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374 lines
14 KiB
374 lines
14 KiB
2 years ago
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#ifndef Py_CPYTHON_ABSTRACTOBJECT_H
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# error "this header file must not be included directly"
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#endif
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/* === Object Protocol ================================================== */
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#ifdef PY_SSIZE_T_CLEAN
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# define _PyObject_CallMethodId _PyObject_CallMethodId_SizeT
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#endif
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/* Convert keyword arguments from the FASTCALL (stack: C array, kwnames: tuple)
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format to a Python dictionary ("kwargs" dict).
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The type of kwnames keys is not checked. The final function getting
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arguments is responsible to check if all keys are strings, for example using
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PyArg_ParseTupleAndKeywords() or PyArg_ValidateKeywordArguments().
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Duplicate keys are merged using the last value. If duplicate keys must raise
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an exception, the caller is responsible to implement an explicit keys on
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kwnames. */
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PyAPI_FUNC(PyObject *) _PyStack_AsDict(
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PyObject *const *values,
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PyObject *kwnames);
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/* Suggested size (number of positional arguments) for arrays of PyObject*
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allocated on a C stack to avoid allocating memory on the heap memory. Such
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array is used to pass positional arguments to call functions of the
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PyObject_Vectorcall() family.
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The size is chosen to not abuse the C stack and so limit the risk of stack
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overflow. The size is also chosen to allow using the small stack for most
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function calls of the Python standard library. On 64-bit CPU, it allocates
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40 bytes on the stack. */
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#define _PY_FASTCALL_SMALL_STACK 5
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PyAPI_FUNC(PyObject *) _Py_CheckFunctionResult(
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PyThreadState *tstate,
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PyObject *callable,
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PyObject *result,
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const char *where);
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/* === Vectorcall protocol (PEP 590) ============================= */
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/* Call callable using tp_call. Arguments are like PyObject_Vectorcall()
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or PyObject_FastCallDict() (both forms are supported),
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except that nargs is plainly the number of arguments without flags. */
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PyAPI_FUNC(PyObject *) _PyObject_MakeTpCall(
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PyThreadState *tstate,
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PyObject *callable,
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PyObject *const *args, Py_ssize_t nargs,
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PyObject *keywords);
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#define PY_VECTORCALL_ARGUMENTS_OFFSET ((size_t)1 << (8 * sizeof(size_t) - 1))
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static inline Py_ssize_t
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PyVectorcall_NARGS(size_t n)
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{
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return n & ~PY_VECTORCALL_ARGUMENTS_OFFSET;
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}
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static inline vectorcallfunc
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PyVectorcall_Function(PyObject *callable)
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{
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PyTypeObject *tp;
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Py_ssize_t offset;
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vectorcallfunc ptr;
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assert(callable != NULL);
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tp = Py_TYPE(callable);
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if (!PyType_HasFeature(tp, Py_TPFLAGS_HAVE_VECTORCALL)) {
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return NULL;
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}
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assert(PyCallable_Check(callable));
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offset = tp->tp_vectorcall_offset;
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assert(offset > 0);
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memcpy(&ptr, (char *) callable + offset, sizeof(ptr));
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return ptr;
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}
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/* Call the callable object 'callable' with the "vectorcall" calling
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convention.
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args is a C array for positional arguments.
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nargsf is the number of positional arguments plus optionally the flag
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PY_VECTORCALL_ARGUMENTS_OFFSET which means that the caller is allowed to
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modify args[-1].
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kwnames is a tuple of keyword names. The values of the keyword arguments
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are stored in "args" after the positional arguments (note that the number
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of keyword arguments does not change nargsf). kwnames can also be NULL if
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there are no keyword arguments.
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keywords must only contain strings and all keys must be unique.
