backcall-0.1.0/0000755000175400017540000000000012277250663015364 5ustar takluyvertakluyver00000000000000backcall-0.1.0/backcall/0000755000175400017540000000000012277250663017120 5ustar takluyvertakluyver00000000000000backcall-0.1.0/backcall/__init__.py0000644000175400017540000000022412273024720021214 0ustar takluyvertakluyver00000000000000# -*- coding: utf-8 -*- from .backcall import callback_prototype __author__ = 'Thomas Kluyver' __email__ = 'takowl@gmail.com' __version__ = '0.1.0'backcall-0.1.0/backcall/backcall.py0000644000175400017540000000725012277226356021234 0ustar takluyvertakluyver00000000000000# -*- coding: utf-8 -*- """ Created on Mon Jan 13 18:17:15 2014 @author: takluyver """ import sys PY3 = (sys.version_info[0] >= 3) try: from inspect import signature, Parameter # Python >= 3.3 except ImportError: from ._signatures import signature, Parameter if PY3: from functools import wraps else: from functools import wraps as _wraps def wraps(f): def dec(func): _wraps(f)(func) func.__wrapped__ = f return func return dec def callback_prototype(prototype): """Decorator to process a callback prototype. A callback prototype is a function whose signature includes all the values that will be passed by the callback API in question. The original function will be returned, with a ``prototype.adapt`` attribute which can be used to prepare third party callbacks. """ protosig = signature(prototype) positional, keyword = [], [] for name, param in protosig.parameters.items(): if param.kind in (Parameter.VAR_POSITIONAL, Parameter.VAR_KEYWORD): raise TypeError("*args/**kwargs not supported in prototypes") if (param.default is not Parameter.empty) \ or (param.kind == Parameter.KEYWORD_ONLY): keyword.append(name) else: positional.append(name) kwargs = dict.fromkeys(keyword) def adapt(callback): """Introspect and prepare a third party callback.""" sig = signature(callback) try: # XXX: callback can have extra optional parameters - OK? sig.bind(*positional, **kwargs) return callback except TypeError: pass # Match up arguments unmatched_pos = positional[:] unmatched_kw = kwargs.copy() unrecognised = [] # TODO: unrecognised parameters with default values - OK? for name, param in sig.parameters.items(): # print(name, param.kind) #DBG if param.kind == Parameter.POSITIONAL_ONLY: if len(unmatched_pos) > 0: unmatched_pos.pop(0) else: unrecognised.append(name) elif param.kind == Parameter.POSITIONAL_OR_KEYWORD: if (param.default is not Parameter.empty) and (name in unmatched_kw): unmatched_kw.pop(name) elif len(unmatched_pos) > 0: unmatched_pos.pop(0) else: unrecognised.append(name) elif param.kind == Parameter.VAR_POSITIONAL: unmatched_pos = [] elif param.kind == Parameter.KEYWORD_ONLY: if name in unmatched_kw: unmatched_kw.pop(name) else: unrecognised.append(name) else: # VAR_KEYWORD unmatched_kw = {} # print(unmatched_pos, unmatched_kw, unrecognised) #DBG if unrecognised: raise TypeError("Function {!r} had unmatched arguments: {}".format(callback, unrecognised)) n_positional = len(positional) - len(unmatched_pos) @wraps(callback) def adapted(*args, **kwargs): """Wrapper for third party callbacks that discards excess arguments""" # print(args, kwargs) args = args[:n_positional] for name in unmatched_kw: # XXX: Could name not be in kwargs? kwargs.pop(name) # print(args, kwargs, unmatched_pos, cut_positional, unmatched_kw) return callback(*args, **kwargs) return adapted prototype.adapt = adapt return prototypebackcall-0.1.0/backcall/_signatures.py0000644000175400017540000007222712273024720022014 0ustar takluyvertakluyver00000000000000"""Function signature objects for callables Back port of Python 3.3's function signature tools from the inspect module, modified to be compatible with Python 2.6, 2.7 and 3.2+. """ #----------------------------------------------------------------------------- # Python 3.3 stdlib inspect.py is public domain # # Backports Copyright (C) 2013 Aaron Iles # Used under Apache License Version 2.0 # # Further Changes are Copyright (C) 2013 The IPython Development Team # # Distributed under the terms of the BSD License. The full license is in # the file COPYING, distributed as part of this software. #----------------------------------------------------------------------------- from __future__ import absolute_import, division, print_function import itertools import functools import re import types # patch for single-file # we don't support 2.6, so we can just import OrderedDict from collections import OrderedDict __version__ = '0.3' # end patch __all__ = ['BoundArguments', 'Parameter', 'Signature', 'signature'] _WrapperDescriptor = type(type.