# util/langhelpers.py # Copyright (C) 2005-2017 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """Routines to help with the creation, loading and introspection of modules, classes, hierarchies, attributes, functions, and methods. """ import itertools import inspect import operator import re import sys import types import warnings from functools import update_wrapper from .. import exc import hashlib from . import compat from . import _collections def md5_hex(x): if compat.py3k: x = x.encode('utf-8') m = hashlib.md5() m.update(x) return m.hexdigest() class safe_reraise(object): """Reraise an exception after invoking some handler code. Stores the existing exception info before invoking so that it is maintained across a potential coroutine context switch. e.g.:: try: sess.commit() except: with safe_reraise(): sess.rollback() """ __slots__ = ('warn_only', '_exc_info') def __init__(self, warn_only=False): self.warn_only = warn_only def __enter__(self): self._exc_info = sys.exc_info() def __exit__(self, type_, value, traceback): # see #2703 for notes if type_ is None: exc_type, exc_value, exc_tb = self._exc_info self._exc_info = None # remove potential circular references if not self.warn_only: compat.reraise(exc_type, exc_value, exc_tb) else: if not compat.py3k and self._exc_info and self._exc_info[1]: # emulate Py3K's behavior of telling us when an exception # occurs in an exception handler. warn( "An exception has occurred during handling of a " "previous exception. The previous exception " "is:\n %s %s\n" % (self._exc_info[0], self._exc_info[1])) self._exc_info = None # remove potential circular references compat.reraise(type_, value, traceback) def decode_slice(slc): """decode a slice object as sent to __getitem__. takes into account the 2.5 __index__() method, basically. """ ret = [] for x in slc.start, slc.stop, slc.step: if hasattr(x, '__index__'): x = x.__index__() ret.append(x) return tuple(ret) def _unique_symbols(used, *bases): used = set(used) for base in bases: pool = itertools.chain((base,), compat.itertools_imap(lambda i: base + str(i), range(1000))) for sym in pool: if sym not in used: used.add(sym) yield sym break else: raise NameError("exhausted namespace for symbol base %s" % base) def map_bits(fn, n): """Call the given function given each nonzero bit from n.""" while n: b = n & (~n + 1) yield fn(b) n ^= b def decorator(target): """A signature-matching decorator factory.""" def decorate(fn): if not inspect.isfunction(fn): raise Exception("not a decoratable function") spec = compat.inspect_getfullargspec(fn) names = tuple(spec[0]) + spec[1:3] + (fn.__name__,) targ_name, fn_name = _unique_symbols(names, 'target', 'fn') metadata = dict(target=targ_name, fn=fn_name) metadata.update(format_argspec_plus(spec, grouped=False)) metadata['name'] = fn.__name__ code = """\ def %(name)s(%(args)s): return %(target)s(%(fn)s, %(apply_kw)s) """ % metadata decorated = _exec_code_in_env(code, {targ_name: target, fn_name: fn}, fn.__name__) decorated.__defaults__ = getattr(fn, 'im_func', fn).__defaults__ decorated.__wrapped__ = fn return update_wrapper(decorated, fn) return update_wrapper(decorate, target) def _exec_code_in_env(code, env, fn_name): exec(code, env) return env[fn_name] def public_factory(target, location): """Produce a wrapping function for the given cls or classmethod. Rationale here is so that the __init__ method of the class can serve as documentation for the function. """ if isinstance(target, type): fn = target.__init__ callable_ = target doc = "Construct a new :class:`.%s` object. \n\n"\ "This constructor is mirrored as a public API function; "\ "see :func:`~%s` "\ "for a full usage and argument description." % ( target.__name__, location, ) else: fn = callable_ = target doc = "This function is mirrored; see :func:`~%s` "\ "for a description of arguments." % location location_name = location.split(".")[-1] spec = compat.inspect_getfullargspec(fn) del spec[0][0] metadata = format_argspec_plus(spec, grouped=False) metadata['name'] = location_name code = """\ def %(name)s(%(args)s): return cls(%(apply_kw)s) """ % metadata env = {'cls': callable_, 'symbol': symbol} exec(code, env) decorated = env[location_name] decorated.