// -*- C++ -*- // // This file is part of the Coriolis Project. // Copyright (C) Laboratoire LIP6 - Departement ASIM // Universite Pierre et Marie Curie // // Main contributors : // Christophe Alexandre // Sophie Belloeil // Hugo Clément // Jean-Paul Chaput // Damien Dupuis // Christian Masson // Marek Sroka // // The Coriolis Project 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. // // The Coriolis Project 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 the Coriolis Project; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 // USA // // License-Tag // Authors-Tag // =================================================================== // // $Id: PyPin.cpp,v 1.18 2008/02/07 17:09:41 xtof Exp $ // // x-----------------------------------------------------------------x // | | // | C O R I O L I S | // | I s o b a r - Hurricane / Python Interface | // | | // | Author : Damien DUPUIS | // | E-mail : Damien.Dupuis@asim.lip6.fr | // | =============================================================== | // | C++ Module : "./PyPin.cpp" | // | *************************************************************** | // | U p d a t e s | // | | // x-----------------------------------------------------------------x #include "hurricane/isobar/PyPin.h" #include "hurricane/isobar/PyNet.h" #include "hurricane/isobar/PyName.h" #include "hurricane/isobar/PyLayer.h" namespace Isobar { using namespace Hurricane; extern "C" { #undef ACCESS_OBJECT #undef ACCESS_CLASS #define ACCESS_OBJECT _baseObject._baseObject._baseObject._object #define ACCESS_CLASS(_pyObject) &(_pyObject->_baseObject._baseObject._baseObject) #define METHOD_HEAD(function) GENERIC_METHOD_HEAD(Pin,pin,function) // x=================================================================x // | "PyPin" Python Module Code Part | // x=================================================================x #if defined(__PYTHON_MODULE__) // x-------------------------------------------------------------x // | Global Constants Loading | // x-------------------------------------------------------------x extern void PinLoadConstants ( PyObject* dictionnary ) { PyObject* constant; LOAD_CONSTANT ( Pin::PlacementStatus::UNPLACED , "PinPlacementStatusUNPLACED" ) LOAD_CONSTANT ( Pin::PlacementStatus::PLACED , "PinPlacementStatusPLACED" ) LOAD_CONSTANT ( Pin::PlacementStatus::FIXED , "PinPlacementStatusFIXED" ) LOAD_CONSTANT ( Pin::AccessDirection::UNDEFINED, "PinAccessDirectionUNDEFINED" ) LOAD_CONSTANT ( Pin::AccessDirection::NORTH , "PinAccessDirectionNORTH" ) LOAD_CONSTANT ( Pin::AccessDirection::SOUTH , "PinAccessDirectionSOUTH" ) LOAD_CONSTANT ( Pin::AccessDirection::EAST , "PinAccessDirectionEAST" ) LOAD_CONSTANT ( Pin::AccessDirection::WEST , "PinAccessDirectionWEST" ) } // x-------------------------------------------------------------x // | "PyPin" Attribute Methods | // x-------------------------------------------------------------x // Standart Accessors (Attributes). PyObject* PyPin_getAccessDirection( PyPin* self ) { trace << "PyNet_getAccessDirection ()" << endl; METHOD_HEAD ( "Net.getAccessDirection()" ) return (PyObject *)Py_BuildValue("l", pin->getAccessDirection().getCode() ); } // --------------------------------------------------------------- // PyPin Attribute Method table. PyMethodDef PyPin_Methods[] = { { "getAccessDirection" , (PyCFunction)PyPin_getAccessDirection , METH_NOARGS , "Returns the pin accessdirection (by default set to UNDEFINED) ." } , {NULL, NULL, 0, NULL} /* sentinel */ }; // x-------------------------------------------------------------x // | "PyPin" Object Methods | // x-------------------------------------------------------------x