eaiaiaiaoi/venv/lib/python2.7/site-packages/scipy/_lib/_ccallback.py

from . import _ccallback_c

import ctypes

PyCFuncPtr = ctypes.CFUNCTYPE(ctypes.c_void_p).__bases__[0]

ffi = None

class CData(object):
    pass

def _import_cffi():
    global ffi, CData

    if ffi is not None:
        return

    try:
        import cffi
        ffi = cffi.FFI()
        CData = ffi.CData
    except ImportError:
        ffi = False


class LowLevelCallable(tuple):
    """
    Low-level callback function.

    Parameters
    ----------
    function : {PyCapsule, ctypes function pointer, cffi function pointer}
        Low-level callback function.
    user_data : {PyCapsule, ctypes void pointer, cffi void pointer}
        User data to pass on to the callback function.
    signature : str, optional
        Signature of the function. If omitted, determined from *function*,
        if possible.

    Attributes
    ----------
    function
        Callback function given
    user_data
        User data given
    signature
        Signature of the function.

    Methods
    -------
    from_cython
        Class method for constructing callables from Cython C-exported
        functions.

    Notes
    -----
    The argument ``function`` can be one of:

    - PyCapsule, whose name contains the C function signature
    - ctypes function pointer
    - cffi function pointer

    The signature of the low-level callback must match one of  those expected 
    by the routine it is passed to.

    If constructing low-level functions from a PyCapsule, the name of the 
    capsule must be the corresponding signature, in the format::

        return_type (arg1_type, arg2_type, ...)

    For example::

        "void (double)"
        "double (double, int *, void *)"

    The context of a PyCapsule passed in as ``function`` is used as ``user_data``, 
    if an explicit value for `user_data` was not given.

    """

    # Make the class immutable
    __slots__ = ()

    def __new__(cls, function, user_data=None, signature=None):
        # We need to hold a reference to the function & user data,
        # to prevent them going out of scope
        item = cls._parse_callback(function, user_data, signature)
        return tuple.__new__(cls, (item, function, user_data))

    def __repr__(self):
        return "LowLevelCallable({!r}, {!r})".format(self.function, self.user_data)

    @property
    def function(self):
        return tuple.__getitem__(self, 1)

    @property
    def user_data(self):
        return tuple.__getitem__(self, 2)

    @property
    def signature(self):
        return _ccallback_c.get_capsule_signature(tuple.__getitem__(self, 0))

    def __getitem__(self, idx):
        raise ValueError()

    @classmethod
    def from_cython(cls, module, name, user_data=None, signature=None):
        """
        Create a low-level callback function from an exported Cython function.

        Parameters
        ----------
        module : module
            Cython module where the exported function resides
        name : str
            Name of the exported function
        user_data : {PyCapsule, ctypes void pointer, cffi void pointer}, optional
            User data to pass on to the callback function.
        signature : str, optional
            Signature of the function. If omitted, determined from *function*.

        """
        try:
            function = module.__pyx_capi__[name]
        except AttributeError:
            raise ValueError("Given module is not a Cython module with __pyx_capi__ attribute")
        except KeyError:
            raise ValueError("No function {!r} found in __pyx_capi__ of the module".format(name))
        return cls(function, user_data, signature)

    @classmethod
    def _parse_callback(cls, obj, user_data=None, signature=None):
        _import_cffi()

        if isinstance(obj, LowLevelCallable):
            func = tuple.__getitem__(obj, 0)
        elif isinstance(obj, PyCFuncPtr):
            func, signature = _get_ctypes_func(obj, signature)
        elif isinstance(obj, CData):
            func, signature = _get_cffi_func(obj, signature)
        elif _ccallback_c.check_capsule(obj):
            func = obj
        else:
            raise ValueError("Given input is not a callable or a low-level callable (pycapsule/ctypes/cffi)")

        if isinstance(user_data, ctypes.c_void_p):
            context = _get_ctypes_data(user_data)
        elif isinstance(user_data, CData):
            context = _get_cffi_data(user_data)
        elif user_data is None:
            context = 0
        elif _ccallback_c.check_capsule(user_data):
            context = user_data
        else:
            raise ValueError("Given user data is not a valid low-level void* pointer (pycapsule/ctypes/cffi)")

        return _ccallback_c.get_raw_capsule(func, signature, context)