__call__) _MethodWrapper = type(all.__call__) _NonUserDefinedCallables = (_WrapperDescriptor, _MethodWrapper, types.BuiltinFunctionType) def formatannotation(annotation, base_module=None): if isinstance(annotation, type): if annotation.__module__ in ('builtins', '__builtin__', base_module): return annotation.__name__ return annotation.__module__+'.'+annotation.__name__ return repr(annotation) def _get_user_defined_method(cls, method_name, *nested): try: if cls is type: return meth = getattr(cls, method_name) for name in nested: meth = getattr(meth, name, meth) except AttributeError: return else: if not isinstance(meth, _NonUserDefinedCallables): # Once '__signature__' will be added to 'C'-level # callables, this check won't be necessary return meth def signature(obj): '''Get a signature object for the passed callable.''' if not callable(obj): raise TypeError('{0!r} is not a callable object'.format(obj)) if isinstance(obj, types.MethodType): # In this case we skip the first parameter of the underlying # function (usually `self` or `cls`). sig = signature(obj.__func__) return sig.replace(parameters=tuple(sig.parameters.values())[1:]) try: sig = obj.__signature__ except AttributeError: pass else: if sig is not None: return sig try: # Was this function wrapped by a decorator? wrapped = obj.__wrapped__ except AttributeError: pass else: return signature(wrapped) if isinstance(obj, types.FunctionType): return Signature.from_function(obj) if isinstance(obj, functools.partial): sig = signature(obj.func) new_params = OrderedDict(sig.parameters.items()) partial_args = obj.args or () partial_keywords = obj.keywords or {} try: ba = sig.bind_partial(*partial_args, **partial_keywords) except TypeError as ex: msg = 'partial object {0!r} has incorrect arguments'.format(obj) raise ValueError(msg) for arg_name, arg_value in ba.arguments.items(): param = new_params[arg_name] if arg_name in partial_keywords: # We set a new default value, because the following code # is correct: # # >>> def foo(a): print(a) # >>> print(partial(partial(foo, a=10), a=20)()) # 20 # >>> print(partial(partial(foo, a=10), a=20)(a=30)) # 30 # # So, with 'partial' objects, passing a keyword argument is # like setting a new default value for the corresponding # parameter # # We also mark this parameter with '_partial_kwarg' # flag. Later, in '_bind', the 'default' value of this # parameter will be added to 'kwargs', to simulate # the 'functools.partial' real call. new_params[arg_name] = param.replace(default=arg_value, _partial_kwarg=True) elif (param.kind not in (_VAR_KEYWORD, _VAR_POSITIONAL) and not param._partial_kwarg): new_params.pop(arg_name) return sig.replace(parameters=new_params.values()) sig = None if isinstance(obj, type): # obj is a class or a metaclass # First, let's see if it has an overloaded __call__ defined # in its metaclass call = _get_user_defined_method(type(obj), '__call__') if call is not None: sig = signature(call) else: # Now we check if the 'obj' class has a '__new__' method new = _get_user_defined_method(obj, '__new__') if new is not None: sig = signature(new) else: # Finally, we should have at least __init__ implemented init = _get_user_defined_method(obj, '__init__') if init is not None: sig = signature(init) elif not isinstance(obj, _NonUserDefinedCallables): # An object with __call__ # We also check that the 'obj' is not an instance of # _WrapperDescriptor or _MethodWrapper to avoid # infinite recursion (and even potential segfault) call = _get_user_defined_method(type(obj), '__call__', 'im_func') if call is not None: sig = signature(call) if sig is not None: return sig if isinstance(obj, types.BuiltinFunctionType): # Raise a nicer error message for builtins msg = 'no signature found for builtin function {0!r}'.format(obj) raise ValueError(msg) raise ValueError('callable {0!r} is not supported by signature'.format(obj)) class _void(object): '''A private marker - used in Parameter & Signature''' class _empty(object): pass class _ParameterKind(int): def __new__(self, *args, **kwargs): obj = int.