/** * $Id$ * ***** 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. * * The Original Code is Copyright (C) 2001-2002 by NaN Holding BV. * All rights reserved. * * The Original Code is: all of this file. * * Contributor(s): none yet. * * ***** END GPL LICENSE BLOCK ***** */ #ifdef HAVE_CONFIG_H #include #endif #ifndef NO_EXP_PYTHON_EMBEDDING /*------------------------------ * PyObjectPlus cpp * * C++ library routines for Crawl 3.2 * * Derived from work by * David Redish * graduate student * Computer Science Department * Carnegie Mellon University (CMU) * Center for the Neural Basis of Cognition (CNBC) * http://www.python.org/doc/PyCPP.html * ------------------------------*/ #include #include "stdlib.h" #include "PyObjectPlus.h" #include "STR_String.h" /*------------------------------ * PyObjectPlus Type -- Every class, even the abstract one should have a Type ------------------------------*/ PyTypeObject PyObjectPlus::Type = { #if (PY_VERSION_HEX >= 0x02060000) PyVarObject_HEAD_INIT(NULL, 0) #else /* python 2.5 and below */ PyObject_HEAD_INIT( NULL ) /* required py macro */ 0, /*ob_size*/ #endif "PyObjectPlus", /*tp_name*/ sizeof(PyObjectPlus_Proxy), /*tp_basicsize*/ 0, /*tp_itemsize*/ /* methods */ py_base_dealloc, 0, 0, 0, 0, py_base_repr, 0,0,0,0,0,0, py_base_getattro, py_base_setattro, 0,0,0,0,0,0,0,0,0, Methods }; PyObjectPlus::~PyObjectPlus() { if(m_proxy) { Py_DECREF(m_proxy); /* Remove own reference, python may still have 1 */ BGE_PROXY_REF(m_proxy)= NULL; } // assert(ob_refcnt==0); } void PyObjectPlus::py_base_dealloc(PyObject *self) // python wrapper { PyObjectPlus *self_plus= BGE_PROXY_REF(self); if(self_plus) { if(BGE_PROXY_PYOWNS(self)) { /* Does python own this?, then delete it */ delete self_plus; } BGE_PROXY_REF(self)= NULL; // not really needed } PyObject_DEL( self ); }; PyObjectPlus::PyObjectPlus(PyTypeObject *T) // constructor { MT_assert(T != NULL); m_proxy= NULL; }; /*------------------------------ * PyObjectPlus Methods -- Every class, even the abstract one should have a Methods ------------------------------*/ PyMethodDef PyObjectPlus::Methods[] = { {"isA", (PyCFunction) sPyisA, METH_O}, {NULL, NULL} /* Sentinel */ }; PyAttributeDef PyObjectPlus::Attributes[] = { KX_PYATTRIBUTE_RO_FUNCTION("invalid", PyObjectPlus, pyattr_get_invalid), {NULL} //Sentinel }; PyObject* PyObjectPlus::pyattr_get_invalid(void *self_v, const KX_PYATTRIBUTE_DEF *attrdef) { Py_RETURN_FALSE; } /*------------------------------ * PyObjectPlus Parents -- Every class, even the abstract one should have parents ------------------------------*/ PyParentObject PyObjectPlus::Parents[] = {&PyObjectPlus::Type, NULL}; /*------------------------------ * PyObjectPlus attributes -- attributes ------------------------------*/ /* This should be the entry in Type since it takes the C++ class from PyObjectPlus_Proxy */ PyObject *PyObjectPlus::py_base_getattro(PyObject * self, PyObject *attr) { PyObjectPlus *self_plus= BGE_PROXY_REF(self); if(self_plus==NULL) { if(!strcmp("invalid", PyString_AsString(attr))) { Py_RETURN_TRUE; } PyErr_SetString(PyExc_SystemError, BGE_PROXY_ERROR_MSG); return NULL; } PyObject *ret= self_plus->py_getattro(attr); /* Attribute not found, was this a __dict__ lookup?, otherwise set an error if none is set */ if(ret==NULL) { char *attr_str= PyString_AsString(attr); if (strcmp(attr_str, "__dict__")==0) { /* the error string will probably not * be set but just incase clear it */ PyErr_Clear(); ret= self_plus->py_getattro_dict(); } else if (!PyErr_Occurred()) { /* We looked for an attribute but it wasnt found * since py_getattro didnt set the error, set it here */ PyErr_Format(PyExc_AttributeError, "'%s' object has no attribute '%s'", self->ob_type->tp_name, attr_str); } } return ret; } /* This should be the