#
# ctypes helpers
#

def _get_ctypes_func(func, signature=None):
    # Get function pointer
    func_ptr = ctypes.cast(func, ctypes.c_void_p).value

    # Construct function signature
    if signature is None:
        signature = _typename_from_ctypes(func.restype) + " ("
        for j, arg in enumerate(func.argtypes):
            if j == 0:
                signature += _typename_from_ctypes(arg)
            else:
                signature += ", " + _typename_from_ctypes(arg)
        signature += ")"

    return func_ptr, signature


def _typename_from_ctypes(item):
    if item is None:
        return "void"
    elif item is ctypes.c_void_p:
        return "void *"

    name = item.__name__

    pointer_level = 0
    while name.startswith("LP_"):
        pointer_level += 1
        name = name[3:]

    if name.startswith('c_'):
        name = name[2:]

    if pointer_level > 0:
        name += " " + "*"*pointer_level

    return name


def _get_ctypes_data(data):
    # Get voidp pointer
    return ctypes.cast(data, ctypes.c_void_p).value


#
# CFFI helpers
#

def _get_cffi_func(func, signature=None):
    # Get function pointer
    func_ptr = ffi.cast('uintptr_t', func)

    # Get signature
    if signature is None:
        signature = ffi.getctype(ffi.typeof(func)).replace('(*)', ' ')

    return func_ptr, signature


def _get_cffi_data(data):
    # Get pointer
    return ffi.cast('uintptr_t', data)
add in project 6 years ago			`from . import _ccallback_c`

			`import ctypes`

			`PyCFuncPtr = ctypes.CFUNCTYPE(ctypes.c_void_p).__bases__[0]`

			`ffi = None`

			`class CData(object):`
			`pass`

			`def _import_cffi():`
			`global ffi, CData`

			`if ffi is not None:`
			`return`

			`try:`
			`import cffi`
			`ffi = cffi.FFI()`
			`CData = ffi.CData`
			`except ImportError:`
			`ffi = False`


			`class LowLevelCallable(tuple):`
			`"""`
			`Low-level callback function.`

			`Parameters`
			`----------`
			`function : {PyCapsule, ctypes function pointer, cffi function pointer}`
			`Low-level callback function.`
			`user_data : {PyCapsule, ctypes void pointer, cffi void pointer}`
			`User data to pass on to the callback function.`
			`signature : str, optional`
			`Signature of the function. If omitted, determined from function,`
			`if possible.`

			`Attributes`
			`----------`
			`function`
			`Callback function given`
			`user_data`
			`User data given`
			`signature`
			`Signature of the function.`

			`Methods`
			`-------`
			`from_cython`
			`Class method for constructing callables from Cython C-exported`
			`functions.`

			`Notes`
			`-----`
			The argument ``function`` can be one of:

			`- PyCapsule, whose name contains the C function signature`
			`- ctypes function pointer`
			`- cffi function pointer`

			`The signature of the low-level callback must match one of those expected`
			`by the routine it is passed to.`

			`If constructing low-level functions from a PyCapsule, the name of the`
			`capsule must be the corresponding signature, in the format::`

			`return_type (arg1_type, arg2_type, ...)`

			`For example::`

			`"void (double)"`
			`"double (double, int , void )"`

			The context of a PyCapsule passed in as ``function`` is used as ``user_data``,
			if an explicit value for `user_data` was not given.