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Return the result on success. Raise an exception and return NULL on
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error. */
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static inline PyObject *
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_PyObject_VectorcallTstate(PyThreadState *tstate, PyObject *callable,
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PyObject *const *args, size_t nargsf,
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PyObject *kwnames)
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{
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vectorcallfunc func;
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PyObject *res;
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assert(kwnames == NULL || PyTuple_Check(kwnames));
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assert(args != NULL || PyVectorcall_NARGS(nargsf) == 0);
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func = PyVectorcall_Function(callable);
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if (func == NULL) {
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Py_ssize_t nargs = PyVectorcall_NARGS(nargsf);
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return _PyObject_MakeTpCall(tstate, callable, args, nargs, kwnames);
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}
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res = func(callable, args, nargsf, kwnames);
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return _Py_CheckFunctionResult(tstate, callable, res, NULL);
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}
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static inline PyObject *
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PyObject_Vectorcall(PyObject *callable, PyObject *const *args,
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size_t nargsf, PyObject *kwnames)
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{
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PyThreadState *tstate = PyThreadState_Get();
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return _PyObject_VectorcallTstate(tstate, callable,
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args, nargsf, kwnames);
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}
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// Backwards compatibility aliases for API that was provisional in Python 3.8
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#define _PyObject_Vectorcall PyObject_Vectorcall
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#define _PyObject_VectorcallMethod PyObject_VectorcallMethod
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#define _PyObject_FastCallDict PyObject_VectorcallDict
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#define _PyVectorcall_Function PyVectorcall_Function
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#define _PyObject_CallOneArg PyObject_CallOneArg
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#define _PyObject_CallMethodNoArgs PyObject_CallMethodNoArgs
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#define _PyObject_CallMethodOneArg PyObject_CallMethodOneArg
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/* Same as PyObject_Vectorcall except that keyword arguments are passed as
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dict, which may be NULL if there are no keyword arguments. */
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PyAPI_FUNC(PyObject *) PyObject_VectorcallDict(
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PyObject *callable,
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PyObject *const *args,
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size_t nargsf,
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PyObject *kwargs);
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/* Call "callable" (which must support vectorcall) with positional arguments
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"tuple" and keyword arguments "dict". "dict" may also be NULL */
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PyAPI_FUNC(PyObject *) PyVectorcall_Call(PyObject *callable, PyObject *tuple, PyObject *dict);
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static inline PyObject *
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_PyObject_FastCallTstate(PyThreadState *tstate, PyObject *func, PyObject *const *args, Py_ssize_t nargs)
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{
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return _PyObject_VectorcallTstate(tstate, func, args, (size_t)nargs, NULL);
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}
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/* Same as PyObject_Vectorcall except without keyword arguments */
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static inline PyObject *
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_PyObject_FastCall(PyObject *func, PyObject *const *args, Py_ssize_t nargs)
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{
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PyThreadState *tstate = PyThreadState_Get();
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return _PyObject_FastCallTstate(tstate, func, args, nargs);
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}
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/* Call a callable without any arguments
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Private static inline function variant of public function
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PyObject_CallNoArgs(). */
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static inline PyObject *
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_PyObject_CallNoArg(PyObject *func) {
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PyThreadState *tstate = PyThreadState_Get();
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return _PyObject_VectorcallTstate(tstate, func, NULL, 0, NULL);
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}
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static inline PyObject *
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PyObject_CallOneArg(PyObject *func, PyObject *arg)
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{
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PyObject *_args[2];
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PyObject **args;
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PyThreadState *tstate;
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size_t nargsf;
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assert(arg != NULL);
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args = _args + 1; // For PY_VECTORCALL_ARGUMENTS_OFFSET
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args[0] = arg;
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tstate = PyThreadState_Get();
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nargsf = 1 | PY_VECTORCALL_ARGUMENTS_OFFSET;
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return _PyObject_VectorcallTstate(tstate, func, args, nargsf, NULL);
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}
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PyAPI_FUNC(PyObject *) PyObject_VectorcallMethod(
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PyObject *name, PyObject *const *args,
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size_t nargsf, PyObject *kwnames);