__doc__ = fn.__doc__ decorated.__module__ = "sqlalchemy" + location.rsplit(".", 1)[0] if compat.py2k or hasattr(fn, '__func__'): fn.__func__.__doc__ = doc else: fn.__doc__ = doc return decorated class PluginLoader(object): def __init__(self, group, auto_fn=None): self.group = group self.impls = {} self.auto_fn = auto_fn def load(self, name): if name in self.impls: return self.impls[name]() if self.auto_fn: loader = self.auto_fn(name) if loader: self.impls[name] = loader return loader() try: import pkg_resources except ImportError: pass else: for impl in pkg_resources.iter_entry_points( self.group, name): self.impls[name] = impl.load return impl.load() raise exc.NoSuchModuleError( "Can't load plugin: %s:%s" % (self.group, name)) def register(self, name, modulepath, objname): def load(): mod = compat.import_(modulepath) for token in modulepath.split(".")[1:]: mod = getattr(mod, token) return getattr(mod, objname) self.impls[name] = load def get_cls_kwargs(cls, _set=None): r"""Return the full set of inherited kwargs for the given `cls`. Probes a class's __init__ method, collecting all named arguments. If the __init__ defines a \**kwargs catch-all, then the constructor is presumed to pass along unrecognized keywords to its base classes, and the collection process is repeated recursively on each of the bases. Uses a subset of inspect.getargspec() to cut down on method overhead. No anonymous tuple arguments please ! """ toplevel = _set is None if toplevel: _set = set() ctr = cls.__dict__.get('__init__', False) has_init = ctr and isinstance(ctr, types.FunctionType) and \ isinstance(ctr.__code__, types.CodeType) if has_init: names, has_kw = inspect_func_args(ctr) _set.update(names) if not has_kw and not toplevel: return None if not has_init or has_kw: for c in cls.__bases__: if get_cls_kwargs(c, _set) is None: break _set.discard('self') return _set try: # TODO: who doesn't have this constant? from inspect import CO_VARKEYWORDS def inspect_func_args(fn): co = fn.__code__ nargs = co.co_argcount names = co.co_varnames args = list(names[:nargs]) has_kw = bool(co.co_flags & CO_VARKEYWORDS) return args, has_kw except ImportError: def inspect_func_args(fn): names, _, has_kw, _ = inspect.getargspec(fn) return names, bool(has_kw) def get_func_kwargs(func): """Return the set of legal kwargs for the given `func`. Uses getargspec so is safe to call for methods, functions, etc. """ return compat.inspect_getargspec(func)[0] def get_callable_argspec(fn, no_self=False, _is_init=False): """Return the argument signature for any callable. All pure-Python callables are accepted, including functions, methods, classes, objects with __call__; builtins and other edge cases like functools.partial() objects raise a TypeError. """ if inspect.isbuiltin(fn): raise TypeError("Can't inspect builtin: %s" % fn) elif inspect.isfunction(fn): if _is_init and no_self: spec = compat.inspect_getargspec(fn) return compat.ArgSpec(spec.args[1:], spec.varargs, spec.keywords, spec.defaults) else: return compat.inspect_getargspec(fn) elif inspect.ismethod(fn): if no_self and (_is_init or fn.__self__): spec = compat.inspect_getargspec(fn.__func__) return compat.ArgSpec(spec.args[1:], spec.varargs, spec.keywords, spec.defaults) else: return compat.inspect_getargspec(fn.__func__) elif inspect.isclass(fn): return get_callable_argspec( fn.__init__, no_self=no_self, _is_init=True) elif hasattr(fn, '__func__'): return compat.inspect_getargspec(fn.__func__) elif hasattr(fn, '__call__'): if inspect.ismethod(fn.__call__): return get_callable_argspec(fn.__call__, no_self=no_self) else: raise TypeError("Can't inspect callable: %s" % fn) else: raise TypeError("Can't inspect callable: %s" % fn) def format_argspec_plus(fn, grouped=True): """Returns a dictionary of formatted, introspected function arguments. A enhanced variant of inspect.formatargspec to support code generation. fn An inspectable callable or tuple of inspect getargspec() results. grouped Defaults to True; include (parens, around, argument) lists Returns: args Full inspect.formatargspec for fn self_arg The name of the first positional argument, varargs[0], or None if the function defines no positional arguments. apply_pos args, re-written in calling