From: Robert Bradshaw Date: Wed, 10 Oct 2007 10:46:55 +0000 (-0700) Subject: Add pxi files for Python/C API (and a couple of other stubs) X-Git-Tag: 0.9.6.14~60^2 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=c2b49cd8b3b0aa06448746064d45212d9f95816a;p=cython.git Add pxi files for Python/C API (and a couple of other stubs) Originally authored as part of SAGE by William Stein. --- diff --git a/Includes/python.pxi b/Includes/python.pxi new file mode 100644 index 00000000..a8d9c4e8 --- /dev/null +++ b/Includes/python.pxi @@ -0,0 +1,149 @@ +##################################################################### +# +# These are the "SageX" pxi files for (most of) the Python/C API. +# +# SageX = SAGE Pyrex, which is a fork of Pyrex for use in SAGE. +# +# REFERENCE COUNTING: +# +# JUST TO SCARE YOU: +# If you are going to use any of the Python/C API in your SageX +# program, you might be responsible for doing reference counting. +# Read http://docs.python.org/api/refcounts.html which is so +# important I've copied it below. +# +# For all the declaration below, whenver the Py_ function returns +# a *new reference* to a PyObject*, the return type is "object". +# When the function returns a borrowed reference, the return +# type is PyObject*. When SageX sees "object" as a return type +# it doesn't increment the reference count. When it sees PyObject* +# in order to use the result you must explicitly cast to , +# and when you do that SageX increments the reference count wether +# you want it to or not, forcing you to an explicit DECREF (or leak memory). +# To avoid this we make the above convention. Note, you can +# always locally override this convention by putting something like +# +# cdef extern from "Python.h": +# PyObject* PyNumber_Add(PyObject *o1, PyObject *o2) +# +# in your file after any .pxi includes. SageX will use the latest +# declaration. +# +# SageX takes care of this automatically for anything of type object. +## More precisely, I think the correct convention for +## using the Python/C API from Pyrex is as follows. +## +## (1) Declare all input arguments as type "object". This way no explicit +## casting is needed, and moreover Pyrex doesn't generate +## any funny reference counting. +## (2) Declare output as object if a new reference is returned. +## (3) Declare output as PyObject* if a borrowed reference is returned. +## +## This way when you call objects, no cast is needed, and if the api +## calls returns a new reference (which is about 95% of them), then +## you can just assign to a variable of type object. With borrowed +## references if you do an explicit typecast to , Pyrex generates an +## INCREF and DECREF so you have to be careful. However, you got a +## borrowed reference in this case, so there's got to be another reference +## to your object, so you're OK, as long as you relealize this +## and use the result of an explicit cast to as a borrowed +## reference (and you can call Py_INCREF if you want to turn it +## into another reference for some reason). +# +# "The reference count is important because today's computers have +# a finite (and often severely limited) memory size; it counts how +# many different places there are that have a reference to an +# object. Such a place could be another object, or a global (or +# static) C variable, or a local variable in some C function. When +# an object's reference count becomes zero, the object is +# deallocated. If it contains references to other objects, their +# reference count is decremented. Those other objects may be +# deallocated in turn, if this decrement makes their reference +# count become zero, and so on. (There's an obvious problem with +# objects that reference each other here; for now, the solution is +# ``don't do that.'') +# +# Reference counts are always manipulated explicitly. The normal +# way is to use the macro Py_INCREF() to increment an object's +# reference count by one, and Py_DECREF() to decrement it by +# one. The Py_DECREF() macro is considerably more complex than the +# incref one, since it must check whether the reference count +# becomes zero and then cause the object's deallocator to be +# called. The deallocator is a function pointer contained in the +# object's type structure. The type-specific deallocator takes +# care of decrementing the reference counts for other objects +# contained in the object if this is a compound object type, such +# as a list, as well as performing any additional finalization +# that's needed. There's no chance that the reference count can +# overflow; at least as many bits are used to hold the reference +# count as there are distinct memory locations in virtual memory +# (assuming sizeof(long) >= sizeof(char*)). Thus, the reference +# count increment is a simple operation. +# +# It is not necessary to increment an object's reference count for +# every local variable that contains a pointer to an object. In +# theory, the object's reference count goes up by one when the +# variable is made to point to it and it goes down by one when the +# variable goes out of scope. However, these two cancel each other +# out, so at the end the reference count hasn't changed. The only +# real reason to use the reference count is to prevent the object +# from being deallocated as long as our variable is pointing to +# it. If we know that there is at least one other reference to the +# object that lives at least as long as our variable, there is no +# need to increment the reference count temporarily. An important +# situation where this arises is in objects that are passed as +# arguments to C functions in an extension module that are called +# from Python; the call mechanism guarantees to hold a reference +# to every argument for the duration of the call. +# +# However, a common pitfall is to extract an object from a list +# and hold on to it for a while without incrementing its reference +# count. Some other operation might conceivably remove the object +# from the list, decrementing its reference count and possible +# deallocating it. The real danger is that innocent-looking +# operations may invoke arbitrary Python code which could do this; +# there is a code path which allows control to flow back to the +# user from a Py_DECREF(), so almost any operation is potentially +# dangerous. +# +# A safe approach is to always use the generic operations +# (functions whose name begins with "PyObject_", "PyNumber_", +# "PySequence_" or "PyMapping_"). These operations always +# increment the reference count of the object they return. This +# leaves the caller with the responsibility to call Py_DECREF() +# when they are done with the result; this soon becomes second +# nature. +# +# Now you should read http://docs.python.org/api/refcountDetails.html +# just to be sure you understand what is going on. +# +################################################################# +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef void PyTypeObject + ctypedef struct FILE + + +include 'python_ref.pxi' +include 'python_exc.pxi' +include 'python_module.pxi' +include 'python_mem.pxi' +include 'python_tuple.pxi' +include 'python_list.pxi' +include 'python_object.pxi' +include 'python_sequence.pxi' +include 'python_mapping.pxi' +include 'python_iterator.pxi' +include 'python_type.pxi' +include 'python_number.pxi' +include 'python_int.pxi' +include 'python_bool.pxi' +include 'python_long.pxi' +include 'python_float.pxi' +include 'python_complex.pxi' +include 'python_string.pxi' +include 'python_dict.pxi' +include 'python_instance.pxi' +include 'python_function.pxi' +include 'python_method.pxi' +include 'python_set.pxi' diff --git a/Includes/python_bool.pxi b/Includes/python_bool.pxi new file mode 100644 index 00000000..08331bef --- /dev/null +++ b/Includes/python_bool.pxi @@ -0,0 +1,35 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # 7.2.2 Boolean Objects + ############################################################################ + + # Booleans in Python are implemented as a subclass of + # integers. There are only two booleans, Py_False and Py_True. As + # such, the normal creation and deletion functions don't apply to + # booleans. The following macros are available, however. + + bint PyBool_Check(object o) + # Return true if o is of type PyBool_Type. + + #PyObject* Py_False + # The Python False object. This object has no methods. It needs to + # be treated just like any other object with respect to reference + # counts. + + #PyObject* Py_True + # The Python True object. This object has no methods. It needs to + # be treated just like any other object with respect to reference + # counts. + + # Py_RETURN_FALSE + # Return Py_False from a function, properly incrementing its reference count. + + # Py_RETURN_TRUE + # Return Py_True from a function, properly incrementing its reference count. + + object PyBool_FromLong(long v) + # Return value: New reference. + # Return a new reference to Py_True or Py_False depending on the truth value of v. + diff --git a/Includes/python_complex.pxi b/Includes/python_complex.pxi new file mode 100644 index 00000000..761ac3c5 --- /dev/null +++ b/Includes/python_complex.pxi @@ -0,0 +1,39 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef struct Py_complex + + ############################################################################ + # 7.2.5.2 Complex Numbers as Python Objects + ############################################################################ + + # PyComplexObject + # This subtype of PyObject represents a Python complex number object. + + # PyTypeObject PyComplex_Type + # This instance of PyTypeObject represents the Python complex + # number type. It is the same object as complex and + # types.ComplexType. + + bint PyComplex_Check(object p) + # Return true if its argument is a PyComplexObject or a subtype of + # PyComplexObject. + + bint PyComplex_CheckExact(object p) + # Return true if its argument is a PyComplexObject, but not a subtype of PyComplexObject. + + object PyComplex_FromCComplex(Py_complex v) + # Return value: New reference. + # Create a new Python complex number object from a C Py_complex value. + + object PyComplex_FromDoubles(double real, double imag) + # Return value: New reference. + # Return a new PyComplexObject object from real and imag. + + double PyComplex_RealAsDouble(object op) + # Return the real part of op as a C double. + + double PyComplex_ImagAsDouble(object op) + # Return the imaginary part of op as a C double. + + Py_complex PyComplex_AsCComplex(object op) + # Return the Py_complex value of the complex number op. diff --git a/Includes/python_dict.pxi b/Includes/python_dict.pxi new file mode 100644 index 00000000..41bc6d00 --- /dev/null +++ b/Includes/python_dict.pxi @@ -0,0 +1,155 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ############################################################################ + # 7.4.1 Dictionary Objects + ############################################################################ + # PyDictObject + # This subtype of PyObject represents a Python dictionary object. + # PyTypeObject PyDict_Type + # This instance of PyTypeObject represents the Python dictionary type. This is exposed to Python programs as dict and types.DictType. + + bint PyDict_Check(object p) + # Return true if p is a dict object or an instance of a subtype of + # the dict type. + + bint PyDict_CheckExact(object p) + # Return true if p is a dict object, but not an instance of a + # subtype of the dict type. + + object PyDict_New() + # Return value: New reference. + # Return a new empty dictionary, or NULL on failure. + + object PyDictProxy_New(object dict) + # Return value: New reference. + # Return a proxy object for a mapping which enforces read-only + # behavior. This is normally used to create a proxy to prevent + # modification of the dictionary for non-dynamic class types. + + void PyDict_Clear(object p) + # Empty an existing dictionary of all key-value pairs. + + int PyDict_Contains(object p, object key) + # Determine if dictionary p contains key. If an item in p is + # matches key, return 1, otherwise return 0. On error, return + # -1. This is equivalent to the Python expression "key in p". + + object PyDict_Copy(object p) + # Return value: New reference. + # Return a new dictionary that contains the same key-value pairs as p. + + int PyDict_SetItem(object p, object key, object val) + # Insert value into the dictionary p with a key of key. key must + # be hashable; if it isn't, TypeError will be raised. Return 0 on + # success or -1 on failure. + + int PyDict_SetItemString(object p, char *key, object val) + # Insert value into the dictionary p using key as a key. key + # should be a char*. The key object is created using + # PyString_FromString(key). Return 0 on success or -1 on failure. + + int PyDict_DelItem(object p, object key) + # Remove the entry in dictionary p with key key. key must be + # hashable; if it isn't, TypeError is raised. Return 0 on success + # or -1 on failure. + + int PyDict_DelItemString(object p, char *key) + # Remove the entry in dictionary p which has a key specified by + # the string key. Return 0 on success or -1 on failure. + + PyObject* PyDict_GetItem(object p, object key) + # Return value: Borrowed reference. + # Return the object from dictionary p which has a key key. Return + # NULL if the key key is not present, but without setting an + # exception. + + PyObject* PyDict_GetItemString(object p, char *key) + # Return value: Borrowed reference. + # This is the same as PyDict_GetItem(), but key is specified as a + # char*, rather than a PyObject*. + + object PyDict_Items(object p) + # Return value: New reference. + # Return a PyListObject containing all the items from the + # dictionary, as in the dictionary method items() (see the Python + # Library Reference). + + object PyDict_Keys(object p) + # Return value: New reference. + # Return a PyListObject containing all the keys from the + # dictionary, as in the dictionary method keys() (see the Python + # Library Reference). + + object PyDict_Values(object p) + # Return value: New reference. + # Return a PyListObject containing all the values from the + # dictionary p, as in the dictionary method values() (see the + # Python Library Reference). + + Py_ssize_t PyDict_Size(object p) + # Return the number of items in the dictionary. This is equivalent to "len(p)" on a dictionary. + + int PyDict_Next(object p, Py_ssize_t *ppos, PyObject* *pkey, PyObject* *pvalue) + # Iterate over all key-value pairs in the dictionary p. The int + # referred to by ppos must be initialized to 0 prior to the first + # call to this function to start the iteration; the function + # returns true for each pair in the dictionary, and false once all + # pairs have been reported. The parameters pkey and pvalue should + # either point to PyObject* variables that will be filled in with + # each key and value, respectively, or may be NULL. Any references + # returned through them are borrowed. ppos should not be altered + # during iteration. Its value represents offsets within the + # internal dictionary