/* * General object operations and protocol implementations, * including their specialisations for certain builtins. * * Optional optimisations for builtins are in Optimize.c. * * Required replacements of builtins are in Builtins.c. */ /////////////// RaiseNoneIterError.proto /////////////// static CYTHON_INLINE void __Pyx_RaiseNoneNotIterableError(void); /////////////// RaiseNoneIterError /////////////// static CYTHON_INLINE void __Pyx_RaiseNoneNotIterableError(void) { PyErr_SetString(PyExc_TypeError, "'NoneType' object is not iterable"); } /////////////// RaiseTooManyValuesToUnpack.proto /////////////// static CYTHON_INLINE void __Pyx_RaiseTooManyValuesError(Py_ssize_t expected); /////////////// RaiseTooManyValuesToUnpack /////////////// static CYTHON_INLINE void __Pyx_RaiseTooManyValuesError(Py_ssize_t expected) { PyErr_Format(PyExc_ValueError, "too many values to unpack (expected %" CYTHON_FORMAT_SSIZE_T "d)", expected); } /////////////// RaiseNeedMoreValuesToUnpack.proto /////////////// static CYTHON_INLINE void __Pyx_RaiseNeedMoreValuesError(Py_ssize_t index); /////////////// RaiseNeedMoreValuesToUnpack /////////////// static CYTHON_INLINE void __Pyx_RaiseNeedMoreValuesError(Py_ssize_t index) { PyErr_Format(PyExc_ValueError, "need more than %" CYTHON_FORMAT_SSIZE_T "d value%.1s to unpack", index, (index == 1) ? "" : "s"); } /////////////// UnpackTupleError.proto /////////////// static void __Pyx_UnpackTupleError(PyObject *, Py_ssize_t index); /*proto*/ /////////////// UnpackTupleError /////////////// //@requires: RaiseNoneIterError //@requires: RaiseNeedMoreValuesToUnpack //@requires: RaiseTooManyValuesToUnpack static void __Pyx_UnpackTupleError(PyObject *t, Py_ssize_t index) { if (t == Py_None) { __Pyx_RaiseNoneNotIterableError(); } else if (PyTuple_GET_SIZE(t) < index) { __Pyx_RaiseNeedMoreValuesError(PyTuple_GET_SIZE(t)); } else { __Pyx_RaiseTooManyValuesError(index); } } /////////////// UnpackItemEndCheck.proto /////////////// static int __Pyx_IternextUnpackEndCheck(PyObject *retval, Py_ssize_t expected); /*proto*/ /////////////// UnpackItemEndCheck /////////////// //@requires: RaiseTooManyValuesToUnpack //@requires: IterFinish static int __Pyx_IternextUnpackEndCheck(PyObject *retval, Py_ssize_t expected) { if (unlikely(retval)) { Py_DECREF(retval); __Pyx_RaiseTooManyValuesError(expected); return -1; } return __Pyx_IterFinish(); } /////////////// UnpackTuple2.proto /////////////// #define __Pyx_unpack_tuple2(tuple, value1, value2, is_tuple, has_known_size, decref_tuple) \ (likely(is_tuple || PyTuple_Check(tuple)) ? \ (likely(has_known_size || PyTuple_GET_SIZE(tuple) == 2) ? \ __Pyx_unpack_tuple2_exact(tuple, value1, value2, decref_tuple) : \ (__Pyx_UnpackTupleError(tuple, 2), -1)) : \ __Pyx_unpack_tuple2_generic(tuple, value1, value2, has_known_size, decref_tuple)) static CYTHON_INLINE int __Pyx_unpack_tuple2_exact( PyObject* tuple, PyObject** value1, PyObject** value2, int decref_tuple); static int __Pyx_unpack_tuple2_generic( PyObject* tuple, PyObject** value1, PyObject** value2, int has_known_size, int decref_tuple); /////////////// UnpackTuple2 /////////////// //@requires: UnpackItemEndCheck //@requires: UnpackTupleError //@requires: RaiseNeedMoreValuesToUnpack static CYTHON_INLINE int __Pyx_unpack_tuple2_exact( PyObject* tuple, PyObject** pvalue1, PyObject** pvalue2, int decref_tuple) { PyObject *value1 = NULL, *value2 = NULL; #if CYTHON_COMPILING_IN_PYPY value1 = PySequence_ITEM(tuple, 0); if (unlikely(!value1)) goto bad; value2 = PySequence_ITEM(tuple, 1); if (unlikely(!value2)) goto bad; #else value1 = PyTuple_GET_ITEM(tuple, 0); Py_INCREF(value1); value2 = PyTuple_GET_ITEM(tuple, 1); Py_INCREF(value2); #endif if (decref_tuple) { Py_DECREF(tuple); } *pvalue1 = value1; *pvalue2 = value2; return 0; #if CYTHON_COMPILING_IN_PYPY bad: Py_XDECREF(value1); Py_XDECREF(value2); if (decref_tuple) { Py_XDECREF(tuple); } return -1; #endif } static int __Pyx_unpack_tuple2_generic(PyObject* tuple, PyObject** pvalue1, PyObject** pvalue2, int has_known_size, int decref_tuple) { Py_ssize_t index; PyObject *value1 = NULL, *value2 = NULL, *iter = NULL; iternextfunc iternext; iter = PyObject_GetIter(tuple); if (unlikely(!iter)) goto bad; if (decref_tuple) { Py_DECREF(tuple); tuple = NULL; } iternext = __Pyx_PyObject_GetIterNextFunc(iter); value1 = iternext(iter); if (unlikely(!value1)) { index = 0; goto unpacking_failed; } value2 = iternext(iter); if (unlikely(!value2)) { index = 1; goto unpacking_failed; } if (!has_known_size && unlikely(__Pyx_IternextUnpackEndCheck(iternext(iter), 2))) goto bad; Py_DECREF(iter); *pvalue1 = value1; *pvalue2 = value2; return 0; unpacking_failed: if (!has_known_size && __Pyx_IterFinish() == 0) __Pyx_RaiseNeedMoreValuesError(index); bad: Py_XDECREF(iter); Py_XDECREF(value1); Py_XDECREF(value2); if (decref_tuple) { Py_XDECREF(tuple); } return -1; } /////////////// IterNext.proto /////////////// #define __Pyx_PyIter_Next(obj) __Pyx_PyIter_Next2(obj, NULL) static CYTHON_INLINE PyObject *__Pyx_PyIter_Next2(PyObject *, PyObject *); /*proto*/ /////////////// IterNext /////////////// //@requires: Exceptions.c::PyThreadStateGet //@requires: Exceptions.c::PyErrFetchRestore static PyObject *__Pyx_PyIter_Next2Default(PyObject* defval) { PyObject* exc_type; __Pyx_PyThreadState_declare __Pyx_PyThreadState_assign exc_type = __Pyx_PyErr_CurrentExceptionType(); if (unlikely(exc_type)) { if (!defval || unlikely(!__Pyx_PyErr_GivenExceptionMatches(exc_type, PyExc_StopIteration))) return NULL; __Pyx_PyErr_Clear(); Py_INCREF(defval); return defval; } if (defval) { Py_INCREF(defval); return defval; } __Pyx_PyErr_SetNone(PyExc_StopIteration); return NULL; } static void __Pyx_PyIter_Next_ErrorNoIterator(PyObject *iterator) { __Pyx_TypeName iterator_type_name = __Pyx_PyType_GetName(Py_TYPE(iterator)); PyErr_Format(PyExc_TypeError, __Pyx_FMT_TYPENAME " object is not an iterator", iterator_type_name); __Pyx_DECREF_TypeName(iterator_type_name); } // originally copied from Py3's builtin_next() static CYTHON_INLINE PyObject *__Pyx_PyIter_Next2(PyObject* iterator, PyObject* defval) { PyObject* next; // We always do a quick slot check because calling PyIter_Check() is so wasteful. iternextfunc iternext = Py_TYPE(iterator)->tp_iternext; if (likely(iternext)) { #if CYTHON_USE_TYPE_SLOTS || CYTHON_COMPILING_IN_PYPY next = iternext(iterator); if (likely(next)) return next; #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX < 0x030d0000 if (unlikely(iternext == &_PyObject_NextNotImplemented)) return NULL; #endif #else // Since the slot was set, assume that PyIter_Next() will likely succeed, and properly fail otherwise. // Note: PyIter_Next() crashes in CPython if "tp_iternext" is NULL. next = PyIter_Next(iterator); if (likely(next)) return next; #endif } else if (CYTHON_USE_TYPE_SLOTS || unlikely(!PyIter_Check(iterator))) { // If CYTHON_USE_TYPE_SLOTS, then the slot was not set and we don't have an iterable. // Otherwise, don't trust "tp_iternext" and rely on PyIter_Check(). __Pyx_PyIter_Next_ErrorNoIterator(iterator); return NULL; } #if !CYTHON_USE_TYPE_SLOTS else { // We have an iterator with an empty "tp_iternext", but didn't call next() on it yet. next = PyIter_Next(iterator); if (likely(next)) return next; } #endif return __Pyx_PyIter_Next2Default(defval); } /////////////// IterFinish.proto /////////////// static CYTHON_INLINE int __Pyx_IterFinish(void); /*proto*/ /////////////// IterFinish /////////////// //@requires: Exceptions.c::PyThreadStateGet //@requires: Exceptions.c::PyErrFetchRestore // When PyIter_Next(iter) has returned NULL in order to signal termination, // this function does the right cleanup and returns 0 on success. If it // detects an error that occurred in the iterator, it returns -1. static CYTHON_INLINE int __Pyx_IterFinish(void) { PyObject* exc_type; __Pyx_PyThreadState_declare __Pyx_PyThreadState_assign exc_type = __Pyx_PyErr_CurrentExceptionType(); if (unlikely(exc_type)) { if (unlikely(!__Pyx_PyErr_GivenExceptionMatches(exc_type, PyExc_StopIteration))) return -1; __Pyx_PyErr_Clear(); return 0; } return 0; } /////////////// ObjectGetItem.proto /////////////// #if CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE PyObject *__Pyx_PyObject_GetItem(PyObject *obj, PyObject *key);/*proto*/ #else #define __Pyx_PyObject_GetItem(obj, key) PyObject_GetItem(obj, key) #endif /////////////// ObjectGetItem /////////////// // //@requires: GetItemInt - added in IndexNode as it uses templating. //@requires: PyObjectGetAttrStrNoError //@requires: PyObjectCallOneArg #if CYTHON_USE_TYPE_SLOTS static PyObject *__Pyx_PyObject_GetIndex(PyObject *obj, PyObject *index) { // Get element from sequence object `obj` at index `index`. PyObject *runerr = NULL; Py_ssize_t key_value; key_value = __Pyx_PyIndex_AsSsize_t(index); if (likely(key_value != -1 || !(runerr = PyErr_Occurred()))) { return __Pyx_GetItemInt_Fast(obj, key_value, 0, 1, 1); } // Error handling code -- only manage OverflowError differently. if (PyErr_GivenExceptionMatches(runerr, PyExc_OverflowError)) { __Pyx_TypeName index_type_name = __Pyx_PyType_GetName(Py_TYPE(index)); PyErr_Clear(); PyErr_Format(PyExc_IndexError, "cannot fit '" __Pyx_FMT_TYPENAME "' into an index-sized integer", index_type_name); __Pyx_DECREF_TypeName(index_type_name); } return NULL; } static PyObject *__Pyx_PyObject_GetItem_Slow(PyObject *obj, PyObject *key) { __Pyx_TypeName obj_type_name; // Handles less common slow-path checks for GetItem if (likely(PyType_Check(obj))) { PyObject *meth = __Pyx_PyObject_GetAttrStrNoError(obj, PYIDENT("__class_getitem__")); if (!meth) { PyErr_Clear(); } else { PyObject *result = __Pyx_PyObject_CallOneArg(meth, key); Py_DECREF(meth); return result; } } obj_type_name = __Pyx_PyType_GetName(Py_TYPE(obj)); PyErr_Format(PyExc_TypeError, "'" __Pyx_FMT_TYPENAME "' object is not subscriptable", obj_type_name); __Pyx_DECREF_TypeName(obj_type_name); return NULL; } static PyObject *__Pyx_PyObject_GetItem(PyObject *obj, PyObject *key) { PyTypeObject *tp = Py_TYPE(obj); PyMappingMethods *mm = tp->tp_as_mapping; PySequenceMethods *sm = tp->tp_as_sequence; if (likely(mm && mm->mp_subscript)) { return mm->mp_subscript(obj, key); } if (likely(sm && sm->sq_item)) { return __Pyx_PyObject_GetIndex(obj, key); } return __Pyx_PyObject_GetItem_Slow(obj, key); } #endif /////////////// DictGetItem.proto /////////////// #if PY_MAJOR_VERSION >= 3 && !CYTHON_COMPILING_IN_PYPY static PyObject *__Pyx_PyDict_GetItem(PyObject *d, PyObject* key);/*proto*/ #define __Pyx_PyObject_Dict_GetItem(obj, name) \ (likely(PyDict_CheckExact(obj)) ? \ __Pyx_PyDict_GetItem(obj, name) : PyObject_GetItem(obj, name)) #else #define __Pyx_PyDict_GetItem(d, key) PyObject_GetItem(d, key) #define __Pyx_PyObject_Dict_GetItem(obj, name) PyObject_GetItem(obj, name) #endif /////////////// DictGetItem /////////////// #if PY_MAJOR_VERSION >= 3 && !CYTHON_COMPILING_IN_PYPY static PyObject *__Pyx_PyDict_GetItem(PyObject *d, PyObject* key) { PyObject *value; value = PyDict_GetItemWithError(d, key); if (unlikely(!value)) { if (!PyErr_Occurred()) { if (unlikely(PyTuple_Check(key))) { // CPython interprets tuples as separate arguments => must wrap them in another tuple. PyObject* args = PyTuple_Pack(1, key); if (likely(args)) { PyErr_SetObject(PyExc_KeyError, args); Py_DECREF(args); } } else { // Avoid tuple packing if possible. PyErr_SetObject(PyExc_KeyError, key); } } return NULL; } Py_INCREF(value); return value; } #endif /////////////// GetItemInt.proto /////////////// //@substitute: tempita #define __Pyx_GetItemInt(o, i, type, is_signed, to_py_func, is_list, wraparound, boundscheck) \ (__Pyx_fits_Py_ssize_t(i, type, is_signed) ? \ __Pyx_GetItemInt_Fast(o, (Py_ssize_t)i, is_list, wraparound, boundscheck) : \ (is_list ? (PyErr_SetString(PyExc_IndexError, "list index out of range"), (PyObject*)NULL) : \ __Pyx_GetItemInt_Generic(o, to_py_func(i)))) {{for type in ['List', 'Tuple']}} #define __Pyx_GetItemInt_{{type}}(o, i, type, is_signed, to_py_func, is_list, wraparound, boundscheck) \ (__Pyx_fits_Py_ssize_t(i, type, is_signed) ? \ __Pyx_GetItemInt_{{type}}_Fast(o, (Py_ssize_t)i, wraparound, boundscheck) : \ (PyErr_SetString(PyExc_IndexError, "{{ type.lower() }} index out of range"), (PyObject*)NULL)) static CYTHON_INLINE PyObject *__Pyx_GetItemInt_{{type}}_Fast(PyObject *o, Py_ssize_t i, int wraparound, int boundscheck); {{endfor}} static PyObject *__Pyx_GetItemInt_Generic(PyObject *o, PyObject* j); static CYTHON_INLINE PyObject *__Pyx_GetItemInt_Fast(PyObject *o, Py_ssize_t i, int is_list, int wraparound, int boundscheck); /////////////// GetItemInt /////////////// //@substitute: tempita static PyObject *__Pyx_GetItemInt_Generic(PyObject *o, PyObject* j) { PyObject *r; if (unlikely(!j)) return NULL; r = PyObject_GetItem(o, j); Py_DECREF(j); return r; } {{for type in ['List', 'Tuple']}} static CYTHON_INLINE PyObject *__Pyx_GetItemInt_{{type}}_Fast(PyObject *o, Py_ssize_t i, CYTHON_NCP_UNUSED int wraparound, CYTHON_NCP_UNUSED int boundscheck) { #if CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS Py_ssize_t wrapped_i = i; if (wraparound & unlikely(i < 0)) { wrapped_i += Py{{type}}_GET_SIZE(o); } if ((!boundscheck) || likely(__Pyx_is_valid_index(wrapped_i, Py{{type}}_GET_SIZE(o)))) { PyObject *r = Py{{type}}_GET_ITEM(o, wrapped_i); Py_INCREF(r); return r; } return __Pyx_GetItemInt_Generic(o, PyInt_FromSsize_t(i)); #else return PySequence_GetItem(o, i); #endif } {{endfor}} static CYTHON_INLINE PyObject *__Pyx_GetItemInt_Fast(PyObject *o, Py_ssize_t i, int is_list, CYTHON_NCP_UNUSED int wraparound, CYTHON_NCP_UNUSED int boundscheck) { #if CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS && CYTHON_USE_TYPE_SLOTS if (is_list || PyList_CheckExact(o)) { Py_ssize_t n = ((!wraparound) | likely(i >= 0)) ? i : i + PyList_GET_SIZE(o); if ((!boundscheck) || (likely(__Pyx_is_valid_index(n, PyList_GET_SIZE(o))))) { PyObject *r = PyList_GET_ITEM(o, n); Py_INCREF(r); return r; } } else if (PyTuple_CheckExact(o)) { Py_ssize_t n = ((!wraparound) | likely(i >= 0)) ? i : i + PyTuple_GET_SIZE(o); if ((!boundscheck) || likely(__Pyx_is_valid_index(n, PyTuple_GET_SIZE(o)))) { PyObject *r = PyTuple_GET_ITEM(o, n); Py_INCREF(r); return r; } } else { // inlined PySequence_GetItem() + special cased length overflow PyMappingMethods *mm = Py_TYPE(o)->tp_as_mapping; PySequenceMethods *sm = Py_TYPE(o)->tp_as_sequence; if (mm && mm->mp_subscript) { PyObject *r, *key = PyInt_FromSsize_t(i); if (unlikely(!key)) return NULL; r = mm->mp_subscript(o, key); Py_DECREF(key); return r; } if (likely(sm && sm->sq_item)) { if (wraparound && unlikely(i < 0) && likely(sm->sq_length)) { Py_ssize_t l = sm->sq_length(o); if (likely(l >= 0)) { i += l; } else { // if length > max(Py_ssize_t), maybe the object can wrap around itself? if (!PyErr_ExceptionMatches(PyExc_OverflowError)) return NULL; PyErr_Clear(); } } return sm->sq_item(o, i); } } #else // PySequence_GetItem behaves differently to PyObject_GetItem for i<0 // and possibly some other cases so can't generally be substituted if (is_list || !PyMapping_Check(o)) { return PySequence_GetItem(o, i); } #endif return __Pyx_GetItemInt_Generic(o, PyInt_FromSsize_t(i)); } /////////////// SetItemInt.proto /////////////// #define __Pyx_SetItemInt(o, i, v, type, is_signed, to_py_func, is_list, wraparound, boundscheck) \ (__Pyx_fits_Py_ssize_t(i, type, is_signed) ? \ __Pyx_SetItemInt_Fast(o, (Py_ssize_t)i, v, is_list, wraparound, boundscheck) : \ (is_list ? (PyErr_SetString(PyExc_IndexError, "list assignment index out of range"), -1) : \ __Pyx_SetItemInt_Generic(o, to_py_func(i), v))) static int __Pyx_SetItemInt_Generic(PyObject *o, PyObject *j, PyObject *v); static CYTHON_INLINE int __Pyx_SetItemInt_Fast(PyObject *o, Py_ssize_t i, PyObject *v, int is_list, int wraparound, int boundscheck); /////////////// SetItemInt /////////////// static int __Pyx_SetItemInt_Generic(PyObject *o, PyObject *j, PyObject *v) { int r; if (unlikely(!j)) return -1; r = PyObject_SetItem(o, j, v); Py_DECREF(j); return r; } static CYTHON_INLINE int __Pyx_SetItemInt_Fast(PyObject *o, Py_ssize_t i, PyObject *v, int is_list, CYTHON_NCP_UNUSED int wraparound, CYTHON_NCP_UNUSED int boundscheck) { #if CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS && CYTHON_USE_TYPE_SLOTS if (is_list || PyList_CheckExact(o)) { Py_ssize_t n = (!wraparound) ? i : ((likely(i >= 0)) ? i : i + PyList_GET_SIZE(o)); if ((!boundscheck) || likely(__Pyx_is_valid_index(n, PyList_GET_SIZE(o)))) { PyObject* old = PyList_GET_ITEM(o, n); Py_INCREF(v); PyList_SET_ITEM(o, n, v); Py_DECREF(old); return 1; } } else { // inlined PySequence_SetItem() + special cased length overflow PyMappingMethods *mm = Py_TYPE(o)->tp_as_mapping; PySequenceMethods *sm = Py_TYPE(o)->tp_as_sequence; if (mm && mm->mp_ass_subscript) { int r; PyObject *key = PyInt_FromSsize_t(i); if (unlikely(!key)) return -1; r = mm->mp_ass_subscript(o, key, v); Py_DECREF(key); return r; } if (likely(sm && sm->sq_ass_item)) { if (wraparound && unlikely(i < 0) && likely(sm->sq_length)) { Py_ssize_t l = sm->sq_length(o); if (likely(l >= 0)) { i += l; } else { // if length > max(Py_ssize_t), maybe the object can wrap around itself? if (!PyErr_ExceptionMatches(PyExc_OverflowError)) return -1; PyErr_Clear(); } } return sm->sq_ass_item(o, i, v); } } #else // PySequence_SetItem behaves differently to PyObject_SetItem for i<0 // and possibly some other cases so can't generally be substituted if (is_list || !PyMapping_Check(o)) { return PySequence_SetItem(o, i, v); } #endif return __Pyx_SetItemInt_Generic(o, PyInt_FromSsize_t(i), v); } /////////////// DelItemInt.proto /////////////// #define __Pyx_DelItemInt(o, i, type, is_signed, to_py_func, is_list, wraparound, boundscheck) \ (__Pyx_fits_Py_ssize_t(i, type, is_signed) ? \ __Pyx_DelItemInt_Fast(o, (Py_ssize_t)i, is_list, wraparound) : \ (is_list ? (PyErr_SetString(PyExc_IndexError, "list assignment index out of range"), -1) : \ __Pyx_DelItem_Generic(o, to_py_func(i)))) static int __Pyx_DelItem_Generic(PyObject *o, PyObject *j); static CYTHON_INLINE int __Pyx_DelItemInt_Fast(PyObject *o, Py_ssize_t i, int is_list, int wraparound); /////////////// DelItemInt /////////////// static int __Pyx_DelItem_Generic(PyObject *o, PyObject *j) { int r; if (unlikely(!j)) return -1; r = PyObject_DelItem(o, j); Py_DECREF(j); return r; } static CYTHON_INLINE int __Pyx_DelItemInt_Fast(PyObject *o, Py_ssize_t i, int is_list, CYTHON_NCP_UNUSED int wraparound) { #if !CYTHON_USE_TYPE_SLOTS // PySequence_DelItem behaves differently to PyObject_DelItem for i<0 // and possibly some other cases so can't generally be substituted if (is_list || !PyMapping_Check(o)) { return PySequence_DelItem(o, i); } #else // inlined PySequence_DelItem() + special cased length overflow PyMappingMethods *mm = Py_TYPE(o)->tp_as_mapping; PySequenceMethods *sm = Py_TYPE(o)->tp_as_sequence; if ((!is_list) && mm && mm->mp_ass_subscript) { PyObject *key = PyInt_FromSsize_t(i); return likely(key) ? mm->mp_ass_subscript(o, key, (PyObject *)NULL) : -1; } if (likely(sm && sm->sq_ass_item)) { if (wraparound && unlikely(i < 0) && likely(sm->sq_length)) { Py_ssize_t l = sm->sq_length(o); if (likely(l >= 0)) { i += l; } else { // if length > max(Py_ssize_t), maybe the object can wrap around itself? if (!PyErr_ExceptionMatches(PyExc_OverflowError)) return -1; PyErr_Clear(); } } return sm->sq_ass_item(o, i, (PyObject *)NULL); } #endif return __Pyx_DelItem_Generic(o, PyInt_FromSsize_t(i)); } /////////////// SliceObject.proto /////////////// // we pass pointer addresses to show the C compiler what is NULL and what isn't {{if access == 'Get'}} static CYTHON_INLINE PyObject* __Pyx_PyObject_GetSlice( PyObject* obj, Py_ssize_t cstart, Py_ssize_t cstop, PyObject** py_start, PyObject** py_stop, PyObject** py_slice, int has_cstart, int has_cstop, int wraparound); {{else}} #define __Pyx_PyObject_DelSlice(obj, cstart, cstop, py_start, py_stop, py_slice, has_cstart, has_cstop, wraparound) \ __Pyx_PyObject_SetSlice(obj, (PyObject*)NULL, cstart, cstop, py_start, py_stop, py_slice, has_cstart, has_cstop, wraparound) // we pass pointer addresses to show the C compiler what is NULL and what isn't static CYTHON_INLINE int __Pyx_PyObject_SetSlice( PyObject* obj, PyObject* value, Py_ssize_t cstart, Py_ssize_t cstop, PyObject** py_start, PyObject** py_stop, PyObject** py_slice, int has_cstart, int has_cstop, int wraparound); {{endif}} /////////////// SliceObject /////////////// {{if access == 'Get'}} static CYTHON_INLINE PyObject* __Pyx_PyObject_GetSlice(PyObject* obj, {{else}} static CYTHON_INLINE int __Pyx_PyObject_SetSlice(PyObject* obj, PyObject* value, {{endif}} Py_ssize_t cstart, Py_ssize_t cstop, PyObject** _py_start, PyObject** _py_stop, PyObject** _py_slice, int has_cstart, int has_cstop, int wraparound) { __Pyx_TypeName obj_type_name; #if CYTHON_USE_TYPE_SLOTS PyMappingMethods* mp; #if PY_MAJOR_VERSION < 3 PySequenceMethods* ms = Py_TYPE(obj)->tp_as_sequence; if (likely(ms && ms->sq_{{if access == 'Set'}}ass_{{endif}}slice)) { if (!has_cstart) { if (_py_start && (*_py_start != Py_None)) { cstart = __Pyx_PyIndex_AsSsize_t(*_py_start); if ((cstart == (Py_ssize_t)-1) && PyErr_Occurred()) goto bad; } else cstart = 0; } if (!has_cstop) { if (_py_stop && (*_py_stop != Py_None)) { cstop = __Pyx_PyIndex_AsSsize_t(*_py_stop); if ((cstop == (Py_ssize_t)-1) && PyErr_Occurred()) goto bad; } else cstop = PY_SSIZE_T_MAX; } if (wraparound && unlikely((cstart < 0) | (cstop < 0)) && likely(ms->sq_length)) { Py_ssize_t l = ms->sq_length(obj); if (likely(l >= 0)) { if (cstop < 0) { cstop += l; if (cstop < 0) cstop = 0; } if (cstart < 0) { cstart += l; if (cstart < 0) cstart = 0; } } else { // if length > max(Py_ssize_t), maybe the object can wrap around itself? if (!PyErr_ExceptionMatches(PyExc_OverflowError)) goto bad; PyErr_Clear(); } } {{if access == 'Get'}} return ms->sq_slice(obj, cstart, cstop); {{else}} return ms->sq_ass_slice(obj, cstart, cstop, value); {{endif}} } #else CYTHON_UNUSED_VAR(wraparound); #endif mp = Py_TYPE(obj)->tp_as_mapping; {{if access == 'Get'}} if (likely(mp && mp->mp_subscript)) {{else}} if (likely(mp && mp->mp_ass_subscript)) {{endif}} #else CYTHON_UNUSED_VAR(wraparound); #endif { {{if access == 'Get'}}PyObject*{{else}}int{{endif}} result; PyObject *py_slice, *py_start, *py_stop; if (_py_slice) { py_slice = *_py_slice; } else { PyObject* owned_start = NULL; PyObject* owned_stop = NULL; if (_py_start) { py_start = *_py_start; } else { if (has_cstart) { owned_start = py_start = PyInt_FromSsize_t(cstart); if (unlikely(!py_start)) goto bad; } else py_start = Py_None; } if (_py_stop) { py_stop = *_py_stop; } else { if (has_cstop) { owned_stop = py_stop = PyInt_FromSsize_t(cstop); if (unlikely(!py_stop)) { Py_XDECREF(owned_start); goto bad; } } else py_stop = Py_None; } py_slice = PySlice_New(py_start, py_stop, Py_None); Py_XDECREF(owned_start); Py_XDECREF(owned_stop); if (unlikely(!py_slice)) goto bad; } #if CYTHON_USE_TYPE_SLOTS {{if access == 'Get'}} result = mp->mp_subscript(obj, py_slice); #else result = PyObject_GetItem(obj, py_slice); {{else}} result = mp->mp_ass_subscript(obj, py_slice, value); #else result = value ? PyObject_SetItem(obj, py_slice, value) : PyObject_DelItem(obj, py_slice); {{endif}} #endif if (!_py_slice) { Py_DECREF(py_slice); } return result; } obj_type_name = __Pyx_PyType_GetName(Py_TYPE(obj)); PyErr_Format(PyExc_TypeError, {{if access == 'Get'}} "'" __Pyx_FMT_TYPENAME "' object is unsliceable", obj_type_name); {{else}} "'" __Pyx_FMT_TYPENAME "' object does not support slice %.10s", obj_type_name, value ? "assignment" : "deletion"); {{endif}} __Pyx_DECREF_TypeName(obj_type_name); bad: return {{if access == 'Get'}}NULL{{else}}-1{{endif}}; } /////////////// TupleAndListFromArray.proto /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyList_FromArray(PyObject *const *src, Py_ssize_t n); static CYTHON_INLINE PyObject* __Pyx_PyTuple_FromArray(PyObject *const *src, Py_ssize_t n); #endif /////////////// TupleAndListFromArray /////////////// //@substitute: naming #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE void __Pyx_copy_object_array(PyObject *const *CYTHON_RESTRICT src, PyObject** CYTHON_RESTRICT dest, Py_ssize_t length) { PyObject *v; Py_ssize_t i; for (i = 0; i < length; i++) { v = dest[i] = src[i]; Py_INCREF(v); } } static CYTHON_INLINE PyObject * __Pyx_PyTuple_FromArray(PyObject *const *src, Py_ssize_t n) { PyObject *res; if (n <= 0) { Py_INCREF($empty_tuple); return $empty_tuple; } res = PyTuple_New(n); if (unlikely(res == NULL)) return NULL; __Pyx_copy_object_array(src, ((PyTupleObject*)res)->ob_item, n); return res; } static CYTHON_INLINE PyObject * __Pyx_PyList_FromArray(PyObject *const *src, Py_ssize_t n) { PyObject *res; if (n <= 0) { return PyList_New(0); } res = PyList_New(n); if (unlikely(res == NULL)) return NULL; __Pyx_copy_object_array(src, ((PyListObject*)res)->ob_item, n); return res; } #endif /////////////// SliceTupleAndList.proto /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyList_GetSlice(PyObject* src, Py_ssize_t start, Py_ssize_t stop); static CYTHON_INLINE PyObject* __Pyx_PyTuple_GetSlice(PyObject* src, Py_ssize_t start, Py_ssize_t stop); #else #define __Pyx_PyList_GetSlice(seq, start, stop) PySequence_GetSlice(seq, start, stop) #define __Pyx_PyTuple_GetSlice(seq, start, stop) PySequence_GetSlice(seq, start, stop) #endif /////////////// SliceTupleAndList /////////////// //@requires: TupleAndListFromArray //@substitute: tempita #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE void __Pyx_crop_slice(Py_ssize_t* _start, Py_ssize_t* _stop, Py_ssize_t* _length) { Py_ssize_t start = *_start, stop = *_stop, length = *_length; if (start < 0) { start += length; if (start < 0) start = 0; } if (stop < 0) stop += length; else if (stop > length) stop = length; *_length = stop - start; *_start = start; *_stop = stop; } {{for type in ['List', 'Tuple']}} static CYTHON_INLINE PyObject* __Pyx_Py{{type}}_GetSlice( PyObject* src, Py_ssize_t start, Py_ssize_t stop) { Py_ssize_t length = Py{{type}}_GET_SIZE(src); __Pyx_crop_slice(&start, &stop, &length); {{if type=='List'}} if (length <= 0) { // Avoid undefined behaviour when accessing `ob_item` of an empty list. return PyList_New(0); } {{endif}} return __Pyx_Py{{type}}_FromArray(((Py{{type}}Object*)src)->ob_item + start, length); } {{endfor}} #endif /////////////// CalculateMetaclass.proto /////////////// static PyObject *__Pyx_CalculateMetaclass(PyTypeObject *metaclass, PyObject *bases); /////////////// CalculateMetaclass /////////////// static PyObject *__Pyx_CalculateMetaclass(PyTypeObject *metaclass, PyObject *bases) { Py_ssize_t i, nbases; #if CYTHON_ASSUME_SAFE_MACROS nbases = PyTuple_GET_SIZE(bases); #else nbases = PyTuple_Size(bases); if (nbases < 0) return NULL; #endif for (i=0; i < nbases; i++) { PyTypeObject *tmptype; #if CYTHON_ASSUME_SAFE_MACROS PyObject *tmp = PyTuple_GET_ITEM(bases, i); #else PyObject *tmp = PyTuple_GetItem(bases, i); if (!tmp) return NULL; #endif tmptype = Py_TYPE(tmp); #if PY_MAJOR_VERSION < 3 if (tmptype == &PyClass_Type) continue; #endif if (!metaclass) { metaclass = tmptype; continue; } if (PyType_IsSubtype(metaclass, tmptype)) continue; if (PyType_IsSubtype(tmptype, metaclass)) { metaclass = tmptype; continue; } // else: PyErr_SetString(PyExc_TypeError, "metaclass conflict: " "the metaclass of a derived class " "must be a (non-strict) subclass " "of the metaclasses of all its bases"); return NULL; } if (!metaclass) { #if PY_MAJOR_VERSION < 3 metaclass = &PyClass_Type; #else metaclass = &PyType_Type; #endif } // make owned reference Py_INCREF((PyObject*) metaclass); return (PyObject*) metaclass; } /////////////// FindInheritedMetaclass.proto /////////////// static PyObject *__Pyx_FindInheritedMetaclass(PyObject *bases); /*proto*/ /////////////// FindInheritedMetaclass /////////////// //@requires: PyObjectGetAttrStr //@requires: CalculateMetaclass static PyObject *__Pyx_FindInheritedMetaclass(PyObject *bases) { PyObject *metaclass; if (PyTuple_Check(bases) && PyTuple_GET_SIZE(bases) > 0) { PyTypeObject *metatype; #if CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS PyObject *base = PyTuple_GET_ITEM(bases, 0); #else PyObject *base = PySequence_ITEM(bases, 0); #endif #if PY_MAJOR_VERSION < 3 PyObject* basetype = __Pyx_PyObject_GetAttrStr(base, PYIDENT("__class__")); if (basetype) { metatype = (PyType_Check(basetype)) ? ((PyTypeObject*) basetype) : NULL; } else { PyErr_Clear(); metatype = Py_TYPE(base); basetype = (PyObject*) metatype; Py_INCREF(basetype); } #else metatype = Py_TYPE(base); #endif metaclass = __Pyx_CalculateMetaclass(metatype, bases); #if !(CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS) Py_DECREF(base); #endif #if PY_MAJOR_VERSION < 3 Py_DECREF(basetype); #endif } else { // no bases => use default metaclass #if PY_MAJOR_VERSION < 3 metaclass = (PyObject *) &PyClass_Type; #else metaclass = (PyObject *) &PyType_Type; #endif Py_INCREF(metaclass); } return metaclass; } /////////////// Py3MetaclassGet.proto /////////////// static PyObject *__Pyx_Py3MetaclassGet(PyObject *bases, PyObject *mkw); /*proto*/ /////////////// Py3MetaclassGet /////////////// //@requires: FindInheritedMetaclass //@requires: CalculateMetaclass static PyObject *__Pyx_Py3MetaclassGet(PyObject *bases, PyObject *mkw) { PyObject *metaclass = mkw ? __Pyx_PyDict_GetItemStr(mkw, PYIDENT("metaclass")) : NULL; if (metaclass) { Py_INCREF(metaclass); if (PyDict_DelItem(mkw, PYIDENT("metaclass")) < 0) { Py_DECREF(metaclass); return NULL; } if (PyType_Check(metaclass)) { PyObject* orig = metaclass; metaclass = __Pyx_CalculateMetaclass((PyTypeObject*) metaclass, bases); Py_DECREF(orig); } return metaclass; } return __Pyx_FindInheritedMetaclass(bases); } /////////////// CreateClass.proto /////////////// static PyObject *__Pyx_CreateClass(PyObject *bases, PyObject *dict, PyObject *name, PyObject *qualname, PyObject *modname); /*proto*/ /////////////// CreateClass /////////////// //@requires: FindInheritedMetaclass //@requires: CalculateMetaclass static PyObject *__Pyx_CreateClass(PyObject *bases, PyObject *dict, PyObject *name, PyObject *qualname, PyObject *modname) { PyObject *result; PyObject *metaclass; if (unlikely(PyDict_SetItem(dict, PYIDENT("__module__"), modname) < 0)) return NULL; #if PY_VERSION_HEX >= 0x03030000 if (unlikely(PyDict_SetItem(dict, PYIDENT("__qualname__"), qualname) < 0)) return NULL; #else CYTHON_MAYBE_UNUSED_VAR(qualname); #endif /* Python2 __metaclass__ */ metaclass = __Pyx_PyDict_GetItemStr(dict, PYIDENT("__metaclass__")); if (metaclass) { Py_INCREF(metaclass); if (PyType_Check(metaclass)) { PyObject* orig = metaclass; metaclass = __Pyx_CalculateMetaclass((PyTypeObject*) metaclass, bases); Py_DECREF(orig); } } else { metaclass = __Pyx_FindInheritedMetaclass(bases); } if (unlikely(!metaclass)) return NULL; result = PyObject_CallFunctionObjArgs(metaclass, name, bases, dict, NULL); Py_DECREF(metaclass); return result; } /////////////// Py3UpdateBases.proto /////////////// static PyObject* __Pyx_PEP560_update_bases(PyObject *bases); /* proto */ /////////////// Py3UpdateBases ///////////////////// //@requires: PyObjectCallOneArg //@requires: PyObjectGetAttrStrNoError /* Shamelessly adapted from cpython/bltinmodule.c update_bases */ static PyObject* __Pyx_PEP560_update_bases(PyObject *bases) { Py_ssize_t i, j, size_bases; PyObject *base, *meth, *new_base, *result, *new_bases = NULL; /*assert(PyTuple_Check(bases));*/ size_bases = PyTuple_GET_SIZE(bases); for (i = 0; i < size_bases; i++) { // original code in CPython: base = args[i]; base = PyTuple_GET_ITEM(bases, i); if (PyType_Check(base)) { if (new_bases) { // If we already have made a replacement, then we append every normal base, // otherwise just skip it. if (PyList_Append(new_bases, base) < 0) { goto error; } } continue; } // original code in CPython: // if (_PyObject_LookupAttrId(base, &PyId___mro_entries__, &meth) < 0) { meth = __Pyx_PyObject_GetAttrStrNoError(base, PYIDENT("__mro_entries__")); if (!meth && PyErr_Occurred()) { goto error; } if (!meth) { if (new_bases) { if (PyList_Append(new_bases, base) < 0) { goto error; } } continue; } new_base = __Pyx_PyObject_CallOneArg(meth, bases); Py_DECREF(meth); if (!new_base) { goto error; } if (!PyTuple_Check(new_base)) { PyErr_SetString(PyExc_TypeError, "__mro_entries__ must return a tuple"); Py_DECREF(new_base); goto error; } if (!new_bases) { // If this is a first successful replacement, create new_bases list and // copy previously encountered bases. if (!(new_bases = PyList_New(i))) { goto error; } for (j = 0; j < i; j++) { // original code in CPython: base = args[j]; base = PyTuple_GET_ITEM(bases, j); PyList_SET_ITEM(new_bases, j, base); Py_INCREF(base); } } j = PyList_GET_SIZE(new_bases); if (PyList_SetSlice(new_bases, j, j, new_base) < 0) { goto error; } Py_DECREF(new_base); } if (!new_bases) { // unlike the CPython implementation, always return a new reference Py_INCREF(bases); return bases; } result = PyList_AsTuple(new_bases); Py_DECREF(new_bases); return result; error: Py_XDECREF(new_bases); return NULL; } /////////////// Py3ClassCreate.proto /////////////// static PyObject *__Pyx_Py3MetaclassPrepare(PyObject *metaclass, PyObject *bases, PyObject *name, PyObject *qualname, PyObject *mkw, PyObject *modname, PyObject *doc); /*proto*/ static PyObject *__Pyx_Py3ClassCreate(PyObject *metaclass, PyObject *name, PyObject *bases, PyObject *dict, PyObject *mkw, int calculate_metaclass, int allow_py2_metaclass); /*proto*/ /////////////// Py3ClassCreate /////////////// //@substitute: naming //@requires: PyObjectGetAttrStrNoError //@requires: CalculateMetaclass //@requires: PyObjectFastCall //@requires: PyObjectCall2Args //@requires: PyObjectLookupSpecial // only in fallback code: //@requires: GetBuiltinName static PyObject *__Pyx_Py3MetaclassPrepare(PyObject *metaclass, PyObject *bases, PyObject *name, PyObject *qualname, PyObject *mkw, PyObject *modname, PyObject *doc) { PyObject *ns; if (metaclass) { PyObject *prep = __Pyx_PyObject_GetAttrStrNoError(metaclass, PYIDENT("__prepare__")); if (prep) { PyObject *pargs[3] = {NULL, name, bases}; ns = __Pyx_PyObject_FastCallDict(prep, pargs+1, 2 | __Pyx_PY_VECTORCALL_ARGUMENTS_OFFSET, mkw); Py_DECREF(prep); } else { if (unlikely(PyErr_Occurred())) return NULL; ns = PyDict_New(); } } else { ns = PyDict_New(); } if (unlikely(!ns)) return NULL; /* Required here to emulate assignment order */ if (unlikely(PyObject_SetItem(ns, PYIDENT("__module__"), modname) < 0)) goto bad; #if PY_VERSION_HEX >= 0x03030000 if (unlikely(PyObject_SetItem(ns, PYIDENT("__qualname__"), qualname) < 0)) goto bad; #else CYTHON_MAYBE_UNUSED_VAR(qualname); #endif if (unlikely(doc && PyObject_SetItem(ns, PYIDENT("__doc__"), doc) < 0)) goto bad; return ns; bad: Py_DECREF(ns); return NULL; } #if PY_VERSION_HEX < 0x030600A4 && CYTHON_PEP487_INIT_SUBCLASS // https://www.python.org/dev/peps/pep-0487/ static int __Pyx_SetNamesPEP487(PyObject *type_obj) { PyTypeObject *type = (PyTypeObject*) type_obj; PyObject *names_to_set, *key, *value, *set_name, *tmp; Py_ssize_t i = 0; #if CYTHON_USE_TYPE_SLOTS names_to_set = PyDict_Copy(type->tp_dict); #else { PyObject *d = PyObject_GetAttr(type_obj, PYIDENT("__dict__")); names_to_set = NULL; if (likely(d)) { // d may not be a dict, e.g. PyDictProxy in PyPy2. PyObject *names_to_set = PyDict_New(); int ret = likely(names_to_set) ? PyDict_Update(names_to_set, d) : -1; Py_DECREF(d); if (unlikely(ret < 0)) Py_CLEAR(names_to_set); } } #endif if (unlikely(names_to_set == NULL)) goto bad; while (PyDict_Next(names_to_set, &i, &key, &value)) { set_name = __Pyx_PyObject_LookupSpecialNoError(value, PYIDENT("__set_name__")); if (unlikely(set_name != NULL)) { tmp = __Pyx_PyObject_Call2Args(set_name, type_obj, key); Py_DECREF(set_name); if (unlikely(tmp == NULL)) { __Pyx_TypeName value_type_name = __Pyx_PyType_GetName(Py_TYPE(value)); __Pyx_TypeName type_name = __Pyx_PyType_GetName(type); PyErr_Format(PyExc_RuntimeError, #if PY_MAJOR_VERSION >= 3 "Error calling __set_name__ on '" __Pyx_FMT_TYPENAME "' instance %R " "in '" __Pyx_FMT_TYPENAME "'", value_type_name, key, type_name); #else "Error calling __set_name__ on '" __Pyx_FMT_TYPENAME "' instance %.100s in '" __Pyx_FMT_TYPENAME "'", value_type_name, PyString_Check(key) ? PyString_AS_STRING(key) : "?", type_name); #endif goto bad; } else { Py_DECREF(tmp); } } else if (unlikely(PyErr_Occurred())) { goto bad; } } Py_DECREF(names_to_set); return 0; bad: Py_XDECREF(names_to_set); return -1; } static PyObject *__Pyx_InitSubclassPEP487(PyObject *type_obj, PyObject *mkw) { #if CYTHON_USE_TYPE_SLOTS && CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS // Stripped-down version of "super(type_obj, type_obj).__init_subclass__(**mkw)" in CPython 3.8. PyTypeObject *type = (PyTypeObject*) type_obj; PyObject *mro = type->tp_mro; Py_ssize_t i, nbases; if (unlikely(!mro)) goto done; // avoid "unused" warning (void) &__Pyx_GetBuiltinName; Py_INCREF(mro); nbases = PyTuple_GET_SIZE(mro); // Skip over the type itself and 'object'. assert(PyTuple_GET_ITEM(mro, 0) == type_obj); for (i = 1; i < nbases-1; i++) { PyObject *base, *dict, *meth; base = PyTuple_GET_ITEM(mro, i); dict = ((PyTypeObject *)base)->tp_dict; meth = __Pyx_PyDict_GetItemStrWithError(dict, PYIDENT("__init_subclass__")); if (unlikely(meth)) { descrgetfunc f = Py_TYPE(meth)->tp_descr_get; PyObject *res; Py_INCREF(meth); if (likely(f)) { res = f(meth, NULL, type_obj); Py_DECREF(meth); if (unlikely(!res)) goto bad; meth = res; } res = __Pyx_PyObject_FastCallDict(meth, NULL, 0, mkw); Py_DECREF(meth); if (unlikely(!res)) goto bad; Py_DECREF(res); goto done; } else if (unlikely(PyErr_Occurred())) { goto bad; } } done: Py_XDECREF(mro); return type_obj; bad: Py_XDECREF(mro); Py_DECREF(type_obj); return NULL; // CYTHON_USE_TYPE_SLOTS && CYTHON_ASSUME_SAFE_MACROS && !CYTHON_AVOID_BORROWED_REFS #else // Generic fallback: "super(type_obj, type_obj).