rather than receiving syntax. Arguments are passed positionally. apply_kw Like apply_pos, except keyword-ish args are passed as keywords. Example:: >>> format_argspec_plus(lambda self, a, b, c=3, **d: 123) {'args': '(self, a, b, c=3, **d)', 'self_arg': 'self', 'apply_kw': '(self, a, b, c=c, **d)', 'apply_pos': '(self, a, b, c, **d)'} """ if compat.callable(fn): spec = compat.inspect_getfullargspec(fn) else: # we accept an existing argspec... spec = fn args = inspect.formatargspec(*spec) if spec[0]: self_arg = spec[0][0] elif spec[1]: self_arg = '%s[0]' % spec[1] else: self_arg = None if compat.py3k: apply_pos = inspect.formatargspec(spec[0], spec[1], spec[2], None, spec[4]) num_defaults = 0 if spec[3]: num_defaults += len(spec[3]) if spec[4]: num_defaults += len(spec[4]) name_args = spec[0] + spec[4] else: apply_pos = inspect.formatargspec(spec[0], spec[1], spec[2]) num_defaults = 0 if spec[3]: num_defaults += len(spec[3]) name_args = spec[0] if num_defaults: defaulted_vals = name_args[0 - num_defaults:] else: defaulted_vals = () apply_kw = inspect.formatargspec(name_args, spec[1], spec[2], defaulted_vals, formatvalue=lambda x: '=' + x) if grouped: return dict(args=args, self_arg=self_arg, apply_pos=apply_pos, apply_kw=apply_kw) else: return dict(args=args[1:-1], self_arg=self_arg, apply_pos=apply_pos[1:-1], apply_kw=apply_kw[1:-1]) def format_argspec_init(method, grouped=True): """format_argspec_plus with considerations for typical __init__ methods Wraps format_argspec_plus with error handling strategies for typical __init__ cases:: object.__init__ -> (self) other unreflectable (usually C) -> (self, *args, **kwargs) """ if method is object.__init__: args = grouped and '(self)' or 'self' else: try: return format_argspec_plus(method, grouped=grouped) except TypeError: args = (grouped and '(self, *args, **kwargs)' or 'self, *args, **kwargs') return dict(self_arg='self', args=args, apply_pos=args, apply_kw=args) def getargspec_init(method): """inspect.getargspec with considerations for typical __init__ methods Wraps inspect.getargspec with error handling for typical __init__ cases:: object.__init__ -> (self) other unreflectable (usually C) -> (self, *args, **kwargs) """ try: return compat.inspect_getargspec(method) except TypeError: if method is object.__init__: return (['self'], None, None, None) else: return (['self'], 'args', 'kwargs', None) def unbound_method_to_callable(func_or_cls): """Adjust the incoming callable such that a 'self' argument is not required. """ if isinstance(func_or_cls, types.MethodType) and not func_or_cls.__self__: return func_or_cls.__func__ else: return func_or_cls def generic_repr(obj, additional_kw=(), to_inspect=None, omit_kwarg=()): """Produce a __repr__() based on direct association of the __init__() specification vs. same-named attributes present. """ if to_inspect is None: to_inspect = [obj] else: to_inspect = _collections.to_list(to_inspect) missing = object() pos_args = [] kw_args = _collections.OrderedDict() vargs = None for i, insp in enumerate(to_inspect): try: (_args, _vargs, vkw, defaults) = \ compat.inspect_getargspec(insp.__init__) except TypeError: continue else: default_len = defaults and len(defaults) or 0 if i == 0: if _vargs: vargs = _vargs if default_len: pos_args.extend(_args[1:-default_len]) else: pos_args.extend(_args[1:]) else: kw_args.update([ (arg, missing) for arg in _args[1:-default_len] ]) if default_len: kw_args.update([ (arg, default) for arg, default in zip(_args[-default_len:], defaults) ]) output = [] output.extend(repr(getattr(obj, arg, None)) for arg in pos_args) if vargs is not None and hasattr(obj, vargs): output.extend([repr(val) for val in getattr(obj, vargs)]) for arg, defval in kw_args.items(): if arg in omit_kwarg: continue try: val = getattr(obj, arg, missing) if val is not missing and val != defval: output.append('%s=%r' % (arg, val)) except Exception: pass if additional_kw: for arg, defval in additional_kw: try: val = getattr(obj, arg, missing) if val is not missing and val != defval: output.append('%s=%r' % (arg, val)) except Exception: pass return "%s(%s)" % (obj.__class__.