__new__(self, *args) obj._name = kwargs['name'] return obj def __str__(self): return self._name def __repr__(self): return '<_ParameterKind: {0!r}>'.format(self._name) _POSITIONAL_ONLY = _ParameterKind(0, name='POSITIONAL_ONLY') _POSITIONAL_OR_KEYWORD = _ParameterKind(1, name='POSITIONAL_OR_KEYWORD') _VAR_POSITIONAL = _ParameterKind(2, name='VAR_POSITIONAL') _KEYWORD_ONLY = _ParameterKind(3, name='KEYWORD_ONLY') _VAR_KEYWORD = _ParameterKind(4, name='VAR_KEYWORD') class Parameter(object): '''Represents a parameter in a function signature. Has the following public attributes: * name : str The name of the parameter as a string. * default : object The default value for the parameter if specified. If the parameter has no default value, this attribute is not set. * annotation The annotation for the parameter if specified. If the parameter has no annotation, this attribute is not set. * kind : str Describes how argument values are bound to the parameter. Possible values: `Parameter.POSITIONAL_ONLY`, `Parameter.POSITIONAL_OR_KEYWORD`, `Parameter.VAR_POSITIONAL`, `Parameter.KEYWORD_ONLY`, `Parameter.VAR_KEYWORD`. ''' __slots__ = ('_name', '_kind', '_default', '_annotation', '_partial_kwarg') POSITIONAL_ONLY = _POSITIONAL_ONLY POSITIONAL_OR_KEYWORD = _POSITIONAL_OR_KEYWORD VAR_POSITIONAL = _VAR_POSITIONAL KEYWORD_ONLY = _KEYWORD_ONLY VAR_KEYWORD = _VAR_KEYWORD empty = _empty def __init__(self, name, kind, default=_empty, annotation=_empty, _partial_kwarg=False): if kind not in (_POSITIONAL_ONLY, _POSITIONAL_OR_KEYWORD, _VAR_POSITIONAL, _KEYWORD_ONLY, _VAR_KEYWORD): raise ValueError("invalid value for 'Parameter.kind' attribute") self._kind = kind if default is not _empty: if kind in (_VAR_POSITIONAL, _VAR_KEYWORD): msg = '{0} parameters cannot have default values'.format(kind) raise ValueError(msg) self._default = default self._annotation = annotation if name is None: if kind != _POSITIONAL_ONLY: raise ValueError("None is not a valid name for a " "non-positional-only parameter") self._name = name else: name = str(name) if kind != _POSITIONAL_ONLY and not re.match(r'[a-z_]\w*$', name, re.I): msg = '{0!r} is not a valid parameter name'.format(name) raise ValueError(msg) self._name = name self._partial_kwarg = _partial_kwarg @property def name(self): return self._name @property def default(self): return self._default @property def annotation(self): return self._annotation @property def kind(self): return self._kind def replace(self, name=_void, kind=_void, annotation=_void, default=_void, _partial_kwarg=_void): '''Creates a customized copy of the Parameter.''' if name is _void: name = self._name if kind is _void: kind = self._kind if annotation is _void: annotation = self._annotation if default is _void: default = self._default if _partial_kwarg is _void: _partial_kwarg = self._partial_kwarg return type(self)(name, kind, default=default, annotation=annotation, _partial_kwarg=_partial_kwarg) def __str__(self): kind = self.kind formatted = self._name if kind == _POSITIONAL_ONLY: if formatted is None: formatted = '' formatted = '<{0}>'.format(formatted) # Add annotation and default value if self._annotation is not _empty: formatted = '{0}:{1}'.format(formatted, formatannotation(self._annotation)) if self._default is not _empty: formatted = '{0}={1}'.format(formatted, repr(self._default)) if kind == _VAR_POSITIONAL: formatted = '*' + formatted elif kind == _VAR_KEYWORD: formatted = '**' + formatted return formatted def __repr__(self): return '<{0} at {1:#x} {2!r}>'.format(self.__class__.__name__, id(self), self.name) def __hash__(self): msg = "unhashable type: '{0}'".format(self.__class__.__name__) raise TypeError(msg) def __eq__(self, other): return (issubclass(other.__class__, Parameter) and self._name == other._name and self._kind == other._kind and self._default == other._default and self._annotation == other._annotation) def __ne__(self, other): return not self.