entry in Type since it takes the C++ class from PyObjectPlus_Proxy */ int PyObjectPlus::py_base_setattro(PyObject *self, PyObject *attr, PyObject *value) { PyObjectPlus *self_plus= BGE_PROXY_REF(self); if(self_plus==NULL) { PyErr_SetString(PyExc_SystemError, BGE_PROXY_ERROR_MSG); return -1; } if (value==NULL) return self_plus->py_delattro(attr); return self_plus->py_setattro(attr, value); } PyObject *PyObjectPlus::py_base_repr(PyObject *self) // This should be the entry in Type. { PyObjectPlus *self_plus= BGE_PROXY_REF(self); if(self_plus==NULL) { PyErr_SetString(PyExc_SystemError, BGE_PROXY_ERROR_MSG); return NULL; } return self_plus->py_repr(); } PyObject *PyObjectPlus::py_getattro(PyObject* attr) { PyObject *descr = PyDict_GetItem(Type.tp_dict, attr); \ if (descr == NULL) { return NULL; /* py_base_getattro sets the error, this way we can avoid setting the error at many levels */ } else { /* Copied from py_getattro_up */ if (PyCObject_Check(descr)) { return py_get_attrdef((void *)this, (const PyAttributeDef*)PyCObject_AsVoidPtr(descr)); } else if (descr->ob_type->tp_descr_get) { return PyCFunction_New(((PyMethodDescrObject *)descr)->d_method, this->m_proxy); } else { return NULL; } /* end py_getattro_up copy */ } } PyObject* PyObjectPlus::py_getattro_dict() { return py_getattr_dict(NULL, Type.tp_dict); } int PyObjectPlus::py_delattro(PyObject* attr) { PyErr_SetString(PyExc_AttributeError, "attribute cant be deleted"); return 1; } int PyObjectPlus::py_setattro(PyObject *attr, PyObject* value) { PyErr_SetString(PyExc_AttributeError, "attribute cant be set"); return PY_SET_ATTR_MISSING; } PyObject *PyObjectPlus::py_get_attrdef(void *self, const PyAttributeDef *attrdef) { if (attrdef->m_type == KX_PYATTRIBUTE_TYPE_DUMMY) { // fake attribute, ignore return NULL; } if (attrdef->m_type == KX_PYATTRIBUTE_TYPE_FUNCTION) { // the attribute has no field correspondance, handover processing to function. if (attrdef->m_getFunction == NULL) return NULL; return (*attrdef->m_getFunction)(self, attrdef); } char *ptr = reinterpret_cast(self)+attrdef->m_offset; if (attrdef->m_length > 1) { PyObject* resultlist = PyList_New(attrdef->m_length); for (unsigned int i=0; im_length; i++) { switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_BOOL: { bool *val = reinterpret_cast(ptr); ptr += sizeof(bool); PyList_SET_ITEM(resultlist,i,PyInt_FromLong(*val)); break; } case KX_PYATTRIBUTE_TYPE_SHORT: { short int *val = reinterpret_cast(ptr); ptr += sizeof(short int); PyList_SET_ITEM(resultlist,i,PyInt_FromLong(*val)); break; } case KX_PYATTRIBUTE_TYPE_ENUM: // enum are like int, just make sure the field size is the same if (sizeof(int) != attrdef->m_size) { Py_DECREF(resultlist); return NULL; } // walkthrough case KX_PYATTRIBUTE_TYPE_INT: { int *val = reinterpret_cast(ptr); ptr += sizeof(int); PyList_SET_ITEM(resultlist,i,PyInt_FromLong(*val)); break; } case KX_PYATTRIBUTE_TYPE_FLOAT: { float *val = reinterpret_cast(ptr); ptr += sizeof(float); PyList_SET_ITEM(resultlist,i,PyFloat_FromDouble(*val)); break; } default: // no support for array of complex data Py_DECREF(resultlist); return NULL; } } return resultlist; } else { switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_BOOL: { bool *val = reinterpret_cast(ptr); return PyInt_FromLong(*val); } case KX_PYATTRIBUTE_TYPE_SHORT: { short int *val = reinterpret_cast(ptr); return PyInt_FromLong(*val); } case KX_PYATTRIBUTE_TYPE_ENUM: // enum are like int, just make sure the field size is the same if (sizeof(int) != attrdef->m_size) { return NULL; } // walkthrough case KX_PYATTRIBUTE_TYPE_INT: { int *val = reinterpret_cast(ptr); return PyInt_FromLong(*val); } case KX_PYATTRIBUTE_TYPE_FLOAT: { float *val = reinterpret_cast(ptr); return PyFloat_FromDouble(*val); } case KX_PYATTRIBUTE_TYPE_STRING: { STR_String *val = reinterpret_cast(ptr); return PyString_FromString(*val); } default: return NULL; } } } int PyObjectPlus::py_set_attrdef(void *self, const PyAttributeDef *attrdef, PyObject *value) { void *undoBuffer = NULL; void *sourceBuffer = NULL; size_t bufferSize = 0; char *ptr = reinterpret_cast(self)+attrdef->m_offset; if (attrdef->m_length > 1) { if (!PySequence_Check(value)) { PyErr_Format(PyExc_TypeError, "expected a sequence for attribute \"%s\"", attrdef->m_name); return 1; } if (PySequence_Size(value) != attrdef->m_length) { PyErr_Format(PyExc_TypeError, "incorrect number of elements in sequence for attribute \"%s\"", attrdef->m_name); return 1; } switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_FUNCTION: if (attrdef->m_setFunction == NULL) { PyErr_Format(PyExc_AttributeError, "function attribute without function for attribute \"%s\", report to blender.org", attrdef->m_name); return 1; } return (*attrdef->m_setFunction)(self, attrdef, value); case KX_PYATTRIBUTE_TYPE_BOOL: bufferSize = sizeof(bool); break; case KX_PYATTRIBUTE_TYPE_SHORT: bufferSize = sizeof(short int); break; case KX_PYATTRIBUTE_TYPE_ENUM: case KX_PYATTRIBUTE_TYPE_INT: bufferSize = sizeof(int); break; case KX_PYATTRIBUTE_TYPE_FLOAT: bufferSize = sizeof(float); break; default: // should not happen PyErr_Format(PyExc_AttributeError, "Unsupported attribute type for attribute \"%s\", report to blender.org", attrdef->m_name); return 1; } // let's implement a smart undo method bufferSize *= attrdef->m_length; undoBuffer = malloc(bufferSize); sourceBuffer = ptr; if (undoBuffer) { memcpy(undoBuffer, sourceBuffer, bufferSize); } for (int i=0; im_length; i++) { PyObject *item = PySequence_GetItem(value, i); /* new ref */ // we can decrement the reference immediately, the reference count // is at least 1 because the item is part of an array Py_DECREF(item); switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_BOOL: { bool *var = reinterpret_cast(ptr); ptr += sizeof(bool); if (PyInt_Check(item)) { *var = (PyInt_AsLong(item) != 0); } else if (PyBool_Check(item)) { *var = (item == Py_True); } else { PyErr_Format(PyExc_TypeError, "expected an integer or a bool for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_SHORT: { short int *var = reinterpret_cast(ptr); ptr += sizeof(short int); if (PyInt_Check(item)) { long val = PyInt_AsLong(item); if (attrdef->m_clamp) { if (val < attrdef->m_imin) val = attrdef->m_imin; else if (val > attrdef->m_imax) val = attrdef->m_imax; } else if (val < attrdef->m_imin || val > attrdef->m_imax) { PyErr_Format(PyExc_ValueError, "item value out of range for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } *var = (short int)val; } else { PyErr_Format(PyExc_TypeError, "expected an integer for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_ENUM: // enum are equivalent to int, just make sure that the field size matches: if (sizeof(int) != attrdef->m_size) { PyErr_Format(PyExc_AttributeError, "Size check error for attribute, \"%s\", report to blender.org", attrdef->m_name); goto UNDO_AND_ERROR; } // walkthrough case KX_PYATTRIBUTE_TYPE_INT: { int *var = reinterpret_cast(ptr); ptr += sizeof(int); if (PyInt_Check(item)) { long val = PyInt_AsLong(item); if (attrdef->m_clamp) { if (val < attrdef->m_imin) val = attrdef->m_imin; else if (val > attrdef->m_imax) val = attrdef->m_imax; } else if (val < attrdef->m_imin || val > attrdef->m_imax) { PyErr_Format(PyExc_ValueError, "item value out of range for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } *var = (int)val; } else { PyErr_Format(PyExc_TypeError, "expected an integer for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_FLOAT: { float *var = reinterpret_cast(ptr); ptr += sizeof(float); double val = PyFloat_AsDouble(item); if (val == -1.0 && PyErr_Occurred()) { PyErr_Format(PyExc_TypeError, "expected a float for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } else if (attrdef->m_clamp) { if (val < attrdef->m_fmin) val = attrdef->m_fmin; else if (val > attrdef->m_fmax) val = attrdef->m_fmax; } else if (val < attrdef->m_fmin || val > attrdef->m_fmax) { PyErr_Format(PyExc_ValueError, "item value out of range for attribute \"%s\"", attrdef->m_name); goto UNDO_AND_ERROR; } *var = (float)val; break; } default: // should not happen PyErr_Format(PyExc_AttributeError, "type check error for attribute \"%s\", report to blender.org", attrdef->m_name); goto UNDO_AND_ERROR; } } // no error, call check function if any if (attrdef->m_checkFunction != NULL) { if ((*attrdef->m_checkFunction)(self, attrdef) != 0) { // if the checing function didnt set an error then set a generic one here so we dont set an error with no exception if (PyErr_Occurred()==0) PyErr_Format(PyExc_AttributeError, "type check error for attribute \"%s\", reasion unknown", attrdef->m_name); // post check returned an error, restore values UNDO_AND_ERROR: if (undoBuffer) { memcpy(sourceBuffer, undoBuffer, bufferSize); free(undoBuffer); } return 1; } } if (undoBuffer) free(undoBuffer); return 0; } else // simple attribute value { if (attrdef->m_type == KX_PYATTRIBUTE_TYPE_FUNCTION) { if (attrdef->m_setFunction == NULL) { PyErr_Format(PyExc_AttributeError, "function attribute without function \"%s\", report to blender.org", attrdef->m_name); return 1; } return (*attrdef->m_setFunction)(self, attrdef, value); } if (attrdef->m_checkFunction != NULL) { // post check function is provided, prepare undo buffer sourceBuffer = ptr; switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_BOOL: bufferSize = sizeof(bool); break; case KX_PYATTRIBUTE_TYPE_SHORT: bufferSize = sizeof(short); break; case KX_PYATTRIBUTE_TYPE_ENUM: case KX_PYATTRIBUTE_TYPE_INT: bufferSize = sizeof(int); break; case KX_PYATTRIBUTE_TYPE_FLOAT: bufferSize = sizeof(float); break; case KX_PYATTRIBUTE_TYPE_STRING: sourceBuffer = reinterpret_cast(ptr)->Ptr(); if (sourceBuffer) bufferSize = strlen(reinterpret_cast(sourceBuffer))+1; break; default: PyErr_Format(PyExc_AttributeError, "unknown type for attribute \"%s\", report to blender.org", attrdef->m_name); return 1; } if (bufferSize) { undoBuffer = malloc(bufferSize); if (undoBuffer) { memcpy(undoBuffer, sourceBuffer, bufferSize); } } } switch (attrdef->m_type) { case KX_PYATTRIBUTE_TYPE_BOOL: { bool *var = reinterpret_cast(ptr); if (PyInt_Check(value)) { *var = (PyInt_AsLong(value) != 0); } else if (PyBool_Check(value)) { *var = (value == Py_True); } else { PyErr_Format(PyExc_TypeError, "expected an integer or a bool for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_SHORT: { short int *var = reinterpret_cast(ptr); if (PyInt_Check(value)) { long val = PyInt_AsLong(value); if (attrdef->m_clamp) { if (val < attrdef->m_imin) val = attrdef->m_imin; else if (val > attrdef->m_imax) val = attrdef->m_imax; } else if (val < attrdef->m_imin || val > attrdef->m_imax) { PyErr_Format(PyExc_ValueError, "value out of range for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } *var = (short int)val; } else { PyErr_Format(PyExc_TypeError, "expected an integer for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_ENUM: // enum are equivalent to int, just make sure that the field size matches: if (sizeof(int) != attrdef->m_size) { PyErr_Format(PyExc_AttributeError, "attribute size check error for attribute \"%s\", report to blender.org", attrdef->m_name); goto FREE_AND_ERROR; } // walkthrough case KX_PYATTRIBUTE_TYPE_INT: { int *var = reinterpret_cast(ptr); if (PyInt_Check(value)) { long val = PyInt_AsLong(value); if (attrdef->m_clamp) { if (val < attrdef->m_imin) val = attrdef->m_imin; else if (val > attrdef->m_imax) val = attrdef->m_imax; } else if (val < attrdef->m_imin || val > attrdef->m_imax) { PyErr_Format(PyExc_ValueError, "value out of range for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } *var = (int)val; } else { PyErr_Format(PyExc_TypeError, "expected an integer for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } break; } case KX_PYATTRIBUTE_TYPE_FLOAT: { float *var = reinterpret_cast(ptr); double val = PyFloat_AsDouble(value); if (val == -1.0 && PyErr_Occurred()) { PyErr_Format(PyExc_TypeError, "expected a float for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } else if (attrdef->m_clamp) { if (val < attrdef->m_fmin) val = attrdef->m_fmin; else if (val > attrdef->m_fmax) val = attrdef->m_fmax; } else if (val < attrdef->m_fmin || val > attrdef->m_fmax) { PyErr_Format(PyExc_ValueError, "value out of range for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } *var = (float)val; break; } case KX_PYATTRIBUTE_TYPE_STRING: { STR_String *var = reinterpret_cast(ptr); if (PyString_Check(value)) { char *val = PyString_AsString(value); if (attrdef->m_clamp) { if (strlen(val) < attrdef->m_imin) { // can't increase the length of the string PyErr_Format(PyExc_ValueError, "string length too short for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } else if (strlen(val) > attrdef->m_imax) { // trim the string char c = val[attrdef->m_imax]; val[attrdef->m_imax] = 0; *var = val; val[attrdef->m_imax] = c; break; } } else if (strlen(val) < attrdef->m_imin || strlen(val) > attrdef->m_imax) { PyErr_Format(PyExc_ValueError, "string length out of range for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } *var = val; } else { PyErr_Format(PyExc_TypeError, "expected a string for attribute \"%s\"", attrdef->m_name); goto FREE_AND_ERROR; } break; } default: // should not happen PyErr_Format(PyExc_AttributeError, "unknown type for attribute \"%s\", report to blender.org", attrdef->m_name); goto FREE_AND_ERROR; } } // check if post processing is needed if (attrdef->m_checkFunction != NULL) { if ((*attrdef->m_checkFunction)(self, attrdef) != 0) { // restore value RESTORE_AND_ERROR: if (undoBuffer) { if (attrdef->m_type == KX_PYATTRIBUTE_TYPE_STRING) { // special case for STR_String: restore the string STR_String *var = reinterpret_cast(ptr); *var = reinterpret_cast(undoBuffer); } else { // other field type have direct values memcpy(ptr, undoBuffer, bufferSize); } } FREE_AND_ERROR: if (undoBuffer) free(undoBuffer); return 1; } } if (undoBuffer) free(undoBuffer); return 0; } /*------------------------------ * PyObjectPlus repr -- representations ------------------------------*/ PyObject *PyObjectPlus::py_repr(void) { PyErr_SetString(PyExc_SystemError, "Representation not overridden by object."); return NULL; } /*------------------------------ * PyObjectPlus isA -- the isA functions ------------------------------*/ bool PyObjectPlus::isA(PyTypeObject *T) // if called with a Type, use "typename" { int i; PyParentObject P; PyParentObject *Ps = GetParents(); for (P = Ps[i=0]; P != NULL; P = Ps[i++]) if (P==T) return true; return false; } bool PyObjectPlus::isA(const char *mytypename) // check typename of each parent { int i; PyParentObject P; PyParentObject *Ps = GetParents(); for (P = Ps[i=0]; P != NULL; P = Ps[i++]) if (strcmp(P->tp_name, mytypename)==0) return true; return false; } PyObject *PyObjectPlus::PyisA(PyObject *value) // Python wrapper for isA { if (PyType_Check(value)) { return PyBool_FromLong(isA((PyTypeObject *)value)); } else if (PyString_Check(value)) { return PyBool_FromLong(isA(PyString_AsString(value))); } PyErr_SetString(PyExc_TypeError, "object.isA(value): expected a type or a string"); return NULL; } void PyObjectPlus::ProcessReplica() { /* Clear the