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# copyright 2003-2012 LOGILAB S.A. (Paris, FRANCE), all rights reserved.
# contact http://www.logilab.fr/ -- mailto:contact@logilab.fr
#
# This file is part of logilab-common.
#
# logilab-common is free software: you can redistribute it and/or modify it under
# the terms of the GNU Lesser General Public License as published by the Free
# Software Foundation, either version 2.1 of the License, or (at your option) any
# later version.
#
# logilab-common is distributed in the hope that it will be useful, but WITHOUT
# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
# FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public License for more
# details.
#
# You should have received a copy of the GNU Lesser General Public License along
# with logilab-common. If not, see <http://www.gnu.org/licenses/>.
"""Deprecation utilities."""
__docformat__ = "restructuredtext en"
import os
import sys
from warnings import warn
from functools import wraps
from logilab.common.changelog import Version
class DeprecationWrapper(object):
"""proxy to print a warning on access to any attribute of the wrapped object
"""
def __init__(self, proxied, msg=None):
self._proxied = proxied
self._msg = msg
def __getattr__(self, attr):
warn(self._msg, DeprecationWarning, stacklevel=2)
return getattr(self._proxied, attr)
def __setattr__(self, attr, value):
if attr in ('_proxied', '_msg'):
self.__dict__[attr] = value
else:
warn(self._msg, DeprecationWarning, stacklevel=2)
setattr(self._proxied, attr, value)
class DeprecationManager(object):
"""Manage the deprecation message handling. Messages are dropped for
versions more recent than the 'compatible' version. Example::
deprecator = deprecation.DeprecationManager("module_name")
deprecator.compatibility('1.3')
deprecator.warn('1.2', "message.")
@deprecator.deprecated('1.2', 'Message')
def any_func():
pass
class AnyClass(object):
__metaclass__ = deprecator.class_deprecated('1.2')
"""
def __init__(self, module_name=None):
"""
"""
self.module_name = module_name
self.compatible_version = None
def compatibility(self, compatible_version):
"""Set the compatible version.
"""
self.compatible_version = Version(compatible_version)
def deprecated(self, version=None, reason=None, stacklevel=2, name=None, doc=None):
"""Display a deprecation message only if the version is older than the
compatible version.
"""
def decorator(func):
message = reason or 'The function "%s" is deprecated'
if '%s' in message:
message %= func.__name__
@wraps(func)
def wrapped(*args, **kwargs):
self.warn(version, message, stacklevel+1)
return func(*args, **kwargs)
return wrapped
return decorator
def class_deprecated(self, version=None):
class metaclass(type):
"""metaclass to print a warning on instantiation of a deprecated class"""
def __call__(cls, *args, **kwargs):
msg = getattr(cls, "__deprecation_warning__",
"%(cls)s is deprecated") % {'cls': cls.__name__}
self.warn(version, msg, stacklevel=3)
return type.__call__(cls, *args, **kwargs)
return metaclass
def moved(self, version, modpath, objname):
"""use to tell that a callable has been moved to a new module.
It returns a callable wrapper, so that when its called a warning is printed
telling where the object can be found, import is done (and not before) and
the actual object is called.
NOTE: the usage is somewhat limited on classes since it will fail if the
wrapper is use in a class ancestors list, use the `class_moved` function
instead (which has no lazy import feature though).
"""
def callnew(*args, **kwargs):
from logilab.common.modutils import load_module_from_name
message = "object %s has been moved to module %s" % (objname, modpath)
self.warn(version, message)
m = load_module_from_name(modpath)
return getattr(m, objname)(*args, **kwargs)
return callnew
def renamed(self, old_name, new_function):
"""use to tell that a callable has been renamed.
It returns a callable wrapper, so that when its called a warning is printed
telling what is the object new name.