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static inline PyObject *
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PyObject_CallMethodNoArgs(PyObject *self, PyObject *name)
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{
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return PyObject_VectorcallMethod(name, &self,
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1 | PY_VECTORCALL_ARGUMENTS_OFFSET, NULL);
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}
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static inline PyObject *
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PyObject_CallMethodOneArg(PyObject *self, PyObject *name, PyObject *arg)
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{
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PyObject *args[2] = {self, arg};
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assert(arg != NULL);
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return PyObject_VectorcallMethod(name, args,
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2 | PY_VECTORCALL_ARGUMENTS_OFFSET, NULL);
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}
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/* Like PyObject_CallMethod(), but expect a _Py_Identifier*
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as the method name. */
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PyAPI_FUNC(PyObject *) _PyObject_CallMethodId(PyObject *obj,
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_Py_Identifier *name,
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const char *format, ...);
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PyAPI_FUNC(PyObject *) _PyObject_CallMethodId_SizeT(PyObject *obj,
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_Py_Identifier *name,
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const char *format,
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...);
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PyAPI_FUNC(PyObject *) _PyObject_CallMethodIdObjArgs(
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PyObject *obj,
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struct _Py_Identifier *name,
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...);
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static inline PyObject *
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_PyObject_VectorcallMethodId(
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_Py_Identifier *name, PyObject *const *args,
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size_t nargsf, PyObject *kwnames)
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{
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PyObject *oname = _PyUnicode_FromId(name); /* borrowed */
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if (!oname) {
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return NULL;
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}
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return PyObject_VectorcallMethod(oname, args, nargsf, kwnames);
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}
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static inline PyObject *
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_PyObject_CallMethodIdNoArgs(PyObject *self, _Py_Identifier *name)
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{
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return _PyObject_VectorcallMethodId(name, &self,
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1 | PY_VECTORCALL_ARGUMENTS_OFFSET, NULL);
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}
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static inline PyObject *
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_PyObject_CallMethodIdOneArg(PyObject *self, _Py_Identifier *name, PyObject *arg)
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{
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PyObject *args[2] = {self, arg};
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assert(arg != NULL);
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return _PyObject_VectorcallMethodId(name, args,
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2 | PY_VECTORCALL_ARGUMENTS_OFFSET, NULL);
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}
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PyAPI_FUNC(int) _PyObject_HasLen(PyObject *o);
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/* Guess the size of object 'o' using len(o) or o.__length_hint__().
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If neither of those return a non-negative value, then return the default
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value. If one of the calls fails, this function returns -1. */
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PyAPI_FUNC(Py_ssize_t) PyObject_LengthHint(PyObject *o, Py_ssize_t);
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/* === New Buffer API ============================================ */
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/* Return 1 if the getbuffer function is available, otherwise return 0. */
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PyAPI_FUNC(int) PyObject_CheckBuffer(PyObject *obj);
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/* This is a C-API version of the getbuffer function call. It checks
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to make sure object has the required function pointer and issues the
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call.
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Returns -1 and raises an error on failure and returns 0 on success. */
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PyAPI_FUNC(int) PyObject_GetBuffer(PyObject *obj, Py_buffer *view,
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int flags);
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/* Get the memory area pointed to by the indices for the buffer given.
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Note that view->ndim is the assumed size of indices. */
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PyAPI_FUNC(void *) PyBuffer_GetPointer(Py_buffer *view, Py_ssize_t *indices);
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/* Return the implied itemsize of the data-format area from a
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struct-style description. */
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PyAPI_FUNC(Py_ssize_t) PyBuffer_SizeFromFormat(const char *format);
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/* Implementation in memoryobject.c */
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PyAPI_FUNC(int) PyBuffer_ToContiguous(void *buf, Py_buffer *view,
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Py_ssize_t len, char order);
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PyAPI_FUNC(int) PyBuffer_FromContiguous(Py_buffer *view, void *buf,
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Py_ssize_t len, char order);
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/* Copy len bytes of data from the contiguous chunk of memory
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pointed to by buf into the buffer exported by obj. Return
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0 on success and return -1 and raise a PyBuffer_Error on
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error (i.e. the object does not have a buffer interface or
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it is not working).