__eq__(other) class BoundArguments(object): '''Result of `Signature.bind` call. Holds the mapping of arguments to the function's parameters. Has the following public attributes: * arguments : OrderedDict An ordered mutable mapping of parameters' names to arguments' values. Does not contain arguments' default values. * signature : Signature The Signature object that created this instance. * args : tuple Tuple of positional arguments values. * kwargs : dict Dict of keyword arguments values. ''' def __init__(self, signature, arguments): self.arguments = arguments self._signature = signature @property def signature(self): return self._signature @property def args(self): args = [] for param_name, param in self._signature.parameters.items(): if (param.kind in (_VAR_KEYWORD, _KEYWORD_ONLY) or param._partial_kwarg): # Keyword arguments mapped by 'functools.partial' # (Parameter._partial_kwarg is True) are mapped # in 'BoundArguments.kwargs', along with VAR_KEYWORD & # KEYWORD_ONLY break try: arg = self.arguments[param_name] except KeyError: # We're done here. Other arguments # will be mapped in 'BoundArguments.kwargs' break else: if param.kind == _VAR_POSITIONAL: # *args args.extend(arg) else: # plain argument args.append(arg) return tuple(args) @property def kwargs(self): kwargs = {} kwargs_started = False for param_name, param in self._signature.parameters.items(): if not kwargs_started: if (param.kind in (_VAR_KEYWORD, _KEYWORD_ONLY) or param._partial_kwarg): kwargs_started = True else: if param_name not in self.arguments: kwargs_started = True continue if not kwargs_started: continue try: arg = self.arguments[param_name] except KeyError: pass else: if param.kind == _VAR_KEYWORD: # **kwargs kwargs.update(arg) else: # plain keyword argument kwargs[param_name] = arg return kwargs def __hash__(self): msg = "unhashable type: '{0}'".format(self.__class__.__name__) raise TypeError(msg) def __eq__(self, other): return (issubclass(other.__class__, BoundArguments) and self.signature == other.signature and self.arguments == other.arguments) def __ne__(self, other): return not self.__eq__(other) class Signature(object): '''A Signature object represents the overall signature of a function. It stores a Parameter object for each parameter accepted by the function, as well as information specific to the function itself. A Signature object has the following public attributes and methods: * parameters : OrderedDict An ordered mapping of parameters' names to the corresponding Parameter objects (keyword-only arguments are in the same order as listed in `code.co_varnames`). * return_annotation : object The annotation for the return type of the function if specified. If the function has no annotation for its return type, this attribute is not set. * bind(*args, **kwargs) -> BoundArguments Creates a mapping from positional and keyword arguments to parameters. * bind_partial(*args, **kwargs) -> BoundArguments Creates a partial mapping from positional and keyword arguments to parameters (simulating 'functools.partial' behavior.) ''' __slots__ = ('_return_annotation', '_parameters') _parameter_cls = Parameter _bound_arguments_cls = BoundArguments empty = _empty def __init__(self, parameters=None, return_annotation=_empty, __validate_parameters__=True): '''Constructs Signature from the given list of Parameter objects and 'return_annotation'. All arguments are optional. ''' if parameters is None: params = OrderedDict() else: if __validate_parameters__: params = OrderedDict() top_kind = _POSITIONAL_ONLY for idx, param in enumerate(parameters): kind = param.kind if kind < top_kind: msg = 'wrong parameter order: {0} before {1}' msg = msg.format(top_kind, param.kind) raise ValueError(msg) else: top_kind = kind name = param.name if name is None: name = str(idx) param = param.replace(name=name) if name in params: msg = 'duplicate parameter name: {0!r}'.format(name) raise ValueError(msg) params[name] = param else: params = OrderedDict(((param.name, param) for param in parameters)) self._parameters = params self._return_annotation = return_annotation @classmethod def from_function(cls, func): '''Constructs Signature for the given python function''' if not isinstance(func, types.FunctionType): raise TypeError('{0!r} is not a Python function'.format(func)) Parameter = cls._parameter_cls # Parameter information. func_code = func.__code__ pos_count = func_code.co_argcount arg_names = func_code.co_varnames positional = tuple(arg_names[:pos_count]) keyword_only_count = getattr(func_code, 'co_kwonlyargcount', 0) keyword_only = arg_names[pos_count:(pos_count + keyword_only_count)] annotations = getattr(func, '__annotations__', {}) defaults = func.