__name__, ", ".join(output)) class portable_instancemethod(object): """Turn an instancemethod into a (parent, name) pair to produce a serializable callable. """ __slots__ = 'target', 'name', 'kwargs', '__weakref__' def __getstate__(self): return {'target': self.target, 'name': self.name, 'kwargs': self.kwargs} def __setstate__(self, state): self.target = state['target'] self.name = state['name'] self.kwargs = state.get('kwargs', ()) def __init__(self, meth, kwargs=()): self.target = meth.__self__ self.name = meth.__name__ self.kwargs = kwargs def __call__(self, *arg, **kw): kw.update(self.kwargs) return getattr(self.target, self.name)(*arg, **kw) def class_hierarchy(cls): """Return an unordered sequence of all classes related to cls. Traverses diamond hierarchies. Fibs slightly: subclasses of builtin types are not returned. Thus class_hierarchy(class A(object)) returns (A, object), not A plus every class systemwide that derives from object. Old-style classes are discarded and hierarchies rooted on them will not be descended. """ if compat.py2k: if isinstance(cls, types.ClassType): return list() hier = set([cls]) process = list(cls.__mro__) while process: c = process.pop() if compat.py2k: if isinstance(c, types.ClassType): continue bases = (_ for _ in c.__bases__ if _ not in hier and not isinstance(_, types.ClassType)) else: bases = (_ for _ in c.__bases__ if _ not in hier) for b in bases: process.append(b) hier.add(b) if compat.py3k: if c.__module__ == 'builtins' or not hasattr(c, '__subclasses__'): continue else: if c.__module__ == '__builtin__' or not hasattr( c, '__subclasses__'): continue for s in [_ for _ in c.__subclasses__() if _ not in hier]: process.append(s) hier.add(s) return list(hier) def iterate_attributes(cls): """iterate all the keys and attributes associated with a class, without using getattr(). Does not use getattr() so that class-sensitive descriptors (i.e. property.__get__()) are not called. """ keys = dir(cls) for key in keys: for c in cls.__mro__: if key in c.__dict__: yield (key, c.__dict__[key]) break def monkeypatch_proxied_specials(into_cls, from_cls, skip=None, only=None, name='self.proxy', from_instance=None): """Automates delegation of __specials__ for a proxying type.""" if only: dunders = only else: if skip is None: skip = ('__slots__', '__del__', '__getattribute__', '__metaclass__', '__getstate__', '__setstate__') dunders = [m for m in dir(from_cls) if (m.startswith('__') and m.endswith('__') and not hasattr(into_cls, m) and m not in skip)] for method in dunders: try: fn = getattr(from_cls, method) if not hasattr(fn, '__call__'): continue fn = getattr(fn, 'im_func', fn) except AttributeError: continue try: spec = compat.inspect_getargspec(fn) fn_args = inspect.formatargspec(spec[0]) d_args = inspect.formatargspec(spec[0][1:]) except TypeError: fn_args = '(self, *args, **kw)' d_args = '(*args, **kw)' py = ("def %(method)s%(fn_args)s: " "return %(name)s.%(method)s%(d_args)s" % locals()) env = from_instance is not None and {name: from_instance} or {} compat.exec_(py, env) try: env[method].__defaults__ = fn.__defaults__ except AttributeError: pass setattr(into_cls, method, env[method]) def methods_equivalent(meth1, meth2): """Return True if the two methods are the same implementation.""" return getattr(meth1, '__func__', meth1) is getattr( meth2, '__func__', meth2) def as_interface(obj, cls=None, methods=None, required=None): """Ensure basic interface compliance for an instance or dict of callables. Checks that ``obj`` implements public methods of ``cls`` or has members listed in ``methods``. If ``required`` is not supplied, implementing at least one interface method is sufficient. Methods present on ``obj`` that are not in the interface are ignored. If ``obj`` is a dict and ``dict`` does not meet the interface requirements, the keys of the dictionary are inspected. Keys present in ``obj`` that are not in the interface will raise TypeErrors. Raises TypeError if ``obj`` does not meet the interface criteria. In all passing cases, an object with callable members is returned. In the simple case, ``obj`` is returned as-is; if dict processing kicks in then an anonymous class is returned. obj A type, instance, or dictionary of callables. cls Optional, a type. All public methods of cls are considered the interface. An ``obj`` instance of cls will always pass, ignoring ``required``.. methods Optional, a sequence of method names to consider as the interface. required Optional, a sequence of mandatory implementations. If omitted, an ``obj`` that provides at least one interface method is considered sufficient. As a convenience, required may be a type, in which case all public methods of the type are required. """ if not cls and not methods: raise TypeError('a class or collection of method names are required') if isinstance(cls, type) and isinstance(obj, cls): return obj interface = set(methods or [m for m in dir(cls) if not m.startswith('_')]) implemented = set(dir(obj)) complies = operator.ge if isinstance(required, type): required = interface elif not required: required = set() complies = operator.gt else: required = set(required) if complies(implemented.intersection(interface), required): return obj # No dict duck typing here. if not isinstance(obj, dict): qualifier = complies is operator.gt and 'any of' or 'all of' raise TypeError("%r does not implement %s: %s" % ( obj, qualifier, ', '.join(interface))) class AnonymousInterface(object): """A callable-holding shell.""" if cls: AnonymousInterface.__name__ = 'Anonymous' + cls.__name__ found = set() for method, impl in dictlike_iteritems(obj): if method not in interface: raise TypeError("%r: unknown in this interface" % method) if not compat.callable(impl): raise TypeError("%r=%r is not callable" % (method, impl)) setattr(AnonymousInterface, method, staticmethod(impl)) found.add(method) if complies(found, required): return AnonymousInterface raise TypeError("dictionary does not contain required keys %s" % ', '.join(required - found)) class memoized_property(object): """A read-only @property that is only evaluated once.""" def __init__(self, fget, doc=None): self.fget = fget self.__doc__ = doc or fget.__doc__ self.__name__ = fget.__name__ def __get__(self, obj, cls): if obj is None: return self obj.__dict__[self.__name__] = result = self.fget(obj) return result def _reset(self, obj): memoized_property.reset(obj, self.__name__) @classmethod def reset(cls, obj, name): obj.__dict__.pop(name, None) def memoized_instancemethod(fn): """Decorate a method memoize its return value. Best applied to no-arg methods: memoization is not sensitive to argument values, and will always return the same value even when called with different arguments. """ def oneshot(self, *args, **kw): result = fn(self, *args, **kw) memo = lambda *a, **kw: result memo.__name__ = fn.__name__ memo.__doc__ = fn.__doc__ self.__dict__[fn.__name__] = memo return result return update_wrapper(oneshot, fn) class group_expirable_memoized_property(object): """A family of @memoized_properties that can be expired in tandem.""" def __init__(self, attributes=()): self.attributes = [] if attributes: self.attributes.extend(attributes) def expire_instance(self, instance): """Expire all memoized properties for *instance*.""" stash = instance.__dict__ for attribute in self.attributes: stash.pop(attribute, None) def __call__(self, fn): self.attributes.append(fn.__name__) return memoized_property(fn) def method(self, fn): self.attributes.append(fn.__name__) return memoized_instancemethod(fn) class MemoizedSlots(object): """Apply memoized items to an object using a __getattr__ scheme. This allows the functionality of memoized_property and memoized_instancemethod to be available to a class using __slots__. """ __slots__ = () def _fallback_getattr(self, key): raise AttributeError(key) def __getattr__(self, key): if key.startswith('_memoized'): raise AttributeError(key) elif hasattr(self, '_memoized_attr_%s' % key): value = getattr(self, '_memoized_attr_%s' % key)() setattr(self, key, value) return value elif hasattr(self, '_memoized_method_%s' % key): fn = getattr(self, '_memoized_method_%s' % key) def oneshot(*args, **kw): result = fn(*args, **kw) memo = lambda *a, **kw: result memo.__name__ = fn.__name__ memo.__doc__ = fn.__doc__ setattr(self, key, memo) return result oneshot.__doc__ = fn.