__init_subclass__(**mkw)", as used in CPython 3.8. PyObject *super_type, *super, *func, *res; #if CYTHON_COMPILING_IN_PYPY && !defined(PySuper_Type) super_type = __Pyx_GetBuiltinName(PYIDENT("super")); #else super_type = (PyObject*) &PySuper_Type; // avoid "unused" warning (void) &__Pyx_GetBuiltinName; #endif super = likely(super_type) ? __Pyx_PyObject_Call2Args(super_type, type_obj, type_obj) : NULL; #if CYTHON_COMPILING_IN_PYPY && !defined(PySuper_Type) Py_XDECREF(super_type); #endif if (unlikely(!super)) { Py_CLEAR(type_obj); goto done; } func = __Pyx_PyObject_GetAttrStrNoError(super, PYIDENT("__init_subclass__")); Py_DECREF(super); if (likely(!func)) { if (unlikely(PyErr_Occurred())) Py_CLEAR(type_obj); goto done; } res = __Pyx_PyObject_FastCallDict(func, NULL, 0, mkw); Py_DECREF(func); if (unlikely(!res)) Py_CLEAR(type_obj); Py_XDECREF(res); done: return type_obj; #endif } // PY_VERSION_HEX < 0x030600A4 && CYTHON_PEP487_INIT_SUBCLASS #endif static PyObject *__Pyx_Py3ClassCreate(PyObject *metaclass, PyObject *name, PyObject *bases, PyObject *dict, PyObject *mkw, int calculate_metaclass, int allow_py2_metaclass) { PyObject *result; PyObject *owned_metaclass = NULL; PyObject *margs[4] = {NULL, name, bases, dict}; if (allow_py2_metaclass) { /* honour Python2 __metaclass__ for backward compatibility */ owned_metaclass = PyObject_GetItem(dict, PYIDENT("__metaclass__")); if (owned_metaclass) { metaclass = owned_metaclass; } else if (likely(PyErr_ExceptionMatches(PyExc_KeyError))) { PyErr_Clear(); } else { return NULL; } } if (calculate_metaclass && (!metaclass || PyType_Check(metaclass))) { metaclass = __Pyx_CalculateMetaclass((PyTypeObject*) metaclass, bases); Py_XDECREF(owned_metaclass); if (unlikely(!metaclass)) return NULL; owned_metaclass = metaclass; } result = __Pyx_PyObject_FastCallDict(metaclass, margs+1, 3 | __Pyx_PY_VECTORCALL_ARGUMENTS_OFFSET, #if PY_VERSION_HEX < 0x030600A4 // Before PEP-487, type(a,b,c) did not accept any keyword arguments, so guard at least against that case. (metaclass == (PyObject*)&PyType_Type) ? NULL : mkw #else mkw #endif ); Py_XDECREF(owned_metaclass); #if PY_VERSION_HEX < 0x030600A4 && CYTHON_PEP487_INIT_SUBCLASS if (likely(result) && likely(PyType_Check(result))) { if (unlikely(__Pyx_SetNamesPEP487(result) < 0)) { Py_CLEAR(result); } else { result = __Pyx_InitSubclassPEP487(result, mkw); } } #else // avoid "unused" warning (void) &__Pyx_GetBuiltinName; #endif return result; } /////////////// ExtTypeTest.proto /////////////// static CYTHON_INLINE int __Pyx_TypeTest(PyObject *obj, PyTypeObject *type); /*proto*/ /////////////// ExtTypeTest /////////////// static CYTHON_INLINE int __Pyx_TypeTest(PyObject *obj, PyTypeObject *type) { __Pyx_TypeName obj_type_name; __Pyx_TypeName type_name; if (unlikely(!type)) { PyErr_SetString(PyExc_SystemError, "Missing type object"); return 0; } if (likely(__Pyx_TypeCheck(obj, type))) return 1; obj_type_name = __Pyx_PyType_GetName(Py_TYPE(obj)); type_name = __Pyx_PyType_GetName(type); PyErr_Format(PyExc_TypeError, "Cannot convert " __Pyx_FMT_TYPENAME " to " __Pyx_FMT_TYPENAME, obj_type_name, type_name); __Pyx_DECREF_TypeName(obj_type_name); __Pyx_DECREF_TypeName(type_name); return 0; } /////////////// CallableCheck.proto /////////////// #if CYTHON_USE_TYPE_SLOTS && PY_MAJOR_VERSION >= 3 #define __Pyx_PyCallable_Check(obj) (Py_TYPE(obj)->tp_call != NULL) #else #define __Pyx_PyCallable_Check(obj) PyCallable_Check(obj) #endif /////////////// PyDictContains.proto /////////////// static CYTHON_INLINE int __Pyx_PyDict_ContainsTF(PyObject* item, PyObject* dict, int eq) { int result = PyDict_Contains(dict, item); return unlikely(result < 0) ? result : (result == (eq == Py_EQ)); } /////////////// PySetContains.proto /////////////// static CYTHON_INLINE int __Pyx_PySet_ContainsTF(PyObject* key, PyObject* set, int eq); /* proto */ /////////////// PySetContains /////////////// //@requires: Builtins.c::pyfrozenset_new static int __Pyx_PySet_ContainsUnhashable(PyObject *set, PyObject *key) { int result = -1; if (PySet_Check(key) && PyErr_ExceptionMatches(PyExc_TypeError)) { /* Convert key to frozenset */ PyObject *tmpkey; PyErr_Clear(); tmpkey = __Pyx_PyFrozenSet_New(key); if (tmpkey != NULL) { result = PySet_Contains(set, tmpkey); Py_DECREF(tmpkey); } } return result; } static CYTHON_INLINE int __Pyx_PySet_ContainsTF(PyObject* key, PyObject* set, int eq) { int result = PySet_Contains(set, key); if (unlikely(result < 0)) { result = __Pyx_PySet_ContainsUnhashable(set, key); } return unlikely(result < 0) ? result : (result == (eq == Py_EQ)); } /////////////// PySequenceContains.proto /////////////// static CYTHON_INLINE int __Pyx_PySequence_ContainsTF(PyObject* item, PyObject* seq, int eq) { int result = PySequence_Contains(seq, item); return unlikely(result < 0) ? result : (result == (eq == Py_EQ)); } /////////////// PyBoolOrNullFromLong.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_PyBoolOrNull_FromLong(long b) { return unlikely(b < 0) ? NULL : __Pyx_PyBool_FromLong(b); } /////////////// GetBuiltinName.proto /////////////// static PyObject *__Pyx_GetBuiltinName(PyObject *name); /*proto*/ /////////////// GetBuiltinName /////////////// //@requires: PyObjectGetAttrStrNoError //@substitute: naming static PyObject *__Pyx_GetBuiltinName(PyObject *name) { PyObject* result = __Pyx_PyObject_GetAttrStrNoError($builtins_cname, name); if (unlikely(!result) && !PyErr_Occurred()) { PyErr_Format(PyExc_NameError, #if PY_MAJOR_VERSION >= 3 "name '%U' is not defined", name); #else "name '%.200s' is not defined", PyString_AS_STRING(name)); #endif } return result; } /////////////// GetNameInClass.proto /////////////// #define __Pyx_GetNameInClass(var, nmspace, name) (var) = __Pyx__GetNameInClass(nmspace, name) static PyObject *__Pyx__GetNameInClass(PyObject *nmspace, PyObject *name); /*proto*/ /////////////// GetNameInClass /////////////// //@requires: GetModuleGlobalName static PyObject *__Pyx__GetNameInClass(PyObject *nmspace, PyObject *name) { PyObject *result; PyObject *dict; assert(PyType_Check(nmspace)); #if CYTHON_USE_TYPE_SLOTS dict = ((PyTypeObject*)nmspace)->tp_dict; Py_XINCREF(dict); #else dict = PyObject_GetAttr(nmspace, PYIDENT("__dict__")); #endif if (likely(dict)) { result = PyObject_GetItem(dict, name); Py_DECREF(dict); if (result) { return result; } } PyErr_Clear(); __Pyx_GetModuleGlobalNameUncached(result, name); return result; } /////////////// SetNameInClass.proto /////////////// #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX >= 0x030500A1 && PY_VERSION_HEX < 0x030d0000 // Identifier names are always interned and have a pre-calculated hash value. #define __Pyx_SetNameInClass(ns, name, value) \ (likely(PyDict_CheckExact(ns)) ? _PyDict_SetItem_KnownHash(ns, name, value, ((PyASCIIObject *) name)->hash) : PyObject_SetItem(ns, name, value)) #elif CYTHON_COMPILING_IN_CPYTHON #define __Pyx_SetNameInClass(ns, name, value) \ (likely(PyDict_CheckExact(ns)) ? PyDict_SetItem(ns, name, value) : PyObject_SetItem(ns, name, value)) #else #define __Pyx_SetNameInClass(ns, name, value) PyObject_SetItem(ns, name, value) #endif /////////////// SetNewInClass.proto /////////////// static int __Pyx_SetNewInClass(PyObject *ns, PyObject *name, PyObject *value); /////////////// SetNewInClass /////////////// //@requires: SetNameInClass // Special-case setting __new__: if it's a Cython function, wrap it in a // staticmethod. This is similar to what Python does for a Python function // called __new__. static int __Pyx_SetNewInClass(PyObject *ns, PyObject *name, PyObject *value) { #ifdef __Pyx_CyFunction_USED int ret; if (__Pyx_CyFunction_Check(value)) { PyObject *staticnew = PyStaticMethod_New(value); if (unlikely(!staticnew)) return -1; ret = __Pyx_SetNameInClass(ns, name, staticnew); Py_DECREF(staticnew); return ret; } #endif return __Pyx_SetNameInClass(ns, name, value); } /////////////// GetModuleGlobalName.proto /////////////// //@requires: PyDictVersioning //@substitute: naming #if CYTHON_USE_DICT_VERSIONS #define __Pyx_GetModuleGlobalName(var, name) do { \ static PY_UINT64_T __pyx_dict_version = 0; \ static PyObject *__pyx_dict_cached_value = NULL; \ (var) = (likely(__pyx_dict_version == __PYX_GET_DICT_VERSION($moddict_cname))) ? \ (likely(__pyx_dict_cached_value) ? __Pyx_NewRef(__pyx_dict_cached_value) : __Pyx_GetBuiltinName(name)) : \ __Pyx__GetModuleGlobalName(name, &__pyx_dict_version, &__pyx_dict_cached_value); \ } while(0) #define __Pyx_GetModuleGlobalNameUncached(var, name) do { \ PY_UINT64_T __pyx_dict_version; \ PyObject *__pyx_dict_cached_value; \ (var) = __Pyx__GetModuleGlobalName(name, &__pyx_dict_version, &__pyx_dict_cached_value); \ } while(0) static PyObject *__Pyx__GetModuleGlobalName(PyObject *name, PY_UINT64_T *dict_version, PyObject **dict_cached_value); /*proto*/ #else #define __Pyx_GetModuleGlobalName(var, name) (var) = __Pyx__GetModuleGlobalName(name) #define __Pyx_GetModuleGlobalNameUncached(var, name) (var) = __Pyx__GetModuleGlobalName(name) static CYTHON_INLINE PyObject *__Pyx__GetModuleGlobalName(PyObject *name); /*proto*/ #endif /////////////// GetModuleGlobalName /////////////// //@requires: GetBuiltinName //@substitute: naming #if CYTHON_USE_DICT_VERSIONS static PyObject *__Pyx__GetModuleGlobalName(PyObject *name, PY_UINT64_T *dict_version, PyObject **dict_cached_value) #else static CYTHON_INLINE PyObject *__Pyx__GetModuleGlobalName(PyObject *name) #endif { PyObject *result; // FIXME: clean up the macro guard order here: limited API first, then borrowed refs, then cpython #if !CYTHON_AVOID_BORROWED_REFS #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX >= 0x030500A1 && PY_VERSION_HEX < 0x030d0000 // Identifier names are always interned and have a pre-calculated hash value. result = _PyDict_GetItem_KnownHash($moddict_cname, name, ((PyASCIIObject *) name)->hash); __PYX_UPDATE_DICT_CACHE($moddict_cname, result, *dict_cached_value, *dict_version) if (likely(result)) { return __Pyx_NewRef(result); } else if (unlikely(PyErr_Occurred())) { return NULL; } #elif CYTHON_COMPILING_IN_LIMITED_API if (unlikely(!$module_cname)) { return NULL; } result = PyObject_GetAttr($module_cname, name); if (likely(result)) { return result; } #else result = PyDict_GetItem($moddict_cname, name); __PYX_UPDATE_DICT_CACHE($moddict_cname, result, *dict_cached_value, *dict_version) if (likely(result)) { return __Pyx_NewRef(result); } #endif #else result = PyObject_GetItem($moddict_cname, name); __PYX_UPDATE_DICT_CACHE($moddict_cname, result, *dict_cached_value, *dict_version) if (likely(result)) { return __Pyx_NewRef(result); } PyErr_Clear(); #endif return __Pyx_GetBuiltinName(name); } //////////////////// GetAttr.proto //////////////////// static CYTHON_INLINE PyObject *__Pyx_GetAttr(PyObject *, PyObject *); /*proto*/ //////////////////// GetAttr //////////////////// //@requires: PyObjectGetAttrStr static CYTHON_INLINE PyObject *__Pyx_GetAttr(PyObject *o, PyObject *n) { #if CYTHON_USE_TYPE_SLOTS #if PY_MAJOR_VERSION >= 3 if (likely(PyUnicode_Check(n))) #else if (likely(PyString_Check(n))) #endif return __Pyx_PyObject_GetAttrStr(o, n); #endif return PyObject_GetAttr(o, n); } /////////////// PyObjectLookupSpecial.proto /////////////// #if CYTHON_USE_PYTYPE_LOOKUP && CYTHON_USE_TYPE_SLOTS #define __Pyx_PyObject_LookupSpecialNoError(obj, attr_name) __Pyx__PyObject_LookupSpecial(obj, attr_name, 0) #define __Pyx_PyObject_LookupSpecial(obj, attr_name) __Pyx__PyObject_LookupSpecial(obj, attr_name, 1) static CYTHON_INLINE PyObject* __Pyx__PyObject_LookupSpecial(PyObject* obj, PyObject* attr_name, int with_error); /*proto*/ #else #define __Pyx_PyObject_LookupSpecialNoError(o,n) __Pyx_PyObject_GetAttrStrNoError(o,n) #define __Pyx_PyObject_LookupSpecial(o,n) __Pyx_PyObject_GetAttrStr(o,n) #endif /////////////// PyObjectLookupSpecial /////////////// //@requires: PyObjectGetAttrStr //@requires: PyObjectGetAttrStrNoError #if CYTHON_USE_PYTYPE_LOOKUP && CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE PyObject* __Pyx__PyObject_LookupSpecial(PyObject* obj, PyObject* attr_name, int with_error) { PyObject *res; PyTypeObject *tp = Py_TYPE(obj); #if PY_MAJOR_VERSION < 3 if (unlikely(PyInstance_Check(obj))) return with_error ? __Pyx_PyObject_GetAttrStr(obj, attr_name) : __Pyx_PyObject_GetAttrStrNoError(obj, attr_name); #endif // adapted from CPython's special_lookup() in ceval.c res = _PyType_Lookup(tp, attr_name); if (likely(res)) { descrgetfunc f = Py_TYPE(res)->tp_descr_get; if (!f) { Py_INCREF(res); } else { res = f(res, obj, (PyObject *)tp); } } else if (with_error) { PyErr_SetObject(PyExc_AttributeError, attr_name); } return res; } #endif /////////////// PyObject_GenericGetAttrNoDict.proto /////////////// // Setting "tp_getattro" to anything