structure, and since the structure is + # sparse, the offsets are not consecutive. + # For example: + # + #object key, *value; + #int pos = 0; + # + #while (PyDict_Next(self->dict, &pos, &key, &value)) { + # /* do something interesting with the values... */ + # ... + #} + # The dictionary p should not be mutated during iteration. It is + # safe (since Python 2.1) to modify the values of the keys as you + # iterate over the dictionary, but only so long as the set of keys + # does not change. For example: + # object key, *value; + # int pos = 0; + # while (PyDict_Next(self->dict, &pos, &key, &value)) { + # int i = PyInt_AS_LONG(value) + 1; + # object o = PyInt_FromLong(i); + # if (o == NULL) + # return -1; + # if (PyDict_SetItem(self->dict, key, o) < 0) { + # Py_DECREF(o); + # return -1; + # } + # Py_DECREF(o); + # } + + int PyDict_Merge(object a, object b, int override) + # Iterate over mapping object b adding key-value pairs to + # dictionary a. b may be a dictionary, or any object supporting + # PyMapping_Keys() and PyObject_GetItem(). If override is true, + # existing pairs in a will be replaced if a matching key is found + # in b, otherwise pairs will only be added if there is not a + # matching key in a. Return 0 on success or -1 if an exception was + # raised. + + int PyDict_Update(object a, object b) + # This is the same as PyDict_Merge(a, b, 1) in C, or a.update(b) + # in Python. Return 0 on success or -1 if an exception was raised. + + int PyDict_MergeFromSeq2(object a, object seq2, int override) + # Update or merge into dictionary a, from the key-value pairs in + # seq2. seq2 must be an iterable object producing iterable objects + # of length 2, viewed as key-value pairs. In case of duplicate + # keys, the last wins if override is true, else the first + # wins. Return 0 on success or -1 if an exception was + # raised. Equivalent Python (except for the return value): + # + #def PyDict_MergeFromSeq2(a, seq2, override): + # for key, value in seq2: + # if override or key not in a: + # a[key] = value diff --git a/Includes/python_exc.pxi b/Includes/python_exc.pxi new file mode 100644 index 00000000..24788c72 --- /dev/null +++ b/Includes/python_exc.pxi @@ -0,0 +1,249 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ##################################################################### + # 3. Exception Handling + ##################################################################### + + # The functions described in this chapter will let you handle and + # raise Python exceptions. It is important to understand some of + # the basics of Python exception handling. It works somewhat like + # the Unix errno variable: there is a global indicator (per + # thread) of the last error that occurred. Most functions don't + # clear this on success, but will set it to indicate the cause of + # the error on failure. Most functions also return an error + # indicator, usually NULL if they are supposed to return a + # pointer, or -1 if they return an integer (exception: the + # PyArg_*() functions return 1 for success and 0 for failure). + + # When a function must fail because some function it called + # failed, it generally doesn't set the error indicator; the + # function it called already set it. It is responsible for either + # handling the error and clearing the exception or returning after + # cleaning up any resources it holds (such as object references or + # memory allocations); it should not continue normally if it is + # not prepared to handle the error. If returning due to an error, + # it is important to indicate to the caller that an error has been + # set. If the error is not handled or carefully propagated, + # additional calls into the Python/C API may not behave as + # intended and may fail in mysterious ways. + + # The error indicator consists of three Python objects + # corresponding to the Python variables sys.exc_type, + # sys.exc_value and sys.exc_traceback. API functions exist to + # interact with the error indicator in various ways. There is a + # separate error indicator for each thread. + + void PyErr_Print() + # Print a standard traceback to sys.stderr and clear the error + # indicator. Call this function only when the error indicator is + # set. (Otherwise it will cause a fatal error!) + + PyObject* PyErr_Occurred() + # Return value: Borrowed reference. + # Test whether the error indicator is set. If set, return the + # exception type (the first argument to the last call to one of + # the PyErr_Set*() functions or to PyErr_Restore()). If not set, + # return NULL. You do not own a reference to the return value, so + # you do not need to Py_DECREF() it. Note: Do not compare the + # return value to a specific exception; use + # PyErr_ExceptionMatches() instead, shown below. (The comparison + # could easily fail since the exception may be an instance instead + # of a class, in the case of a class exception, or it may the a + # subclass of the expected exception.) + + int PyErr_ExceptionMatches(object exc) + # Equivalent to "PyErr_GivenExceptionMatches(PyErr_Occurred(), + # exc)". This should only be called when an exception is actually + # set; a memory access violation will occur if no exception has + # been raised. + + bint PyErr_GivenExceptionMatches(object given, object exc) + # Return true if the given exception matches the exception in + # exc. If exc is a class object, this also returns true when given + # is an instance of a subclass. If exc is a tuple, all exceptions + # in the tuple (and recursively in subtuples) are searched for a + # match. If given is NULL, a memory access violation will occur. + + void PyErr_NormalizeException(PyObject** exc, PyObject** val, PyObject** tb) + # Under certain circumstances, the values returned by + # PyErr_Fetch() below can be ``unnormalized'', meaning that *exc + # is a class object but *val is not an instance of the same + # class. This function can be used to instantiate the class in + # that case. If the values are already normalized, nothing + # happens. The delayed normalization is implemented to improve + # performance. + + void PyErr_Clear() + # Clear the error indicator. If the error indicator is not set, there is no effect. + + void PyErr_Fetch(PyObject** ptype, PyObject** pvalue, PyObject** ptraceback) + # Retrieve the error indicator into three variables whose + # addresses are passed. If the error indicator is not set, set all + # three variables to NULL. If it is set, it will be cleared and + # you own a reference to each object retrieved. The value and + # traceback object may be NULL even when the type object is + # not. Note: This function is normally only used by code that + # needs to handle exceptions or by code that needs to save and + # restore the error indicator temporarily. + + void PyErr_Restore(object type, object value, object traceback) + # Set the error indicator from the three objects. If the error + # indicator is already set, it is cleared first. If the objects + # are NULL, the error indicator is cleared. Do not pass a NULL + # type and non-NULL value or traceback. The exception type should + # be a class. Do not pass an invalid exception type or + # value. (Violating these rules will cause subtle problems later.) + # This call takes away a reference to each object: you must own a + # reference to each object before the call and after the call you + # no longer own these references. (If you don't understand this, + # don't use this function. I warned you.) Note: This function is + # normally only used by code that needs to save and restore the + # error indicator temporarily; use PyErr_Fetch() to save the + # current exception state. + + void PyErr_SetString(object type, char *message) + # This is the most common way to set the error indicator. The + # first argument specifies the exception type; it is normally one + # of the standard exceptions, e.g. PyExc_RuntimeError. You need + # not increment its reference count. The second argument is an + # error message; it is converted to a string object. + + void PyErr_SetObject(object type, object value) + # This function is similar to PyErr_SetString() but lets you + # specify an arbitrary Python object for the ``value'' of the + # exception. + + PyObject* PyErr_Format(object exception, char *format, ...) + # Return value: Always NULL. + # This function sets the error indicator and returns + # NULL. exception should be a Python exception (class, not an + # instance). format should be a string, containing format codes, + # similar to printf(). The width.precision before a format code is + # parsed, but the width part is ignored. + + void PyErr_SetNone(object type) + # This is a shorthand for "PyErr_SetObject(type, Py_None)". + + int PyErr_BadArgument() + + # This is a shorthand for "PyErr_SetString(PyExc_TypeError, + # message)", where message indicates that a built-in operation was + # invoked with an illegal argument. It is mostly for internal use. + + PyObject* PyErr_NoMemory() + # Return value: Always NULL. + # This is a shorthand for "PyErr_SetNone(PyExc_MemoryError)"; it + # returns NULL so an object allocation function can write "return + # PyErr_NoMemory();" when it runs out of memory. + + PyObject* PyErr_SetFromErrno(object type) + # Return value: Always NULL. + # This is a convenience function to raise an exception when a C + # library function has returned an error and set the C variable + # errno. It constructs a tuple object whose first item is the + # integer errno value and whose second item is the corresponding + # error message (gotten from strerror()), and then calls + # "PyErr_SetObject(type, object)". On Unix, when the errno value + # is EINTR, indicating an interrupted system call, this calls + # PyErr_CheckSignals(), and if that set the error indicator, + # leaves it set to that. The function always returns NULL, so a + # wrapper function around a system call can write "return + # PyErr_SetFromErrno(type);" when the system call returns an + # error. + + PyObject* PyErr_SetFromErrnoWithFilename(object type, char *filename) + # Return value: Always NULL. Similar to PyErr_SetFromErrno(), + # with the additional behavior that if filename is not NULL, it is + # passed to the constructor of type as a third parameter. In the + # case of exceptions such as IOError and OSError, this is used to + # define the filename attribute of the exception instance. + + PyObject* PyErr_SetFromWindowsErr(int ierr) + # Return value: Always NULL. This is a convenience function to + # raise WindowsError. If called with ierr of 0, the error code + # returned by a call to GetLastError() is used instead. It calls + # the Win32 function FormatMessage() to retrieve the Windows + # description of error code given by ierr or GetLastError(), then + # it constructs a tuple object whose first item is the ierr value + # and whose second item is the corresponding error message (gotten + # from FormatMessage()), and then calls + # "PyErr_SetObject(PyExc_WindowsError, object)". This function + # always returns NULL. Availability: Windows. + + PyObject* PyErr_SetExcFromWindowsErr(object type, int ierr) + # Return value: Always NULL. Similar to + # PyErr_SetFromWindowsErr(), with an additional parameter + # specifying the exception type to be raised. Availability: + # Windows. New in version 2.3. + + PyObject* PyErr_SetFromWindowsErrWithFilename(int ierr, char *filename) + # Return value: Always NULL. Similar to + # PyErr_SetFromWindowsErr(), with the additional behavior that if + # filename is not NULL, it is passed to the constructor of + # WindowsError as a third parameter. Availability: Windows. + + PyObject* PyErr_SetExcFromWindowsErrWithFilename(object type, int ierr, char *filename) + # Return value: Always NULL. + # Similar to PyErr_SetFromWindowsErrWithFilename(), with an + # additional parameter specifying the exception type to be + # raised. Availability: Windows. + + void PyErr_BadInternalCall() + # This is a shorthand for "PyErr_SetString(PyExc_TypeError, + # message)", where message indicates that an internal operation + # (e.g. a Python/C API function) was invoked with an illegal + # argument. It is mostly for internal use. + + int PyErr_WarnEx(object category, char *message, int stacklevel) + # Issue a warning message. The category argument is a warning + # category (see below) or NULL; the message argument is a message + # string. stacklevel is a positive number giving a number of stack + # frames; the warning will be issued from the currently executing + # line of code in that stack frame. A stacklevel of 1 is the + # function calling PyErr_WarnEx(), 2 is the function above that, + # and so forth. + + int PyErr_WarnExplicit(object category, char *message, char *filename, int lineno, char *module, object registry) + # Issue a warning message with explicit control over all warning + # attributes. This is a straightforward wrapper around the Python + # function warnings.warn_explicit(), see there for more + # information. The module and registry arguments may be set to + # NULL to get the default effect described there. + + int PyErr_CheckSignals() + # This function interacts with Python's signal handling. It checks + # whether a signal has been sent to the processes and if so, + # invokes the corresponding signal handler. If the signal module + # is supported, this can invoke a signal handler written in + # Python. In all cases, the default effect for SIGINT is to raise + # the KeyboardInterrupt exception. If an exception is raised the + # error indicator is set and the function returns 1; otherwise the + # function returns 0. The error indicator may or may not be + # cleared if it was previously set. + + void PyErr_SetInterrupt() + # This function simulates the effect of a SIGINT signal arriving + # -- the next time PyErr_CheckSignals() is called, + # KeyboardInterrupt will be raised. It may be called without + # holding the interpreter lock. + + PyObject* PyErr_NewException(char *name, object base, object dict) + # Return value: New reference. + # This utility function creates and returns a new exception + # object. The name argument must be the name of the new exception, + # a C string of the form module.class. The base and dict arguments + # are normally NULL. This creates a class object derived from + # Exception (accessible in C as PyExc_Exception). + + void PyErr_WriteUnraisable(object obj) + # This utility function prints a warning message to sys.stderr + # when an exception has been set but it is impossible for the + # interpreter to actually raise the exception. It is used, for + # example, when an exception occurs in an __del__() method. + # + # The function is called with a single argument obj that + # identifies the context in which the unraisable exception + # occurred. The repr of obj will be printed in the warning + # message. + diff --git a/Includes/python_float.pxi b/Includes/python_float.pxi new file mode 100644 index 00000000..5d032196 --- /dev/null +++ b/Includes/python_float.pxi @@ -0,0 +1,34 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # 7.2.3 + ############################################################################ + # PyFloatObject + # This subtype of PyObject represents a Python floating point object. + # PyTypeObject PyFloat_Type + # This instance of PyTypeObject represents the Python floating point type. This is the same object as float and types.FloatType. + + bint PyFloat_Check(object p) + # Return true if its argument is a PyFloatObject or a subtype of + # PyFloatObject. + + bint PyFloat_CheckExact(object p) + # Return true if its argument is a PyFloatObject, but not a + # subtype of PyFloatObject. + + object PyFloat_FromString(object str, char **pend) + # Return value: New reference. + # Create a PyFloatObject object based on the string value in str, + # or NULL on failure. The pend argument is ignored. It remains + # only for backward compatibility. + + object PyFloat_FromDouble(double v) + # Return value: New reference. + # Create a PyFloatObject object from v, or NULL on failure. + + double PyFloat_AsDouble(object pyfloat) + # Return a C double representation of the contents of pyfloat. + + double PyFloat_AS_DOUBLE(object pyfloat) + # Return a C double representation of the contents of pyfloat, but without error checking. diff --git a/Includes/python_function.pxi b/Includes/python_function.pxi new file mode 100644 index 00000000..45249ea3 --- /dev/null +++ b/Includes/python_function.pxi @@ -0,0 +1,59 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ############################################################################ + # 7.5.3 Function Objects + ############################################################################ + # There are a few functions specific to Python functions. + # PyFunctionObject + # The C structure used for functions. + # PyTypeObject PyFunction_Type + # This is an instance of PyTypeObject and represents the Python + # function type. It is exposed to Python programmers as + # types.FunctionType. + + bint PyFunction_Check(object o) + # Return true if o is a function object (has type + # PyFunction_Type). The parameter must not be NULL. + + object PyFunction_New(object code, object globals) + # Return value: New reference. + # Return a new function object associated with the code object + # code. globals must be a dictionary with the global variables + # accessible to the function. + # The function's docstring, name and __module__ are retrieved from + # the code object, the argument defaults and closure are set to + # NULL. + + PyObject* PyFunction_GetCode(object op) + # Return value: Borrowed reference. + # Return the code object associated with the function object op. + + PyObject* PyFunction_GetGlobals(object op) + # Return value: Borrowed reference. + # Return the globals dictionary associated with the function object op. + + PyObject* PyFunction_GetModule(object op) + # Return value: Borrowed reference. + # Return the __module__ attribute of the function object op. This + # is normally a string containing the module name, but can be set + # to any other object by Python code. + + PyObject* PyFunction_GetDefaults(object op) + # Return value: Borrowed reference. + # Return the argument default values of the function object + # op. This can be a tuple of arguments or NULL. + + int PyFunction_SetDefaults(object op, object defaults) + # Set the argument default values for the function object + # op. defaults must be Py_None or a tuple. + # Raises SystemError and returns -1 on failure. + + PyObject* PyFunction_GetClosure(object op) + # Return value: Borrowed reference. + # Return the closure associated with the function object op. This + # can be NULL or a tuple of cell objects. + + int PyFunction_SetClosure(object op, object closure) + # Set the closure associated with the function object op. closure + # must be Py_None or a tuple of cell objects. + # Raises SystemError and returns -1 on failure. diff --git a/Includes/python_instance.pxi b/Includes/python_instance.pxi new file mode 100644 index 00000000..c7951165 --- /dev/null +++ b/Includes/python_instance.pxi @@ -0,0 +1,23 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # 7.5.2 Instance Objects + ############################################################################ + # PyTypeObject PyInstance_Type + # Type object for class instances. + # int PyInstance_Check(PyObject *obj) + # Return true if obj is an instance. + + object PyInstance_New(PyObject* cls, object arg, object kw) + # Return value: New reference. + # Create a new instance of a specific class. The parameters arg + # and kw are used as the positional and keyword parameters to the + # object's constructor. + + object PyInstance_NewRaw(object cls, object dict) + # Return value: New reference. + # Create a new instance of a specific class without calling its + # constructor. class is the class of new object. The dict + # parameter will be used as the object's __dict__; if NULL, a new + # dictionary will be created for the instance. diff --git a/Includes/python_int.pxi b/Includes/python_int.pxi new file mode 100644 index 00000000..6b12ce45 --- /dev/null +++ b/Includes/python_int.pxi @@ -0,0 +1,80 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # Integer Objects + ############################################################################ + # PyTypeObject PyInt_Type + # This instance of PyTypeObject represents the Python plain + # integer type. This is the same object as int and types.IntType. + + bint PyInt_Check(object o) + # Return true if o is of type PyInt_Type or a subtype of + # PyInt_Type. + + bint PyInt_CheckExact(object o) + # Return true if o is of type PyInt_Type, but not a subtype of + # PyInt_Type. + + object PyInt_FromString(char *str, char **pend, int base) + # Return value: New reference. + # Return a new PyIntObject or PyLongObject based on the string + # value in str, which is interpreted according to the radix in + # base. If pend is non-NULL, *pend will point to the first + # character in str which follows the representation of the + # number. If base is 0, the radix will be determined based on the + # leading characters of str: if str starts with '0x' or '0X', + # radix 16 will be used; if str starts with '0', radix 8 will be + # used; otherwise radix 10 will be used. If base is not 0, it must + # be between 2 and 36, inclusive. Leading spaces are ignored. If + # there are no digits, ValueError will be raised. If the string + # represents a number too large to be contained within the + # machine's long int type and overflow warnings are being + # suppressed, a PyLongObject will be returned. If overflow + # warnings are not being suppressed, NULL will be returned in this + # case. + + object PyInt_FromLong(long ival) + # Return value: New reference. + # Create a new integer object with a value of ival. + # The current implementation keeps an array of integer objects for + # all integers between -5 and 256, when you create an int in that + # range you actually just get back a reference to the existing + # object. So it should be possible to change the value of 1. I + # suspect the behaviour of Python in this case is undefined. :-) + + object PyInt_FromSsize_t(Py_ssize_t ival) + # Return value: New reference. + # Create a new integer object with a value of ival. If the value + # exceeds LONG_MAX, a long integer object is returned. + + long PyInt_AsLong(object io) + # Will first attempt to cast the object to a PyIntObject, if it is + # not already one, and then return its value. If there is an + # error, -1 is returned, and the caller should check + # PyErr_Occurred() to find out whether there was an error, or + # whether the value just happened to be -1. + + long PyInt_AS_LONG(object io) + # Return the value of the object io. No error checking is performed. + + unsigned long PyInt_AsUnsignedLongMask(object io) + # Will first attempt to cast the object to a PyIntObject or + # PyLongObject, if it is not already one, and then return its + # value as unsigned long. This function does not check for + # overflow. + + ctypedef unsigned long long PY_LONG_LONG + PY_LONG_LONG PyInt_AsUnsignedLongLongMask(object io) + # Will first attempt to cast the object to a PyIntObject or + # PyLongObject, if it is not already one, and then return its + # value as unsigned long long, without checking for overflow. + + Py_ssize_t PyInt_AsSsize_t(object io) + # Will first attempt to cast the object to a PyIntObject or + # PyLongObject, if it is not already one, and then return its + # value as Py_ssize_t. + + long PyInt_GetMax() + # Return the system's idea of the largest integer it can handle + # (LONG_MAX, as defined in the system header files). diff --git a/Includes/python_iterator.pxi b/Includes/python_iterator.pxi new file mode 100644 index 00000000..c039c640 --- /dev/null +++ b/Includes/python_iterator.pxi @@ -0,0 +1,36 @@ +cdef extern from "Python.h": + + ############################################################################ + # 6.5 Iterator Protocol + ############################################################################ + int PyIter_Check(object o) + # Return true if the object o supports the iterator protocol. + + object PyIter_Next(object o) + # Return value: New reference. + # Return the next value from the iteration o. If the object is an + # iterator, this retrieves the next value from the iteration, and + # returns NULL with no exception set if there are no remaining + # items. If the object is not an iterator, TypeError is raised, or + # if there is an error in retrieving the item, returns NULL and + # passes along the exception. + + # To write a loop which iterates over an iterator, the C code should look something like this: + # PyObject *iterator = PyObject_GetIter(obj); + # PyObject *item; + # if (iterator == NULL) { + # /* propagate error */ + # } + # while (item = PyIter_Next(iterator)) { + # /* do something with item */ + # ... + # /* release reference when done */ + # Py_DECREF(item); + # } + # Py_DECREF(iterator); + # if (PyErr_Occurred()) { + # /* propagate error */ + # } + # else { + # /* continue doing useful work */ + # } diff --git a/Includes/python_list.pxi b/Includes/python_list.pxi new file mode 100644 index 00000000..8947dd81 --- /dev/null +++ b/Includes/python_list.pxi @@ -0,0 +1,87 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # Lists + ############################################################################ + object PyList_New(Py_ssize_t len) + # Return a new list of length len on success, or NULL on + # failure. Note: If length is greater than zero, the returned list + # object's items are set to NULL. Thus you cannot use abstract API + # functions such as PySequence_SetItem() or expose the object to + # Python code before setting all items to a real object with + # PyList_SetItem(). + + bint PyList_Check(object p) + # Return true if p is a list object or an instance of a subtype of the list type. + + bint PyList_CheckExact(object p) + # Return true if p is a list object, but not an instance of a subtype of the list type. + + Py_ssize_t PyList_Size(object list) + # Return the length of the list object in list; this is equivalent to "len(list)" on a list object. + + Py_ssize_t PyList_GET_SIZE(object list) + # Macro form of PyList_Size() without error checking. + + PyObject* PyList_GetItem(object list, Py_ssize_t index) + # Return value: Borrowed reference. + # Return the object at position pos in the list pointed to by + # p. The position must be positive, indexing from the end of the + # list is not supported. If pos is out of bounds, return NULL and + # set an IndexError exception. + + PyObject* PyList_GET_ITEM(object list, Py_ssize_t i) + # Return value: Borrowed reference. + # Macro form of PyList_GetItem() without error checking. + + int PyList_SetItem(object list, Py_ssize_t index, object item) + # Set the item at index index in list to item. Return 0 on success + # or -1 on failure. Note: This function ``steals'' a reference to + # item and discards a reference to an item already in the list at + # the affected position. + + void PyList_SET_ITEM(object list, Py_ssize_t i, object o) + # Macro form of PyList_SetItem() without error checking. This is + # normally only used to fill in new lists where there is no + # previous content. Note: This function ``steals'' a reference to + # item, and, unlike PyList_SetItem(), does not discard a reference + # to any item that it being replaced; any reference in list at + # position i will be *leaked*. + + int PyList_Insert(object list, Py_ssize_t index, object item) + # Insert the item item into list list in front of index + # index. Return 0 if successful; return -1 and set an exception if + # unsuccessful. Analogous to list.insert(index, item). + + int PyList_Append(object list, object item) + # Append the object item at the end of list list. Return 0 if + # successful; return -1 and set an exception if + # unsuccessful. Analogous to list.append(item). + + object PyList_GetSlice(object list, Py_ssize_t low, Py_ssize_t high) + # Return value: New reference. + # Return a list of the objects in list containing the objects + # between low and high. Return NULL and set an exception if + # unsuccessful. Analogous to list[low:high]. + + int PyList_SetSlice(object list, Py_ssize_t low, Py_ssize_t high, object itemlist) + # Set the slice of list between low and high to the contents of + # itemlist. Analogous to list[low:high] = itemlist. The itemlist + # may be NULL, indicating the assignment of an empty list (slice + # deletion). Return 0 on success, -1 on failure. + + int PyList_Sort(object list) + # Sort the items of list in place. Return 0 on success, -1 on + # failure. This is equivalent to "list.sort()". + + int PyList_Reverse(object list) + # Reverse the items of list in place. Return 0 on success, -1 on + # failure. This is the equivalent of "list.reverse()". + + object PyList_AsTuple(object list) + # Return value: New reference. + # Return a new tuple object containing the contents of list; + # equivalent to "tuple(list)". + + diff --git a/Includes/python_long.pxi b/Includes/python_long.pxi new file mode 100644 index 00000000..dab72c70 --- /dev/null +++ b/Includes/python_long.pxi @@ -0,0 +1,112 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef long PY_LONG_LONG + + ############################################################################ + # 7.2.3 Long Integer Objects + ############################################################################ + # PyLongObject + # This subtype of PyObject represents a Python long integer object. + # PyTypeObject PyLong_Type + # This instance of PyTypeObject represents the Python long integer + # type. This is the same object as long and types.LongType. + + bint PyLong_Check(object p) + # Return true if its argument is a PyLongObject or a subtype of PyLongObject. + + bint PyLong_CheckExact(object p) + # Return true if its argument is a PyLongObject, but not a subtype of PyLongObject. + + object PyLong_FromLong(long v) + # Return value: New reference. + # Return a new PyLongObject object from v, or NULL on failure. + + object PyLong_FromUnsignedLong(unsigned long v) + # Return value: New reference. + # Return