__doc__ return oneshot else: return self._fallback_getattr(key) def dependency_for(modulename): def decorate(obj): # TODO: would be nice to improve on this import silliness, # unfortunately importlib doesn't work that great either tokens = modulename.split(".") mod = compat.import_( ".".join(tokens[0:-1]), globals(), locals(), tokens[-1]) mod = getattr(mod, tokens[-1]) setattr(mod, obj.__name__, obj) return obj return decorate class dependencies(object): """Apply imported dependencies as arguments to a function. E.g.:: @util.dependencies( "sqlalchemy.sql.widget", "sqlalchemy.engine.default" ); def some_func(self, widget, default, arg1, arg2, **kw): # ... Rationale is so that the impact of a dependency cycle can be associated directly with the few functions that cause the cycle, and not pollute the module-level namespace. """ def __init__(self, *deps): self.import_deps = [] for dep in deps: tokens = dep.split(".") self.import_deps.append( dependencies._importlater( ".".join(tokens[0:-1]), tokens[-1] ) ) def __call__(self, fn): import_deps = self.import_deps spec = compat.inspect_getfullargspec(fn) spec_zero = list(spec[0]) hasself = spec_zero[0] in ('self', 'cls') for i in range(len(import_deps)): spec[0][i + (1 if hasself else 0)] = "import_deps[%r]" % i inner_spec = format_argspec_plus(spec, grouped=False) for impname in import_deps: del spec_zero[1 if hasself else 0] spec[0][:] = spec_zero outer_spec = format_argspec_plus(spec, grouped=False) code = 'lambda %(args)s: fn(%(apply_kw)s)' % { "args": outer_spec['args'], "apply_kw": inner_spec['apply_kw'] } decorated = eval(code, locals()) decorated.__defaults__ = getattr(fn, 'im_func', fn).__defaults__ return update_wrapper(decorated, fn) @classmethod def resolve_all(cls, path): for m in list(dependencies._unresolved): if m._full_path.startswith(path): m._resolve() _unresolved = set() _by_key = {} class _importlater(object): _unresolved = set() _by_key = {} def __new__(cls, path, addtl): key = path + "." + addtl if key in dependencies._by_key: return dependencies._by_key[key] else: dependencies._by_key[key] = imp = object.__new__(cls) return imp def __init__(self, path, addtl): self._il_path = path self._il_addtl = addtl dependencies._unresolved.add(self) @property def _full_path(self): return self._il_path + "." + self._il_addtl @memoized_property def module(self): if self in dependencies._unresolved: raise ImportError( "importlater.resolve_all() hasn't " "been called (this is %s %s)" % (self._il_path, self._il_addtl)) return getattr(self._initial_import, self._il_addtl) def _resolve(self): dependencies._unresolved.discard(self) self._initial_import = compat.import_( self._il_path, globals(), locals(), [self._il_addtl]) def __getattr__(self, key): if key == 'module': raise ImportError("Could not resolve module %s" % self._full_path) try: attr = getattr(self.module, key) except AttributeError: raise AttributeError( "Module %s has no attribute '%s'" % (self._full_path, key) ) self.__dict__[key] = attr return attr # from paste.deploy.converters def asbool(obj): if isinstance(obj, compat.string_types): obj = obj.strip().lower() if obj in ['true', 'yes', 'on', 'y', 't', '1']: return True elif obj in ['false', 'no', 'off', 'n', 'f', '0']: return False else: raise ValueError("String is not true/false: %r" % obj) return bool(obj) def bool_or_str(*text): """Return a callable that will evaluate a string as boolean, or one of a set of "alternate" string values. """ def bool_or_value(obj): if obj in text: return obj else: return asbool(obj) return bool_or_value def asint(value): """Coerce to integer.""" if value is None: return value return int(value) def coerce_kw_type(kw, key, type_, flexi_bool=True): r"""If 'key' is present in dict 'kw', coerce its value to type 'type\_' if necessary. If 'flexi_bool' is True, the string '0' is considered false when coercing to boolean. """ if key in kw and not isinstance(kw[key], type_) and kw[key] is not None: if type_ is bool and flexi_bool: kw[key] = asbool(kw[key]) else: kw[key] = type_(kw[key]) def constructor_copy(obj, cls, *args, **kw): """Instantiate cls using the __dict__ of obj as constructor arguments. Uses inspect to match the named arguments of ``cls``. """ names = get_cls_kwargs(cls) kw.update( (k, obj.__dict__[k]) for k in names.difference(kw) if k in obj.