but "PyObject_GenericGetAttr" disables fast method calls in Py3.7. #if CYTHON_USE_TYPE_SLOTS && CYTHON_USE_PYTYPE_LOOKUP && PY_VERSION_HEX < 0x03070000 static CYTHON_INLINE PyObject* __Pyx_PyObject_GenericGetAttrNoDict(PyObject* obj, PyObject* attr_name); #else // No-args macro to allow function pointer assignment. #define __Pyx_PyObject_GenericGetAttrNoDict PyObject_GenericGetAttr #endif /////////////// PyObject_GenericGetAttrNoDict /////////////// #if CYTHON_USE_TYPE_SLOTS && CYTHON_USE_PYTYPE_LOOKUP && PY_VERSION_HEX < 0x03070000 static PyObject *__Pyx_RaiseGenericGetAttributeError(PyTypeObject *tp, PyObject *attr_name) { __Pyx_TypeName type_name = __Pyx_PyType_GetName(tp); PyErr_Format(PyExc_AttributeError, #if PY_MAJOR_VERSION >= 3 "'" __Pyx_FMT_TYPENAME "' object has no attribute '%U'", type_name, attr_name); #else "'" __Pyx_FMT_TYPENAME "' object has no attribute '%.400s'", type_name, PyString_AS_STRING(attr_name)); #endif __Pyx_DECREF_TypeName(type_name); return NULL; } static CYTHON_INLINE PyObject* __Pyx_PyObject_GenericGetAttrNoDict(PyObject* obj, PyObject* attr_name) { // Copied and adapted from _PyObject_GenericGetAttrWithDict() in CPython 3.6/3.7. // To be used in the "tp_getattro" slot of extension types that have no instance dict and cannot be subclassed. PyObject *descr; PyTypeObject *tp = Py_TYPE(obj); if (unlikely(!PyString_Check(attr_name))) { return PyObject_GenericGetAttr(obj, attr_name); } assert(!tp->tp_dictoffset); descr = _PyType_Lookup(tp, attr_name); if (unlikely(!descr)) { return __Pyx_RaiseGenericGetAttributeError(tp, attr_name); } Py_INCREF(descr); #if PY_MAJOR_VERSION < 3 if (likely(PyType_HasFeature(Py_TYPE(descr), Py_TPFLAGS_HAVE_CLASS))) #endif { descrgetfunc f = Py_TYPE(descr)->tp_descr_get; // Optimise for the non-descriptor case because it is faster. if (unlikely(f)) { PyObject *res = f(descr, obj, (PyObject *)tp); Py_DECREF(descr); return res; } } return descr; } #endif /////////////// PyObject_GenericGetAttr.proto /////////////// // Setting "tp_getattro" to anything but "PyObject_GenericGetAttr" disables fast method calls in Py3.7. #if CYTHON_USE_TYPE_SLOTS && CYTHON_USE_PYTYPE_LOOKUP && PY_VERSION_HEX < 0x03070000 static PyObject* __Pyx_PyObject_GenericGetAttr(PyObject* obj, PyObject* attr_name); #else // No-args macro to allow function pointer assignment. #define __Pyx_PyObject_GenericGetAttr PyObject_GenericGetAttr #endif /////////////// PyObject_GenericGetAttr /////////////// //@requires: PyObject_GenericGetAttrNoDict #if CYTHON_USE_TYPE_SLOTS && CYTHON_USE_PYTYPE_LOOKUP && PY_VERSION_HEX < 0x03070000 static PyObject* __Pyx_PyObject_GenericGetAttr(PyObject* obj, PyObject* attr_name) { if (unlikely(Py_TYPE(obj)->tp_dictoffset)) { return PyObject_GenericGetAttr(obj, attr_name); } return __Pyx_PyObject_GenericGetAttrNoDict(obj, attr_name); } #endif /////////////// PyObjectGetAttrStrNoError.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_PyObject_GetAttrStrNoError(PyObject* obj, PyObject* attr_name);/*proto*/ /////////////// PyObjectGetAttrStrNoError /////////////// //@requires: PyObjectGetAttrStr //@requires: Exceptions.c::PyThreadStateGet //@requires: Exceptions.c::PyErrFetchRestore //@requires: Exceptions.c::PyErrExceptionMatches #if __PYX_LIMITED_VERSION_HEX < 0x030d00A1 static void __Pyx_PyObject_GetAttrStr_ClearAttributeError(void) { __Pyx_PyThreadState_declare __Pyx_PyThreadState_assign if (likely(__Pyx_PyErr_ExceptionMatches(PyExc_AttributeError))) __Pyx_PyErr_Clear(); } #endif static CYTHON_INLINE PyObject* __Pyx_PyObject_GetAttrStrNoError(PyObject* obj, PyObject* attr_name) { PyObject *result; #if __PYX_LIMITED_VERSION_HEX >= 0x030d00A1 (void) PyObject_GetOptionalAttr(obj, attr_name, &result); return result; #else #if CYTHON_COMPILING_IN_CPYTHON && CYTHON_USE_TYPE_SLOTS && PY_VERSION_HEX >= 0x030700B1 // _PyObject_GenericGetAttrWithDict() in CPython 3.7+ can avoid raising the AttributeError. // See https://bugs.python.org/issue32544 PyTypeObject* tp = Py_TYPE(obj); if (likely(tp->tp_getattro == PyObject_GenericGetAttr)) { return _PyObject_GenericGetAttrWithDict(obj, attr_name, NULL, 1); } #endif result = __Pyx_PyObject_GetAttrStr(obj, attr_name); if (unlikely(!result)) { __Pyx_PyObject_GetAttrStr_ClearAttributeError(); } return result; #endif } /////////////// PyObjectGetAttrStr.proto /////////////// #if CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE PyObject* __Pyx_PyObject_GetAttrStr(PyObject* obj, PyObject* attr_name);/*proto*/ #else #define __Pyx_PyObject_GetAttrStr(o,n) PyObject_GetAttr(o,n) #endif /////////////// PyObjectGetAttrStr /////////////// #if CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE PyObject* __Pyx_PyObject_GetAttrStr(PyObject* obj, PyObject* attr_name) { PyTypeObject* tp = Py_TYPE(obj); if (likely(tp->tp_getattro)) return tp->tp_getattro(obj, attr_name); #if PY_MAJOR_VERSION < 3 if (likely(tp->tp_getattr)) return tp->tp_getattr(obj, PyString_AS_STRING(attr_name)); #endif return PyObject_GetAttr(obj, attr_name); } #endif /////////////// PyObjectSetAttrStr.proto /////////////// #if CYTHON_USE_TYPE_SLOTS #define __Pyx_PyObject_DelAttrStr(o,n) __Pyx_PyObject_SetAttrStr(o, n, NULL) static CYTHON_INLINE int __Pyx_PyObject_SetAttrStr(PyObject* obj, PyObject* attr_name, PyObject* value);/*proto*/ #else #define __Pyx_PyObject_DelAttrStr(o,n) PyObject_DelAttr(o,n) #define __Pyx_PyObject_SetAttrStr(o,n,v) PyObject_SetAttr(o,n,v) #endif /////////////// PyObjectSetAttrStr /////////////// #if CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE int __Pyx_PyObject_SetAttrStr(PyObject* obj, PyObject* attr_name, PyObject* value) { PyTypeObject* tp = Py_TYPE(obj); if (likely(tp->tp_setattro)) return tp->tp_setattro(obj, attr_name, value); #if PY_MAJOR_VERSION < 3 if (likely(tp->tp_setattr)) return tp->tp_setattr(obj, PyString_AS_STRING(attr_name), value); #endif return PyObject_SetAttr(obj, attr_name, value); } #endif /////////////// PyObjectGetMethod.proto /////////////// static int __Pyx_PyObject_GetMethod(PyObject *obj, PyObject *name, PyObject **method);/*proto*/ /////////////// PyObjectGetMethod /////////////// //@requires: PyObjectGetAttrStr static int __Pyx_PyObject_GetMethod(PyObject *obj, PyObject *name, PyObject **method) { PyObject *attr; #if CYTHON_UNPACK_METHODS && CYTHON_COMPILING_IN_CPYTHON && CYTHON_USE_PYTYPE_LOOKUP __Pyx_TypeName type_name; // Copied from _PyObject_GetMethod() in CPython 3.7 PyTypeObject *tp = Py_TYPE(obj); PyObject *descr; descrgetfunc f = NULL; PyObject **dictptr, *dict; int meth_found = 0; assert (*method == NULL); if (unlikely(tp->tp_getattro != PyObject_GenericGetAttr)) { attr = __Pyx_PyObject_GetAttrStr(obj, name); goto try_unpack; } if (unlikely(tp->tp_dict == NULL) && unlikely(PyType_Ready(tp) < 0)) { return 0; } descr = _PyType_Lookup(tp, name); if (likely(descr != NULL)) { Py_INCREF(descr); #if defined(Py_TPFLAGS_METHOD_DESCRIPTOR) && Py_TPFLAGS_METHOD_DESCRIPTOR if (__Pyx_PyType_HasFeature(Py_TYPE(descr), Py_TPFLAGS_METHOD_DESCRIPTOR)) #elif PY_MAJOR_VERSION >= 3 // Repeating the condition below accommodates for MSVC's inability to test macros inside of macro expansions. #ifdef __Pyx_CyFunction_USED if (likely(PyFunction_Check(descr) || __Pyx_IS_TYPE(descr, &PyMethodDescr_Type) || __Pyx_CyFunction_Check(descr))) #else if (likely(PyFunction_Check(descr) || __Pyx_IS_TYPE(descr, &PyMethodDescr_Type))) #endif #else // "PyMethodDescr_Type" is not part of the C-API in Py2. #ifdef __Pyx_CyFunction_USED if (likely(PyFunction_Check(descr) || __Pyx_CyFunction_Check(descr))) #else if (likely(PyFunction_Check(descr))) #endif #endif { meth_found = 1; } else { f = Py_TYPE(descr)->tp_descr_get; if (f != NULL && PyDescr_IsData(descr)) { attr = f(descr, obj, (PyObject *)Py_TYPE(obj)); Py_DECREF(descr); goto try_unpack; } } } dictptr = _PyObject_GetDictPtr(obj); if (dictptr != NULL && (dict = *dictptr) != NULL) { Py_INCREF(dict); attr = __Pyx_PyDict_GetItemStr(dict, name); if (attr != NULL) { Py_INCREF(attr); Py_DECREF(dict); Py_XDECREF(descr); goto try_unpack; } Py_DECREF(dict); } if (meth_found) { *method = descr; return 1; } if (f != NULL) { attr = f(descr, obj, (PyObject *)Py_TYPE(obj)); Py_DECREF(descr); goto try_unpack; } if (likely(descr != NULL)) { *method = descr; return 0; } type_name = __Pyx_PyType_GetName(tp); PyErr_Format(PyExc_AttributeError, #if PY_MAJOR_VERSION >= 3 "'" __Pyx_FMT_TYPENAME "' object has no attribute '%U'", type_name, name); #else "'" __Pyx_FMT_TYPENAME "' object has no attribute '%.400s'", type_name, PyString_AS_STRING(name)); #endif __Pyx_DECREF_TypeName(type_name); return 0; // Generic fallback implementation using normal attribute lookup. #else attr = __Pyx_PyObject_GetAttrStr(obj, name); goto try_unpack; #endif try_unpack: #if CYTHON_UNPACK_METHODS // Even if we failed to avoid creating a bound method object, it's still worth unpacking it now, if possible. if (likely(attr) && PyMethod_Check(attr) && likely(PyMethod_GET_SELF(attr) == obj)) { PyObject *function = PyMethod_GET_FUNCTION(attr); Py_INCREF(function); Py_DECREF(attr); *method = function; return 1; } #endif *method = attr; return 0; } /////////////// UnpackUnboundCMethod.proto /////////////// typedef struct { PyObject *type; PyObject **method_name; // "func" is set on first access (direct C function pointer) PyCFunction func; // "method" is set on first access (fallback) PyObject *method; int flag; } __Pyx_CachedCFunction; /////////////// UnpackUnboundCMethod /////////////// //@requires: PyObjectGetAttrStr static PyObject *__Pyx_SelflessCall(PyObject *method, PyObject *args, PyObject *kwargs) { // NOTE: possible optimization - use vectorcall PyObject *result; PyObject *selfless_args = PyTuple_GetSlice(args, 1, PyTuple_Size(args)); if (unlikely(!selfless_args)) return NULL; result = PyObject_Call(method, selfless_args, kwargs); Py_DECREF(selfless_args); return result; } static PyMethodDef __Pyx_UnboundCMethod_Def = { /* .ml_name = */ "CythonUnboundCMethod", /* .ml_meth = */ __PYX_REINTERPRET_FUNCION(PyCFunction, __Pyx_SelflessCall), /* .ml_flags = */ METH_VARARGS | METH_KEYWORDS, /* .ml_doc = */ NULL }; static int __Pyx_TryUnpackUnboundCMethod(__Pyx_CachedCFunction* target) { PyObject *method; method = __Pyx_PyObject_GetAttrStr(target->type, *target->method_name); if (unlikely(!method)) return -1; target->method = method; // FIXME: use functionality from CythonFunction.c/ClassMethod #if CYTHON_COMPILING_IN_CPYTHON #if PY_MAJOR_VERSION >= 3 if (likely(__Pyx_TypeCheck(method, &PyMethodDescr_Type))) #else // method descriptor type isn't exported in Py2.x, cannot easily check the type there. // Therefore, reverse the check to the most likely alternative // (which is returned for class methods) if (likely(!__Pyx_CyOrPyCFunction_Check(method))) #endif { PyMethodDescrObject *descr = (PyMethodDescrObject*) method; target->func = descr->d_method->ml_meth; target->flag = descr->d_method->ml_flags & ~(METH_CLASS | METH_STATIC | METH_COEXIST | METH_STACKLESS); } else #endif // bound classmethods need special treatment #if CYTHON_COMPILING_IN_PYPY // In PyPy, functions are regular methods, so just do the self check. #else if (PyCFunction_Check(method)) #endif { PyObject *self; int self_found; #if CYTHON_COMPILING_IN_LIMITED_API || CYTHON_COMPILING_IN_PYPY self = PyObject_GetAttrString(method, "__self__"); if (!self) { PyErr_Clear(); } #else self = PyCFunction_GET_SELF(method); #endif self_found = (self && self != Py_None); #if CYTHON_COMPILING_IN_LIMITED_API || CYTHON_COMPILING_IN_PYPY Py_XDECREF(self); #endif if (self_found) { PyObject *unbound_method = PyCFunction_New(&__Pyx_UnboundCMethod_Def, method); if (unlikely(!unbound_method)) return -1; // New PyCFunction will own method reference, thus decref __Pyx_PyObject_GetAttrStr Py_DECREF(method); target->method = unbound_method; } } return 0; } /////////////// CallUnboundCMethod0.proto /////////////// //@substitute: naming static PyObject* __Pyx__CallUnboundCMethod0(__Pyx_CachedCFunction* cfunc, PyObject* self); /*proto*/ #if CYTHON_COMPILING_IN_CPYTHON // FASTCALL methods receive "&empty_tuple" as simple "PyObject[0]*" #define __Pyx_CallUnboundCMethod0(cfunc, self) \ (likely((cfunc)->func) ? \ (likely((cfunc)->flag == METH_NOARGS) ? (*((cfunc)->func))(self, NULL) : \ (PY_VERSION_HEX >= 0x030600B1 && likely((cfunc)->flag == METH_FASTCALL) ? \ (PY_VERSION_HEX >= 0x030700A0 ? \ (*(__Pyx_PyCFunctionFast)(void*)(PyCFunction)(cfunc)->func)(self, &$empty_tuple, 0) : \ (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)(cfunc)->func)(self, &$empty_tuple, 0, NULL)) : \ (PY_VERSION_HEX >= 0x030700A0 && (cfunc)->flag == (METH_FASTCALL | METH_KEYWORDS) ? \ (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)(cfunc)->func)(self, &$empty_tuple, 0, NULL) : \ (likely((cfunc)->flag == (METH_VARARGS | METH_KEYWORDS)) ? ((*(PyCFunctionWithKeywords)(void*)(PyCFunction)(cfunc)->func)(self, $empty_tuple, NULL)) : \ ((cfunc)->flag == METH_VARARGS ? (*((cfunc)->func))(self, $empty_tuple) : \ __Pyx__CallUnboundCMethod0(cfunc, self)))))) : \ __Pyx__CallUnboundCMethod0(cfunc, self)) #else #define __Pyx_CallUnboundCMethod0(cfunc, self) __Pyx__CallUnboundCMethod0(cfunc, self) #endif /////////////// CallUnboundCMethod0 /////////////// //@requires: UnpackUnboundCMethod //@requires: PyObjectCall static PyObject* __Pyx__CallUnboundCMethod0(__Pyx_CachedCFunction* cfunc, PyObject* self) { PyObject *args, *result = NULL; if (unlikely(!cfunc->method) && unlikely(__Pyx_TryUnpackUnboundCMethod(cfunc) < 0)) return NULL; #if CYTHON_ASSUME_SAFE_MACROS args = PyTuple_New(1); if (unlikely(!args)) goto bad; Py_INCREF(self); PyTuple_SET_ITEM(args, 0, self); #else args = PyTuple_Pack(1, self); if (unlikely(!args)) goto bad; #endif result = __Pyx_PyObject_Call(cfunc->method, args, NULL); Py_DECREF(args); bad: return result; } /////////////// CallUnboundCMethod1.proto /////////////// static PyObject* __Pyx__CallUnboundCMethod1(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg);/*proto*/ #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_CallUnboundCMethod1(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg);/*proto*/ #else #define __Pyx_CallUnboundCMethod1(cfunc, self, arg) __Pyx__CallUnboundCMethod1(cfunc, self, arg) #endif /////////////// CallUnboundCMethod1 /////////////// //@requires: UnpackUnboundCMethod //@requires: PyObjectCall #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_CallUnboundCMethod1(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg) { if (likely(cfunc->func)) { int flag = cfunc->flag; // Not using #ifdefs for PY_VERSION_HEX to avoid C compiler warnings about unused functions. if (flag == METH_O) { return (*(cfunc->func))(self, arg); } else if ((PY_VERSION_HEX >= 0x030600B1) && flag == METH_FASTCALL) { #if PY_VERSION_HEX >= 0x030700A0 return (*(__Pyx_PyCFunctionFast)(void*)(PyCFunction)cfunc->func)(self, &arg, 1); #else return (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)cfunc->func)(self, &arg, 1, NULL); #endif } else if ((PY_VERSION_HEX >= 0x030700A0) && flag == (METH_FASTCALL | METH_KEYWORDS)) { return (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)cfunc->func)(self, &arg, 1, NULL); } } return __Pyx__CallUnboundCMethod1(cfunc, self, arg); } #endif static PyObject* __Pyx__CallUnboundCMethod1(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg){ PyObject *args, *result = NULL; if (unlikely(!cfunc->func && !cfunc->method) && unlikely(__Pyx_TryUnpackUnboundCMethod(cfunc) < 0)) return NULL; #if CYTHON_COMPILING_IN_CPYTHON if (cfunc->func && (cfunc->flag & METH_VARARGS)) { args = PyTuple_New(1); if (unlikely(!args)) goto bad; Py_INCREF(arg); PyTuple_SET_ITEM(args, 0, arg); if (cfunc->flag & METH_KEYWORDS) result = (*(PyCFunctionWithKeywords)(void*)(PyCFunction)cfunc->func)(self, args, NULL); else result = (*cfunc->func)(self, args); } else { args = PyTuple_New(2); if (unlikely(!args)) goto bad; Py_INCREF(self); PyTuple_SET_ITEM(args, 0, self); Py_INCREF(arg); PyTuple_SET_ITEM(args, 1, arg); result = __Pyx_PyObject_Call(cfunc->method, args, NULL); } #else args = PyTuple_Pack(2, self, arg); if (unlikely(!args)) goto bad; result = __Pyx_PyObject_Call(cfunc->method, args, NULL); #endif bad: Py_XDECREF(args); return result; } /////////////// CallUnboundCMethod2.proto /////////////// static PyObject* __Pyx__CallUnboundCMethod2(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg1, PyObject* arg2); /*proto*/ #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX >= 0x030600B1 static CYTHON_INLINE PyObject *__Pyx_CallUnboundCMethod2(__Pyx_CachedCFunction *cfunc, PyObject *self, PyObject *arg1, PyObject *arg2); /*proto*/ #else #define __Pyx_CallUnboundCMethod2(cfunc, self, arg1, arg2) __Pyx__CallUnboundCMethod2(cfunc, self, arg1, arg2) #endif /////////////// CallUnboundCMethod2 /////////////// //@requires: UnpackUnboundCMethod //@requires: PyObjectCall #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX >= 0x030600B1 static CYTHON_INLINE PyObject *__Pyx_CallUnboundCMethod2(__Pyx_CachedCFunction *cfunc, PyObject *self, PyObject *arg1, PyObject *arg2) { if (likely(cfunc->func)) { PyObject *args[2] = {arg1, arg2}; if (cfunc->flag == METH_FASTCALL) { #if PY_VERSION_HEX >= 0x030700A0 return (*(__Pyx_PyCFunctionFast)(void*)(PyCFunction)cfunc->func)(self, args, 2); #else return (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)cfunc->func)(self, args, 2, NULL); #endif } #if PY_VERSION_HEX >= 0x030700A0 if (cfunc->flag == (METH_FASTCALL | METH_KEYWORDS)) return (*(__Pyx_PyCFunctionFastWithKeywords)(void*)(PyCFunction)cfunc->func)(self, args, 2, NULL); #endif } return __Pyx__CallUnboundCMethod2(cfunc, self, arg1, arg2); } #endif static PyObject* __Pyx__CallUnboundCMethod2(__Pyx_CachedCFunction* cfunc, PyObject* self, PyObject* arg1, PyObject* arg2){ PyObject *args, *result = NULL; if (unlikely(!cfunc->func && !cfunc->method) && unlikely(__Pyx_TryUnpackUnboundCMethod(cfunc) < 0)) return NULL; #if CYTHON_COMPILING_IN_CPYTHON if (cfunc->func && (cfunc->flag & METH_VARARGS)) { args = PyTuple_New(2); if (unlikely(!args)) goto bad; Py_INCREF(arg1); PyTuple_SET_ITEM(args, 0, arg1); Py_INCREF(arg2); PyTuple_SET_ITEM(args, 1, arg2); if (cfunc->flag & METH_KEYWORDS) result = (*(PyCFunctionWithKeywords)(void*)(PyCFunction)cfunc->func)(self, args, NULL); else result = (*cfunc->func)(self, args); } else { args = PyTuple_New(3); if (unlikely(!args)) goto bad; Py_INCREF(self); PyTuple_SET_ITEM(args, 0, self); Py_INCREF(arg1); PyTuple_SET_ITEM(args, 1, arg1); Py_INCREF(arg2); PyTuple_SET_ITEM(args, 2, arg2); result = __Pyx_PyObject_Call(cfunc->method, args, NULL); } #else args = PyTuple_Pack(3, self, arg1, arg2); if (unlikely(!args)) goto bad; result = __Pyx_PyObject_Call(cfunc->method, args, NULL); #endif bad: Py_XDECREF(args); return result; } /////////////// PyObjectFastCall.proto /////////////// #define __Pyx_PyObject_FastCall(func, args, nargs) __Pyx_PyObject_FastCallDict(func, args, (size_t)(nargs), NULL) static CYTHON_INLINE PyObject* __Pyx_PyObject_FastCallDict(PyObject *func, PyObject **args, size_t nargs, PyObject *kwargs); /*proto*/ /////////////// PyObjectFastCall /////////////// //@requires: PyObjectCall //@requires: PyFunctionFastCall //@requires: PyObjectCallMethO //@substitute: naming #if PY_VERSION_HEX < 0x03090000 || CYTHON_COMPILING_IN_LIMITED_API static PyObject* __Pyx_PyObject_FastCall_fallback(PyObject *func, PyObject **args, size_t nargs, PyObject *kwargs) { PyObject *argstuple; PyObject *result = 0; size_t i; argstuple = PyTuple_New((Py_ssize_t)nargs); if (unlikely(!argstuple)) return NULL; for (i = 0; i < nargs; i++) { Py_INCREF(args[i]); if (__Pyx_PyTuple_SET_ITEM(argstuple, (Py_ssize_t)i, args[i]) < 0) goto bad; } result = __Pyx_PyObject_Call(func, argstuple, kwargs); bad: Py_DECREF(argstuple); return result; } #endif static CYTHON_INLINE PyObject* __Pyx_PyObject_FastCallDict(PyObject *func, PyObject **args, size_t _nargs, PyObject *kwargs) { // Special fast paths for 0 and 1 arguments // NOTE: in many cases, this is called with a constant value for nargs // which is known at compile-time. So the branches below will typically // be optimized away. Py_ssize_t nargs = __Pyx_PyVectorcall_NARGS(_nargs); #if CYTHON_COMPILING_IN_CPYTHON if (nargs == 0 && kwargs == NULL) { if (__Pyx_CyOrPyCFunction_Check(func) && likely( __Pyx_CyOrPyCFunction_GET_FLAGS(func) & METH_NOARGS)) return __Pyx_PyObject_CallMethO(func, NULL); } else if (nargs == 1 && kwargs == NULL) { if (__Pyx_CyOrPyCFunction_Check(func) && likely( __Pyx_CyOrPyCFunction_GET_FLAGS(func) & METH_O)) return __Pyx_PyObject_CallMethO(func, args[0]); } #endif #if PY_VERSION_HEX < 0x030800B1 #if CYTHON_FAST_PYCCALL if (PyCFunction_Check(func)) { if (kwargs) { return _PyCFunction_FastCallDict(func, args, nargs, kwargs); } else { return _PyCFunction_FastCallKeywords(func, args, nargs, NULL); } } #if PY_VERSION_HEX >= 0x030700A1 if (!kwargs && __Pyx_IS_TYPE(func, &PyMethodDescr_Type)) { return _PyMethodDescr_FastCallKeywords(func, args, nargs, NULL); } #endif #endif #if CYTHON_FAST_PYCALL if (PyFunction_Check(func)) { return __Pyx_PyFunction_FastCallDict(func, args, nargs, kwargs); } #endif #endif if (kwargs == NULL) { #if CYTHON_VECTORCALL #if PY_VERSION_HEX < 0x03090000 vectorcallfunc f = _PyVectorcall_Function(func); #else vectorcallfunc f = PyVectorcall_Function(func); #endif if (f) { return f(func, args, (size_t)nargs, NULL); } #elif defined(__Pyx_CyFunction_USED) && CYTHON_BACKPORT_VECTORCALL // exclude fused functions for now if (__Pyx_CyFunction_CheckExact(func)) { __pyx_vectorcallfunc f = __Pyx_CyFunction_func_vectorcall(func); if (f) return f(func, args, (size_t)nargs, NULL); } #endif } if (nargs == 0) { return __Pyx_PyObject_Call(func, $empty_tuple, kwargs); } #if PY_VERSION_HEX >= 0x03090000 && !CYTHON_COMPILING_IN_LIMITED_API return PyObject_VectorcallDict(func, args, (size_t)nargs, kwargs); #else return __Pyx_PyObject_FastCall_fallback(func, args, (size_t)nargs, kwargs); #endif } /////////////// PyObjectCallMethod0.proto /////////////// static PyObject* __Pyx_PyObject_CallMethod0(PyObject* obj, PyObject* method_name); /*proto*/ /////////////// PyObjectCallMethod0 /////////////// //@requires: PyObjectGetMethod //@requires: PyObjectCallOneArg //@requires: PyObjectCallNoArg static PyObject* __Pyx_PyObject_CallMethod0(PyObject* obj, PyObject* method_name) { PyObject *method = NULL, *result = NULL; int is_method = __Pyx_PyObject_GetMethod(obj, method_name, &method); if (likely(is_method)) { result = __Pyx_PyObject_CallOneArg(method, obj); Py_DECREF(method); return result; } if (unlikely(!method)) goto bad; result = __Pyx_PyObject_CallNoArg(method); Py_DECREF(method); bad: return result; } /////////////// PyObjectCallMethod1.proto /////////////// static PyObject* __Pyx_PyObject_CallMethod1(PyObject* obj, PyObject* method_name, PyObject* arg); /*proto*/ /////////////// PyObjectCallMethod1 /////////////// //@requires: PyObjectGetMethod //@requires: PyObjectCallOneArg //@requires: PyObjectCall2Args #if !(CYTHON_VECTORCALL && __PYX_LIMITED_VERSION_HEX >= 0x030C00A2) static PyObject* __Pyx__PyObject_CallMethod1(PyObject* method, PyObject* arg) { // Separate function to avoid excessive inlining. PyObject *result = __Pyx_PyObject_CallOneArg(method, arg); Py_DECREF(method); return result; } #endif static PyObject* __Pyx_PyObject_CallMethod1(PyObject* obj, PyObject* method_name, PyObject* arg) { #if CYTHON_VECTORCALL && __PYX_LIMITED_VERSION_HEX >= 0x030C00A2 PyObject *args[2] = {obj, arg}; // avoid unused functions (void) __Pyx_PyObject_GetMethod; (void) __Pyx_PyObject_CallOneArg; (void) __Pyx_PyObject_Call2Args; return PyObject_VectorcallMethod(method_name, args, 2 | PY_VECTORCALL_ARGUMENTS_OFFSET, NULL); #else PyObject *method = NULL, *result; int is_method = __Pyx_PyObject_GetMethod(obj, method_name, &method); if (likely(is_method)) { result = __Pyx_PyObject_Call2Args(method, obj, arg); Py_DECREF(method); return result; } if (unlikely(!method)) return NULL; return __Pyx__PyObject_CallMethod1(method, arg); #endif } /////////////// tp_new.proto /////////////// #define __Pyx_tp_new(type_obj, args) __Pyx_tp_new_kwargs(type_obj, args, NULL) static CYTHON_INLINE PyObject* __Pyx_tp_new_kwargs(PyObject* type_obj, PyObject* args, PyObject* kwargs) { return (PyObject*) (((PyTypeObject*)type_obj)->tp_new((PyTypeObject*)type_obj, args, kwargs)); } /////////////// PyObjectCall.proto /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyObject_Call(PyObject *func, PyObject *arg, PyObject *kw); /*proto*/ #else #define __Pyx_PyObject_Call(func, arg, kw) PyObject_Call(func, arg, kw) #endif /////////////// PyObjectCall /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyObject_Call(PyObject *func, PyObject *arg, PyObject *kw) { PyObject *result; ternaryfunc call = Py_TYPE(func)->tp_call; if (unlikely(!call)) return PyObject_Call(func, arg, kw); #if PY_MAJOR_VERSION < 3 if (unlikely(Py_EnterRecursiveCall((char*)" while calling a Python object"))) return NULL; #else if (unlikely(Py_EnterRecursiveCall(" while calling a Python object"))) return NULL; #endif result = (*call)(func, arg, kw); Py_LeaveRecursiveCall(); if (unlikely(!result) && unlikely(!PyErr_Occurred())) { PyErr_SetString( PyExc_SystemError, "NULL result without error in PyObject_Call"); } return result; } #endif /////////////// PyObjectCallMethO.proto /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyObject_CallMethO(PyObject *func, PyObject *arg); /*proto*/ #endif /////////////// PyObjectCallMethO /////////////// #if CYTHON_COMPILING_IN_CPYTHON static CYTHON_INLINE PyObject* __Pyx_PyObject_CallMethO(PyObject *func, PyObject *arg) { PyObject *self, *result; PyCFunction cfunc; cfunc = __Pyx_CyOrPyCFunction_GET_FUNCTION(func); self = __Pyx_CyOrPyCFunction_GET_SELF(func); #if PY_MAJOR_VERSION < 3 if (unlikely(Py_EnterRecursiveCall((char*)" while calling a Python object"))) return NULL; #else if (unlikely(Py_EnterRecursiveCall(" while calling a Python object"))) return NULL; #endif result = cfunc(self, arg); Py_LeaveRecursiveCall(); if (unlikely(!result) && unlikely(!PyErr_Occurred())) { PyErr_SetString( PyExc_SystemError, "NULL result without error in PyObject_Call"); } return result; } #endif /////////////// PyFunctionFastCall.proto /////////////// #if CYTHON_FAST_PYCALL #if !CYTHON_VECTORCALL #define __Pyx_PyFunction_FastCall(func, args, nargs) \ __Pyx_PyFunction_FastCallDict((func), (args), (nargs), NULL) static PyObject *__Pyx_PyFunction_FastCallDict(PyObject *func, PyObject **args, Py_ssize_t nargs, PyObject *kwargs); #endif // Backport from Python 3 // Assert a build-time dependency, as an expression. // Your compile will fail if the condition isn't true, or can't be evaluated // by the compiler. This can be used in an expression: its value is 0. // Example: // #define foo_to_char(foo) \ // ((char *)(foo) \ // + Py_BUILD_ASSERT_EXPR(offsetof(struct foo, string) == 0)) // // Written by Rusty Russell, public domain, https://ccodearchive.net/ #define __Pyx_BUILD_ASSERT_EXPR(cond) \ (sizeof(char [1 - 2*!