Source code for django.utils.decorators
"Functions that help with dynamically creating decorators for views."
try:
from contextlib import ContextDecorator
except ImportError:
ContextDecorator = None
from functools import WRAPPER_ASSIGNMENTS, update_wrapper, wraps
from django.utils import six
class classonlymethod(classmethod):
def __get__(self, instance, cls=None):
if instance is not None:
raise AttributeError("This method is available only on the class, not on instances.")
return super(classonlymethod, self).__get__(instance, cls)
[문서]def method_decorator(decorator, name=''):
"""
Converts a function decorator into a method decorator
"""
# 'obj' can be a class or a function. If 'obj' is a function at the time it
# is passed to _dec, it will eventually be a method of the class it is
# defined on. If 'obj' is a class, the 'name' is required to be the name
# of the method that will be decorated.
def _dec(obj):
is_class = isinstance(obj, type)
if is_class:
if name and hasattr(obj, name):
func = getattr(obj, name)
if not callable(func):
raise TypeError(
"Cannot decorate '{0}' as it isn't a callable "
"attribute of {1} ({2})".format(name, obj, func)
)
else:
raise ValueError(
"The keyword argument `name` must be the name of a method "
"of the decorated class: {0}. Got '{1}' instead".format(
obj, name,
)
)
else:
func = obj
def decorate(function):
"""
Apply a list/tuple of decorators if decorator is one. Decorator
functions are applied so that the call order is the same as the
order in which they appear in the iterable.
"""
if hasattr(decorator, '__iter__'):
for dec in decorator[::-1]:
function = dec(function)
return function
return decorator(function)
def _wrapper(self, *args, **kwargs):
@decorate
def bound_func(*args2, **kwargs2):
return func.__get__(self, type(self))(*args2, **kwargs2)
# bound_func has the signature that 'decorator' expects i.e. no
# 'self' argument, but it is a closure over self so it can call
# 'func' correctly.
return bound_func(*args, **kwargs)
# In case 'decorator' adds attributes to the function it decorates, we
# want to copy those. We don't have access to bound_func in this scope,
# but we can cheat by using it on a dummy function.
@decorate
def dummy(*args, **kwargs):
pass
update_wrapper(_wrapper, dummy)
# Need to preserve any existing attributes of 'func', including the name.
update_wrapper(_wrapper, func)
if is_class:
setattr(obj, name, _wrapper)
return obj
return _wrapper
# Don't worry about making _dec look similar to a list/tuple as it's rather
# meaningless.
if not hasattr(decorator, '__iter__'):
update_wrapper(_dec, decorator, assigned=available_attrs(decorator))
# Change the name to aid debugging.
if hasattr(decorator, '__name__'):
_dec.__name__ = 'method_decorator(%s)' % decorator.__name__
else:
_dec.__name__ = 'method_decorator(%s)' % decorator.__class__.__name__
return _dec
[문서]def decorator_from_middleware_with_args(middleware_class):
"""
Like decorator_from_middleware, but returns a function
that accepts the arguments to be passed to the middleware_class.
Use like::
cache_page = decorator_from_middleware_with_args(CacheMiddleware)
# ...
@cache_page(3600)
def my_view(request):
# ...
"""
return make_middleware_decorator(middleware_class)
[문서]def decorator_from_middleware(middleware_class):
"""
Given a middleware class (not an instance), returns a view decorator. This
lets you use middleware functionality on a per-view basis. The middleware
is created with no params passed.
"""
return make_middleware_decorator(middleware_class)()
def available_attrs(fn):
"""
Return the list of functools-wrappable attributes on a callable.
This is required as a workaround for http://bugs.python.org/issue3445
under Python 2.
"""
if six.PY3:
return WRAPPER_ASSIGNMENTS
else:
return tuple(a for a in WRAPPER_ASSIGNMENTS if hasattr(fn, a))
def make_middleware_decorator(middleware_class):
def _make_decorator(*m_args, **m_kwargs):
middleware = middleware_class(*m_args, **m_kwargs)
def _decorator(view_func):
@wraps(view_func, assigned=available_attrs(view_func))
def _wrapped_view(request, *args, **kwargs):
if hasattr(middleware, 'process_request'):
result = middleware.process_request(request)
if result is not None:
return result
if hasattr(middleware, 'process_view'):
result = middleware.process_view(request, view_func, args, kwargs)
if result is not None:
return result
try:
response = view_func(request, *args, **kwargs)
except Exception as e:
if hasattr(middleware, 'process_exception'):
result = middleware.process_exception(request, e)
if result is not None:
return result
raise
if hasattr(response, 'render') and callable(response.render):
if hasattr(middleware, 'process_template_response'):
response = middleware.process_template_response(request, response)
# Defer running of process_response until after the template
# has been rendered:
if hasattr(middleware, 'process_response'):
def callback(response):
return middleware.process_response(request, response)
response.add_post_render_callback(callback)
else:
if hasattr(middleware, 'process_response'):
return middleware.process_response(request, response)
return response
return _wrapped_view
return _decorator
return _make_decorator
if ContextDecorator is None:
# ContextDecorator was introduced in Python 3.2
# See https://docs.python.org/3/library/contextlib.html#contextlib.ContextDecorator
class ContextDecorator(object):
"""
A base class that enables a context manager to also be used as a decorator.
"""
def __call__(self, func):
@wraps(func, assigned=available_attrs(func))
def inner(*args, **kwargs):
with self:
return func(*args, **kwargs)
return inner
class classproperty(object):
def __init__(self, method=None):
self.fget = method
def __get__(self, instance, cls=None):
return self.fget(cls)
def getter(self, method):
self.fget = method
return self