/* * Optional optimisations of built-in functions and methods. * * Required replacements of builtins are in Builtins.c. * * General object operations and protocols are in ObjectHandling.c. */ /////////////// append.proto /////////////// static CYTHON_INLINE int __Pyx_PyObject_Append(PyObject* L, PyObject* x); /*proto*/ /////////////// append /////////////// //@requires: ListAppend //@requires: ObjectHandling.c::PyObjectCallMethod1 static CYTHON_INLINE int __Pyx_PyObject_Append(PyObject* L, PyObject* x) { if (likely(PyList_CheckExact(L))) { if (unlikely(__Pyx_PyList_Append(L, x) < 0)) return -1; } else { PyObject* retval = __Pyx_PyObject_CallMethod1(L, PYIDENT("append"), x); if (unlikely(!retval)) return -1; Py_DECREF(retval); } return 0; } /////////////// ListAppend.proto /////////////// #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static CYTHON_INLINE int __Pyx_PyList_Append(PyObject* list, PyObject* x) { PyListObject* L = (PyListObject*) list; Py_ssize_t len = Py_SIZE(list); if (likely(L->allocated > len) & likely(len > (L->allocated >> 1))) { Py_INCREF(x); PyList_SET_ITEM(list, len, x); __Pyx_SET_SIZE(list, len + 1); return 0; } return PyList_Append(list, x); } #else #define __Pyx_PyList_Append(L,x) PyList_Append(L,x) #endif /////////////// ListCompAppend.proto /////////////// #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static CYTHON_INLINE int __Pyx_ListComp_Append(PyObject* list, PyObject* x) { PyListObject* L = (PyListObject*) list; Py_ssize_t len = Py_SIZE(list); if (likely(L->allocated > len)) { Py_INCREF(x); PyList_SET_ITEM(list, len, x); __Pyx_SET_SIZE(list, len + 1); return 0; } return PyList_Append(list, x); } #else #define __Pyx_ListComp_Append(L,x) PyList_Append(L,x) #endif //////////////////// ListExtend.proto //////////////////// static CYTHON_INLINE int __Pyx_PyList_Extend(PyObject* L, PyObject* v) { #if CYTHON_COMPILING_IN_CPYTHON PyObject* none = _PyList_Extend((PyListObject*)L, v); if (unlikely(!none)) return -1; Py_DECREF(none); return 0; #else return PyList_SetSlice(L, PY_SSIZE_T_MAX, PY_SSIZE_T_MAX, v); #endif } /////////////// pop.proto /////////////// static CYTHON_INLINE PyObject* __Pyx__PyObject_Pop(PyObject* L); /*proto*/ #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static CYTHON_INLINE PyObject* __Pyx_PyList_Pop(PyObject* L); /*proto*/ #define __Pyx_PyObject_Pop(L) (likely(PyList_CheckExact(L)) ? \ __Pyx_PyList_Pop(L) : __Pyx__PyObject_Pop(L)) #else #define __Pyx_PyList_Pop(L) __Pyx__PyObject_Pop(L) #define __Pyx_PyObject_Pop(L) __Pyx__PyObject_Pop(L) #endif /////////////// pop /////////////// //@requires: ObjectHandling.c::PyObjectCallMethod0 static CYTHON_INLINE PyObject* __Pyx__PyObject_Pop(PyObject* L) { if (Py_TYPE(L) == &PySet_Type) { return PySet_Pop(L); } return __Pyx_PyObject_CallMethod0(L, PYIDENT("pop")); } #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static CYTHON_INLINE PyObject* __Pyx_PyList_Pop(PyObject* L) { /* Check that both the size is positive and no reallocation shrinking needs to be done. */ if (likely(PyList_GET_SIZE(L) > (((PyListObject*)L)->allocated >> 1))) { __Pyx_SET_SIZE(L, Py_SIZE(L) - 1); return PyList_GET_ITEM(L, PyList_GET_SIZE(L)); } return CALL_UNBOUND_METHOD(PyList_Type, "pop", L); } #endif /////////////// pop_index.proto /////////////// static PyObject* __Pyx__PyObject_PopNewIndex(PyObject* L, PyObject* py_ix); /*proto*/ static PyObject* __Pyx__PyObject_PopIndex(PyObject* L, PyObject* py_ix); /*proto*/ #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static PyObject* __Pyx__PyList_PopIndex(PyObject* L, PyObject* py_ix, Py_ssize_t ix); /*proto*/ #define __Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \ (likely(PyList_CheckExact(L) && __Pyx_fits_Py_ssize_t(ix, type, is_signed))) ? \ __Pyx__PyList_PopIndex(L, py_ix, ix) : ( \ (unlikely((py_ix) == Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \ __Pyx__PyObject_PopIndex(L, py_ix))) #define __Pyx_PyList_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \ __Pyx_fits_Py_ssize_t(ix, type, is_signed) ? \ __Pyx__PyList_PopIndex(L, py_ix, ix) : ( \ (unlikely((py_ix) == Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \ __Pyx__PyObject_PopIndex(L, py_ix))) #else #define __Pyx_PyList_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) \ __Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) #define __Pyx_PyObject_PopIndex(L, py_ix, ix, is_signed, type, to_py_func) ( \ (unlikely((py_ix) == Py_None)) ? __Pyx__PyObject_PopNewIndex(L, to_py_func(ix)) : \ __Pyx__PyObject_PopIndex(L, py_ix)) #endif /////////////// pop_index /////////////// //@requires: ObjectHandling.c::PyObjectCallMethod1 