// SPDX-License-Identifier: LGPL-2.1-or-later /*************************************************************************** * Copyright (c) 2009 Werner Mayer * * * * 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 "DocumentThread.h" #include "DocumentProtector.h" #include "DocumentProtectorPy.h" namespace Sandbox { class PythonBaseClass : public Py::PythonClass< PythonBaseClass > { public: PythonBaseClass( Py::PythonClassInstance *self, Py::Tuple &args, Py::Dict &kwds ) : Py::PythonClass< PythonBaseClass >::PythonClass( self, args, kwds ) , m_value( "default value" ) { std::cout << "PythonBaseClass c'tor Called with " << args.length() << " normal arguments." << std::endl; Py::List names( kwds.keys() ); std::cout << "and with " << names.length() << " keyword arguments:" << std::endl; for( Py::List::size_type i=0; i< names.length(); i++ ) { Py::String name( names[i] ); std::cout << " " << name << std::endl; } m_array.push_back(Py::Long(2)); m_array.push_back(Py::Float(3.0)); m_array.push_back(Py::String("4.0")); } virtual ~PythonBaseClass() { std::cout << "~PythonBaseClass." << std::endl; } static void init_type(void) { behaviors().name( "PythonBaseClass" ); behaviors().doc( "documentation for PythonBaseClass class" ); behaviors().supportGetattro(); behaviors().supportSetattro(); behaviors().supportSequenceType(); PYCXX_ADD_NOARGS_METHOD( func_noargs, PythonBaseClass_func_noargs, "docs for PythonBaseClass_func_noargs" ); PYCXX_ADD_VARARGS_METHOD( func_varargs, PythonBaseClass_func_varargs, "docs for PythonBaseClass_func_varargs" ); PYCXX_ADD_KEYWORDS_METHOD( func_keyword, PythonBaseClass_func_keyword, "docs for PythonBaseClass_func_keyword" ); PYCXX_ADD_NOARGS_METHOD( func_noargs_raise_exception, PythonBaseClass_func_noargs_raise_exception, "docs for PythonBaseClass_func_noargs_raise_exception" ); // Call to make the type ready for use behaviors().readyType(); } Py::Object PythonBaseClass_func_noargs( void ) { std::cout << "PythonBaseClass_func_noargs Called." << std::endl; std::cout << "value ref count " << m_value.reference_count() << std::endl; return Py::None(); } PYCXX_NOARGS_METHOD_DECL( PythonBaseClass, PythonBaseClass_func_noargs ) Py::Object PythonBaseClass_func_varargs( const Py::Tuple &args ) { std::cout << "PythonBaseClass_func_varargs Called with " << args.length() << " normal arguments." << std::endl; return Py::None(); } PYCXX_VARARGS_METHOD_DECL( PythonBaseClass, PythonBaseClass_func_varargs ) Py::Object PythonBaseClass_func_keyword( const Py::Tuple &args, const Py::Dict &kwds ) { std::cout << "PythonBaseClass_func_keyword Called with " << args.length() << " normal arguments." << std::endl; Py::List names( kwds.keys() ); std::cout << "and with " << names.length() << " keyword arguments:" << std::endl; for( Py::List::size_type i=0; i< names.length(); i++ ) { Py::String name( names[i] ); std::cout << " " << name << std::endl; } return Py::None(); } PYCXX_KEYWORDS_METHOD_DECL( PythonBaseClass, PythonBaseClass_func_keyword ) Py::Object PythonBaseClass_func_noargs_raise_exception( void ) { std::cout << "PythonBaseClass_func_noargs_raise_exception Called." << std::endl; throw Py::RuntimeError( "its an error" ); return Py::None(); } PYCXX_NOARGS_METHOD_DECL( PythonBaseClass, PythonBaseClass_func_noargs_raise_exception ) Py::Object getattro( const Py::String &name_ ) { std::string name( name_.as_std_string( "utf-8" ) ); if( name == "value" ) { return m_value; } else { return genericGetAttro( name_ ); } } int setattro( const Py::String &name_, const Py::Object &value ) { std::string name( name_.as_std_string( "utf-8" ) ); if( name == "value" ) { m_value = value; return 0; } else { return genericSetAttro( name_, value ); } } virtual PyCxx_ssize_t sequence_length() { // len(x) return m_array.size(); } virtual Py::Object sequence_concat(const Py::Object &) { // x + y throw Py::NotImplementedError("not yet implemented"); } virtual Py::Object sequence_repeat(Py_ssize_t) { // x * 3 throw Py::NotImplementedError("not yet implemented"); } virtual Py::Object sequence_item(Py_ssize_t i) { // x[0] if (i >= static_cast(m_array.size())) throw Py::IndexError("index out of range"); return m_array[i]; } virtual Py::Object sequence_slice(Py_ssize_t, Py_ssize_t) { // x[0:3] throw Py::NotImplementedError("not yet implemented"); } virtual int sequence_ass_item(Py_ssize_t i, const Py::Object & o) { // x[0] = y if (i >= static_cast(m_array.size())) throw Py::IndexError("index out of range"); m_array[i] = o; return 0; } virtual int sequence_ass_slice(Py_ssize_t, Py_ssize_t, const Py::Object &) { // x[0:3] = y throw Py::NotImplementedError("not yet implemented"); } Py::String m_value; std::vector m_array; }; /* module functions */ class Module : public Py::ExtensionModule { public: Module() : Py::ExtensionModule("Sandbox") { Sandbox::PythonBaseClass::init_type(); Sandbox::DocumentProtectorPy::init_type(); add_varargs_method("DocumentProtector", &Module::new_DocumentProtector, "DocumentProtector(Document)"); Sandbox::DocumentObjectProtectorPy::init_type(); add_varargs_method("DocumentObjectProtector", &Module::new_DocumentObjectProtector, "DocumentObjectProtector(DocumentObject)"); initialize("This module is the Sandbox module"); // register with Python Py::Dict d( moduleDictionary() ); Py::Object x( Sandbox::PythonBaseClass::type() ); d["PythonBaseClass"] = x; } virtual ~Module() {} private: Py::Object new_DocumentProtector(const Py::Tuple& args) { PyObject* o; if (!PyArg_ParseTuple(args.ptr(), "O!",&(App::DocumentPy::Type), &o)) throw Py::Exception(); App::DocumentPy* doc = static_cast(o); return Py::asObject(new Sandbox::DocumentProtectorPy(doc)); } Py::Object new_DocumentObjectProtector(const Py::Tuple& args) { PyObject* o; if (!PyArg_ParseTuple(args.ptr(), "O!",&(App::DocumentObjectPy::Type), &o)) throw Py::Exception(); App::DocumentObjectPy* obj = static_cast(o); return Py::asObject(new Sandbox::DocumentObjectProtectorPy(obj)); } }; PyObject* initModule() { return (new Module)->module().ptr(); } } // namespace Sandbox /* Python entry */ PyMOD_INIT_FUNC(Sandbox) { Sandbox::DocumentProtector ::init(); Sandbox::SandboxObject ::init(); // the following constructor call registers our extension module // with the Python runtime system PyObject* mod = Sandbox::initModule(); Base::Console().log("Loading Sandbox moduleā€¦ done\n"); PyMOD_Return(mod); }