a new PyLongObject object from a C unsigned long, or NULL on failure. + + object PyLong_FromLongLong(PY_LONG_LONG v) + # Return value: New reference. + # Return a new PyLongObject object from a C long long, or NULL on failure. + + object PyLong_FromUnsignedLongLong(PY_LONG_LONG v) + #PyObject* PyLong_FromUnsignedLongLong(unsigned PY_LONG_LONG v) + # Return value: New reference. + # Return a new PyLongObject object from a C unsigned long long, or NULL on failure. + + object PyLong_FromDouble(double v) + # Return value: New reference. + # Return a new PyLongObject object from the integer part of v, or NULL on failure. + + object PyLong_FromString(char *str, char **pend, int base) + # Return value: New reference. + # Return a new PyLongObject based on the string value in str, + # which is interpreted according to the radix in base. If pend is + # non-NULL, *pend will point to the first character in str which + # follows the representation of the number. If base is 0, the + # radix will be determined based on the leading characters of str: + # if str starts with '0x' or '0X', radix 16 will be used; if str + # starts with '0', radix 8 will be used; otherwise radix 10 will + # be used. If base is not 0, it must be between 2 and 36, + # inclusive. Leading spaces are ignored. If there are no digits, + # ValueError will be raised. + + + # object PyLong_FromUnicode(Py_UNICODE *u, Py_ssize_t length, int base) + # Return value: New reference. + # Convert a sequence of Unicode digits to a Python long integer + # value. The first parameter, u, points to the first character of + # the Unicode string, length gives the number of characters, and + # base is the radix for the conversion. The radix must be in the + # range [2, 36]; if it is out of range, ValueError will be + # raised. + + object PyLong_FromVoidPtr(void *p) + # Return value: New reference. + # Create a Python integer or long integer from the pointer p. The + # pointer value can be retrieved from the resulting value using + # PyLong_AsVoidPtr(). If the integer is larger than LONG_MAX, a + # positive long integer is returned. + + long PyLong_AsLong(object pylong) + # Return a C long representation of the contents of pylong. If + # pylong is greater than LONG_MAX, an OverflowError is raised. + + unsigned long PyLong_AsUnsignedLong(object pylong) + # Return a C unsigned long representation of the contents of + # pylong. If pylong is greater than ULONG_MAX, an OverflowError is + # raised. + + PY_LONG_LONG PyLong_AsLongLong(object pylong) + # Return a C long long from a Python long integer. If pylong + # cannot be represented as a long long, an OverflowError will be + # raised. + + PY_LONG_LONG PyLong_AsUnsignedLongLong(object pylong) + #unsigned PY_LONG_LONG PyLong_AsUnsignedLongLong(object pylong) + # Return a C unsigned long long from a Python long integer. If + # pylong cannot be represented as an unsigned long long, an + # OverflowError will be raised if the value is positive, or a + # TypeError will be raised if the value is negative. + + unsigned long PyLong_AsUnsignedLongMask(object io) + # Return a C unsigned long from a Python long integer, without + # checking for overflow. + + PY_LONG_LONG PyLong_AsUnsignedLongLongMask(object io) + #unsigned PY_LONG_LONG PyLong_AsUnsignedLongLongMask(object io) + # Return a C unsigned long long from a Python long integer, + # without checking for overflow. + + + double PyLong_AsDouble(object pylong) + # Return a C double representation of the contents of pylong. If + # pylong cannot be approximately represented as a double, an + # OverflowError exception is raised and -1.0 will be returned. + + void* PyLong_AsVoidPtr(object pylong) + # Convert a Python integer or long integer pylong to a C void + # pointer. If pylong cannot be converted, an OverflowError will be + # raised. This is only assured to produce a usable void pointer + # for values created with PyLong_FromVoidPtr(). For values outside + # 0..LONG_MAX, both signed and unsigned integers are acccepted. diff --git a/Includes/python_mapping.pxi b/Includes/python_mapping.pxi new file mode 100644 index 00000000..d621e4a5 --- /dev/null +++ b/Includes/python_mapping.pxi @@ -0,0 +1,65 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # 6.4 Mapping Protocol + ############################################################################ + + bint PyMapping_Check(object o) + # Return 1 if the object provides mapping protocol, and 0 + # otherwise. This function always succeeds. + + Py_ssize_t PyMapping_Length(object o) + # Returns the number of keys in object o on success, and -1 on + # failure. For objects that do not provide mapping protocol, this + # is equivalent to the Python expression "len(o)". + + int PyMapping_DelItemString(object o, char *key) + # Remove the mapping for object key from the object o. Return -1 + # on failure. This is equivalent to the Python statement "del + # o[key]". + + int PyMapping_DelItem(object o, object key) + # Remove the mapping for object key from the object o. Return -1 + # on failure. This is equivalent to the Python statement "del + # o[key]". + + bint PyMapping_HasKeyString(object o, char *key) + # On success, return 1 if the mapping object has the key key and 0 + # otherwise. This is equivalent to the Python expression + # "o.has_key(key)". This function always succeeds. + + bint PyMapping_HasKey(object o, object key) + # Return 1 if the mapping object has the key key and 0 + # otherwise. This is equivalent to the Python expression + # "o.has_key(key)". This function always succeeds. + + object PyMapping_Keys(object o) + # Return value: New reference. + # On success, return a list of the keys in object o. On failure, + # return NULL. This is equivalent to the Python expression + # "o.keys()". + + object PyMapping_Values(object o) + # Return value: New reference. + # On success, return a list of the values in object o. On failure, + # return NULL. This is equivalent to the Python expression + # "o.values()". + + object PyMapping_Items(object o) + # Return value: New reference. + # On success, return a list of the items in object o, where each + # item is a tuple containing a key-value pair. On failure, return + # NULL. This is equivalent to the Python expression "o.items()". + + object PyMapping_GetItemString(object o, char *key) + # Return value: New reference. + # Return element of o corresponding to the object key or NULL on + # failure. This is the equivalent of the Python expression + # "o[key]". + + int PyMapping_SetItemString(object o, char *key, object v) + # Map the object key to the value v in object o. Returns -1 on + # failure. This is the equivalent of the Python statement "o[key] + # = v". + diff --git a/Includes/python_mem.pxi b/Includes/python_mem.pxi new file mode 100644 index 00000000..02cf3972 --- /dev/null +++ b/Includes/python_mem.pxi @@ -0,0 +1,76 @@ +cdef extern from "Python.h": + ctypedef unsigned long size_t + + ##################################################################### + # 9.2 Memory Interface + ##################################################################### + # You are definitely *supposed* to use these: "In most situations, + # however, it is recommended to allocate memory from the Python + # heap specifically because the latter is under control of the + # Python memory manager. For example, this is required when the + # interpreter is extended with new object types written in + # C. Another reason for using the Python heap is the desire to + # inform the Python memory manager about the memory needs of the + # extension module. Even when the requested memory is used + # exclusively for internal, highly-specific purposes, delegating + # all memory requests to the Python memory manager causes the + # interpreter to have a more accurate image of its memory + # footprint as a whole. Consequently, under certain circumstances, + # the Python memory manager may or may not trigger appropriate + # actions, like garbage collection, memory compaction or other + # preventive procedures. Note that by using the C library + # allocator as shown in the previous example, the allocated memory + # for the I/O buffer escapes completely the Python memory + # manager." + + # The following function sets, modeled after the ANSI C standard, + # but specifying behavior when requesting zero bytes, are + # available for allocating and releasing memory from the Python + # heap: + + void* PyMem_Malloc(size_t n) + # Allocates n bytes and returns a pointer of type void* to the + # allocated memory, or NULL if the request fails. Requesting zero + # bytes returns a distinct non-NULL pointer if possible, as if + # PyMem_Malloc(1) had been called instead. The memory will not + # have been initialized in any way. + + void* PyMem_Realloc(void *p, size_t n) + # Resizes the memory block pointed to by p to n bytes. The + # contents will be unchanged to the minimum of the old and the new + # sizes. If p is NULL, the call is equivalent to PyMem_Malloc(n); + # else if n is equal to zero, the memory block is resized but is + # not freed, and the returned pointer is non-NULL. Unless p is + # NULL, it must have been returned by a previous call to + # PyMem_Malloc() or PyMem_Realloc(). + + void PyMem_Free(void *p) + # Frees the memory block pointed to by p, which must have been + # returned by a previous call to PyMem_Malloc() or + # PyMem_Realloc(). Otherwise, or if PyMem_Free(p) has been called + # before, undefined behavior occurs. If p is NULL, no operation is + # performed. + + # The following type-oriented macros are provided for + # convenience. Note that TYPE refers to any C type. + + # TYPE* PyMem_New(TYPE, size_t n) + # Same as PyMem_Malloc(), but allocates (n * sizeof(TYPE)) bytes + # of memory. Returns a pointer cast to TYPE*. The memory will not + # have been initialized in any way. + + # TYPE* PyMem_Resize(void *p, TYPE, size_t n) + # Same as PyMem_Realloc(), but the memory block is resized to (n * + # sizeof(TYPE)) bytes. Returns a pointer cast to TYPE*. + + void PyMem_Del(void *p) + # Same as PyMem_Free(). + + # In addition, the following macro sets are provided for calling + # the Python memory allocator directly, without involving the C + # API functions listed above. However, note that their use does + # not preserve binary compatibility across Python versions and is + # therefore deprecated in extension modules. + + # PyMem_MALLOC(), PyMem_REALLOC(), PyMem_FREE(). + # PyMem_NEW(), PyMem_RESIZE(), PyMem_DEL(). diff --git a/Includes/python_method.pxi b/Includes/python_method.pxi new file mode 100644 index 00000000..7a5a7b20 --- /dev/null +++ b/Includes/python_method.pxi @@ -0,0 +1,48 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ############################################################################ + # 7.5.4 Method Objects + ############################################################################ + + # There are some useful functions that are useful for working with method objects. + # PyTypeObject PyMethod_Type + # This instance of PyTypeObject represents the Python method type. This is exposed to Python programs as types.MethodType. + + bint PyMethod_Check(object o) + # Return true if o is a method object (has type + # PyMethod_Type). The parameter must not be NULL. + + object PyMethod_New(object func, object self, object cls) + # Return value: New reference. + # Return a new method object, with func being any callable object; + # this is the function that will be called when the method is + # called. If this method should be bound to an instance, self + # should be the instance and class should be the class of self, + # otherwise self should be NULL and class should be the class + # which provides the unbound method.. + + PyObject* PyMethod_Class(object meth) + # Return value: Borrowed reference. + # Return the class object from which the method meth was created; + # if this was created from an instance, it will be the class of + # the instance. + + PyObject* PyMethod_GET_CLASS(object meth) + # Return value: Borrowed reference. + # Macro version of PyMethod_Class() which avoids error checking. + + PyObject* PyMethod_Function(object meth) + # Return value: Borrowed reference. + # Return the function object associated with the method meth. + + PyObject* PyMethod_GET_FUNCTION(object meth) + # Return value: Borrowed reference. + # Macro version of PyMethod_Function() which avoids error checking. + + PyObject* PyMethod_Self(object meth) + # Return value: Borrowed reference. + # Return the instance associated with the method meth if it is bound, otherwise return NULL. + + PyObject* PyMethod_GET_SELF(object meth) + # Return value: Borrowed reference. + # Macro version of PyMethod_Self() which avoids error checking. diff --git a/Includes/python_module.pxi b/Includes/python_module.pxi new file mode 100644 index 00000000..5758fbad --- /dev/null +++ b/Includes/python_module.pxi @@ -0,0 +1,172 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef struct _inittab + + ##################################################################### + # 5.3 Importing Modules + ##################################################################### + object PyImport_ImportModule(char *name) + # Return value: New reference. + # This is a simplified interface to PyImport_ImportModuleEx() + # below, leaving the globals and locals arguments set to + # NULL. When the name argument contains a dot (when it specifies a + # submodule of a package), the fromlist argument is set to the + # list ['*'] so that the return value is the named module rather + # than the top-level package containing it as would otherwise be + # the case. (Unfortunately, this has an additional side effect + # when name in fact specifies a subpackage instead of a submodule: + # the submodules specified in the package's __all__ variable are + # loaded.) Return a new reference to the imported module, or NULL + # with an exception set on failure. + + object PyImport_ImportModuleEx(char *name, object globals, object locals, object fromlist) + # Return value: New reference. + + # Import a module. This is best described by referring to the + # built-in Python function __import__(), as the standard + # __import__() function calls this function directly. + + # The return value is a new reference to the imported module or + # top-level package, or NULL with an exception set on failure + # (before Python 2.4, the module may still be created in this + # case). Like for __import__(), the return value when a submodule + # of a package was requested is normally the top-level package, + # unless a non-empty fromlist was given. Changed in version 2.4: + # failing imports remove incomplete module objects. + + object PyImport_Import(object name) + # Return value: New reference. + # This is a higher-level interface that calls the current ``import + # hook function''. It invokes the __import__() function from the + # __builtins__ of the current globals. This means that the import + # is done using whatever import hooks are installed in the current + # environment, e.g. by rexec or ihooks. + + object