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If fort is 'F', then if the object is multi-dimensional,
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then the data will be copied into the array in
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Fortran-style (first dimension varies the fastest). If
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fort is 'C', then the data will be copied into the array
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in C-style (last dimension varies the fastest). If fort
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is 'A', then it does not matter and the copy will be made
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in whatever way is more efficient. */
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PyAPI_FUNC(int) PyObject_CopyData(PyObject *dest, PyObject *src);
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/* Copy the data from the src buffer to the buffer of destination. */
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PyAPI_FUNC(int) PyBuffer_IsContiguous(const Py_buffer *view, char fort);
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/*Fill the strides array with byte-strides of a contiguous
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(Fortran-style if fort is 'F' or C-style otherwise)
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array of the given shape with the given number of bytes
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per element. */
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PyAPI_FUNC(void) PyBuffer_FillContiguousStrides(int ndims,
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Py_ssize_t *shape,
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Py_ssize_t *strides,
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int itemsize,
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char fort);
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/* Fills in a buffer-info structure correctly for an exporter
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that can only share a contiguous chunk of memory of
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"unsigned bytes" of the given length.
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Returns 0 on success and -1 (with raising an error) on error. */
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PyAPI_FUNC(int) PyBuffer_FillInfo(Py_buffer *view, PyObject *o, void *buf,
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Py_ssize_t len, int readonly,
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int flags);
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/* Releases a Py_buffer obtained from getbuffer ParseTuple's "s*". */
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PyAPI_FUNC(void) PyBuffer_Release(Py_buffer *view);
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/* === Sequence protocol ================================================ */
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/* Assume tp_as_sequence and sq_item exist and that 'i' does not
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need to be corrected for a negative index. */
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#define PySequence_ITEM(o, i)\
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( Py_TYPE(o)->tp_as_sequence->sq_item(o, i) )
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#define PY_ITERSEARCH_COUNT 1
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#define PY_ITERSEARCH_INDEX 2
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#define PY_ITERSEARCH_CONTAINS 3
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/* Iterate over seq.
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Result depends on the operation:
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PY_ITERSEARCH_COUNT: return # of times obj appears in seq; -1 if
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error.
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PY_ITERSEARCH_INDEX: return 0-based index of first occurrence of
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obj in seq; set ValueError and return -1 if none found;
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also return -1 on error.
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PY_ITERSEARCH_CONTAINS: return 1 if obj in seq, else 0; -1 on
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error. */
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PyAPI_FUNC(Py_ssize_t) _PySequence_IterSearch(PyObject *seq,
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PyObject *obj, int operation);
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/* === Mapping protocol ================================================= */
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PyAPI_FUNC(int) _PyObject_RealIsInstance(PyObject *inst, PyObject *cls);
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PyAPI_FUNC(int) _PyObject_RealIsSubclass(PyObject *derived, PyObject *cls);
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PyAPI_FUNC(char *const *) _PySequence_BytesToCharpArray(PyObject* self);
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PyAPI_FUNC(void) _Py_FreeCharPArray(char *const array[]);
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/* For internal use by buffer API functions */
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PyAPI_FUNC(void) _Py_add_one_to_index_F(int nd, Py_ssize_t *index,
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const Py_ssize_t *shape);
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PyAPI_FUNC(void) _Py_add_one_to_index_C(int nd, Py_ssize_t *index,
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const Py_ssize_t *shape);
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/* Convert Python int to Py_ssize_t. Do nothing if the argument is None. */
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PyAPI_FUNC(int) _Py_convert_optional_to_ssize_t(PyObject *, void *);
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/* Same as PyNumber_Index but can return an instance of a subclass of int. */
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PyAPI_FUNC(PyObject *) _PyNumber_Index(PyObject *o);
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