrap it in smart pointer auto cpy = ext->copy(); this->getGeometryFacadePtr()->setExtension(std::move(cpy)); Py_Return; } PyErr_SetString(Part::PartExceptionOCCError, "A geometry extension object was expected"); return nullptr; } PyObject* GeometryFacadePy::getExtensionOfType(PyObject* args) const { char* o; if (PyArg_ParseTuple(args, "s", &o)) { Base::Type type = Base::Type::fromName(o); if (!type.isBad()) { try { std::shared_ptr ext( this->getGeometryFacadePtr()->getExtension(type) ); // we create a copy and transfer this copy's memory management responsibility to // Python PyObject* cpy = ext->copyPyObject(); return cpy; } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } catch (const std::bad_weak_ptr&) { PyErr_SetString( Part::PartExceptionOCCError, "Geometry extension does not exist anymore." ); return nullptr; } catch (Base::NotImplementedError&) { PyErr_SetString( Part::PartExceptionOCCError, "Geometry extension does not implement a Python counterpart." ); return nullptr; } } else { PyErr_SetString(Part::PartExceptionOCCError, "Exception type does not exist"); return nullptr; } } PyErr_SetString( Part::PartExceptionOCCError, "A string with the name of the geometry extension type was expected" ); return nullptr; } PyObject* GeometryFacadePy::getExtensionOfName(PyObject* args) const { char* o; if (PyArg_ParseTuple(args, "s", &o)) { try { std::shared_ptr ext( this->getGeometryFacadePtr()->getExtension(std::string(o)) ); // we create a copy and transfer this copy's memory management responsibility to Python PyObject* cpy = ext->copyPyObject(); return cpy; } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } catch (const std::bad_weak_ptr&) { PyErr_SetString(Part::PartExceptionOCCError, "Geometry extension does not exist anymore."); return nullptr; } catch (Base::NotImplementedError&) { PyErr_SetString( Part::PartExceptionOCCError, "Geometry extension does not implement a Python counterpart." ); return nullptr; } } PyErr_SetString( Part::PartExceptionOCCError, "A string with the name of the geometry extension was expected" ); return nullptr; } PyObject* GeometryFacadePy::hasExtensionOfType(PyObject* args) const { char* o; if (PyArg_ParseTuple(args, "s", &o)) { Base::Type type = Base::Type::fromName(o); if (!type.isBad()) { try { return Py::new_reference_to( Py::Boolean(this->getGeometryFacadePtr()->hasExtension(type)) ); } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } } else { PyErr_SetString(Part::PartExceptionOCCError, "Exception type does not exist"); return nullptr; } } PyErr_SetString( Part::PartExceptionOCCError, "A string with the type of the geometry extension was expected" ); return nullptr; } PyObject* GeometryFacadePy::hasExtensionOfName(PyObject* args) const { char* o; if (PyArg_ParseTuple(args, "s", &o)) { try { return Py::new_reference_to( Py::Boolean(this->getGeometryFacadePtr()->hasExtension(std::string(o))) ); } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } } PyErr_SetString( Part::PartExceptionOCCError, "A string with the type of the geometry extension was expected" ); return nullptr; } PyObject* GeometryFacadePy::deleteExtensionOfType(PyObject* args) { char* o; if (PyArg_ParseTuple(args, "s", &o)) { Base::Type type = Base::Type::fromName(o); if (!type.isBad()) { try { this->getGeometryFacadePtr()->deleteExtension(type); Py_Return; } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } } else { PyErr_SetString(Part::PartExceptionOCCError, "Type does not exist"); return nullptr; } } PyErr_SetString(Part::PartExceptionOCCError, "A string with a type object was expected"); return nullptr; } PyObject* GeometryFacadePy::deleteExtensionOfName(PyObject* args) { char* o; if (PyArg_ParseTuple(args, "s", &o)) { try { this->getGeometryFacadePtr()->deleteExtension(std::string(o)); Py_Return; } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } } PyErr_SetString(Part::PartExceptionOCCError, "A string with the name of the extension was expected"); return nullptr; } PyObject* GeometryFacadePy::getExtensions(PyObject* args) const { if (!PyArg_ParseTuple(args, "")) { PyErr_SetString(Part::PartExceptionOCCError, "No arguments were expected"); return nullptr; } try { const std::vector> ext = this->getGeometryFacadePtr()->getExtensions(); Py::List list; for (std::size_t i = 0; i < ext.size(); ++i) { std::shared_ptr p = ext[i].lock(); if (p) { // we create a python copy and add it to the list try { list.append(Py::asObject(p->copyPyObject())); } catch (Base::NotImplementedError&) { // silently ignoring extensions not having a Python object } } } return Py::new_reference_to(list); } catch (const Base::ValueError& e) { PyErr_SetString(Part::PartExceptionOCCError, e.what()); return nullptr; } } Py::Boolean GeometryFacadePy::getConstruction() const { return Py::Boolean(getGeometryFacadePtr()->getConstruction()); } void GeometryFacadePy::setConstruction(Py::Boolean arg) { getGeometryFacadePtr()->setConstruction(arg); } Py::Long GeometryFacadePy::getGeometryLayerId() const { return Py::Long(this->getGeometryFacadePtr()->getGeometryLayerId()); } void GeometryFacadePy::setGeometryLayerId(Py::Long Id) { this->getGeometryFacadePtr()->setGeometryLayerId(long(Id)); } Py::String GeometryFacadePy::getTag() const { std::string tmp = boost::uuids::to_string(getGeometryFacadePtr()->getTag()); return Py::String(tmp); } Py::Object GeometryFacadePy::getGeometry() const { // We return a clone std::unique_ptr geo(getGeometryFacadePtr()->getGeometry()->clone()); return Py::Object(geo->getPyObject(), true); } void GeometryFacadePy::setGeometry(Py::Object arg) { if (PyObject_TypeCheck(arg.ptr(), &(Part::GeometryPy::Type))) { Part::GeometryPy* gp = static_cast(arg.ptr()); getGeometryFacadePtr()->setGeometry(gp->getGeometryPtr()->clone()); } } PyObject* GeometryFacadePy::getCustomAttributes(const char* /*attr*/) const { return nullptr; } int GeometryFacadePy::setCustomAttributes(const char* /*attr*/, PyObject* /*obj*/) { return 0; }