PyImport_ReloadModule(object m) + # Return value: New reference. + # Reload a module. This is best described by referring to the + # built-in Python function reload(), as the standard reload() + # function calls this function directly. Return a new reference to + # the reloaded module, or NULL with an exception set on failure + # (the module still exists in this case). + + PyObject* PyImport_AddModule(char *name) + # Return value: Borrowed reference. + # Return the module object corresponding to a module name. The + # name argument may be of the form package.module. First check the + # modules dictionary if there's one there, and if not, create a + # new one and insert it in the modules dictionary. Return NULL + # with an exception set on failure. Note: This function does not + # load or import the module; if the module wasn't already loaded, + # you will get an empty module object. Use PyImport_ImportModule() + # or one of its variants to import a module. Package structures + # implied by a dotted name for name are not created if not already + # present. + + object PyImport_ExecCodeModule(char *name, object co) + # Return value: New reference. + # Given a module name (possibly of the form package.module) and a + # code object read from a Python bytecode file or obtained from + # the built-in function compile(), load the module. Return a new + # reference to the module object, or NULL with an exception set if + # an error occurred. Name is removed from sys.modules in error + # cases, and even if name was already in sys.modules on entry to + # PyImport_ExecCodeModule(). Leaving incompletely initialized + # modules in sys.modules is dangerous, as imports of such modules + # have no way to know that the module object is an unknown (and + # probably damaged with respect to the module author's intents) + # state. + # This function will reload the module if it was already + # imported. See PyImport_ReloadModule() for the intended way to + # reload a module. + # If name points to a dotted name of the form package.module, any + # package structures not already created will still not be + # created. + + + long PyImport_GetMagicNumber() + # Return the magic number for Python bytecode files (a.k.a. .pyc + # and .pyo files). The magic number should be present in the first + # four bytes of the bytecode file, in little-endian byte order. + + PyObject* PyImport_GetModuleDict() + # Return value: Borrowed reference. + # Return the dictionary used for the module administration + # (a.k.a. sys.modules). Note that this is a per-interpreter + # variable. + + + int PyImport_ImportFrozenModule(char *name) + # Load a frozen module named name. Return 1 for success, 0 if the + # module is not found, and -1 with an exception set if the + # initialization failed. To access the imported module on a + # successful load, use PyImport_ImportModule(). (Note the misnomer + # -- this function would reload the module if it was already + # imported.) + + + int PyImport_ExtendInittab(_inittab *newtab) + # Add a collection of modules to the table of built-in + # modules. The newtab array must end with a sentinel entry which + # contains NULL for the name field; failure to provide the + # sentinel value can result in a memory fault. Returns 0 on + # success or -1 if insufficient memory could be allocated to + # extend the internal table. In the event of failure, no modules + # are added to the internal table. This should be called before + # Py_Initialize(). + + ##################################################################### + # 7.5.5 Module Objects + ##################################################################### + # PyTypeObject PyModule_Type + # This instance of PyTypeObject represents the Python module + # type. This is exposed to Python programs as types.ModuleType. + + bint PyModule_Check(object p) + # Return true if p is a module object, or a subtype of a module + # object. + + bint PyModule_CheckExact(object p) + # Return true if p is a module object, but not a subtype of PyModule_Type. + + object PyModule_New( char *name) + # Return value: New reference. + # Return a new module object with the __name__ attribute set to + # name. Only the module's __doc__ and __name__ attributes are + # filled in; the caller is responsible for providing a __file__ + # attribute. + + PyObject* PyModule_GetDict(object module) + # Return value: Borrowed reference. + # Return the dictionary object that implements module's namespace; + # this object is the same as the __dict__ attribute of the module + # object. This function never fails. It is recommended extensions + # use other PyModule_*() and PyObject_*() functions rather than + # directly manipulate a module's __dict__. + + char* PyModule_GetName(object module) + # Return module's __name__ value. If the module does not provide + # one, or if it is not a string, SystemError is raised and NULL is + # returned. + + char* PyModule_GetFilename(object module) + # Return the name of the file from which module was loaded using + # module's __file__ attribute. If this is not defined, or if it is + # not a string, raise SystemError and return NULL. + + int PyModule_AddObject(object module, char *name, object value) + # Add an object to module as name. This is a convenience function + # which can be used from the module's initialization + # function. This steals a reference to value. Return -1 on error, + # 0 on success. + + int PyModule_AddIntant(object module, char *name, long value) + # Add an integer ant to module as name. This convenience + # function can be used from the module's initialization + # function. Return -1 on error, 0 on success. + + int PyModule_AddStringant(object module, char *name, char *value) + # Add a string constant to module as name. This convenience + # function can be used from the module's initialization + # function. The string value must be null-terminated. Return -1 on + # error, 0 on success. diff --git a/Includes/python_number.pxi b/Includes/python_number.pxi new file mode 100644 index 00000000..2bdd96fb --- /dev/null +++ b/Includes/python_number.pxi @@ -0,0 +1,252 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef void PyTypeObject + ctypedef struct FILE + + + ##################################################################### + # 6.2 Number Protocol + ##################################################################### + + bint PyNumber_Check(object o) + # Returns 1 if the object o provides numeric protocols, and false + # otherwise. This function always succeeds. + + object PyNumber_Add(object o1, object o2) + # Return value: New reference. + # Returns the result of adding o1 and o2, or NULL on failure. This + # is the equivalent of the Python expression "o1 + o2". + + object PyNumber_Subtract(object o1, object o2) + # Return value: New reference. + # Returns the result of subtracting o2 from o1, or NULL on + # failure. This is the equivalent of the Python expression "o1 - + # o2". + + object PyNumber_Multiply(object o1, object o2) + # Return value: New reference. + # Returns the result of multiplying o1 and o2, or NULL on + # failure. This is the equivalent of the Python expression "o1 * + # o2". + + object PyNumber_Divide(object o1, object o2) + # Return value: New reference. + # Returns the result of dividing o1 by o2, or NULL on + # failure. This is the equivalent of the Python expression "o1 / + # o2". + + object PyNumber_FloorDivide(object o1, object o2) + # Return value: New reference. + # Return the floor of o1 divided by o2, or NULL on failure. This + # is equivalent to the ``classic'' division of integers. + + object PyNumber_TrueDivide(object o1, object o2) + # Return value: New reference. + # Return a reasonable approximation for the mathematical value of + # o1 divided by o2, or NULL on failure. The return value is + # ``approximate'' because binary floating point numbers are + # approximate; it is not possible to represent all real numbers in + # base two. This function can return a floating point value when + # passed two integers. + + object PyNumber_Remainder(object o1, object o2) + # Return value: New reference. + # Returns the remainder of dividing o1 by o2, or NULL on + # failure. This is the equivalent of the Python expression "o1 % + # o2". + + object PyNumber_Divmod(object o1, object o2) + # Return value: New reference. + # See the built-in function divmod(). Returns NULL on + # failure. This is the equivalent of the Python expression + # "divmod(o1, o2)". + + object PyNumber_Power(object o1, object o2, object o3) + # Return value: New reference. + # See the built-in function pow(). Returns NULL on failure. This + # is the equivalent of the Python expression "pow(o1, o2, o3)", + # where o3 is optional. If o3 is to be ignored, pass Py_None in + # its place (passing NULL for o3 would cause an illegal memory + # access). + + object PyNumber_Negative(object o) + # Return value: New reference. + # Returns the negation of o on success, or NULL on failure. This + # is the equivalent of the Python expression "-o". + + object PyNumber_Positive(object o) + # Return value: New reference. + # Returns o on success, or NULL on failure. This is the equivalent + # of the Python expression "+o". + + object PyNumber_Absolute(object o) + # Return value: New reference. + # Returns the absolute value of o, or NULL on failure. This is the + # equivalent of the Python expression "abs(o)". + + object PyNumber_Invert(object o) + # Return value: New reference. + # Returns the bitwise negation of o on success, or NULL on + # failure. This is the equivalent of the Python expression "~o". + + object PyNumber_Lshift(object o1, object o2) + # Return value: New reference. + # Returns the result of left shifting o1 by o2 on success, or NULL + # on failure. This is the equivalent of the Python expression "o1 + # << o2". + + object PyNumber_Rshift(object o1, object o2) + # Return value: New reference. + # Returns the result of right shifting o1 by o2 on success, or + # NULL on failure. This is the equivalent of the Python expression + # "o1 >> o2". + + object PyNumber_And(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise and'' of o1 and o2 on success and NULL on + # failure. This is the equivalent of the Python expression "o1 & + # o2". + + object PyNumber_Xor(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise exclusive or'' of o1 by o2 on success, or + # NULL on failure. This is the equivalent of the Python expression + # "o1 ^ o2". + + object PyNumber_Or(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise or'' of o1 and o2 on success, or NULL on failure. This is the equivalent of the Python expression "o1 | o2". + + object PyNumber_InPlaceAdd(object o1, object o2) + # Return value: New reference. + # Returns the result of adding o1 and o2, or NULL on failure. The + # operation is done in-place when o1 supports it. This is the + # equivalent of the Python statement "o1 += o2". + + object PyNumber_InPlaceSubtract(object o1, object o2) + # Return value: New reference. + # Returns the result of subtracting o2 from o1, or NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 -= o2". + + object PyNumber_InPlaceMultiply(object o1, object o2) + # Return value: New reference. + # Returns the result of multiplying o1 and o2, or NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 *= o2". + + object PyNumber_InPlaceDivide(object o1, object o2) + # Return value: New reference. + # Returns the result of dividing o1 by o2, or NULL on failure. The + # operation is done in-place when o1 supports it. This is the + # equivalent of the Python statement "o1 /= o2". + + object PyNumber_InPlaceFloorDivide(object o1, object o2) + # Return value: New reference. + # Returns the mathematical floor of dividing o1 by o2, or NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 //= + # o2". + + object PyNumber_InPlaceTrueDivide(object o1, object o2) + # Return value: New reference. + # Return a reasonable approximation for the mathematical value of + # o1 divided by o2, or NULL on failure. The return value is + # ``approximate'' because binary floating point numbers are + # approximate; it is not possible to represent all real numbers in + # base two. This function can return a floating point value when + # passed two integers. The operation is done in-place when o1 + # supports it. + + object PyNumber_InPlaceRemainder(object o1, object o2) + # Return value: New reference. + # Returns the remainder of dividing o1 by o2, or NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 %= o2". + + object PyNumber_InPlacePower(object o1, object o2, object o3) + # Return value: New reference. + # See the built-in function pow(). Returns NULL on failure. The + # operation is done in-place when o1 supports it. This is the + # equivalent of the Python statement "o1 **= o2" when o3 is + # Py_None, or an in-place variant of "pow(o1, o2, o3)" + # otherwise. If o3 is to be ignored, pass Py_None in its place + # (passing NULL for o3 would cause an illegal memory access). + + object PyNumber_InPlaceLshift(object o1, object o2) + # Return value: New reference. + # Returns the result of left shifting o1 by o2 on success, or NULL + # on failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 <<= o2". + + object PyNumber_InPlaceRshift(object o1, object o2) + # Return value: New reference. + # Returns the result of right shifting o1 by o2 on success, or + # NULL on failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 >>= o2". + + object PyNumber_InPlaceAnd(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise and'' of o1 and o2 on success and NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 &= o2". + + object PyNumber_InPlaceXor(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise exclusive or'' of o1 by o2 on success, or + # NULL on failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 ^= o2". + + object PyNumber_InPlaceOr(object o1, object o2) + # Return value: New reference. + # Returns the ``bitwise or'' of o1 and o2 on success, or NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python statement "o1 |= o2". + + int PyNumber_Coerce(PyObject **p1, PyObject **p2) + # This function takes the addresses of two variables of type + # PyObject*. If the objects pointed to by *p1 and *p2 have the + # same type, increment their reference count and return 0 + # (success). If the objects can be converted to a common numeric + # type, replace *p1 and *p2 by their converted value (with 'new' + # reference counts), and return 0. If no conversion is possible, + # or if some other error occurs, return -1 (failure) and don't + # increment the reference counts. The call PyNumber_Coerce(&o1, + # &o2) is equivalent to the Python statement "o1, o2 = coerce(o1, + # o2)". + + object PyNumber_Int(object o) + # Return value: New reference. + # Returns the o converted to an integer object on success, or NULL + # on failure. If the argument is outside the integer range a long + # object will be returned instead. This is the equivalent of the + # Python expression "int(o)". + + object PyNumber_Long(object o) + # Return value: New