static PyObject* __Pyx__PyObject_PopNewIndex(PyObject* L, PyObject* py_ix) { PyObject *r; if (unlikely(!py_ix)) return NULL; r = __Pyx__PyObject_PopIndex(L, py_ix); Py_DECREF(py_ix); return r; } static PyObject* __Pyx__PyObject_PopIndex(PyObject* L, PyObject* py_ix) { return __Pyx_PyObject_CallMethod1(L, PYIDENT("pop"), py_ix); } #if CYTHON_USE_PYLIST_INTERNALS && CYTHON_ASSUME_SAFE_MACROS static PyObject* __Pyx__PyList_PopIndex(PyObject* L, PyObject* py_ix, Py_ssize_t ix) { Py_ssize_t size = PyList_GET_SIZE(L); if (likely(size > (((PyListObject*)L)->allocated >> 1))) { Py_ssize_t cix = ix; if (cix < 0) { cix += size; } if (likely(__Pyx_is_valid_index(cix, size))) { PyObject* v = PyList_GET_ITEM(L, cix); __Pyx_SET_SIZE(L, Py_SIZE(L) - 1); size -= 1; memmove(&PyList_GET_ITEM(L, cix), &PyList_GET_ITEM(L, cix+1), (size_t)(size-cix)*sizeof(PyObject*)); return v; } } if (py_ix == Py_None) { return __Pyx__PyObject_PopNewIndex(L, PyInt_FromSsize_t(ix)); } else { return __Pyx__PyObject_PopIndex(L, py_ix); } } #endif /////////////// dict_getitem_default.proto /////////////// static PyObject* __Pyx_PyDict_GetItemDefault(PyObject* d, PyObject* key, PyObject* default_value); /*proto*/ /////////////// dict_getitem_default /////////////// static PyObject* __Pyx_PyDict_GetItemDefault(PyObject* d, PyObject* key, PyObject* default_value) { PyObject* value; #if PY_MAJOR_VERSION >= 3 && !CYTHON_COMPILING_IN_PYPY value = PyDict_GetItemWithError(d, key); if (unlikely(!value)) { if (unlikely(PyErr_Occurred())) return NULL; value = default_value; } Py_INCREF(value); // avoid C compiler warning about unused utility functions if ((1)); #else if (PyString_CheckExact(key) || PyUnicode_CheckExact(key) || PyInt_CheckExact(key)) { /* these presumably have safe hash functions */ value = PyDict_GetItem(d, key); if (unlikely(!value)) { value = default_value; } Py_INCREF(value); } #endif else { if (default_value == Py_None) value = CALL_UNBOUND_METHOD(PyDict_Type, "get", d, key); else value = CALL_UNBOUND_METHOD(PyDict_Type, "get", d, key, default_value); } return value; } /////////////// dict_setdefault.proto /////////////// static CYTHON_INLINE PyObject *__Pyx_PyDict_SetDefault(PyObject *d, PyObject *key, PyObject *default_value, int is_safe_type); /*proto*/ /////////////// dict_setdefault /////////////// static CYTHON_INLINE PyObject *__Pyx_PyDict_SetDefault(PyObject *d, PyObject *key, PyObject *default_value, CYTHON_UNUSED int is_safe_type) { PyObject* value; #if PY_VERSION_HEX >= 0x030400A0 // we keep the method call at the end to avoid "unused" C compiler warnings if ((1)) { value = PyDict_SetDefault(d, key, default_value); if (unlikely(!value)) return NULL; Py_INCREF(value); #else if (is_safe_type == 1 || (is_safe_type == -1 && /* the following builtins presumably have repeatably safe and fast hash functions */ #if PY_MAJOR_VERSION >= 3 && !CYTHON_COMPILING_IN_PYPY (PyUnicode_CheckExact(key) || PyString_CheckExact(key) || PyLong_CheckExact(key)))) { value = PyDict_GetItemWithError(d, key); if (unlikely(!value)) { if (unlikely(PyErr_Occurred())) return NULL; if (unlikely(PyDict_SetItem(d, key, default_value) == -1)) return NULL; value = default_value; } Py_INCREF(value); #else (PyString_CheckExact(key) || PyUnicode_CheckExact(key) || PyInt_CheckExact(key) || PyLong_CheckExact(key)))) { value = PyDict_GetItem(d, key); if (unlikely(!value)) { if (unlikely(PyDict_SetItem(d, key, default_value) == -1)) return NULL; value = default_value; } Py_INCREF(value); #endif #endif } else { value = CALL_UNBOUND_METHOD(PyDict_Type, "setdefault", d, key, default_value); } return value; } /////////////// py_dict_clear.proto /////////////// #define __Pyx_PyDict_Clear(d) (PyDict_Clear(d), 0) /////////////// py_dict_pop.proto /////////////// static CYTHON_INLINE PyObject *__Pyx_PyDict_Pop(PyObject *d, PyObject *key, PyObject *default_value); /*proto*/ /////////////// py_dict_pop /////////////// static CYTHON_INLINE PyObject *__Pyx_PyDict_Pop(PyObject *d, PyObject *key, PyObject *default_value) { #if CYTHON_COMPILING_IN_CPYTHON && PY_VERSION_HEX > 0x030600B3 if ((1)) { return _PyDict_Pop(d, key, default_value); } else // avoid "function unused" warnings #endif if (default_value) { return CALL_UNBOUND_METHOD(PyDict_Type, "pop", d, key, default_value); } else { return CALL_UNBOUND_METHOD(PyDict_Type, "pop", d, key); } } /////////////// dict_iter.