			`"""`

			`# Make the class immutable`
			`__slots__ = ()`

			`def __new__(cls, function, user_data=None, signature=None):`
			`# We need to hold a reference to the function & user data,`
			`# to prevent them going out of scope`
			`item = cls._parse_callback(function, user_data, signature)`
			`return tuple.__new__(cls, (item, function, user_data))`

			`def __repr__(self):`
			`return "LowLevelCallable({!r}, {!r})".format(self.function, self.user_data)`

			`@property`
			`def function(self):`
			`return tuple.__getitem__(self, 1)`

			`@property`
			`def user_data(self):`
			`return tuple.__getitem__(self, 2)`

			`@property`
			`def signature(self):`
			`return _ccallback_c.get_capsule_signature(tuple.__getitem__(self, 0))`

			`def __getitem__(self, idx):`
			`raise ValueError()`

			`@classmethod`
			`def from_cython(cls, module, name, user_data=None, signature=None):`
			`"""`
			`Create a low-level callback function from an exported Cython function.`

			`Parameters`
			`----------`
			`module : module`
			`Cython module where the exported function resides`
			`name : str`
			`Name of the exported function`
			`user_data : {PyCapsule, ctypes void pointer, cffi void pointer}, optional`
			`User data to pass on to the callback function.`
			`signature : str, optional`
			`Signature of the function. If omitted, determined from function.`

			`"""`
			`try:`
			`function = module.__pyx_capi__[name]`
			`except AttributeError:`
			`raise ValueError("Given module is not a Cython module with __pyx_capi__ attribute")`
			`except KeyError:`
			`raise ValueError("No function {!r} found in __pyx_capi__ of the module".format(name))`
			`return cls(function, user_data, signature)`

			`@classmethod`
			`def _parse_callback(cls, obj, user_data=None, signature=None):`
			`_import_cffi()`

			`if isinstance(obj, LowLevelCallable):`
			`func = tuple.__getitem__(obj, 0)`
			`elif isinstance(obj, PyCFuncPtr):`
			`func, signature = _get_ctypes_func(obj, signature)`
			`elif isinstance(obj, CData):`
			`func, signature = _get_cffi_func(obj, signature)`
			`elif _ccallback_c.check_capsule(obj):`
			`func = obj`
			`else:`
			`raise ValueError("Given input is not a callable or a low-level callable (pycapsule/ctypes/cffi)")`

			`if isinstance(user_data, ctypes.c_void_p):`
			`context = _get_ctypes_data(user_data)`
			`elif isinstance(user_data, CData):`
			`context = _get_cffi_data(user_data)`
			`elif user_data is None:`
			`context = 0`
			`elif _ccallback_c.check_capsule(user_data):`
			`context = user_data`
			`else:`
			`raise ValueError("Given user data is not a valid low-level void* pointer (pycapsule/ctypes/cffi)")`

			`return _ccallback_c.get_raw_capsule(func, signature, context)`


			`#`
			`# ctypes helpers`
			`#`

			`def _get_ctypes_func(func, signature=None):`
			`# Get function pointer`
			`func_ptr = ctypes.cast(func, ctypes.c_void_p).value`

			`# Construct function signature`
			`if signature is None:`
			`signature = _typename_from_ctypes(func.restype) + " ("`
			`for j, arg in enumerate(func.argtypes):`
			`if j == 0:`
			`signature += _typename_from_ctypes(arg)`
			`else:`
			`signature += ", " + _typename_from_ctypes(arg)`
			`signature += ")"`

			`return func_ptr, signature`


			`def _typename_from_ctypes(item):`
			`if item is None:`
			`return "void"`
			`elif item is ctypes.c_void_p:`
			`return "void *"`

			`name = item.__name__`

			`pointer_level = 0`
			`while name.startswith("LP_"):`
			`pointer_level += 1`
			`name = name[3:]`

			`if name.startswith('c_'):`
			`name = name[2:]`

			`if pointer_level > 0:`
			`name += " " + ""pointer_level`

			`return name`


			`def _get_ctypes_data(data):`
			`# Get voidp pointer`
			`return ctypes.cast(data, ctypes.c_void_p).value`


			`#`
			`# CFFI helpers`
			`#`

			`def _get_cffi_func(func, signature=None):`
			`# Get function pointer`
			`func_ptr = ffi.cast('uintptr_t', func)`

			`# Get signature`
			`if signature is None:`
			`signature = ffi.getctype(ffi.typeof(func)).replace('(*)', ' ')`

			`return func_ptr, signature`


			`def _get_cffi_data(data):`
			`# Get pointer`
			`return ffi.cast('uintptr_t', data)`