reference. + # Returns the o converted to a long integer object on success, or + # NULL on failure. This is the equivalent of the Python expression + # "long(o)". + + object PyNumber_Float(object o) + # Return value: New reference. + # Returns the o converted to a float object on success, or NULL on + # failure. This is the equivalent of the Python expression + # "float(o)". + + object PyNumber_Index(object o) + # Returns the o converted to a Python int or long on success or + # NULL with a TypeError exception raised on failure. + + Py_ssize_t PyNumber_AsSsize_t(object o, object exc) + # Returns o converted to a Py_ssize_t value if o can be + # interpreted as an integer. If o can be converted to a Python int + # or long but the attempt to convert to a Py_ssize_t value would + # raise an OverflowError, then the exc argument is the type of + # exception that will be raised (usually IndexError or + # OverflowError). If exc is NULL, then the exception is cleared + # and the value is clipped to PY_SSIZE_T_MIN for a negative + # integer or PY_SSIZE_T_MAX for a positive integer. + + bint PyIndex_Check(object o) + # Returns True if o is an index integer (has the nb_index slot of the tp_as_number structure filled in). diff --git a/Includes/python_object.pxi b/Includes/python_object.pxi new file mode 100644 index 00000000..fff3653f --- /dev/null +++ b/Includes/python_object.pxi @@ -0,0 +1,284 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef void PyTypeObject + ctypedef struct FILE + + ##################################################################### + # 6.1 Object Protocol + ##################################################################### + int PyObject_Print(object o, FILE *fp, int flags) + # Print an object o, on file fp. Returns -1 on error. The flags + # argument is used to enable certain printing options. The only + # option currently supported is Py_PRINT_RAW; if given, the str() + # of the object is written instead of the repr(). + + bint PyObject_HasAttrString(object o, char *attr_name) + # Returns 1 if o has the attribute attr_name, and 0 + # otherwise. This is equivalent to the Python expression + # "hasattr(o, attr_name)". This function always succeeds. + + object PyObject_GetAttrString(object o, char *attr_name) + # Return value: New reference. Retrieve an attribute named + # attr_name from object o. Returns the attribute value on success, + # or NULL on failure. This is the equivalent of the Python + # expression "o.attr_name". + + bint PyObject_HasAttr(object o, object attr_name) + # Returns 1 if o has the attribute attr_name, and 0 + # otherwise. This is equivalent to the Python expression + # "hasattr(o, attr_name)". This function always succeeds. + + object PyObject_GetAttr(object o, object attr_name) + # Return value: New reference. Retrieve an attribute named + # attr_name from object o. Returns the attribute value on success, + # or NULL on failure. This is the equivalent of the Python + # expression "o.attr_name". + + int PyObject_SetAttrString(object o, char *attr_name, object v) + # Set the value of the attribute named attr_name, for object o, to + # the value v. Returns -1 on failure. This is the equivalent of + # the Python statement "o.attr_name = v". + + int PyObject_SetAttr(object o, object attr_name, object v) + # Set the value of the attribute named attr_name, for object o, to + # the value v. Returns -1 on failure. This is the equivalent of + # the Python statement "o.attr_name = v". + + int PyObject_DelAttrString(object o, char *attr_name) + # Delete attribute named attr_name, for object o. Returns -1 on + # failure. This is the equivalent of the Python statement: "del + # o.attr_name". + + int PyObject_DelAttr(object o, object attr_name) + # Delete attribute named attr_name, for object o. Returns -1 on + # failure. This is the equivalent of the Python statement "del + # o.attr_name". + + object PyObject_RichCompare(object o1, object o2, int opid) + # Return value: New reference. + # Compare the values of o1 and o2 using the operation specified by + # opid, which must be one of Py_LT, Py_LE, Py_EQ, Py_NE, Py_GT, or + # Py_GE, corresponding to <, <=, ==, !=, >, or >= + # respectively. This is the equivalent of the Python expression + # "o1 op o2", where op is the operator corresponding to + # opid. Returns the value of the comparison on success, or NULL on + # failure. + + int PyObject_RichCompareBool(object o1, object o2, int opid) + # Compare the values of o1 and o2 using the operation specified by + # opid, which must be one of Py_LT, Py_LE, Py_EQ, Py_NE, Py_GT, or + # Py_GE, corresponding to <, <=, ==, !=, >, or >= + # respectively. Returns -1 on error, 0 if the result is false, 1 + # otherwise. This is the equivalent of the Python expression "o1 + # op o2", where op is the operator corresponding to opid. + + int PyObject_Cmp(object o1, object o2, int *result) + # Compare the values of o1 and o2 using a routine provided by o1, + # if one exists, otherwise with a routine provided by o2. The + # result of the comparison is returned in result. Returns -1 on + # failure. This is the equivalent of the Python statement "result + # = cmp(o1, o2)". + + int PyObject_Compare(object o1, object o2) + # Compare the values of o1 and o2 using a routine provided by o1, + # if one exists, otherwise with a routine provided by o2. Returns + # the result of the comparison on success. On error, the value + # returned is undefined; use PyErr_Occurred() to detect an + # error. This is equivalent to the Python expression "cmp(o1, + # o2)". + + object PyObject_Repr(object o) + # Return value: New reference. + # Compute a string representation of object o. Returns the string + # representation on success, NULL on failure. This is the + # equivalent of the Python expression "repr(o)". Called by the + # repr() built-in function and by reverse quotes. + + object PyObject_Str(object o) + # Return value: New reference. + # Compute a string representation of object o. Returns the string + # representation on success, NULL on failure. This is the + # equivalent of the Python expression "str(o)". Called by the + # str() built-in function and by the print statement. + + object PyObject_Unicode(object o) + # Return value: New reference. + # Compute a Unicode string representation of object o. Returns the + # Unicode string representation on success, NULL on failure. This + # is the equivalent of the Python expression "unicode(o)". Called + # by the unicode() built-in function. + + bint PyObject_IsInstance(object inst, object cls) + # Returns 1 if inst is an instance of the class cls or a subclass + # of cls, or 0 if not. On error, returns -1 and sets an + # exception. If cls is a type object rather than a class object, + # PyObject_IsInstance() returns 1 if inst is of type cls. If cls + # is a tuple, the check will be done against every entry in + # cls. The result will be 1 when at least one of the checks + # returns 1, otherwise it will be 0. If inst is not a class + # instance and cls is neither a type object, nor a class object, + # nor a tuple, inst must have a __class__ attribute -- the class + # relationship of the value of that attribute with cls will be + # used to determine the result of this function. + + # Subclass determination is done in a fairly straightforward way, + # but includes a wrinkle that implementors of extensions to the + # class system may want to be aware of. If A and B are class + # objects, B is a subclass of A if it inherits from A either + # directly or indirectly. If either is not a class object, a more + # general mechanism is used to determine the class relationship of + # the two objects. When testing if B is a subclass of A, if A is + # B, PyObject_IsSubclass() returns true. If A and B are different + # objects, B's __bases__ attribute is searched in a depth-first + # fashion for A -- the presence of the __bases__ attribute is + # considered sufficient for this determination. + + bint PyObject_IsSubclass(object derived, object cls) + # Returns 1 if the class derived is identical to or derived from + # the class cls, otherwise returns 0. In case of an error, returns + # -1. If cls is a tuple, the check will be done against every + # entry in cls. The result will be 1 when at least one of the + # checks returns 1, otherwise it will be 0. If either derived or + # cls is not an actual class object (or tuple), this function uses + # the generic algorithm described above. New in version + # 2.1. Changed in version 2.3: Older versions of Python did not + # support a tuple as the second argument. + + bint PyCallable_Check(object o) + # Determine if the object o is callable. Return 1 if the object is + # callable and 0 otherwise. This function always succeeds. + + object PyObject_Call(object callable_object, object args, object kw) + # Return value: New reference. + # Call a callable Python object callable_object, with arguments + # given by the tuple args, and named arguments given by the + # dictionary kw. If no named arguments are needed, kw may be + # NULL. args must not be NULL, use an empty tuple if no arguments + # are needed. Returns the result of the call on success, or NULL + # on failure. This is the equivalent of the Python expression + # "apply(callable_object, args, kw)" or "callable_object(*args, + # **kw)". + + object PyObject_CallObject(object callable_object, object args) + # Return value: New reference. + # Call a callable Python object callable_object, with arguments + # given by the tuple args. If no arguments are needed, then args + # may be NULL. Returns the result of the call on success, or NULL + # on failure. This is the equivalent of the Python expression + # "apply(callable_object, args)" or "callable_object(*args)". + + object PyObject_CallFunction(object callable, char *format, ...) + # Return value: New reference. + # Call a callable Python object callable, with a variable number + # of C arguments. The C arguments are described using a + # Py_BuildValue() style format string. The format may be NULL, + # indicating that no arguments are provided. Returns the result of + # the call on success, or NULL on failure. This is the equivalent + # of the Python expression "apply(callable, args)" or + # "callable(*args)". Note that if you only pass object args, + # PyObject_CallFunctionObjArgs is a faster alternative. + + object PyObject_CallMethod(object o, char *method, char *format, ...) + # Return value: New reference. + # Call the method named method of object o with a variable number + # of C arguments. The C arguments are described by a + # Py_BuildValue() format string that should produce a tuple. The + # format may be NULL, indicating that no arguments are + # provided. Returns the result of the call on success, or NULL on + # failure. This is the equivalent of the Python expression + # "o.method(args)". Note that if you only pass object args, + # PyObject_CallMethodObjArgs is a faster alternative. + + #object PyObject_CallFunctionObjArgs(object callable, ..., NULL) + object PyObject_CallFunctionObjArgs(object callable, ...) + # Return value: New reference. + # Call a callable Python object callable, with a variable number + # of PyObject* arguments. The arguments are provided as a variable + # number of parameters followed by NULL. Returns the result of the + # call on success, or NULL on failure. + + #PyObject* PyObject_CallMethodObjArgs(object o, object name, ..., NULL) + object PyObject_CallMethodObjArgs(object o, object name, ...) + # Return value: New reference. + # Calls a method of the object o, where the name of the method is + # given as a Python string object in name. It is called with a + # variable number of PyObject* arguments. The arguments are + # provided as a variable number of parameters followed by + # NULL. Returns the result of the call on success, or NULL on + # failure. + + long PyObject_Hash(object o) + # Compute and return the hash value of an object o. On failure, + # return -1. This is the equivalent of the Python expression + # "hash(o)". + + bint PyObject_IsTrue(object o) + # Returns 1 if the object o is considered to be true, and 0 + # otherwise. This is equivalent to the Python expression "not not + # o". On failure, return -1. + + bint PyObject_Not(object o) + # Returns 0 if the object o is considered to be true, and 1 + # otherwise. This is equivalent to the Python expression "not + # o". On failure, return -1. + + object PyObject_Type(object o) + # Return value: New reference. + # When o is non-NULL, returns a type object corresponding to the + # object type of object o. On failure, raises SystemError and + # returns NULL. This is equivalent to the Python expression + # type(o). This function increments the reference count of the + # return value. There's really no reason to use this function + # instead of the common expression o->ob_type, which returns a + # pointer of type PyTypeObject*, except when the incremented + # reference count is needed. + + bint PyObject_TypeCheck(object o, object type) # object o, PyTypeObject *type) + # Return true if the object o is of type type or a subtype of + # type. Both parameters must be non-NULL. + + Py_ssize_t PyObject_Length(object o) + Py_ssize_t PyObject_Size(object o) + # Return the length of object o. If the object o provides either + # the sequence and mapping protocols, the sequence length is + # returned. On error, -1 is returned. This is the equivalent to + # the Python expression "len(o)". + + object PyObject_GetItem(object o, object key) + # Return value: New reference. + # Return element of o corresponding to the object key or NULL on + # failure. This is the equivalent of the Python expression + # "o[key]". + + int PyObject_SetItem(object o, object key, object v) + # Map the object key to the value v. Returns -1 on failure. This + # is the equivalent of the Python statement "o[key] = v". + + int PyObject_DelItem(object o, object key) + # Delete the mapping for key from o. Returns -1 on failure. This + # is the equivalent of the Python statement "del o[key]". + + int PyObject_AsFileDescriptor(object o) + # Derives a file-descriptor from a Python object. If the object is + # an integer or long integer, its value is returned. If not, the + # object's fileno() method is called if it exists; the method must + # return an integer or long integer, which is returned as the file + # descriptor value. Returns -1 on failure. + + object PyObject_Dir(object o) + # Return value: New reference. + # This is equivalent to the Python expression "dir(o)", returning + # a (possibly empty) list of strings appropriate for the object + # argument, or NULL if there was an error. If the argument is + # NULL, this is like the Python "dir()", returning the names of + # the current locals; in this case, if no execution frame is + # active then NULL is returned but PyErr_Occurred() will return + # false. + + object PyObject_GetIter(object o) + # Return value: New reference. + # This is equivalent to the Python expression "iter(o)". It + # returns a new iterator for the object argument, or the object + # itself if the object