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_dict_iterator(PyObject* dict, int is_dict, PyObject* method_name, Py_ssize_t* p_orig_length, int* p_is_dict); static CYTHON_INLINE int __Pyx_dict_iter_next(PyObject* dict_or_iter, Py_ssize_t orig_length, Py_ssize_t* ppos, PyObject** pkey, PyObject** pvalue, PyObject** pitem, int is_dict); /////////////// dict_iter /////////////// //@requires: ObjectHandling.c::UnpackTuple2 //@requires: ObjectHandling.c::IterFinish //@requires: ObjectHandling.c::PyObjectCallMethod0 static CYTHON_INLINE PyObject* __Pyx_dict_iterator(PyObject* iterable, int is_dict, PyObject* method_name, Py_ssize_t* p_orig_length, int* p_source_is_dict) { is_dict = is_dict || likely(PyDict_CheckExact(iterable)); *p_source_is_dict = is_dict; if (is_dict) { #if !CYTHON_COMPILING_IN_PYPY *p_orig_length = PyDict_Size(iterable); Py_INCREF(iterable); return iterable; #elif PY_MAJOR_VERSION >= 3 // On PyPy3, we need to translate manually a few method names. // This logic is not needed on CPython thanks to the fast case above. static PyObject *py_items = NULL, *py_keys = NULL, *py_values = NULL; PyObject **pp = NULL; if (method_name) { const char *name = PyUnicode_AsUTF8(method_name); if (strcmp(name, "iteritems") == 0) pp = &py_items; else if (strcmp(name, "iterkeys") == 0) pp = &py_keys; else if (strcmp(name, "itervalues") == 0) pp = &py_values; if (pp) { if (!*pp) { *pp = PyUnicode_FromString(name + 4); if (!*pp) return NULL; } method_name = *pp; } } #endif } *p_orig_length = 0; if (method_name) { PyObject* iter; iterable = __Pyx_PyObject_CallMethod0(iterable, method_name); if (!iterable) return NULL; #if !CYTHON_COMPILING_IN_PYPY if (PyTuple_CheckExact(iterable) || PyList_CheckExact(iterable)) return iterable; #endif iter = PyObject_GetIter(iterable); Py_DECREF(iterable); return iter; } return PyObject_GetIter(iterable); } static CYTHON_INLINE int __Pyx_dict_iter_next( PyObject* iter_obj, CYTHON_NCP_UNUSED Py_ssize_t orig_length, CYTHON_NCP_UNUSED Py_ssize_t* ppos, PyObject** pkey, PyObject** pvalue, PyObject** pitem, int source_is_dict) { PyObject* next_item; #if !CYTHON_COMPILING_IN_PYPY if (source_is_dict) { PyObject *key, *value; if (unlikely(orig_length != PyDict_Size(iter_obj))) { PyErr_SetString(PyExc_RuntimeError, "dictionary changed size during iteration"); return -1; } if (unlikely(!PyDict_Next(iter_obj, ppos, &key, &value))) { return 0; } if (pitem) { PyObject* tuple = PyTuple_New(2); if (unlikely(!tuple)) { return -1; } Py_INCREF(key); Py_INCREF(value); PyTuple_SET_ITEM(tuple, 0, key); PyTuple_SET_ITEM(tuple, 1, value); *pitem = tuple; } else { if (pkey) { Py_INCREF(key); *pkey = key; } if (pvalue) { Py_INCREF(value); *pvalue = value; } } return 1; } else if (PyTuple_CheckExact(iter_obj)) { Py_ssize_t pos = *ppos; if (unlikely(pos >= PyTuple_GET_SIZE(iter_obj))) return 0; *ppos = pos + 1; next_item = PyTuple_GET_ITEM(iter_obj, pos); Py_INCREF(next_item); } else if (PyList_CheckExact(iter_obj)) { Py_ssize_t pos = *ppos; if (unlikely(pos >= PyList_GET_SIZE(iter_obj))) return 0; *ppos = pos + 1; next_item = PyList_GET_ITEM(iter_obj, pos); Py_INCREF(next_item); } else #endif { next_item = PyIter_Next(iter_obj); if (unlikely(!next_item)) { return __Pyx_IterFinish(); } } if (pitem) { *pitem = next_item; } else if (pkey && pvalue) { if (__Pyx_unpack_tuple2(next_item, pkey, pvalue, source_is_dict, source_is_dict, 1)) return -1; } else if (pkey) { *pkey = next_item; } else { *pvalue = next_item; } return 1; } /////////////// set_iter.proto /////////////// static CYTHON_INLINE PyObject* __Pyx_set_iterator(PyObject* iterable, int is_set, Py_ssize_t* p_orig_length, int* p_source_is_set); /*proto*/ static CYTHON_INLINE int __Pyx_set_iter_next( PyObject* iter_obj, Py_ssize_t orig_length, Py_ssize_t* ppos, PyObject **value, int source_is_set); /*proto*/ /////////////// set_iter /////////////// //@requires: ObjectHandling.c::IterFinish static CYTHON_INLINE PyObject* __Pyx_set_iterator(PyObject* iterable, int is_set, Py_ssize_t* p_orig_length, int* p_source_is_set) { #if CYTHON_COMPILING_IN_CPYTHON is_set = is_set || likely(PySet_CheckExact(iterable) || PyFrozenSet_CheckExact(iterable)); *p_source_is_set = is_set; if (likely(is_set)) { *p_orig_length = PySet_Size(iterable); Py_INCREF(iterable); return iterable; } #else (void)is_set; *p_source_is_set = 0; #endif *p_orig_length = 0; return PyObject_GetIter(iterable); } static CYTHON_INLINE int __Pyx_set_iter_next( PyObject* iter_obj, Py_ssize_t orig_length, Py_ssize_t* ppos, PyObject **value, int source_is_set) { if (!CYTHON_COMPILING_IN_CPYTHON || unlikely(!source_is_set)) { *value = PyIter_Next(iter_obj); if (unlikely(!