static Pin::PlacementStatus PyInt_AsPlacementStatus ( PyObject* object ) { switch ( PyInt_AsLong(object) ) { case Pin::PlacementStatus::UNPLACED : return ( Pin::PlacementStatus(Pin::PlacementStatus::UNPLACED) ); case Pin::PlacementStatus::PLACED : return ( Pin::PlacementStatus(Pin::PlacementStatus::PLACED) ); case Pin::PlacementStatus::FIXED : return ( Pin::PlacementStatus(Pin::PlacementStatus::FIXED) ); } return ( Pin::PlacementStatus(Pin::PlacementStatus::UNPLACED) ); } static Pin::AccessDirection PyInt_AsAccessDirection ( PyObject* object ) { switch ( PyInt_AsLong(object) ) { case Pin::AccessDirection::UNDEFINED : return ( Pin::AccessDirection(Pin::AccessDirection::UNDEFINED) ); case Pin::AccessDirection::NORTH : return ( Pin::AccessDirection(Pin::AccessDirection::NORTH) ); case Pin::AccessDirection::SOUTH : return ( Pin::AccessDirection(Pin::AccessDirection::SOUTH) ); case Pin::AccessDirection::EAST : return ( Pin::AccessDirection(Pin::AccessDirection::EAST) ); case Pin::AccessDirection::WEST : return ( Pin::AccessDirection(Pin::AccessDirection::WEST) ); } return ( Pin::AccessDirection(Pin::AccessDirection::UNDEFINED) ); } // --------------------------------------------------------------- // Attribute Method : "PyPin_new ()" static PyObject* PyPin_new(PyTypeObject *type, PyObject *args, PyObject *kwds) { Pin* pin = NULL; HTRY trace << "PyPin_new()" << endl; PyObject* arg0; PyObject* arg1; PyObject* arg2; PyObject* arg3; PyObject* arg4; PyObject* arg5; PyObject* arg6; PyObject* arg7; PyObject* arg8; __cs.Init ("Pin.new"); if (!PyArg_ParseTuple(args,"O&O&O&O&O&O&O&|O&O&:Pin.new" , Converter, &arg0 , Converter, &arg1 , Converter, &arg2 , Converter, &arg3 , Converter, &arg4 , Converter, &arg5 , Converter, &arg6 , Converter, &arg7 , Converter, &arg8 )) { PyErr_SetString ( ConstructorError, "invalid number of parameters for Pin constructor." ); return NULL; } string pin_arg1 = ":ent:name:int:int:layer:int:int:int:int"; string pin_arg2 = ":ent:name:int:int:layer:int:int:int"; string pin_arg3 = ":ent:name:int:int:layer:int:int"; if ( __cs.getObjectIds() == pin_arg1 ) { pin = Pin::create ( PYNET_O ( arg0 ) , *PYNAME_O ( arg1 ) , PyInt_AsAccessDirection ( arg2 ) , PyInt_AsPlacementStatus ( arg3 ) , PYLAYER_O ( arg4 ) , PyInt_AsLong ( arg5 ) , PyInt_AsLong ( arg6 ) , PyInt_AsLong ( arg7 ) , PyInt_AsLong ( arg8 ) ); } else if ( __cs.getObjectIds() == pin_arg2 ) { pin = Pin::create ( PYNET_O ( arg0 ) , *PYNAME_O ( arg1 ) , PyInt_AsAccessDirection ( arg2 ) , PyInt_AsPlacementStatus ( arg3 ) , PYLAYER_O ( arg4 ) , PyInt_AsLong ( arg5 ) , PyInt_AsLong ( arg6 ) , PyInt_AsLong ( arg7 ) ); } else if ( __cs.getObjectIds() == pin_arg3 ) { pin = Pin::create ( PYNET_O ( arg0 ) , *PYNAME_O ( arg1 ) , PyInt_AsAccessDirection ( arg2 ) , PyInt_AsPlacementStatus ( arg3 ) , PYLAYER_O ( arg4 ) , PyInt_AsLong ( arg5 ) , PyInt_AsLong ( arg6 ) ); } else { PyErr_SetString ( ConstructorError, "invalid number of parameters for Pin constructor." ); return NULL; } HCATCH return PyPin_Link ( pin ); } DBoDeleteMethod(Pin) PyTypeObjectLinkPyType(Pin) PyTypeObjectConstructor(Pin) #else // End of Python Module Code Part. // x=================================================================x // | "PyPin" Shared Library Code Part | // x=================================================================x // Link/Creation Method. DBoLinkCreateMethod(Pin) // --------------------------------------------------------------- // PyPin Object Definitions. PyTypeObjectDefinitions(Pin) #endif // End of Shared Library Code Part. } // End of extern "C". } // End of Isobar namespace.