is already an iterator. Raises TypeError + # and returns NULL if the object cannot be iterated. + diff --git a/Includes/python_parse.pxi b/Includes/python_parse.pxi new file mode 100644 index 00000000..3c676ab0 --- /dev/null +++ b/Includes/python_parse.pxi @@ -0,0 +1,13 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ##################################################################### + # 5.5 Parsing arguments and building values + ##################################################################### + ctypedef struct va_list + int PyArg_ParseTuple(PyObject *args, char *format, ...) + int PyArg_VaParse(PyObject *args, char *format, va_list vargs) + int PyArg_ParseTupleAndKeywords(PyObject *args, PyObject *kw, char *format, char *keywords[], ...) + int PyArg_VaParseTupleAndKeywords(PyObject *args, PyObject *kw, char *format, char *keywords[], va_list vargs) + int PyArg_Parse(PyObject *args, char *format, ...) + int PyArg_UnpackTuple(PyObject *args, char *name, Py_ssize_t min, Py_ssize_t max, ...) + diff --git a/Includes/python_ref.pxi b/Includes/python_ref.pxi new file mode 100644 index 00000000..a0ec12bc --- /dev/null +++ b/Includes/python_ref.pxi @@ -0,0 +1,54 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef void PyTypeObject + ctypedef struct FILE + + + ##################################################################### + # 3. Reference Counts + ##################################################################### + # The macros in this section are used for managing reference counts of Python objects. + void Py_INCREF(object o) + # Increment the reference count for object o. The object must not + # be NULL; if you aren't sure that it isn't NULL, use + # Py_XINCREF(). + + void Py_XINCREF(object o) + # Increment the reference count for object o. The object may be NULL, in which case the macro has no effect. + + void Py_DECREF(object o) + # Decrement the reference count for object o. The object must not + # be NULL; if you aren't sure that it isn't NULL, use + # Py_XDECREF(). If the reference count reaches zero, the object's + # type's deallocation function (which must not be NULL) is + # invoked. + + # Warning: The deallocation function can cause arbitrary Python + # code to be invoked (e.g. when a class instance with a __del__() + # method is deallocated). While exceptions in such code are not + # propagated, the executed code has free access to all Python + # global variables. This means that any object that is reachable + # from a global variable should be in a consistent state before + # Py_DECREF() is invoked. For example, code to delete an object + # from a list should copy a reference to the deleted object in a + # temporary variable, update the list data structure, and then + # call Py_DECREF() for the temporary variable. + + void Py_XDECREF(object o) + # Decrement the reference count for object o. The object may be + # NULL, in which case the macro has no effect; otherwise the + # effect is the same as for Py_DECREF(), and the same warning + # applies. + + void Py_CLEAR(object o) + # Decrement the reference count for object o. The object may be + # NULL, in which case the macro has no effect; otherwise the + # effect is the same as for Py_DECREF(), except that the argument + # is also set to NULL. The warning for Py_DECREF() does not apply + # with respect to the object passed because the macro carefully + # uses a temporary variable and sets the argument to NULL before + # decrementing its reference count. + # It is a good idea to use this macro whenever decrementing the + # value of a variable that might be traversed during garbage + # collection. + diff --git a/Includes/python_sequence.pxi b/Includes/python_sequence.pxi new file mode 100644 index 00000000..e37b3d6f --- /dev/null +++ b/Includes/python_sequence.pxi @@ -0,0 +1,136 @@ + ############################################################################ + # 6.3 Sequence Protocol + ############################################################################ + +cdef extern from "Python.h": + ctypedef void PyObject + + + bint PySequence_Check(object o) + # Return 1 if the object provides sequence protocol, and 0 + # otherwise. This function always succeeds. + + Py_ssize_t PySequence_Size(object o) + # Returns the number of objects in sequence o on success, and -1 + # on failure. For objects that do not provide sequence protocol, + # this is equivalent to the Python expression "len(o)". + + Py_ssize_t PySequence_Length(object o) + # Alternate name for PySequence_Size(). + + object PySequence_Concat(object o1, object o2) + # Return value: New reference. + # Return the concatenation of o1 and o2 on success, and NULL on + # failure. This is the equivalent of the Python expression "o1 + + # o2". + + object PySequence_Repeat(object o, Py_ssize_t count) + # Return value: New reference. + # Return the result of repeating sequence object o count times, or + # NULL on failure. This is the equivalent of the Python expression + # "o * count". + + object PySequence_InPlaceConcat(object o1, object o2) + # Return value: New reference. + # Return the concatenation of o1 and o2 on success, and NULL on + # failure. The operation is done in-place when o1 supports + # it. This is the equivalent of the Python expression "o1 += o2". + + object PySequence_InPlaceRepeat(object o, Py_ssize_t count) + # Return value: New reference. + # Return the result of repeating sequence object o count times, or + # NULL on failure. The operation is done in-place when o supports + # it. This is the equivalent of the Python expression "o *= + # count". + + object PySequence_GetItem(object o, Py_ssize_t i) + # Return value: New reference. + # Return the ith element of o, or NULL on failure. This is the + # equivalent of the Python expression "o[i]". + + object PySequence_GetSlice(object o, Py_ssize_t i1, Py_ssize_t i2) + # Return value: New reference. + # Return the slice of sequence object o between i1 and i2, or NULL + # on failure. This is the equivalent of the Python expression + # "o[i1:i2]". + + int PySequence_SetItem(object o, Py_ssize_t i, object v) + # Assign object v to the ith element of o. Returns -1 on + # failure. This is the equivalent of the Python statement "o[i] = + # v". This function does not steal a reference to v. + + int PySequence_DelItem(object o, Py_ssize_t i) + # Delete the ith element of object o. Returns -1 on failure. This + # is the equivalent of the Python statement "del o[i]". + + int PySequence_SetSlice(object o, Py_ssize_t i1, Py_ssize_t i2, object v) + # Assign the sequence object v to the slice in sequence object o + # from i1 to i2. This is the equivalent of the Python statement + # "o[i1:i2] = v". + + int PySequence_DelSlice(object o, Py_ssize_t i1, Py_ssize_t i2) + # Delete the slice in sequence object o from i1 to i2. Returns -1 + # on failure. This is the equivalent of the Python statement "del + # o[i1:i2]". + + int PySequence_Count(object o, object value) + # Return the number of occurrences of value in o, that is, return + # the number of keys for which o[key] == value. On failure, return + # -1. This is equivalent to the Python expression + # "o.count(value)". + + int PySequence_Contains(object o, object value) + # Determine if o contains value. If an item in o is equal to + # value, return 1, otherwise return 0. On error, return -1. This + # is equivalent to the Python expression "value in o". + + int PySequence_Index(object o, object value) + # Return the first index i for which o[i] == value. On error, + # return -1. This is equivalent to the Python expression + # "o.index(value)". + + object PySequence_List(object o) + # Return value: New reference. + # Return a list object with the same contents as the arbitrary + # sequence o. The returned list is guaranteed to be new. + + object PySequence_Tuple(object o) + # Return value: New reference. + # Return a tuple object with the same contents as the arbitrary + # sequence o or NULL on failure. If o is a tuple, a new reference + # will be returned, otherwise a tuple will be constructed with the + # appropriate contents. This is equivalent to the Python + # expression "tuple(o)". + + object PySequence_Fast(object o, char *m) + # Return value: New reference. + # Returns the sequence o as a tuple, unless it is already a tuple + # or list, in which case o is returned. Use + # PySequence_Fast_GET_ITEM() to access the members of the + # result. Returns NULL on failure. If the object is not a + # sequence, raises TypeError with m as the message text. + + PyObject* PySequence_Fast_GET_ITEM(object o, Py_ssize_t i) + # Return value: Borrowed reference. + # Return the ith element of o, assuming that o was returned by + # PySequence_Fast(), o is not NULL, and that i is within bounds. + + PyObject** PySequence_Fast_ITEMS(object o) + # Return the underlying array of PyObject pointers. Assumes that o + # was returned by PySequence_Fast() and o is not NULL. + + object PySequence_ITEM(object o, Py_ssize_t i) + # Return value: New reference. + # Return the ith element of o or NULL on failure. Macro form of + # PySequence_GetItem() but without checking that + # PySequence_Check(o) is true and without adjustment for negative + # indices. + + int PySequence_Fast_GET_SIZE(object o) + # Returns the length of o, assuming that o was returned by + # PySequence_Fast() and that o is not NULL. The size can also be + # gotten by calling PySequence_Size() on o, but + # PySequence_Fast_GET_SIZE() is faster because it can assume o is + # a list or tuple. + + diff --git a/Includes/python_set.pxi b/Includes/python_set.pxi new file mode 100644 index 00000000..4d494820 --- /dev/null +++ b/Includes/python_set.pxi @@ -0,0 +1,112 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # 7.5.14 Set Objects + ############################################################################ + + # This section details the public API for set and frozenset + # objects. Any functionality not listed below is best accessed + # using the either the abstract object protocol (including + # PyObject_CallMethod(), PyObject_RichCompareBool(), + # PyObject_Hash(), PyObject_Repr(), PyObject_IsTrue(), + # PyObject_Print(), and PyObject_GetIter()) or the abstract number + # protocol (including PyNumber_Add(), PyNumber_Subtract(), + # PyNumber_Or(), PyNumber_Xor(), PyNumber_InPlaceAdd(), + # PyNumber_InPlaceSubtract(), PyNumber_InPlaceOr(), and + # PyNumber_InPlaceXor()). + + # PySetObject + # This subtype of PyObject is used to hold the internal data for + # both set and frozenset objects. It is like a PyDictObject in + # that it is a fixed size for small sets (much like tuple storage) + # and will point to a separate, variable sized block of memory for + # medium and large sized sets (much like list storage). None of + # the fields of this structure should be considered public and are + # subject to change. All access should be done through the + # documented API rather than by manipulating the values in the + # structure. + + # PyTypeObject PySet_Type + # This is an instance of PyTypeObject representing the Python set type. + + # PyTypeObject PyFrozenSet_Type + # This is an instance of PyTypeObject representing the Python frozenset type. + + # The following type check macros work on pointers to any Python + # object. Likewise, the constructor functions work with any + # iterable Python object. + + bint PyAnySet_Check(object p) + # Return true if p is a set object, a frozenset object, or an + # instance of a subtype. + + bint PyAnySet_CheckExact(object p) + # Return true if p is a set object or a frozenset object but not + # an instance of a subtype. + + bint PyFrozenSet_CheckExact(object p) + # Return true if p is a frozenset object but not an instance of a subtype. + + PySet_New(object iterable) + # Return value: New reference. + # Return a new set containing objects returned by the + # iterable. The iterable may be NULL to create a new empty + # set. Return the new set on success or NULL on failure. Raise + # TypeError if iterable is not actually iterable. The constructor + # is also useful for copying a set (c=set(s)). + + PyFrozenSet_New(object iterable) + # Return value: New reference. + # Return a new frozenset containing objects returned by the + # iterable. The iterable may be NULL to create a new empty + # frozenset. Return the new set on success or NULL on + # failure. Raise TypeError if iterable is not actually iterable. + + # The following functions and macros are available for instances of set or frozenset or instances of their subtypes. + + int PySet_Size(object anyset) + # Return the length of a set or frozenset object. Equivalent to + # "len(anyset)". Raises a PyExc_SystemError if anyset is not a + # set, frozenset, or an instance of a subtype. + + int PySet_GET_SIZE(object anyset) + # Macro form of PySet_Size() without error checking. + + int PySet_Contains(object anyset, object key) + # Return 1 if found, 0 if not found, and -1 if an error is + # encountered. Unlike the Python __contains__() method, this + # function does not automatically convert unhashable sets into + # temporary frozensets. Raise a TypeError if the key is + # unhashable. Raise PyExc_SystemError if anyset is not a set, + # frozenset, or an instance of a subtype. + + # The following functions are available for instances of set or + # its subtypes but not for instances of frozenset or its subtypes. + + int PySet_Add(object set, object key) + # Add key to a set instance. Does not apply to frozenset + # instances. Return 0 on success or -1 on failure. Raise a + # TypeError if the key is unhashable. Raise a MemoryError if there + # is no room to grow. Raise a SystemError if set is an not an + # instance of set or its subtype. + + int PySet_Discard(object set, object key) + # Return 1 if found and removed, 0 if not found (no action taken), + # and -1 if an error is encountered. Does not raise KeyError for + # missing keys. Raise a TypeError if the key is unhashable. Unlike + # the Python discard() method, this function does not + # automatically convert unhashable sets into temporary + # frozensets. Raise PyExc_SystemError if set is an not an instance + # of set or its subtype. + + PySet_Pop(object set) + # Return value: New reference. + # Return a new reference to an arbitrary object in the set, and + # removes the object from the set. Return NULL on failure. Raise + # KeyError if the set is empty. Raise a SystemError if set is an + # not an instance of set or its subtype. + + int PySet_Clear(object set) + # Empty an existing set of all elements. + diff --git a/Includes/python_string.pxi b/Includes/python_string.pxi new file mode 100644 index 00000000..fc8d16cd --- /dev/null +++ b/Includes/python_string.pxi @@ -0,0 +1,196 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef struct va_list + + ############################################################################ + # 7.3.1 String Objects + ############################################################################ + # These functions raise TypeError when expecting a string + # parameter and are called with a non-string