*value)) { return __Pyx_IterFinish(); } (void)orig_length; (void)ppos; return 1; } #if CYTHON_COMPILING_IN_CPYTHON if (unlikely(PySet_GET_SIZE(iter_obj) != orig_length)) { PyErr_SetString( PyExc_RuntimeError, "set changed size during iteration"); return -1; } { Py_hash_t hash; int ret = _PySet_NextEntry(iter_obj, ppos, value, &hash); // CPython does not raise errors here, only if !isinstance(iter_obj, set/frozenset) assert (ret != -1); if (likely(ret)) { Py_INCREF(*value); return 1; } } #endif return 0; } /////////////// py_set_discard_unhashable /////////////// //@requires: Builtins.c::pyfrozenset_new static int __Pyx_PySet_DiscardUnhashable(PyObject *set, PyObject *key) { PyObject *tmpkey; int rv; if (likely(!PySet_Check(key) || !PyErr_ExceptionMatches(PyExc_TypeError))) return -1; PyErr_Clear(); tmpkey = __Pyx_PyFrozenSet_New(key); if (tmpkey == NULL) return -1; rv = PySet_Discard(set, tmpkey); Py_DECREF(tmpkey); return rv; } /////////////// py_set_discard.proto /////////////// static CYTHON_INLINE int __Pyx_PySet_Discard(PyObject *set, PyObject *key); /*proto*/ /////////////// py_set_discard /////////////// //@requires: py_set_discard_unhashable static CYTHON_INLINE int __Pyx_PySet_Discard(PyObject *set, PyObject *key) { int found = PySet_Discard(set, key); // Convert *key* to frozenset if necessary if (unlikely(found < 0)) { found = __Pyx_PySet_DiscardUnhashable(set, key); } // note: returns -1 on error, 0 (not found) or 1 (found) otherwise => error check for -1 or < 0 works return found; } /////////////// py_set_remove.proto /////////////// static CYTHON_INLINE int __Pyx_PySet_Remove(PyObject *set, PyObject *key); /*proto*/ /////////////// py_set_remove /////////////// //@requires: py_set_discard_unhashable static int __Pyx_PySet_RemoveNotFound(PyObject *set, PyObject *key, int found) { // Convert *key* to frozenset if necessary if (unlikely(found < 0)) { found = __Pyx_PySet_DiscardUnhashable(set, key); } if (likely(found == 0)) { // Not found PyObject *tup; tup = PyTuple_Pack(1, key); if (!tup) return -1; PyErr_SetObject(PyExc_KeyError, tup); Py_DECREF(tup); return -1; } // note: returns -1 on error, 0 (not found) or 1 (found) otherwise => error check for -1 or < 0 works return found; } static CYTHON_INLINE int __Pyx_PySet_Remove(PyObject *set, PyObject *key) { int found = PySet_Discard(set, key); if (unlikely(found != 1)) { // note: returns -1 on error, 0 (not found) or 1 (found) otherwise => error check for -1 or < 0 works return __Pyx_PySet_RemoveNotFound(set, key, found); } return 0; } /////////////// unicode_iter.proto /////////////// static CYTHON_INLINE int __Pyx_init_unicode_iteration( PyObject* ustring, Py_ssize_t *length, void** data, int *kind); /* proto */ /////////////// unicode_iter /////////////// static CYTHON_INLINE int __Pyx_init_unicode_iteration( PyObject* ustring, Py_ssize_t *length, void** data, int *kind) { #if CYTHON_PEP393_ENABLED if (unlikely(__Pyx_PyUnicode_READY(ustring) < 0)) return -1; *kind = PyUnicode_KIND(ustring); *length = PyUnicode_GET_LENGTH(ustring); *data = PyUnicode_DATA(ustring); #else *kind = 0; *length = PyUnicode_GET_SIZE(ustring); *data = (void*)PyUnicode_AS_UNICODE(ustring); #endif return 0; } /////////////// pyobject_as_double.proto /////////////// static double __Pyx__PyObject_AsDouble(PyObject* obj); /* proto */ #if CYTHON_COMPILING_IN_PYPY #define __Pyx_PyObject_AsDouble(obj) \ (likely(PyFloat_CheckExact(obj)) ? PyFloat_AS_DOUBLE(obj) : \ likely(PyInt_CheckExact(obj)) ? \ PyFloat_AsDouble(obj) : __Pyx__PyObject_AsDouble(obj)) #else #define __Pyx_PyObject_AsDouble(obj) \ ((likely(PyFloat_CheckExact(obj))) ? \ PyFloat_AS_DOUBLE(obj) : __Pyx__PyObject_AsDouble(obj)) #endif /////////////// pyobject_as_double /////////////// static double __Pyx__PyObject_AsDouble(PyObject* obj) { PyObject* float_value; #if !CYTHON_USE_TYPE_SLOTS float_value = PyNumber_Float(obj); if ((0)) goto bad; #else PyNumberMethods *nb = Py_TYPE(obj)->tp_as_number; if (likely(nb) && likely(nb->nb_float)) { float_value = nb->nb_float(obj); if (likely(float_value) && unlikely(!PyFloat_Check(float_value))) { PyErr_Format(PyExc_TypeError, "__float__ returned non-float (type %.200s)", Py_TYPE(float_value)->tp_name); Py_DECREF(float_value); goto bad; } } else if (PyUnicode_CheckExact(obj) || PyBytes_CheckExact(obj)) { #if PY_MAJOR_VERSION >= 3 float_value = PyFloat_FromString(obj); #else float_value = PyFloat_FromString(obj, 0); #endif } else { PyObject* args = PyTuple_New(1); if (unlikely(!args)) goto bad; PyTuple_SET_ITEM(args, 0, obj); float_value = PyObject_Call((PyObject*)&PyFloat_Type, args, 0); PyTuple_SET_ITEM(args, 0, 0); Py_DECREF(args); } #endif if (likely(float_value)) { double value = PyFloat_AS_DOUBLE(float_value); Py_DECREF(float_value); return value; } bad: return (double)-1; } /////////////// PyNumberPow2.proto /////////////// #define __Pyx_PyNumber_InPlacePowerOf2(a, b, c) __Pyx__PyNumber_PowerOf2(a, b, c, 1) #define __Pyx_PyNumber_PowerOf2(a, b, c) __Pyx__PyNumber_PowerOf2(a, b, c, 0) static PyObject* __Pyx__PyNumber_PowerOf2(PyObject *two, PyObject *exp, PyObject *none, int inplace); /*proto*/ /////////////// PyNumberPow2 /////////////// static PyObject* __Pyx__PyNumber_PowerOf2(PyObject *two, PyObject *exp, PyObject *none, int inplace) { // in CPython, 1<ob_digit[0]; } else if (size == 0) { return PyInt_FromLong(1L); } else if (unlikely(size < 0)) { goto fallback; } else { shiftby = PyLong_AsSsize_t(exp); } #else shiftby = PyLong_AsSsize_t(exp); #endif } else { goto fallback; } if (likely(shiftby >= 0)) { if ((size_t)shiftby <= sizeof(long) * 8 - 2) { long value = 1L << shiftby; return PyInt_FromLong(value); #ifdef HAVE_LONG_LONG } else if ((size_t)shiftby <= sizeof(unsigned PY_LONG_LONG) * 8 - 1) { unsigned PY_LONG_LONG value = ((unsigned PY_LONG_LONG)1) << shiftby; return PyLong_FromUnsignedLongLong(value); #endif } else { PyObject *result, *one = PyInt_FromLong(1L); if (unlikely(!one)) return NULL; result = PyNumber_Lshift(one, exp); Py_DECREF(one); return result; } } else if (shiftby == -1 && PyErr_Occurred()) { PyErr_Clear(); } fallback: #endif return (inplace ? PyNumber_InPlacePower : PyNumber_Power)(two, exp, none); } /////////////// PyIntCompare.proto /////////////// {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} static CYTHON_INLINE {{c_ret_type}} __Pyx_PyInt_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(PyObject *op1, PyObject *op2, long intval, long inplace); /*proto*/ /////////////// PyIntCompare /////////////// {{py: pyval, ival = ('op2', 'b') if order == 'CObj' else ('op1', 'a') }} {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} {{py: return_true = 'Py_RETURN_TRUE' if ret_type.is_pyobject else 'return 1'}} {{py: return_false = 'Py_RETURN_FALSE' if ret_type.is_pyobject else 'return 0'}} {{py: slot_name = op.lower() }} {{py: c_op = {'Eq': '==', 'Ne': '!='}[op] }} {{py: return_compare = ( (lambda a,b,c_op, return_true=return_true, return_false=return_false: "if ({a} {c_op} {b}) {return_true}; else {return_false};".format( a=a, b=b, c_op=c_op, return_true=return_true, return_false=return_false)) if ret_type.is_pyobject else (lambda a,b,c_op: "return ({a} {c_op} {b});".format(a=a, b=b, c_op=c_op)) ) }} static CYTHON_INLINE {{c_ret_type}} __Pyx_PyInt_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(PyObject *op1, PyObject *op2, CYTHON_UNUSED long intval, CYTHON_UNUSED long inplace) { if (op1 == op2) { {{return_true if op == 'Eq' else return_false}}; } #if PY_MAJOR_VERSION < 3 if (likely(PyInt_CheckExact({{pyval}}))) { const long {{'a' if order == 'CObj' else 'b'}} = intval; long {{ival}} = PyInt_AS_LONG({{pyval}}); {{return_compare('a', 'b', c_op)}} } #endif #if CYTHON_USE_PYLONG_INTERNALS if (likely(PyLong_CheckExact({{pyval}}))) { int unequal; unsigned long uintval; Py_ssize_t size = Py_SIZE({{pyval}}); const digit* digits = ((PyLongObject*){{pyval}})->ob_digit; if (intval == 0) { // == 0 => Py_SIZE(pyval) == 0 {{return_compare('size', '0', c_op)}} } else if (intval < 0) { // < 0 => Py_SIZE(pyval) < 0 if (size >= 0) {{return_false if op == 'Eq' else return_true}}; // both are negative => can use absolute values now. intval = -intval; size = -size; } else { // > 0 => Py_SIZE(pyval) > 0 if (size <= 0) {{return_false if op == 'Eq' else return_true}}; } // After checking that the sign is the same (and excluding 0), now compare the absolute values. // When inlining, the C compiler should select exactly one line from this unrolled loop. uintval = (unsigned long) intval; {{for _size in range(4, 0, -1)}} #if PyLong_SHIFT * {{_size}} < SIZEOF_LONG*8 if (uintval >> (PyLong_SHIFT * {{_size}})) { // The C integer value is between (PyLong_BASE ** _size) and MIN(PyLong_BASE ** _size, LONG_MAX). unequal = (size != {{_size+1}}) || (digits[0] != (uintval & (unsigned long) PyLong_MASK)) {{for _i in range(1, _size+1)}} | (digits[{{_i}}] != ((uintval >> ({{_i}} * PyLong_SHIFT)) & (unsigned long) PyLong_MASK)){{endfor}}; } else #endif {{endfor}} unequal = (size != 1) || (((unsigned long) digits[0]) != (uintval & (unsigned long) PyLong_MASK)); {{return_compare('unequal', '0', c_op)}} } #endif if (PyFloat_CheckExact({{pyval}})) { const long {{'a' if order == 'CObj' else 'b'}} = intval; double {{ival}} = PyFloat_AS_DOUBLE({{pyval}}); {{return_compare('(double)a', '(double)b', c_op)}} } return {{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}( PyObject_RichCompare(op1, op2, Py_{{op.upper()}})); } /////////////// PyIntBinop.proto /////////////// {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} #if !CYTHON_COMPILING_IN_PYPY static {{c_ret_type}} __Pyx_PyInt_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(PyObject *op1, PyObject *op2, long intval, int inplace, int zerodivision_check); /*proto*/ #else #define __Pyx_PyInt_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(op1, op2, intval, inplace, zerodivision_check) \ {{if op in ('Eq', 'Ne')}}{{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}(PyObject_RichCompare(op1, op2, Py_{{op.upper()}})) {{else}}(inplace ? PyNumber_InPlace{{op}}(op1, op2) : PyNumber_{{op}}(op1, op2)) {{endif}} #endif /////////////// PyIntBinop /////////////// #if !CYTHON_COMPILING_IN_PYPY {{py: from Cython.Utility import pylong_join }} {{py: pyval, ival = ('op2', 'b') if order == 'CObj' else ('op1', 'a') }} {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} {{py: return_true = 'Py_RETURN_TRUE' if ret_type.is_pyobject else 'return 1'}} {{py: return_false = 'Py_RETURN_FALSE' if ret_type.is_pyobject else 'return 0'}} {{py: slot_name = {'TrueDivide': 'true_divide', 'FloorDivide': 'floor_divide'}.get(op, op.lower()) }} {{py: cfunc_name = '__Pyx_PyInt_%s%s%s' % ('' if ret_type.is_pyobject else 'Bool', op, order)}} {{py: zerodiv_check = lambda operand, _cfunc_name=cfunc_name: '%s_ZeroDivisionError(%s)' % (_cfunc_name, operand)}} {{py: c_op = { 'Add': '+', 'Subtract': '-', 'Remainder': '%', 'TrueDivide': '/', 'FloorDivide': '/', 'Or': '|', 'Xor': '^', 'And': '&', 'Rshift': '>>', 'Lshift': '<<', 'Eq': '==', 'Ne': '!=', }[op] }} {{if op in ('TrueDivide', 'FloorDivide', 'Remainder')}} #if PY_MAJOR_VERSION < 3 || CYTHON_USE_PYLONG_INTERNALS #define {{zerodiv_check('operand')}} \ if (unlikely(zerodivision_check && ((operand) == 0))) { \ PyErr_SetString(PyExc_ZeroDivisionError, "integer division{{if op == 'Remainder'}} or modulo{{endif}} by zero"); \ return NULL; \ } #endif {{endif}} static {{c_ret_type}} {{cfunc_name}}(PyObject *op1, PyObject *op2, CYTHON_UNUSED long intval, int inplace, int zerodivision_check) { // Prevent "unused" warnings. (void)inplace; (void)zerodivision_check; {{if op in ('Eq', 'Ne')}} if (op1 == op2) { {{return_true if op == 'Eq' else return_false}}; } {{endif}} #if PY_MAJOR_VERSION < 3 if (likely(PyInt_CheckExact({{pyval}}))) { const long {{'a' if order == 'CObj' else 'b'}} = intval; {{if c_op in '+-%' or op == 'FloorDivide'}} long x; {{endif}} long {{ival}} = PyInt_AS_LONG({{pyval}}); {{if op in ('Eq', 'Ne')}} if (a {{c_op}} b) { {{return_true}}; } else { {{return_false}}; } {{elif c_op in '+-'}} // adapted from intobject.c in Py2.7: // casts in the line below avoid undefined behaviour on overflow x = (long)((unsigned long)a {{c_op}} b); if (likely((x^a) >= 0 || (x^{{ '~' if op == 'Subtract' else '' }}b) >= 0)) return PyInt_FromLong(x); return PyLong_Type.tp_as_number->nb_{{slot_name}}(op1, op2); {{elif c_op == '%'}} {{zerodiv_check('b')}} // see ExprNodes.py :: mod_int_utility_code x = a % b; x += ((x != 0) & ((x ^ b) < 0)) * b; return PyInt_FromLong(x); {{elif op == 'TrueDivide'}} {{zerodiv_check('b')}} if (8 * sizeof(long) <= 53 || likely(labs({{ival}}) <= ((PY_LONG_LONG)1 << 53))) { return PyFloat_FromDouble((double)a / (double)b); } // let Python do the rounding return PyInt_Type.tp_as_number->nb_{{slot_name}}(op1, op2); {{elif op == 'FloorDivide'}} // INT_MIN / -1 is the only case that overflows, b == 0 is an error case {{zerodiv_check('b')}} if (unlikely(b == -1 && ((unsigned long)a) == 0-(unsigned long)a)) return PyInt_Type.tp_as_number->nb_{{slot_name}}(op1, op2); else { long q, r; // see ExprNodes.py :: div_int_utility_code q = a / b; r = a - q*b; q -= ((r != 0) & ((r ^ b) < 0)); x = q; } return PyInt_FromLong(x); {{elif op == 'Lshift'}} if (likely(b < (int)(sizeof(long)*8) && a == (a << b) >> b) || !a) { return PyInt_FromLong(a {{c_op}} b); } {{else}} // other operations are safe, no overflow return PyInt_FromLong(a {{c_op}} b); {{endif}} } #endif #if CYTHON_USE_PYLONG_INTERNALS if (likely(PyLong_CheckExact({{pyval}}))) { const long {{'a' if order == 'CObj' else 'b'}} = intval; long {{ival}}{{if op not in ('Eq', 'Ne')}}, x{{endif}}; {{if op not in ('Eq', 'Ne', 'TrueDivide')}} #ifdef HAVE_LONG_LONG const PY_LONG_LONG ll{{'a' if order == 'CObj' else 'b'}} = intval; PY_LONG_LONG ll{{ival}}, llx; #endif {{endif}} const digit* digits = ((PyLongObject*){{pyval}})->ob_digit; const Py_ssize_t size = Py_SIZE({{pyval}}); // handle most common case first to avoid indirect branch and optimise branch prediction if (likely(__Pyx_sst_abs(size) <= 