__defaults__ kwdefaults = getattr(func, '__kwdefaults__', None) if defaults: pos_default_count = len(defaults) else: pos_default_count = 0 parameters = [] # Non-keyword-only parameters w/o defaults. non_default_count = pos_count - pos_default_count for name in positional[:non_default_count]: annotation = annotations.get(name, _empty) parameters.append(Parameter(name, annotation=annotation, kind=_POSITIONAL_OR_KEYWORD)) # ... w/ defaults. for offset, name in enumerate(positional[non_default_count:]): annotation = annotations.get(name, _empty) parameters.append(Parameter(name, annotation=annotation, kind=_POSITIONAL_OR_KEYWORD, default=defaults[offset])) # *args if func_code.co_flags & 0x04: name = arg_names[pos_count + keyword_only_count] annotation = annotations.get(name, _empty) parameters.append(Parameter(name, annotation=annotation, kind=_VAR_POSITIONAL)) # Keyword-only parameters. for name in keyword_only: default = _empty if kwdefaults is not None: default = kwdefaults.get(name, _empty) annotation = annotations.get(name, _empty) parameters.append(Parameter(name, annotation=annotation, kind=_KEYWORD_ONLY, default=default)) # **kwargs if func_code.co_flags & 0x08: index = pos_count + keyword_only_count if func_code.co_flags & 0x04: index += 1 name = arg_names[index] annotation = annotations.get(name, _empty) parameters.append(Parameter(name, annotation=annotation, kind=_VAR_KEYWORD)) return cls(parameters, return_annotation=annotations.get('return', _empty), __validate_parameters__=False) @property def parameters(self): try: return types.MappingProxyType(self._parameters) except AttributeError: return OrderedDict(self._parameters.items()) @property def return_annotation(self): return self._return_annotation def replace(self, parameters=_void, return_annotation=_void): '''Creates a customized copy of the Signature. Pass 'parameters' and/or 'return_annotation' arguments to override them in the new copy. ''' if parameters is _void: parameters = self.parameters.values() if return_annotation is _void: return_annotation = self._return_annotation return type(self)(parameters, return_annotation=return_annotation) def __hash__(self): msg = "unhashable type: '{0}'".format(self.__class__.__name__) raise TypeError(msg) def __eq__(self, other): if (not issubclass(type(other), Signature) or self.return_annotation != other.return_annotation or len(self.parameters) != len(other.parameters)): return False other_positions = dict((param, idx) for idx, param in enumerate(other.parameters.keys())) for idx, (param_name, param) in enumerate(self.parameters.items()): if param.kind == _KEYWORD_ONLY: try: other_param = other.parameters[param_name] except KeyError: return False else: if param != other_param: return False else: try: other_idx = other_positions[param_name] except KeyError: return False else: if (idx != other_idx or param != other.parameters[param_name]): return False return True def __ne__(self, other): return not self.__eq__(other) def _bind(self, args, kwargs, partial=False): '''Private method. Don't use directly.''' arguments = OrderedDict() parameters = iter(self.parameters.values()) parameters_ex = () arg_vals = iter(args) if partial: # Support for binding arguments to 'functools.partial' objects. # See 'functools.partial' case in 'signature()' implementation # for details. for param_name, param in self.parameters.items(): if (param._partial_kwarg and param_name not in kwargs): # Simulating 'functools.partial' behavior kwargs[param_name] = param.default while True: # Let's iterate through the positional arguments and corresponding # parameters try: arg_val = next(arg_vals) except StopIteration: # No more positional arguments try: param = next(parameters) except StopIteration: # No more parameters. That's it. Just need to check that # we have no `kwargs` after this while loop break else: if param.kind == _VAR_POSITIONAL: # That's OK, just empty *args. Let's start parsing # kwargs break elif param.name in kwargs: if param.kind == _POSITIONAL_ONLY: msg = '{arg!r} parameter is positional only, ' \ 'but was passed as a keyword' msg = msg.format(arg=param.name) raise TypeError(msg) parameters_ex = (param,) break elif (param.kind == _VAR_KEYWORD or param.default is not _empty): # That's fine too - we have a default value for this # parameter. So, lets start parsing `kwargs`, starting # with the current parameter parameters_ex = (param,) break else: if partial: parameters_ex = (param,) break else: msg = '{arg!r} parameter lacking default value' msg = msg.format(arg=param.name) raise TypeError(msg) else: # We have a positional argument to process try: param = next(parameters) except StopIteration: raise TypeError('too