parameter. + # PyStringObject + # This subtype of PyObject represents a Python string object. + # PyTypeObject PyString_Type + # This instance of PyTypeObject represents the Python string type; + # it is the same object as str and types.StringType in the Python + # layer. + + bint PyString_Check(object o) + # Return true if the object o is a string object or an instance of + # a subtype of the string type. + + bint PyString_CheckExact(object o) + # Return true if the object o is a string object, but not an instance of a subtype of the string type. + + object PyString_FromString(char *v) + # Return value: New reference. + # Return a new string object with the value v on success, and NULL + # on failure. The parameter v must not be NULL; it will not be + # checked. + + object PyString_FromStringAndSize(char *v, Py_ssize_t len) + # Return value: New reference. + # Return a new string object with the value v and length len on + # success, and NULL on failure. If v is NULL, the contents of the + # string are uninitialized. + + object PyString_FromFormat(char *format, ...) + # Return value: New reference. + # Take a C printf()-style format string and a variable number of + # arguments, calculate the size of the resulting Python string and + # return a string with the values formatted into it. The variable + # arguments must be C types and must correspond exactly to the + # format characters in the format string. The following format + # characters are allowed: + # Format Characters Type Comment + # %% n/a The literal % character. + # %c int A single character, represented as an C int. + # %d int Exactly equivalent to printf("%d"). + # %u unsigned int Exactly equivalent to printf("%u"). + # %ld long Exactly equivalent to printf("%ld"). + # %lu unsigned long Exactly equivalent to printf("%lu"). + # %zd Py_ssize_t Exactly equivalent to printf("%zd"). + # %zu size_t Exactly equivalent to printf("%zu"). + # %i int Exactly equivalent to printf("%i"). + # %x int Exactly equivalent to printf("%x"). + # %s char* A null-terminated C character array. + + # %p void* The hex representation of a C pointer. + # Mostly equivalent to printf("%p") except that it is guaranteed to + # start with the literal 0x regardless of what the platform's printf + # yields. + # An unrecognized format character causes all the rest of the + # format string to be copied as-is to the result string, and any + # extra arguments discarded. + + object PyString_FromFormatV(char *format, va_list vargs) + # Return value: New reference. + # Identical to PyString_FromFormat() except that it takes exactly two arguments. + + Py_ssize_t PyString_Size(object string) + # Return the length of the string in string object string. + + Py_ssize_t PyString_GET_SIZE(object string) + # Macro form of PyString_Size() but without error checking. + + char* PyString_AsString(object string) + # Return a NUL-terminated representation of the contents of + # string. The pointer refers to the internal buffer of string, not + # a copy. The data must not be modified in any way, unless the + # string was just created using PyString_FromStringAndSize(NULL, + # size). It must not be deallocated. If string is a Unicode + # object, this function computes the default encoding of string + # and operates on that. If string is not a string object at all, + # PyString_AsString() returns NULL and raises TypeError. + + char* PyString_AS_STRING(object string) + # Macro form of PyString_AsString() but without error + # checking. Only string objects are supported; no Unicode objects + # should be passed. + + int PyString_AsStringAndSize(object obj, char **buffer, Py_ssize_t *length) + # Return a NULL-terminated representation of the contents of the + # object obj through the output variables buffer and length. + # + # The function accepts both string and Unicode objects as + # input. For Unicode objects it returns the default encoded + # version of the object. If length is NULL, the resulting buffer + # may not contain NUL characters; if it does, the function returns + # -1 and a TypeError is raised. + + # The buffer refers to an internal string buffer of obj, not a + # copy. The data must not be modified in any way, unless the + # string was just created using PyString_FromStringAndSize(NULL, + # size). It must not be deallocated. If string is a Unicode + # object, this function computes the default encoding of string + # and operates on that. If string is not a string object at all, + # PyString_AsStringAndSize() returns -1 and raises TypeError. + + void PyString_Concat(PyObject **string, object newpart) + # Create a new string object in *string containing the contents of + # newpart appended to string; the caller will own the new + # reference. The reference to the old value of string will be + # stolen. If the new string cannot be created, the old reference + # to string will still be discarded and the value of *string will + # be set to NULL; the appropriate exception will be set. + + void PyString_ConcatAndDel(PyObject **string, object newpart) + # Create a new string object in *string containing the contents of + # newpart appended to string. This version decrements the + # reference count of newpart. + + int _PyString_Resize(PyObject **string, Py_ssize_t newsize) + # A way to resize a string object even though it is + # ``immutable''. Only use this to build up a brand new string + # object; don't use this if the string may already be known in + # other parts of the code. It is an error to call this function if + # the refcount on the input string object is not one. Pass the + # address of an existing string object as an lvalue (it may be + # written into), and the new size desired. On success, *string + # holds the resized string object and 0 is returned; the address + # in *string may differ from its input value. If the reallocation + # fails, the original string object at *string is deallocated, + # *string is set to NULL, a memory exception is set, and -1 is + # returned. + + object PyString_Format(object format, object args) + # Return value: New reference. Return a new string object from + # format and args. Analogous to format % args. The args argument + # must be a tuple. + + void PyString_InternInPlace(PyObject **string) + # Intern the argument *string in place. The argument must be the + # address of a pointer variable pointing to a Python string + # object. If there is an existing interned string that is the same + # as *string, it sets *string to it (decrementing the reference + # count of the old string object and incrementing the reference + # count of the interned string object), otherwise it leaves + # *string alone and interns it (incrementing its reference + # count). (Clarification: even though there is a lot of talk about + # reference counts, think of this function as + # reference-count-neutral; you own the object after the call if + # and only if you owned it before the call.) + + object PyString_InternFromString(char *v) + # Return value: New reference. + # A combination of PyString_FromString() and + # PyString_InternInPlace(), returning either a new string object + # that has been interned, or a new (``owned'') reference to an + # earlier interned string object with the same value. + + object PyString_Decode(char *s, Py_ssize_t size, char *encoding, char *errors) + # Return value: New reference. + # Create an object by decoding size bytes of the encoded buffer s + # using the codec registered for encoding. encoding and errors + # have the same meaning as the parameters of the same name in the + # unicode() built-in function. The codec to be used is looked up + # using the Python codec registry. Return NULL if an exception was + # raised by the codec. + + object PyString_AsDecodedObject(object str, char *encoding, char *errors) + # Return value: New reference. + # Decode a string object by passing it to the codec registered for + # encoding and return the result as Python object. encoding and + # errors have the same meaning as the parameters of the same name + # in the string encode() method. The codec to be used is looked up + # using the Python codec registry. Return NULL if an exception was + # raised by the codec. + + object PyString_Encode(char *s, Py_ssize_t size, char *encoding, char *errors) + # Return value: New reference. + # Encode the char buffer of the given size by passing it to the + # codec registered for encoding and return a Python + # object. encoding and errors have the same meaning as the + # parameters of the same name in the string encode() method. The + # codec to be used is looked up using the Python codec + # registry. Return NULL if an exception was raised by the codec. + + object PyString_AsEncodedObject(object str, char *encoding, char *errors) + # Return value: New reference. + # Encode a string object using the codec registered for encoding + # and return the result as Python object. encoding and errors have + # the same meaning as the parameters of the same name in the + # string encode() method. The codec to be used is looked up using + # the Python codec registry. Return NULL if an exception was + # raised by the codec. + + diff --git a/Includes/python_tuple.pxi b/Includes/python_tuple.pxi new file mode 100644 index 00000000..03933fd5 --- /dev/null +++ b/Includes/python_tuple.pxi @@ -0,0 +1,70 @@ +cdef extern from "Python.h": + ctypedef void PyObject + + ############################################################################ + # Tuples + ############################################################################ + + bint PyTuple_Check(object p) + # Return true if p is a tuple object or an instance of a subtype + # of the tuple type. + + bint PyTuple_CheckExact(object p) + # Return true if p is a tuple object, but not an instance of a subtype of the tuple type. + + object PyTuple_New(Py_ssize_t len) + # Return value: New reference. + # Return a new tuple object of size len, or NULL on failure. + + object PyTuple_Pack(Py_ssize_t n, ...) + # Return value: New reference. + # Return a new tuple object of size n, or NULL on failure. The + # tuple values are initialized to the subsequent n C arguments + # pointing to Python objects. "PyTuple_Pack(2, a, b)" is + # equivalent to "Py_BuildValue("(OO)", a, b)". + + int PyTuple_Size(object p) + # Take a pointer to a tuple object, and return the size of that tuple. + + int PyTuple_GET_SIZE(object p) + # Return the size of the tuple p, which must be non-NULL and point + # to a tuple; no error checking is performed. + + PyObject* PyTuple_GetItem(object p, Py_ssize_t pos) + # Return value: Borrowed reference. + # Return the object at position pos in the tuple pointed to by + # p. If pos is out of bounds, return NULL and sets an IndexError + # exception. + + PyObject* PyTuple_GET_ITEM(object p, Py_ssize_t pos) + # Return value: Borrowed reference. + # Like PyTuple_GetItem(), but does no checking of its arguments. + + object PyTuple_GetSlice(object p, Py_ssize_t low, Py_ssize_t high) + # Return value: New reference. + # Take a slice of the tuple pointed to by p from low to high and return it as a new tuple. + + int PyTuple_SetItem(object p, Py_ssize_t pos, object o) + # Insert a reference to object o at position pos of the tuple + # pointed to by p. Return 0 on success. Note: This function + # ``steals'' a reference to o. + + void PyTuple_SET_ITEM(object p, Py_ssize_t pos, object o) + # Like PyTuple_SetItem(), but does no error checking, and should + # only be used to fill in brand new tuples. Note: This function + # ``steals'' a reference to o. + + int _PyTuple_Resize(PyObject **p, Py_ssize_t newsize) + # Can be used to resize a tuple. newsize will be the new length of + # the tuple. Because tuples are supposed to be immutable, this + # should only be used if there is only one reference to the + # object. Do not use this if the tuple may already be known to + # some other part of the code. The tuple will always grow or + # shrink at the end. Think of this as destroying the old tuple and + # creating a new one, only more efficiently. Returns 0 on + # success. Client code should never assume that the resulting + # value of *p will be the same as before calling this function. If + # the object referenced by *p is replaced, the original *p is + # destroyed. On failure, returns -1 and sets *p to NULL, and + # raises MemoryError or SystemError. + diff --git a/Includes/python_type.pxi b/Includes/python_type.pxi new file mode 100644 index 00000000..6deb990f --- /dev/null +++ b/Includes/python_type.pxi @@ -0,0 +1,46 @@ +cdef extern from "Python.h": + ctypedef void PyObject + ctypedef void PyTypeObject + # The C structure of the objects used to describe built-in types. + + ############################################################################ + # 7.1.1 Type Objects + ############################################################################ + + # PyObject* PyType_Type + # This is the type object for type objects; it is the same object + # as type and types.TypeType in the Python layer. + + bint PyType_Check(object o) + # Return true if the object o is a type object, including + # instances of types derived from the standard type object. Return + # false in all other cases. + + bint PyType_CheckExact(object o) + # Return true if the object o is a type object, but not a subtype + # of the standard type object. Return false in all other + # cases. + + bint PyType_HasFeature(object o, int feature) + # Return true if the type object o sets the feature feature. Type + # features are denoted by single bit flags. + + bint PyType_IS_GC(object o) + # Return true if the type object includes support for the cycle + # detector; this tests the type flag Py_TPFLAGS_HAVE_GC. + + bint PyType_IsSubtype(object a, object b) + # Return true if a is a subtype of b. + + object PyType_GenericAlloc(object type, Py_ssize_t nitems) + # Return value: New reference. + + object PyType_GenericNew(object type, object args, object kwds) + # Return value: New reference. + + bint PyType_Ready(object type) + # Finalize a type object. This should be called on all type + # objects to finish their initialization. This function is + # responsible for adding inherited slots from a type's base + # class. Return 0 on success, or return -1 and sets an exception + # on error. diff --git a/Includes/stdio.pxi b/Includes/stdio.pxi new file mode 100644 index 00000000..ad4d971a --- /dev/null +++ b/Includes/stdio.pxi @@ -0,0 +1,9 @@ +cdef extern from "stdio.h": + ctypedef struct FILE + int printf(char *format, ...) + int fprintf(FILE *stream, char *format, ...) + int sprintf(char *str, char *format, ...) + FILE *fopen(char *path, char *mode) + int fclose(FILE *strea) + cdef FILE *stdout + int scanf(char *format, ...) diff --git a/Includes/stdlib.pxi b/Includes/stdlib.pxi new file mode 100644 index 00000000..3de3cb9e --- /dev/null +++ b/Includes/stdlib.pxi @@ -0,0 +1,8 @@ + +cdef extern from "stdlib.h": + ctypedef unsigned long size_t + void free(void *ptr) + void *malloc(size_t size) + void *realloc(void *ptr, size_t size) + size_t strlen(char *s) + char *strcpy(char *dest, char *src)