proxy, will be created again if needed with GetProxy() * otherwise the PyObject will point to the wrong reference */ m_proxy= NULL; } /* Sometimes we might want to manually invalidate a BGE type even if * it hasnt been released by the BGE, say for example when an object * is removed from a scene, accessing it may cause problems. * * In this case the current proxy is made invalid, disowned, * and will raise an error on access. However if python can get access * to this class again it will make a new proxy and work as expected. */ void PyObjectPlus::InvalidateProxy() // check typename of each parent { if(m_proxy) { BGE_PROXY_REF(m_proxy)=NULL; Py_DECREF(m_proxy); m_proxy= NULL; } } /* Utility function called by the macro py_getattro_up() * for getting ob.__dict__() values from our PyObject * this is used by python for doing dir() on an object, so its good * if we return a list of attributes and methods. * * Other then making dir() useful the value returned from __dict__() is not useful * since every value is a Py_None * */ PyObject *py_getattr_dict(PyObject *pydict, PyObject *tp_dict) { if(pydict==NULL) { /* incase calling __dict__ on the parent of this object raised an error */ PyErr_Clear(); pydict = PyDict_New(); } PyDict_Update(pydict, tp_dict); return pydict; } PyObject *PyObjectPlus::GetProxy_Ext(PyObjectPlus *self, PyTypeObject *tp) { if (self->m_proxy==NULL) { self->m_proxy = reinterpret_castPyObject_NEW( PyObjectPlus_Proxy, tp); BGE_PROXY_PYOWNS(self->m_proxy) = false; } //PyObject_Print(self->m_proxy, stdout, 0); //printf("ref %d\n", self->m_proxy->ob_refcnt); BGE_PROXY_REF(self->m_proxy) = self; /* Its possible this was set to NULL, so set it back here */ Py_INCREF(self->m_proxy); /* we own one, thos ones fore the return */ return self->m_proxy; } PyObject *PyObjectPlus::NewProxy_Ext(PyObjectPlus *self, PyTypeObject *tp, bool py_owns) { if (self->m_proxy) { if(py_owns) { /* Free */ BGE_PROXY_REF(self->m_proxy) = NULL; Py_DECREF(self->m_proxy); self->m_proxy= NULL; } else { Py_INCREF(self->m_proxy); return self->m_proxy; } } GetProxy_Ext(self, tp); if(py_owns) { BGE_PROXY_PYOWNS(self->m_proxy) = py_owns; Py_DECREF(self->m_proxy); /* could avoid thrashing here but for now its ok */ } return self->m_proxy; } /////////////////////////////////////////////////////////////////////////////////////////////// /////////////////////////////////////////////////////////////////////////////////////////////// /* deprecation warning management */ bool PyObjectPlus::m_ignore_deprecation_warnings(false); void PyObjectPlus::SetDeprecationWarnings(bool ignoreDeprecationWarnings) { m_ignore_deprecation_warnings = ignoreDeprecationWarnings; } void PyObjectPlus::ShowDeprecationWarning(const char* old_way,const char* new_way) { if (!m_ignore_deprecation_warnings) { printf("Method %s is deprecated, please use %s instead.\n", old_way, new_way); // import sys; print '\t%s:%d' % (sys._getframe(0).f_code.co_filename, sys._getframe(0).f_lineno) PyObject *getframe, *frame; PyObject *f_lineno, *f_code, *co_filename; getframe = PySys_GetObject((char *)"_getframe"); // borrowed if (getframe) { frame = PyObject_CallObject(getframe, NULL); if (frame) { f_lineno= PyObject_GetAttrString(frame, "f_lineno"); f_code= PyObject_GetAttrString(frame, "f_code"); if (f_lineno && f_code) { co_filename= PyObject_GetAttrString(f_code, "co_filename"); if (co_filename) { printf("\t%s:%d\n", PyString_AsString(co_filename), (int)PyInt_AsLong(f_lineno)); Py_DECREF(f_lineno); Py_DECREF(f_code); Py_DECREF(co_filename); Py_DECREF(frame); return; } } Py_XDECREF(f_lineno); Py_XDECREF(f_code); Py_DECREF(frame); } } PyErr_Clear(); printf("\tERROR - Could not access sys._getframe(0).f_lineno or sys._getframe().f_code.co_filename\n"); } } #endif //NO_EXP_PYTHON_EMBEDDING