__dict__) return cls(*args, **kw) def counter(): """Return a threadsafe counter function.""" lock = compat.threading.Lock() counter = itertools.count(1) # avoid the 2to3 "next" transformation... def _next(): lock.acquire() try: return next(counter) finally: lock.release() return _next def duck_type_collection(specimen, default=None): """Given an instance or class, guess if it is or is acting as one of the basic collection types: list, set and dict. If the __emulates__ property is present, return that preferentially. """ if hasattr(specimen, '__emulates__'): # canonicalize set vs sets.Set to a standard: the builtin set if (specimen.__emulates__ is not None and issubclass(specimen.__emulates__, set)): return set else: return specimen.__emulates__ isa = isinstance(specimen, type) and issubclass or isinstance if isa(specimen, list): return list elif isa(specimen, set): return set elif isa(specimen, dict): return dict if hasattr(specimen, 'append'): return list elif hasattr(specimen, 'add'): return set elif hasattr(specimen, 'set'): return dict else: return default def assert_arg_type(arg, argtype, name): if isinstance(arg, argtype): return arg else: if isinstance(argtype, tuple): raise exc.ArgumentError( "Argument '%s' is expected to be one of type %s, got '%s'" % (name, ' or '.join("'%s'" % a for a in argtype), type(arg))) else: raise exc.ArgumentError( "Argument '%s' is expected to be of type '%s', got '%s'" % (name, argtype, type(arg))) def dictlike_iteritems(dictlike): """Return a (key, value) iterator for almost any dict-like object.""" if compat.py3k: if hasattr(dictlike, 'items'): return list(dictlike.items()) else: if hasattr(dictlike, 'iteritems'): return dictlike.iteritems() elif hasattr(dictlike, 'items'): return iter(dictlike.items()) getter = getattr(dictlike, '__getitem__', getattr(dictlike, 'get', None)) if getter is None: raise TypeError( "Object '%r' is not dict-like" % dictlike) if hasattr(dictlike, 'iterkeys'): def iterator(): for key in dictlike.iterkeys(): yield key, getter(key) return iterator() elif hasattr(dictlike, 'keys'): return iter((key, getter(key)) for key in dictlike.keys()) else: raise TypeError( "Object '%r' is not dict-like" % dictlike) class classproperty(property): """A decorator that behaves like @property except that operates on classes rather than instances. The decorator is currently special when using the declarative module, but note that the :class:`~.sqlalchemy.ext.declarative.declared_attr` decorator should be used for this purpose with declarative. """ def __init__(self, fget, *arg, **kw): super(classproperty, self).__init__(fget, *arg, **kw) self.__doc__ = fget.__doc__ def __get__(desc, self, cls): return desc.fget(cls) class hybridproperty(object): def __init__(self, func): self.func = func def __get__(self, instance, owner): if instance is None: clsval = self.func(owner) clsval.__doc__ = self.func.__doc__ return clsval else: return self.func(instance) class hybridmethod(object): """Decorate a function as cls- or instance- level.""" def __init__(self, func): self.func = func def __get__(self, instance, owner): if instance is None: return self.func.__get__(owner, owner.__class__) else: return self.func.__get__(instance, owner) class _symbol(int): def __new__(self, name, doc=None, canonical=None): """Construct a new named symbol.""" assert isinstance(name, compat.string_types) if canonical is None: canonical = hash(name) v = int.__new__(_symbol, canonical) v.name = name if doc: v.__doc__ = doc return v def __reduce__(self): return symbol, (self.name, "x", int(self)) def __str__(self): return repr(self) def __repr__(self): return "symbol(%r)" % self.name _symbol.