many positional arguments') else: if param.kind in (_VAR_KEYWORD, _KEYWORD_ONLY): # Looks like we have no parameter for this positional # argument raise TypeError('too many positional arguments') if param.kind == _VAR_POSITIONAL: # We have an '*args'-like argument, let's fill it with # all positional arguments we have left and move on to # the next phase values = [arg_val] values.extend(arg_vals) arguments[param.name] = tuple(values) break if param.name in kwargs: raise TypeError('multiple values for argument ' '{arg!r}'.format(arg=param.name)) arguments[param.name] = arg_val # Now, we iterate through the remaining parameters to process # keyword arguments kwargs_param = None for param in itertools.chain(parameters_ex, parameters): if param.kind == _POSITIONAL_ONLY: # This should never happen in case of a properly built # Signature object (but let's have this check here # to ensure correct behaviour just in case) raise TypeError('{arg!r} parameter is positional only, ' 'but was passed as a keyword'. \ format(arg=param.name)) if param.kind == _VAR_KEYWORD: # Memorize that we have a '**kwargs'-like parameter kwargs_param = param continue param_name = param.name try: arg_val = kwargs.pop(param_name) except KeyError: # We have no value for this parameter. It's fine though, # if it has a default value, or it is an '*args'-like # parameter, left alone by the processing of positional # arguments. if (not partial and param.kind != _VAR_POSITIONAL and param.default is _empty): raise TypeError('{arg!r} parameter lacking default value'. \ format(arg=param_name)) else: arguments[param_name] = arg_val if kwargs: if kwargs_param is not None: # Process our '**kwargs'-like parameter arguments[kwargs_param.name] = kwargs else: raise TypeError('too many keyword arguments') return self._bound_arguments_cls(self, arguments) def bind(self, *args, **kwargs): '''Get a BoundArguments object, that maps the passed `args` and `kwargs` to the function's signature. Raises `TypeError` if the passed arguments can not be bound. ''' return self._bind(args, kwargs) def bind_partial(self, *args, **kwargs): '''Get a BoundArguments object, that partially maps the passed `args` and `kwargs` to the function's signature. Raises `TypeError` if the passed arguments can not be bound. ''' return self._bind(args, kwargs, partial=True) def __str__(self): result = [] render_kw_only_separator = True for idx, param in enumerate(self.parameters.values()): formatted = str(param) kind = param.kind if kind == _VAR_POSITIONAL: # OK, we have an '*args'-like parameter, so we won't need # a '*' to separate keyword-only arguments render_kw_only_separator = False elif kind == _KEYWORD_ONLY and render_kw_only_separator: # We have a keyword-only parameter to render and we haven't # rendered an '*args'-like parameter before, so add a '*' # separator to the parameters list ("foo(arg1, *, arg2)" case) result.append('*') # This condition should be only triggered once, so # reset the flag render_kw_only_separator = False result.append(formatted) rendered = '({0})'.format(', '.join(result)) if self.return_annotation is not _empty: anno = formatannotation(self.return_annotation) rendered += ' -> {0}'.format(anno) return rendered backcall-0.1.0/setup.py0000755000175400017540000000147512273024720017075 0ustar takluyvertakluyver00000000000000#!/usr/bin/env python # -*- coding: utf-8 -*- from distutils.core import setup readme = open('README.rst').read() setup( name='backcall', version='0.1.0', description='Specifications for callback functions passed in to an API', long_description=readme, author='Thomas Kluyver', author_email='takowl@gmail.com', url='https://github.com/takluyver/backcall', packages=['backcall'], license="BSD", classifiers=[ 'Development Status :: 2 - Pre-Alpha', 'Intended Audience :: Developers', 'License :: OSI Approved :: BSD License', 'Natural Language :: English', 'Programming Language :: Python :: 2', 'Programming Language :: Python :: 2.7', 'Programming Language :: Python :: 3', 'Programming Language :: Python :: 3.3', ], )backcall-0.1.0/tests/0000755000175400017540000000000012277250663016526 5ustar takluyvertakluyver00000000000000backcall-0.1.0/tests/__init__.py0000644000175400017540000000005612273024720020625 0ustar takluyvertakluyver00000000000000#!