(cond)]) - 1) #ifndef Py_MEMBER_SIZE // Get the size of a structure member in bytes #define Py_MEMBER_SIZE(type, member) sizeof(((type *)0)->member) #endif #if !CYTHON_VECTORCALL #if PY_VERSION_HEX >= 0x03080000 #include "frameobject.h" #if PY_VERSION_HEX >= 0x030b00a6 && !CYTHON_COMPILING_IN_LIMITED_API #ifndef Py_BUILD_CORE #define Py_BUILD_CORE 1 #endif #include "internal/pycore_frame.h" #endif #define __Pxy_PyFrame_Initialize_Offsets() #define __Pyx_PyFrame_GetLocalsplus(frame) ((frame)->f_localsplus) #else // Initialised by module init code. static size_t __pyx_pyframe_localsplus_offset = 0; #include "frameobject.h" // This is the long runtime version of // #define __Pyx_PyFrame_GetLocalsplus(frame) ((frame)->f_localsplus) // offsetof(PyFrameObject, f_localsplus) differs between regular C-Python and Stackless Python < 3.8. // Therefore the offset is computed at run time from PyFrame_type.tp_basicsize. That is feasible, // because f_localsplus is the last field of PyFrameObject (checked by Py_BUILD_ASSERT_EXPR below). #define __Pxy_PyFrame_Initialize_Offsets() \ ((void)__Pyx_BUILD_ASSERT_EXPR(sizeof(PyFrameObject) == offsetof(PyFrameObject, f_localsplus) + Py_MEMBER_SIZE(PyFrameObject, f_localsplus)), \ (void)(__pyx_pyframe_localsplus_offset = ((size_t)PyFrame_Type.tp_basicsize) - Py_MEMBER_SIZE(PyFrameObject, f_localsplus))) #define __Pyx_PyFrame_GetLocalsplus(frame) \ (assert(__pyx_pyframe_localsplus_offset), (PyObject **)(((char *)(frame)) + __pyx_pyframe_localsplus_offset)) #endif #endif /* !CYTHON_VECTORCALL */ #endif /* CYTHON_FAST_PYCALL */ /////////////// PyFunctionFastCall /////////////// // copied from CPython 3.6 ceval.c #if CYTHON_FAST_PYCALL && !CYTHON_VECTORCALL static PyObject* __Pyx_PyFunction_FastCallNoKw(PyCodeObject *co, PyObject **args, Py_ssize_t na, PyObject *globals) { PyFrameObject *f; PyThreadState *tstate = __Pyx_PyThreadState_Current; PyObject **fastlocals; Py_ssize_t i; PyObject *result; assert(globals != NULL); /* XXX Perhaps we should create a specialized PyFrame_New() that doesn't take locals, but does take builtins without sanity checking them. */ assert(tstate != NULL); f = PyFrame_New(tstate, co, globals, NULL); if (f == NULL) { return NULL; } fastlocals = __Pyx_PyFrame_GetLocalsplus(f); for (i = 0; i < na; i++) { Py_INCREF(*args); fastlocals[i] = *args++; } result = PyEval_EvalFrameEx(f,0); ++tstate->recursion_depth; Py_DECREF(f); --tstate->recursion_depth; return result; } static PyObject *__Pyx_PyFunction_FastCallDict(PyObject *func, PyObject **args, Py_ssize_t nargs, PyObject *kwargs) { PyCodeObject *co = (PyCodeObject *)PyFunction_GET_CODE(func); PyObject *globals = PyFunction_GET_GLOBALS(func); PyObject *argdefs = PyFunction_GET_DEFAULTS(func); PyObject *closure; #if PY_MAJOR_VERSION >= 3 PyObject *kwdefs; //#if PY_VERSION_HEX >= 0x03050000 //PyObject *name, *qualname; //#endif #endif PyObject *kwtuple, **k; PyObject **d; Py_ssize_t nd; Py_ssize_t nk; PyObject *result; assert(kwargs == NULL || PyDict_Check(kwargs)); nk = kwargs ? PyDict_Size(kwargs) : 0; #if PY_MAJOR_VERSION < 3 if (unlikely(Py_EnterRecursiveCall((char*)" while calling a Python object"))) { return NULL; } #else if (unlikely(Py_EnterRecursiveCall(" while calling a Python object"))) { return NULL; } #endif if ( #if PY_MAJOR_VERSION >= 3 co->co_kwonlyargcount == 0 && #endif likely(kwargs == NULL || nk == 0) && co->co_flags == (CO_OPTIMIZED | CO_NEWLOCALS | CO_NOFREE)) { /* Fast paths */ if (argdefs == NULL && co->co_argcount == nargs) { result = __Pyx_PyFunction_FastCallNoKw(co, args, nargs, globals); goto done; } else if (nargs == 0 && argdefs != NULL && co->co_argcount == Py_SIZE(argdefs)) { /* function called with no arguments, but all parameters have a default value: use default values as arguments .*/ args = &PyTuple_GET_ITEM(argdefs, 0); result =__Pyx_PyFunction_FastCallNoKw(co, args, Py_SIZE(argdefs), globals); goto done; } } if (kwargs != NULL) { Py_ssize_t pos, i; kwtuple = PyTuple_New(2 * nk); if (kwtuple == NULL) { result = NULL; goto done; } k = &PyTuple_GET_ITEM(kwtuple, 0); pos = i = 0; while (PyDict_Next(kwargs, &pos, &k[i], &k[i+1])) { Py_INCREF(k[i]); Py_INCREF(k[i+1]); i += 2; } nk = i / 2; } else { kwtuple = NULL; k = NULL; } closure = PyFunction_GET_CLOSURE(func); #if PY_MAJOR_VERSION >= 3 kwdefs = PyFunction_GET_KW_DEFAULTS(func); //#if PY_VERSION_HEX >= 0x03050000 //name = ((PyFunctionObject *)func) -> func_name; //qualname = ((PyFunctionObject *)func) -> func_qualname; //#endif #endif if (argdefs != NULL) { d = &PyTuple_GET_ITEM(argdefs, 0); nd = Py_SIZE(argdefs); } else { d = NULL; nd = 0; } //#if PY_VERSION_HEX >= 0x03050000 //return _PyEval_EvalCodeWithName((PyObject*)co, globals, (PyObject *)NULL, // args, nargs, // NULL, 0, // d, nd, kwdefs, // closure, name, qualname); //#elif PY_MAJOR_VERSION >= 3 #if PY_MAJOR_VERSION >= 3 result = PyEval_EvalCodeEx((PyObject*)co, globals, (PyObject *)NULL, args, (int)nargs, k, (int)nk, d, (int)nd, kwdefs, closure); #else result = PyEval_EvalCodeEx(co, globals, (PyObject *)NULL, args, (int)nargs, k, (int)nk, d, (int)nd, closure); #endif Py_XDECREF(kwtuple); done: Py_LeaveRecursiveCall(); return result; } #endif /* CYTHON_FAST_PYCALL && !CYTHON_VECTORCALL */ /////////////// PyObjectCall2Args.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_PyObject_Call2Args(PyObject* function, PyObject* arg1, PyObject* arg2); /*proto*/ /////////////// PyObjectCall2Args /////////////// //@requires: PyObjectFastCall static CYTHON_INLINE PyObject* __Pyx_PyObject_Call2Args(PyObject* function, PyObject* arg1, PyObject* arg2) { PyObject *args[3] = {NULL, arg1, arg2}; return __Pyx_PyObject_FastCall(function, args+1, 2 | __Pyx_PY_VECTORCALL_ARGUMENTS_OFFSET); } /////////////// PyObjectCallOneArg.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_PyObject_CallOneArg(PyObject *func, PyObject *arg); /*proto*/ /////////////// PyObjectCallOneArg /////////////// //@requires: PyObjectFastCall static CYTHON_INLINE PyObject* __Pyx_PyObject_CallOneArg(PyObject *func, PyObject *arg) { PyObject *args[2] = {NULL, arg}; return __Pyx_PyObject_FastCall(func, args+1, 1 | __Pyx_PY_VECTORCALL_ARGUMENTS_OFFSET); } /////////////// PyObjectCallNoArg.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_PyObject_CallNoArg(PyObject *func); /*proto*/ /////////////// PyObjectCallNoArg /////////////// //@requires: PyObjectFastCall static CYTHON_INLINE PyObject* __Pyx_PyObject_CallNoArg(PyObject *func) { PyObject *arg[2] = {NULL, NULL}; return __Pyx_PyObject_FastCall(func, arg + 1, 0 | __Pyx_PY_VECTORCALL_ARGUMENTS_OFFSET); } /////////////// PyVectorcallFastCallDict.proto /////////////// #if CYTHON_METH_FASTCALL static CYTHON_INLINE PyObject *__Pyx_PyVectorcall_FastCallDict(PyObject *func, __pyx_vectorcallfunc vc, PyObject *const *args, size_t nargs, PyObject *kw); #endif /////////////// PyVectorcallFastCallDict /////////////// #if CYTHON_METH_FASTCALL // Slow path when kw is non-empty static PyObject *__Pyx_PyVectorcall_FastCallDict_kw(PyObject *func, __pyx_vectorcallfunc vc, PyObject *const *args, size_t nargs, PyObject *kw) { // Code based on _PyObject_FastCallDict() and _PyStack_UnpackDict() from CPython PyObject *res = NULL; PyObject *kwnames; PyObject **newargs; PyObject **kwvalues; Py_ssize_t i, pos; size_t j; PyObject *key, *value; unsigned long keys_are_strings; Py_ssize_t nkw = PyDict_GET_SIZE(kw); // Copy positional arguments newargs = (PyObject **)PyMem_Malloc((nargs + (size_t)nkw) * sizeof(args[0])); if (unlikely(newargs == NULL)) { PyErr_NoMemory(); return NULL; } for (j = 0; j < nargs; j++) newargs[j] = args[j]; // Copy keyword arguments kwnames = PyTuple_New(nkw); if (unlikely(kwnames == NULL)) { PyMem_Free(newargs); return NULL; } kwvalues = newargs + nargs; pos = i = 0; keys_are_strings = Py_TPFLAGS_UNICODE_SUBCLASS; while (PyDict_Next(kw, &pos, &key, &value)) { keys_are_strings &= Py_TYPE(key)->tp_flags; Py_INCREF(key); Py_INCREF(value); PyTuple_SET_ITEM(kwnames, i, key); kwvalues[i] = value; i++; } if (unlikely(!keys_are_strings)) { PyErr_SetString(PyExc_TypeError, "keywords must be strings"); goto cleanup; } // The actual call res = vc(func, newargs, nargs, kwnames); cleanup: Py_DECREF(kwnames); for (i = 0; i < nkw; i++) Py_DECREF(kwvalues[i]); PyMem_Free(newargs); return res; } static CYTHON_INLINE PyObject *__Pyx_PyVectorcall_FastCallDict(PyObject *func, __pyx_vectorcallfunc vc, PyObject *const *args, size_t nargs, PyObject *kw) { if (likely(kw == NULL) || PyDict_GET_SIZE(kw) == 0) { return vc(func, args, nargs, NULL); } return __Pyx_PyVectorcall_FastCallDict_kw(func, vc, args, nargs, kw); } #endif /////////////// MatrixMultiply.proto /////////////// #if PY_VERSION_HEX >= 0x03050000 #define __Pyx_PyNumber_MatrixMultiply(x,y) PyNumber_MatrixMultiply(x,y) #define __Pyx_PyNumber_InPlaceMatrixMultiply(x,y) PyNumber_InPlaceMatrixMultiply(x,y) #else #define __Pyx_PyNumber_MatrixMultiply(x,y) __Pyx__PyNumber_MatrixMultiply(x, y, "@") static PyObject* __Pyx__PyNumber_MatrixMultiply(PyObject* x, PyObject* y, const char* op_name); static PyObject* __Pyx_PyNumber_InPlaceMatrixMultiply(PyObject* x, PyObject* y); #endif /////////////// MatrixMultiply /////////////// //@requires: PyObjectGetAttrStrNoError //@requires: PyObjectCallOneArg //@requires: PyObjectCall2Args #if PY_VERSION_HEX < 0x03050000 static PyObject* __Pyx_PyObject_CallMatrixMethod(PyObject* method, PyObject* arg) { // NOTE: eats the method reference PyObject *result = NULL; #if CYTHON_UNPACK_METHODS if (likely(PyMethod_Check(method))) { PyObject *self = PyMethod_GET_SELF(method); if (likely(self)) { PyObject *function = PyMethod_GET_FUNCTION(method); result = __Pyx_PyObject_Call2Args(function, self, arg); goto done; } } #endif result = __Pyx_PyObject_CallOneArg(method, arg); done: Py_DECREF(method); return result; } #define __Pyx_TryMatrixMethod(x, y, py_method_name) { \ PyObject *func = __Pyx_PyObject_GetAttrStrNoError(x, py_method_name); \ if (func) { \ PyObject *result = __Pyx_PyObject_CallMatrixMethod(func, y); \ if (result != Py_NotImplemented) \ return result; \ Py_DECREF(result); \ } else if (unlikely(PyErr_Occurred())) { \ return NULL; \ } \ } static PyObject* __Pyx__PyNumber_MatrixMultiply(PyObject* x, PyObject* y, const char* op_name) { __Pyx_TypeName x_type_name; __Pyx_TypeName y_type_name; int right_is_subtype = PyObject_IsSubclass((PyObject*)Py_TYPE(y), (PyObject*)Py_TYPE(x)); if (unlikely(right_is_subtype == -1)) return NULL; if (right_is_subtype) { // to allow subtypes to override parent behaviour, try reversed operation first // see note at https://docs.python.org/3/reference/datamodel.html#emulating-numeric-types __Pyx_TryMatrixMethod(y, x, PYIDENT("__rmatmul__")) } __Pyx_TryMatrixMethod(x, y, PYIDENT("__matmul__")) if (!right_is_subtype) { __Pyx_TryMatrixMethod(y, x, PYIDENT("__rmatmul__")) } x_type_name = __Pyx_PyType_GetName(Py_TYPE(x)); y_type_name = __Pyx_PyType_GetName(Py_TYPE(y)); PyErr_Format(PyExc_TypeError, "unsupported operand type(s) for %.2s: '" __Pyx_FMT_TYPENAME "' and '" __Pyx_FMT_TYPENAME "'", op_name, x_type_name, y_type_name); __Pyx_DECREF_TypeName(x_type_name); __Pyx_DECREF_TypeName(y_type_name); return NULL; } static PyObject* __Pyx_PyNumber_InPlaceMatrixMultiply(PyObject* x, PyObject* y) { __Pyx_TryMatrixMethod(x, y, PYIDENT("__imatmul__")) return __Pyx__PyNumber_MatrixMultiply(x, y, "@="); } #undef __Pyx_TryMatrixMethod #endif /////////////// PyDictVersioning.proto /////////////// #if CYTHON_USE_DICT_VERSIONS && CYTHON_USE_TYPE_SLOTS #define __PYX_DICT_VERSION_INIT ((PY_UINT64_T) -1) #define __PYX_GET_DICT_VERSION(dict) (((PyDictObject*)(dict))->ma_version_tag) #define __PYX_UPDATE_DICT_CACHE(dict, value, cache_var, version_var) \ (version_var) = __PYX_GET_DICT_VERSION(dict); \ (cache_var) = (value); #define __PYX_PY_DICT_LOOKUP_IF_MODIFIED(VAR, DICT, LOOKUP) { \ static PY_UINT64_T __pyx_dict_version = 0; \ static PyObject *__pyx_dict_cached_value = NULL; \ if (likely(__PYX_GET_DICT_VERSION(DICT) == __pyx_dict_version)) { \ (VAR) = __pyx_dict_cached_value; \ } else { \ (VAR) = __pyx_dict_cached_value = (LOOKUP); \ __pyx_dict_version = __PYX_GET_DICT_VERSION(DICT); \ } \ } static CYTHON_INLINE PY_UINT64_T __Pyx_get_tp_dict_version(PyObject *obj); /*proto*/ static CYTHON_INLINE PY_UINT64_T __Pyx_get_object_dict_version(PyObject *obj); /*proto*/ static CYTHON_INLINE int __Pyx_object_dict_version_matches(PyObject* obj, PY_UINT64_T tp_dict_version, PY_UINT64_T obj_dict_version); /*proto*/ #else #define __PYX_GET_DICT_VERSION(dict) (0) #define __PYX_UPDATE_DICT_CACHE(dict, value, cache_var, version_var) #define __PYX_PY_DICT_LOOKUP_IF_MODIFIED(VAR, DICT, LOOKUP) (VAR) = (LOOKUP); #endif /////////////// PyDictVersioning /////////////// #if CYTHON_USE_DICT_VERSIONS && CYTHON_USE_TYPE_SLOTS static CYTHON_INLINE PY_UINT64_T __Pyx_get_tp_dict_version(PyObject *obj) { PyObject *dict = Py_TYPE(obj)->tp_dict; return likely(dict) ? __PYX_GET_DICT_VERSION(dict) : 0; } static CYTHON_INLINE PY_UINT64_T __Pyx_get_object_dict_version(PyObject *obj) { PyObject **dictptr = NULL; Py_ssize_t offset = Py_TYPE(obj)->tp_dictoffset; if (offset) { #if CYTHON_COMPILING_IN_CPYTHON dictptr = (likely(offset > 0)) ? (PyObject **) ((char *)obj + offset) : _PyObject_GetDictPtr(obj); #else dictptr = _PyObject_GetDictPtr(obj); #endif } return (dictptr && *dictptr) ? __PYX_GET_DICT_VERSION(*dictptr) : 0; } static CYTHON_INLINE int __Pyx_object_dict_version_matches(PyObject* obj, PY_UINT64_T tp_dict_version, PY_UINT64_T obj_dict_version) { PyObject *dict = Py_TYPE(obj)->tp_dict; if (unlikely(!dict) || unlikely(tp_dict_version != __PYX_GET_DICT_VERSION(dict))) return 0; return obj_dict_version == __Pyx_get_object_dict_version(obj); } #endif /////////////// PyMethodNew.proto /////////////// #if CYTHON_COMPILING_IN_LIMITED_API static PyObject *__Pyx_PyMethod_New(PyObject *func, PyObject *self, PyObject *typ) { PyObject *typesModule=NULL, *methodType=NULL, *result=NULL; CYTHON_UNUSED_VAR(typ); if (!self) return __Pyx_NewRef(func); typesModule = PyImport_ImportModule("types"); if (!typesModule) return NULL; methodType = PyObject_GetAttrString(typesModule, "MethodType"); Py_DECREF(typesModule); if (!methodType) return NULL; result = PyObject_CallFunctionObjArgs(methodType, func, self, NULL); Py_DECREF(methodType); return result; } #elif PY_MAJOR_VERSION >= 3 // This should be an actual function (not a macro), such that we can put it // directly in a tp_descr_get slot. static PyObject *__Pyx_PyMethod_New(PyObject *func, PyObject *self, PyObject *typ) { CYTHON_UNUSED_VAR(typ); if (!self) return __Pyx_NewRef(func); return PyMethod_New(func, self); } #else #define __Pyx_PyMethod_New PyMethod_New #endif ///////////// PyMethodNew2Arg.proto ///////////// // Another wrapping of PyMethod_New that matches the Python3 signature #if PY_MAJOR_VERSION >= 3 #define __Pyx_PyMethod_New2Arg PyMethod_New #else #define __Pyx_PyMethod_New2Arg(func, self) PyMethod_New(func, self, (PyObject*)Py_TYPE(self)) #endif /////////////// UnicodeConcatInPlace.proto //////////////// # if CYTHON_COMPILING_IN_CPYTHON && PY_MAJOR_VERSION >= 3 // __Pyx_PyUnicode_ConcatInPlace may modify the first argument 'left' // However, unlike `PyUnicode_Append` it will never NULL it. // It behaves like a regular function - returns a new reference and NULL on error #if CYTHON_REFNANNY #define __Pyx_PyUnicode_ConcatInPlace(left, right) __Pyx_PyUnicode_ConcatInPlaceImpl(&left, right, __pyx_refnanny) #else #define __Pyx_PyUnicode_ConcatInPlace(left, right) __Pyx_PyUnicode_ConcatInPlaceImpl(&left, right) #endif // __Pyx_PyUnicode_ConcatInPlace is slightly odd because it has the potential to modify the input // argument (but only in cases where no user should notice). Therefore, it needs to keep Cython's // refnanny informed. static CYTHON_INLINE PyObject *__Pyx_PyUnicode_ConcatInPlaceImpl(PyObject **p_left, PyObject *right #if CYTHON_REFNANNY , void* __pyx_refnanny #endif ); /* proto */ #else #define __Pyx_PyUnicode_ConcatInPlace __Pyx_PyUnicode_Concat #endif #define __Pyx_PyUnicode_ConcatInPlaceSafe(left, right) ((unlikely((left) == Py_None) || unlikely((right) == Py_None)) ? \ PyNumber_InPlaceAdd(left, right) : __Pyx_PyUnicode_ConcatInPlace(left, right)) /////////////// UnicodeConcatInPlace //////////////// //@substitute: naming # if CYTHON_COMPILING_IN_CPYTHON && PY_MAJOR_VERSION >= 3 // copied directly from unicode_object.c "unicode_modifiable // removing _PyUnicode_HASH since it's a macro we don't have // - this is OK because trying PyUnicode_Resize on a non-modifyable // object will still work, it just won't happen in place static int __Pyx_unicode_modifiable(PyObject *unicode) { if (Py_REFCNT(unicode) != 1) return 0; if (!PyUnicode_CheckExact(unicode)) return 0; if (PyUnicode_CHECK_INTERNED(unicode)) return 0; return 1; } static CYTHON_INLINE PyObject *__Pyx_PyUnicode_ConcatInPlaceImpl(PyObject **p_left, PyObject *right #if CYTHON_REFNANNY , void* __pyx_refnanny #endif ) { // heavily based on PyUnicode_Append PyObject *left = *p_left; Py_ssize_t left_len, right_len, new_len; if (unlikely(__Pyx_PyUnicode_READY(left) == -1)) return NULL; if (unlikely(__Pyx_PyUnicode_READY(right) == -1)) return NULL; // Shortcuts left_len = PyUnicode_GET_LENGTH(left); if (left_len == 0) { Py_INCREF(right); return right; } right_len = PyUnicode_GET_LENGTH(right); if (right_len == 0) { Py_INCREF(left); return left; } if (unlikely(left_len > PY_SSIZE_T_MAX - right_len)) { PyErr_SetString(PyExc_OverflowError, "strings are too large to concat"); return NULL; } new_len = left_len + right_len; if (__Pyx_unicode_modifiable(left) && PyUnicode_CheckExact(right) && PyUnicode_KIND(right) <= PyUnicode_KIND(left) // Don't resize for ascii += latin1. Convert ascii to latin1 requires // to change the structure size, but characters are stored just after // the structure, and so it requires to move all characters which is // not so different than duplicating the string. && !(PyUnicode_IS_ASCII(left) && !PyUnicode_IS_ASCII(right))) { int ret; // GIVEREF/GOTREF since we expect *p_left to change (although it won't change on failures). __Pyx_GIVEREF(*p_left); ret = PyUnicode_Resize(p_left, new_len); __Pyx_GOTREF(*p_left); if (unlikely(ret != 0)) return NULL; // copy 'right' into the newly allocated area of 'left' #if PY_VERSION_HEX >= 0x030d0000 if (unlikely(PyUnicode_CopyCharacters(*p_left, left_len, right, 0, right_len) < 0)) return NULL; #else _PyUnicode_FastCopyCharacters(*p_left, left_len, right, 0, right_len); #endif __Pyx_INCREF(*p_left); __Pyx_GIVEREF(*p_left); return *p_left; } else { return __Pyx_PyUnicode_Concat(left, right); } } #endif ////////////// StrConcatInPlace.proto /////////////////////// //@requires: UnicodeConcatInPlace #if PY_MAJOR_VERSION >= 3 // allow access to the more efficient versions where we know str_type is unicode #define __Pyx_PyStr_Concat __Pyx_PyUnicode_Concat #define __Pyx_PyStr_ConcatInPlace __Pyx_PyUnicode_ConcatInPlace #else #define __Pyx_PyStr_Concat PyNumber_Add #define __Pyx_PyStr_ConcatInPlace PyNumber_InPlaceAdd #endif #define __Pyx_PyStr_ConcatSafe(a, b) ((unlikely((a) == Py_None) || unlikely((b) == Py_None)) ? \ PyNumber_Add(a, b) : __Pyx_PyStr_Concat(a, b)) #define __Pyx_PyStr_ConcatInPlaceSafe(a, b) ((unlikely((a) == Py_None) || unlikely((b) == Py_None)) ? \ PyNumber_InPlaceAdd(a, b) : __Pyx_PyStr_ConcatInPlace(a, b)) /////////////// PySequenceMultiply.proto /////////////// #define __Pyx_PySequence_Multiply_Left(mul, seq) __Pyx_PySequence_Multiply(seq, mul) static CYTHON_INLINE PyObject* __Pyx_PySequence_Multiply(PyObject *seq, Py_ssize_t mul); /////////////// PySequenceMultiply /////////////// static PyObject* __Pyx_PySequence_Multiply_Generic(PyObject *seq, Py_ssize_t mul) { PyObject *result, *pymul = PyInt_FromSsize_t(mul); if (unlikely(!pymul)) return NULL; result = PyNumber_Multiply(seq, pymul); Py_DECREF(pymul); return result; } static CYTHON_INLINE PyObject* __Pyx_PySequence_Multiply(PyObject *seq, Py_ssize_t mul) { #if CYTHON_USE_TYPE_SLOTS PyTypeObject *type = Py_TYPE(seq); if (likely(type->tp_as_sequence && type->tp_as_sequence->sq_repeat)) { return type->tp_as_sequence->sq_repeat(seq, mul); } else #endif { return __Pyx_PySequence_Multiply_Generic(seq, mul); } } /////////////// FormatTypeName.proto /////////////// #if CYTHON_COMPILING_IN_LIMITED_API typedef PyObject *__Pyx_TypeName; #define __Pyx_FMT_TYPENAME "%U" static __Pyx_TypeName __Pyx_PyType_GetName(PyTypeObject* tp); /*proto*/ #define __Pyx_DECREF_TypeName(obj) Py_XDECREF(obj) #else typedef const char *__Pyx_TypeName; #define __Pyx_FMT_TYPENAME "%.200s" #define __Pyx_PyType_GetName(tp) ((tp)->tp_name) #define __Pyx_DECREF_TypeName(obj) #endif /////////////// FormatTypeName /////////////// #if CYTHON_COMPILING_IN_LIMITED_API static __Pyx_TypeName __Pyx_PyType_GetName(PyTypeObject* tp) { PyObject *name = __Pyx_PyObject_GetAttrStr((PyObject *)tp, PYIDENT("__name__")); if (unlikely(name == NULL) || unlikely(!PyUnicode_Check(name))) { PyErr_Clear(); Py_XDECREF(name); name = __Pyx_NewRef(PYIDENT("?")); } return name; } #endif /////////////// RaiseUnexpectedTypeError.proto /////////////// static int __Pyx_RaiseUnexpectedTypeError(const char *expected, PyObject *obj); /*proto*/ /////////////// RaiseUnexpectedTypeError /////////////// static int __Pyx_RaiseUnexpectedTypeError(const char *expected, PyObject *obj) { __Pyx_TypeName obj_type_name = __Pyx_PyType_GetName(Py_TYPE(obj)); PyErr_Format(PyExc_TypeError, "Expected %s, got " __Pyx_FMT_TYPENAME, expected, obj_type_name); __Pyx_DECREF_TypeName(obj_type_name); return 0; } /////////////// RaiseUnboundLocalError.proto /////////////// static CYTHON_INLINE void __Pyx_RaiseUnboundLocalError(const char *varname);/*proto*/ /////////////// RaiseUnboundLocalError /////////////// static CYTHON_INLINE void __Pyx_RaiseUnboundLocalError(const char *varname) { PyErr_Format(PyExc_UnboundLocalError, "local variable '%s' referenced before assignment", varname); } /////////////// RaiseClosureNameError.proto /////////////// static CYTHON_INLINE void __Pyx_RaiseClosureNameError(const char *varname);/*proto*/ /////////////// RaiseClosureNameError /////////////// static CYTHON_INLINE void __Pyx_RaiseClosureNameError(const char *varname) { PyErr_Format(PyExc_NameError, "free variable '%s' referenced before assignment in enclosing scope", varname); } /////////////// RaiseUnboundMemoryviewSliceNogil.proto /////////////// static void __Pyx_RaiseUnboundMemoryviewSliceNogil(const char *varname);/*proto*/ /////////////// RaiseUnboundMemoryviewSliceNogil /////////////// //@requires: RaiseUnboundLocalError // Don't inline the function, it should really never be called in production static void __Pyx_RaiseUnboundMemoryviewSliceNogil(const char *varname) { #ifdef WITH_THREAD PyGILState_STATE gilstate = PyGILState_Ensure(); #endif __Pyx_RaiseUnboundLocalError(varname); #ifdef WITH_THREAD PyGILState_Release(gilstate); #endif } //////////////// RaiseCppGlobalNameError.proto /////////////////////// static CYTHON_INLINE void __Pyx_RaiseCppGlobalNameError(const char *varname); /*proto*/ /////////////// RaiseCppGlobalNameError ////////////////////////////// static CYTHON_INLINE void __Pyx_RaiseCppGlobalNameError(const char *varname) { PyErr_Format(PyExc_NameError, "C++ global '%s' is not initialized", varname); } //////////////// RaiseCppAttributeError.proto /////////////////////// static CYTHON_INLINE void __Pyx_RaiseCppAttributeError(const char *varname); /*proto*/ /////////////// RaiseCppAttributeError ////////////////////////////// static CYTHON_INLINE void __Pyx_RaiseCppAttributeError(const char *varname) { PyErr_Format(PyExc_AttributeError, "C++ attribute '%s' is not initialized", varname); }