"""
@wraps(new_function)
def wrapped(*args, **kwargs):
self.warn(None, (
f"{old_name} has been renamed and is deprecated, uses {new_function.__name__} "
f"instead"
), stacklevel=3)
return new_function(*args, **kwargs)
return wrapped
def class_renamed(self, version, old_name, new_class, message=None):
clsdict = {}
if message is None:
message = '%s is deprecated, use %s' % (old_name, new_class.__name__)
clsdict['__deprecation_warning__'] = message
try:
# new-style class
return self.class_deprecated(version)(old_name, (new_class,), clsdict)
except (NameError, TypeError):
# old-style class
warn = self.warn
class DeprecatedClass(new_class):
"""FIXME: There might be a better way to handle old/new-style class
"""
def __init__(self, *args, **kwargs):
warn(version, message, stacklevel=3)
new_class.__init__(self, *args, **kwargs)
return DeprecatedClass
def class_moved(self, version, new_class, old_name=None, message=None):
"""nice wrapper around class_renamed when a class has been moved into
another module
"""
if old_name is None:
old_name = new_class.__name__
if message is None:
message = 'class %s is now available as %s.%s' % (
old_name, new_class.__module__, new_class.__name__)
return self.class_renamed(version, old_name, new_class, message)
def warn(self, version=None, reason="", stacklevel=2):
"""Display a deprecation message only if the version is older than the
compatible version.
"""
if (self.compatible_version is None
or version is None
or Version(version) < self.compatible_version):
if self.module_name and version:
reason = '[%s %s] %s' % (self.module_name, version, reason)
elif self.module_name:
reason = '[%s] %s' % (self.module_name, reason)
elif version:
reason = '[%s] %s' % (version, reason)
warn(reason, DeprecationWarning, stacklevel=stacklevel)
_defaultdeprecator = DeprecationManager()
def _get_package_name(number=2):
"""
automagically try to determine the package name from which the warning has
been triggered by loop other calling frames.
If it fails to do so, return an empty string.
"""
frame = sys._getframe()
for i in range(number):
if frame.f_back is None:
break
frame = frame.f_back
if frame.f_globals["__package__"] is not None:
return frame.f_globals["__package__"]
file_name = os.path.split(frame.f_globals["__file__"])[1]
if file_name.endswith(".py"):
file_name = file_name[:-len(".py")]
return file_name
def send_warning(reason, version=None, stacklevel=2):
"""Display a deprecation message only if the version is older than the
compatible version.
"""
module_name = _get_package_name(stacklevel + 1)
if module_name and version:
reason = '[%s %s] %s' % (module_name, version, reason)
elif module_name:
reason = '[%s] %s' % (module_name, reason)
elif version:
reason = '[%s] %s' % (version, reason)
warn(reason, DeprecationWarning, stacklevel=stacklevel)
def argument_removed(old_argument_name):
"""
callable decorator to allow getting backward compatibility for renamed keyword arguments.
>>> @argument_removed("old")
... def some_function(new):
... return new
>>> some_function(old=42)
sample.py:15: DeprecationWarning: argument old of callable some_function has been renamed and is deprecated, use keyword argument new instead
some_function(old=42)
42
"""
def _wrap(func):
@wraps(func)
def check_kwargs(*args, **kwargs):
if old_argument_name in kwargs:
warn(f"argument {old_argument_name} of callable {func.__name__} has been removed and is "
f"deprecated", stacklevel=2)
del kwargs[old_argument_name]
return func(*args, **kwargs)
return check_kwargs
return _wrap
@argument_removed("name")
@argument_removed("doc")
def deprecated(reason=None, version=None, stacklevel=2):
"""Display a deprecation message only if the version is older than the
compatible version.
"""
def decorator(func):
message = reason or 'The function "%s" is deprecated'
if '%s' in message:
message %= func.__name__
@wraps(func)
def wrapped(*args, **kwargs):
send_warning(message, version, stacklevel + 1)
return func(*args, **kwargs)
return wrapped
return decorator
class class_deprecated(type):
"""metaclass to print a warning on instantiation of a deprecated class"""
def __call__(cls, *args, **kwargs):
msg = getattr(cls, "__deprecation_warning__",
"%(cls)s is deprecated") % {'cls': cls.__name__}
send_warning(msg, stacklevel=4)
return type.__call__(cls, *args, **kwargs)
def moved(modpath, objname, version=None, stacklevel=2):
"""use to tell that a callable has been moved to a new module.
It returns a callable wrapper, so that when its called a warning is printed
telling where the object can be found, import is done (and not before) and
the actual object is called.