1)) { {{ival}} = likely(size) ? digits[0] : 0; if (size == -1) {{ival}} = -{{ival}}; } else { switch (size) { {{for _size in range(2, 5)}} {{for _case in (-_size, _size)}} case {{_case}}: if (8 * sizeof(long) - 1 > {{_size}} * PyLong_SHIFT{{if op == 'TrueDivide'}} && {{_size-1}} * PyLong_SHIFT < 53{{endif}}) { {{ival}} = {{'-' if _case < 0 else ''}}(long) {{pylong_join(_size, 'digits')}}; break; {{if op not in ('Eq', 'Ne', 'TrueDivide')}} #ifdef HAVE_LONG_LONG } else if (8 * sizeof(PY_LONG_LONG) - 1 > {{_size}} * PyLong_SHIFT) { ll{{ival}} = {{'-' if _case < 0 else ''}}(PY_LONG_LONG) {{pylong_join(_size, 'digits', 'unsigned PY_LONG_LONG')}}; goto long_long; #endif {{endif}} } // if size doesn't fit into a long or PY_LONG_LONG anymore, fall through to default CYTHON_FALLTHROUGH; {{endfor}} {{endfor}} {{if op in ('Eq', 'Ne')}} #if PyLong_SHIFT < 30 && PyLong_SHIFT != 15 // unusual setup - your fault default: return {{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}( PyLong_Type.tp_richcompare({{'op1, op2' if order == 'ObjC' else 'op2, op1'}}, Py_{{op.upper()}})); #else // too large for the long values we allow => definitely not equal default: {{return_false if op == 'Eq' else return_true}}; #endif {{else}} default: return PyLong_Type.tp_as_number->nb_{{slot_name}}(op1, op2); {{endif}} } } {{if op in ('Eq', 'Ne')}} if (a {{c_op}} b) { {{return_true}}; } else { {{return_false}}; } {{else}} {{if c_op == '%'}} {{zerodiv_check('b')}} // see ExprNodes.py :: mod_int_utility_code x = a % b; x += ((x != 0) & ((x ^ b) < 0)) * b; {{elif op == 'TrueDivide'}} {{zerodiv_check('b')}} if ((8 * sizeof(long) <= 53 || likely(labs({{ival}}) <= ((PY_LONG_LONG)1 << 53))) || __Pyx_sst_abs(size) <= 52 / PyLong_SHIFT) { return PyFloat_FromDouble((double)a / (double)b); } return PyLong_Type.tp_as_number->nb_{{slot_name}}(op1, op2); {{elif op == 'FloorDivide'}} {{zerodiv_check('b')}} { long q, r; // see ExprNodes.py :: div_int_utility_code q = a / b; r = a - q*b; q -= ((r != 0) & ((r ^ b) < 0)); x = q; } {{else}} x = a {{c_op}} b; {{if op == 'Lshift'}} #ifdef HAVE_LONG_LONG if (unlikely(!(b < (int)(sizeof(long)*8) && a == x >> b)) && a) { ll{{ival}} = {{ival}}; goto long_long; } #else if (likely(b < (int)(sizeof(long)*8) && a == x >> b) || !a) /* execute return statement below */ #endif {{endif}} {{endif}} return PyLong_FromLong(x); {{if op != 'TrueDivide'}} #ifdef HAVE_LONG_LONG long_long: {{if c_op == '%'}} // see ExprNodes.py :: mod_int_utility_code llx = lla % llb; llx += ((llx != 0) & ((llx ^ llb) < 0)) * llb; {{elif op == 'FloorDivide'}} { PY_LONG_LONG q, r; // see ExprNodes.py :: div_int_utility_code q = lla / llb; r = lla - q*llb; q -= ((r != 0) & ((r ^ llb) < 0)); llx = q; } {{else}} llx = lla {{c_op}} llb; {{if op == 'Lshift'}} if (likely(lla == llx >> llb)) /* then execute 'return' below */ {{endif}} {{endif}} return PyLong_FromLongLong(llx); #endif {{endif}}{{# if op != 'TrueDivide' #}} {{endif}}{{# if op in ('Eq', 'Ne') #}} } #endif {{if c_op in '+-' or op in ('TrueDivide', 'Eq', 'Ne')}} if (PyFloat_CheckExact({{pyval}})) { const long {{'a' if order == 'CObj' else 'b'}} = intval; double {{ival}} = PyFloat_AS_DOUBLE({{pyval}}); {{if op in ('Eq', 'Ne')}} if ((double)a {{c_op}} (double)b) { {{return_true}}; } else { {{return_false}}; } {{else}} double result; {{if op == 'TrueDivide'}} if (unlikely(zerodivision_check && b == 0)) { PyErr_SetString(PyExc_ZeroDivisionError, "float division by zero"); return NULL; } {{endif}} // copied from floatobject.c in Py3.5: // PyFPE_START_PROTECT("{{op.lower() if not op.endswith('Divide') else 'divide'}}", return NULL) result = ((double)a) {{c_op}} (double)b; // PyFPE_END_PROTECT(result) return PyFloat_FromDouble(result); {{endif}} } {{endif}} {{if op in ('Eq', 'Ne')}} return {{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}( PyObject_RichCompare(op1, op2, Py_{{op.upper()}})); {{else}} return (inplace ? PyNumber_InPlace{{op}} : PyNumber_{{op}})(op1, op2); {{endif}} } #endif /////////////// PyFloatBinop.proto /////////////// {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} #if !CYTHON_COMPILING_IN_PYPY static {{c_ret_type}} __Pyx_PyFloat_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(PyObject *op1, PyObject *op2, double floatval, int inplace, int zerodivision_check); /*proto*/ #else #define __Pyx_PyFloat_{{'' if ret_type.is_pyobject else 'Bool'}}{{op}}{{order}}(op1, op2, floatval, inplace, zerodivision_check) \ {{if op in ('Eq', 'Ne')}}{{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}(PyObject_RichCompare(op1, op2, Py_{{op.upper()}})) {{elif op == 'Divide'}}((inplace ? __Pyx_PyNumber_InPlaceDivide(op1, op2) : __Pyx_PyNumber_Divide(op1, op2))) {{else}}(inplace ? PyNumber_InPlace{{op}}(op1, op2) : PyNumber_{{op}}(op1, op2)) {{endif}} #endif /////////////// PyFloatBinop /////////////// #if !CYTHON_COMPILING_IN_PYPY {{py: from Cython.Utility import pylong_join }} {{py: c_ret_type = 'PyObject*' if ret_type.is_pyobject else 'int'}} {{py: return_true = 'Py_RETURN_TRUE' if ret_type.is_pyobject else 'return 1'}} {{py: return_false = 'Py_RETURN_FALSE' if ret_type.is_pyobject else 'return 0'}} {{py: pyval, fval = ('op2', 'b') if order == 'CObj' else ('op1', 'a') }} {{py: cfunc_name = '__Pyx_PyFloat_%s%s%s' % ('' if ret_type.is_pyobject else 'Bool', op, order) }} {{py: zerodiv_check = lambda operand, _cfunc_name=cfunc_name: '%s_ZeroDivisionError(%s)' % (_cfunc_name, operand)}} {{py: c_op = { 'Add': '+', 'Subtract': '-', 'TrueDivide': '/', 'Divide': '/', 'Remainder': '%', 'Eq': '==', 'Ne': '!=', }[op] }} {{if order == 'CObj' and c_op in '%/'}} #define {{zerodiv_check('operand')}} if (unlikely(zerodivision_check && ((operand) == 0))) { \ PyErr_SetString(PyExc_ZeroDivisionError, "float division{{if op == 'Remainder'}} or modulo{{endif}} by zero"); \ return NULL; \ } {{endif}} static {{c_ret_type}} {{cfunc_name}}(PyObject *op1, PyObject *op2, double floatval, int inplace, int zerodivision_check) { const double {{'a' if order == 'CObj' else 'b'}} = floatval; double {{fval}}{{if op not in ('Eq', 'Ne')}}, result{{endif}}; // Prevent "unused" warnings. (void)inplace; (void)zerodivision_check; {{if op in ('Eq', 'Ne')}} if (op1 == op2) { {{return_true if op == 'Eq' else return_false}}; } {{endif}} if (likely(PyFloat_CheckExact({{pyval}}))) { {{fval}} = PyFloat_AS_DOUBLE({{pyval}}); {{if order == 'CObj' and c_op in '%/'}}{{zerodiv_check(fval)}}{{endif}} } else #if PY_MAJOR_VERSION < 3 if (likely(PyInt_CheckExact({{pyval}}))) { {{fval}} = (double) PyInt_AS_LONG({{pyval}}); {{if order == 'CObj' and c_op in '%/'}}{{zerodiv_check(fval)}}{{endif}} } else #endif if (likely(PyLong_CheckExact({{pyval}}))) { #if CYTHON_USE_PYLONG_INTERNALS const digit* digits = ((PyLongObject*){{pyval}})->ob_digit; const Py_ssize_t size = Py_SIZE({{pyval}}); switch (size) { case 0: {{if order == 'CObj' and c_op in '%/'}}{{zerodiv_check('0')}}{{else}}{{fval}} = 0.0;{{endif}} break; case -1: {{fval}} = -(double) digits[0]; break; case 1: {{fval}} = (double) digits[0]; break; {{for _size in (2, 3, 4)}} case -{{_size}}: case {{_size}}: if (8 * sizeof(unsigned long) > {{_size}} * PyLong_SHIFT && ((8 * sizeof(unsigned long) < 53) || ({{_size-1}} * PyLong_SHIFT < 53))) { {{fval}} = (double) {{pylong_join(_size, 'digits')}}; // let CPython do its own float rounding from 2**53 on (max. consecutive integer in double float) if ((8 * sizeof(unsigned long) < 53) || ({{_size}} * PyLong_SHIFT < 53) || ({{fval}} < (double) ((PY_LONG_LONG)1 << 53))) { if (size == {{-_size}}) {{fval}} = -{{fval}}; break; } } // Fall through if size doesn't fit safely into a double anymore. // It may not be obvious that this is a safe fall-through given the "fval < 2**53" // check above. However, the number of digits that CPython uses for a given PyLong // value is minimal, and together with the "(size-1) * SHIFT < 53" check above, // this should make it safe. CYTHON_FALLTHROUGH; {{endfor}} default: #else { #endif {{if op in ('Eq', 'Ne')}} return {{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}( PyFloat_Type.tp_richcompare({{'op1, op2' if order == 'CObj' else 'op2, op1'}}, Py_{{op.upper()}})); {{else}} {{fval}} = PyLong_AsDouble({{pyval}}); if (unlikely({{fval}} == -1.0 && PyErr_Occurred())) return NULL; {{if order == 'CObj' and c_op in '%/'}}{{zerodiv_check(fval)}}{{endif}} {{endif}} } } else { {{if op in ('Eq', 'Ne')}} return {{'' if ret_type.is_pyobject else '__Pyx_PyObject_IsTrueAndDecref'}}( PyObject_RichCompare(op1, op2, Py_{{op.upper()}})); {{elif op == 'Divide'}} return (inplace ? __Pyx_PyNumber_InPlaceDivide(op1, op2) : __Pyx_PyNumber_Divide(op1, op2)); {{else}} return (inplace ? PyNumber_InPlace{{op}} : PyNumber_{{op}})(op1, op2); {{endif}} } {{if op in ('Eq', 'Ne')}} if (a {{c_op}} b) { {{return_true}}; } else { {{return_false}}; } {{else}} // copied from floatobject.c in Py3.5: {{if order == 'CObj' and c_op in '%/'}}{{zerodiv_check('b')}}{{endif}} // PyFPE_START_PROTECT("{{op.lower() if not op.endswith('Divide') else 'divide'}}", return NULL) {{if c_op == '%'}} result = fmod(a, b); if (result) result += ((result < 0) ^ (b < 0)) * b; else result = copysign(0.0, b); {{else}} result = a {{c_op}} b; {{endif}} // PyFPE_END_PROTECT(result) return PyFloat_FromDouble(result); {{endif}} } #endif