/usr/bin/env python # -*- coding: utf-8 -*- backcall-0.1.0/tests/test_callback_prototypes.py0000644000175400017540000000213012277012215024164 0ustar takluyvertakluyver00000000000000import sys from backcall import callback_prototype @callback_prototype def msg_callback(a, b, c, d=None, e=None, f=None): pass def test_all_args(): @msg_callback.adapt def thingy1(q, w, s, d, e, f): return q, w, s, d, e, f assert not getattr(thingy1, '__wrapped__', None) assert thingy1('A', 'B', 'C', d='D', e='E', f='F') == tuple('ABCDEF') if sys.version_info[0] >= 3: exec("@msg_callback.adapt\n" "def thingy2(t, *, d=None):\n" " return t, d") def test_some_args_kwonly(): assert getattr(thingy2, '__wrapped__', None) assert thingy2('A', 'B', 'C', d='D', e='E', f='F') == ('A', 'D') def test_some_args_defaults(): @msg_callback.adapt def thingy2b(t, d=None): return t, d assert getattr(thingy2b, '__wrapped__', None) assert thingy2b('A', 'B', 'C', d='D', e='E', f='F') == ('A', 'D') def test_no_args(): @msg_callback.adapt def thingy3(): return 'Success' assert getattr(thingy3, '__wrapped__', None) assert thingy3('A', 'B', 'C', d='D', e='E', f='F') == 'Success' backcall-0.1.0/PKG-INFO0000644000175400017540000000462512277250663016470 0ustar takluyvertakluyver00000000000000Metadata-Version: 1.1 Name: backcall Version: 0.1.0 Summary: Specifications for callback functions passed in to an API Home-page: https://github.com/takluyver/backcall Author: Thomas Kluyver Author-email: takowl@gmail.com License: BSD Description: ======== backcall ======== .. image:: https://travis-ci.org/takluyver/backcall.png?branch=master :target: https://travis-ci.org/takluyver/backcall Specifications for callback functions passed in to an API If your code lets other people supply callback functions, it's important to specify the function signature you expect, and check that functions support that. Adding extra parameters later would break other peoples code unless you're careful. backcall provides a way of specifying the callback signature using a prototype function:: from backcall import callback_prototype @callback_prototype def handle_ping(sender, delay=None): # Specify positional parameters without a default, and keyword # parameters with a default. pass def register_ping_handler(callback): # This checks and adapts the function passed in: callback = handle_ping.adapt(callback) ping_callbacks.append(callback) If the callback takes fewer parameters than your prototype, *backcall* will wrap it in a function that discards the extra arguments. If the callback expects more arguments, a TypeError is thrown when it is registered. For more details, see the `docs `_ or the `Demo notebook `_. The tests are run with `pytest `_. In the root directory, execute:: py.test Platform: UNKNOWN Classifier: Development Status :: 2 - Pre-Alpha Classifier: Intended Audience :: Developers Classifier: License :: OSI Approved :: BSD License Classifier: Natural Language :: English Classifier: Programming Language :: Python :: 2 Classifier: Programming Language :: Python :: 2.7 Classifier: Programming Language :: Python :: 3 Classifier: Programming Language :: Python :: 3.3 backcall-0.1.0/README.rst0000644000175400017540000000271712277233564017063 0ustar takluyvertakluyver00000000000000======== backcall ======== .. image:: https://travis-ci.org/takluyver/backcall.png?branch=master :target: https://travis-ci.org/takluyver/backcall Specifications for callback functions passed in to an API If your code lets other people supply callback functions, it's important to specify the function signature you expect, and check that functions support that. Adding extra parameters later would break other peoples code unless you're careful. backcall provides a way of specifying the callback signature using a prototype function:: from backcall import callback_prototype @callback_prototype def handle_ping(sender, delay=None): # Specify positional parameters without a default, and keyword # parameters with a default. pass def register_ping_handler(callback): # This checks and adapts the function passed in: callback = handle_ping.adapt(callback) ping_callbacks.append(callback) If the callback takes fewer parameters than your prototype, *backcall* will wrap it in a function that discards the extra arguments. If the callback expects more arguments, a TypeError is thrown when it is registered. For more details, see the `docs `_ or the `Demo notebook `_. The tests are run with `pytest `_. In the root directory, execute:: py.test