NOTE: the usage is somewhat limited on classes since it will fail if the
wrapper is use in a class ancestors list, use the `class_moved` function
instead (which has no lazy import feature though).
"""
message = "object %s has been moved to module %s" % (objname, modpath)
def callnew(*args, **kwargs):
from logilab.common.modutils import load_module_from_name
send_warning(message, version=version, stacklevel=stacklevel + 1)
m = load_module_from_name(modpath)
return getattr(m, objname)(*args, **kwargs)
return callnew
def attribute_renamed(old_name, new_name):
"""
class decorator to allow getting backward compatibility for renamed attributes.
>>> @attribute_renamed(old_name="old", new_name="new")
... class SomeClass:
... def __init__(self):
... self.new = 42
>>> some_class = SomeClass()
>>> print(some_class.old)
sample.py:15: DeprecationWarning: SomeClass.old has been renamed and is deprecated, use SomeClass.new instead
print(some_class.old)
42
>>> some_class.old = 43
sample.py:16: DeprecationWarning: SomeClass.old has been renamed and is deprecated, use SomeClass.new instead
some_class.old = 43
>>> some_class.old == some_class.new
True
"""
def _class_wrap(klass):
reason = (
f"{klass.__name__}.{old_name} has been renamed and is deprecated, use "
f"{klass.__name__}.{new_name} instead"
)
def _get_old(self):
warn(reason, DeprecationWarning, stacklevel=2)
return getattr(self, new_name)
def _set_old(self, value):
warn(reason, DeprecationWarning, stacklevel=2)
setattr(self, new_name, value)
def _del_old(self):
warn(reason, DeprecationWarning, stacklevel=2)
delattr(self, new_name)
setattr(klass, old_name, property(_get_old, _set_old, _del_old))
return klass
return _class_wrap
def argument_renamed(old_name, new_name):
"""
callable decorator to allow getting backward compatibility for renamed keyword arguments.
>>> @argument_renamed(old_name="old", new_name="new")
... def some_function(new):
... return new
>>> some_function(old=42)
sample.py:15: DeprecationWarning: argument old of callable some_function has been renamed and is deprecated, use keyword argument new instead
some_function(old=42)
42
"""
def _wrap(func):
@wraps(func)
def check_kwargs(*args, **kwargs):
if old_name in kwargs and new_name in kwargs:
raise ValueError(f"argument {old_name} of callable {func.__name__} has been "
f"renamed to {new_name} but you are both using {old_name} and "
f"{new_name} has keyword arguments, only uses {new_name}")
if old_name in kwargs:
warn(f"argument {old_name} of callable {func.__name__} has been renamed and is "
f"deprecated, use keyword argument {new_name} instead", stacklevel=2)
kwargs[new_name] = kwargs[old_name]
del kwargs[old_name]
return func(*args, **kwargs)
return check_kwargs
return _wrap
def renamed(old_name, new_function, version=None):
"""use to tell that a callable has been renamed.
It returns a callable wrapper, so that when its called a warning is printed
telling what is the object new name.
>>> old_function = renamed('old_function', new_function)
>>> old_function()
sample.py:57: DeprecationWarning: old_function has been renamed and is deprecated, uses new_function instead
old_function()
>>>
"""
@wraps(new_function)
def wrapped(*args, **kwargs):
send_warning((
f"{old_name} has been renamed and is deprecated, uses {new_function.__name__} "
f"instead"
), stacklevel=3, version=version)
return new_function(*args, **kwargs)
return wrapped
def class_renamed(old_name, new_class, message=None):
"""automatically creates a class which fires a DeprecationWarning
when instantiated.
>>> Set = class_renamed('Set', set, 'Set is now replaced by set')
>>> s = Set()
sample.py:57: DeprecationWarning: Set is now replaced by set
s = Set()
>>>
"""
return _defaultdeprecator.class_renamed(None, old_name, new_class, message)
def class_moved(new_class, old_name=None, message=None):
return _defaultdeprecator.class_moved(None, new_class, old_name, message)
class_moved.__doc__ = _defaultdeprecator.class_moved.__doc__
|