__name__ = 'symbol' class symbol(object): """A constant symbol. >>> symbol('foo') is symbol('foo') True >>> symbol('foo') A slight refinement of the MAGICCOOKIE=object() pattern. The primary advantage of symbol() is its repr(). They are also singletons. Repeated calls of symbol('name') will all return the same instance. The optional ``doc`` argument assigns to ``__doc__``. This is strictly so that Sphinx autoattr picks up the docstring we want (it doesn't appear to pick up the in-module docstring if the datamember is in a different module - autoattribute also blows up completely). If Sphinx fixes/improves this then we would no longer need ``doc`` here. """ symbols = {} _lock = compat.threading.Lock() def __new__(cls, name, doc=None, canonical=None): cls._lock.acquire() try: sym = cls.symbols.get(name) if sym is None: cls.symbols[name] = sym = _symbol(name, doc, canonical) return sym finally: symbol._lock.release() _creation_order = 1 def set_creation_order(instance): """Assign a '_creation_order' sequence to the given instance. This allows multiple instances to be sorted in order of creation (typically within a single thread; the counter is not particularly threadsafe). """ global _creation_order instance._creation_order = _creation_order _creation_order += 1 def warn_exception(func, *args, **kwargs): """executes the given function, catches all exceptions and converts to a warning. """ try: return func(*args, **kwargs) except Exception: warn("%s('%s') ignored" % sys.exc_info()[0:2]) def ellipses_string(value, len_=25): try: if len(value) > len_: return "%s..." % value[0:len_] else: return value except TypeError: return value class _hash_limit_string(compat.text_type): """A string subclass that can only be hashed on a maximum amount of unique values. This is used for warnings so that we can send out parameterized warnings without the __warningregistry__ of the module, or the non-overridable "once" registry within warnings.py, overloading memory, """ def __new__(cls, value, num, args): interpolated = (value % args) + \ (" (this warning may be suppressed after %d occurrences)" % num) self = super(_hash_limit_string, cls).__new__(cls, interpolated) self._hash = hash("%s_%d" % (value, hash(interpolated) % num)) return self def __hash__(self): return self._hash def __eq__(self, other): return hash(self) == hash(other) def warn(msg): """Issue a warning. If msg is a string, :class:`.exc.SAWarning` is used as the category. """ warnings.warn(msg, exc.SAWarning, stacklevel=2) def warn_limited(msg, args): """Issue a warning with a paramterized string, limiting the number of registrations. """ if args: msg = _hash_limit_string(msg, 10, args) warnings.warn(msg, exc.SAWarning, stacklevel=2) def only_once(fn): """Decorate the given function to be a no-op after it is called exactly once.""" once = [fn] def go(*arg, **kw): if once: once_fn = once.pop() return once_fn(*arg, **kw) return go _SQLA_RE = re.compile(r'sqlalchemy/([a-z_]+/){0,2}[a-z_]+\.py') _UNITTEST_RE = re.compile(r'unit(?:2|test2?/)') def chop_traceback(tb, exclude_prefix=_UNITTEST_RE, exclude_suffix=_SQLA_RE): """Chop extraneous lines off beginning and end of a traceback. :param tb: a list of traceback lines as returned by ``traceback.format_stack()`` :param exclude_prefix: a regular expression object matching lines to skip at beginning of ``tb`` :param exclude_suffix: a regular expression object matching lines to skip at end of ``tb`` """ start = 0 end = len(tb) - 1 while start <= end and exclude_prefix.search(tb[start]): start += 1 while start <= end and exclude_suffix.search(tb[end]): end -= 1 return tb[start:end + 1] NoneType = type(None) def attrsetter(attrname): code = \ "def set(obj, value):"\ " obj.%s = value" % attrname env = locals().copy() exec(code, env) return env['set'] class EnsureKWArgType(type): """Apply translation of functions to accept **kw arguments if they don't already. """ def __init__(cls, clsname, bases, clsdict): fn_reg = cls.ensure_kwarg if fn_reg: for key in clsdict: m = re.match(fn_reg, key) if m: fn = clsdict[key] spec = compat.inspect_getargspec(fn) if not spec.keywords: clsdict[key] = wrapped = cls._wrap_w_kw(fn) setattr(cls, key, wrapped) super(EnsureKWArgType, cls).__init__(clsname, bases, clsdict) def _wrap_w_kw(self, fn): def wrap(*arg, **kw): return fn(*arg) return update_wrapper(wrap, fn) def wrap_callable(wrapper, fn): """Augment functools.update_wrapper() to work with objects with a ``__call__()`` method. :param fn: object with __call__ method """ if hasattr(fn, '__name__'): return update_wrapper(wrapper, fn) else: _f = wrapper _f.__name__ = fn.__class__.__name__ if hasattr(fn, '__module__'): _f.__module__ = fn.__module__ if hasattr(fn.__call__, '__doc__') and fn.__call__.__doc__: _f.__doc__ = fn.__call__.__doc__ elif fn.__doc__: _f.__doc__ = fn.__doc__ return _f