Source code for pyramid.threadlocal
import threading
from pyramid.registry import global_registry
class ThreadLocalManager(threading.local):
def __init__(self, default=None):
# http://code.google.com/p/google-app-engine-django/issues/detail?id=119
# we *must* use a keyword argument for ``default`` here instead
# of a positional argument to work around a bug in the
# implementation of _threading_local.local in Python, which is
# used by GAE instead of _thread.local
self.stack = []
self.default = default
def push(self, info):
self.stack.append(info)
set = push # b/c
def pop(self):
if self.stack:
return self.stack.pop()
def get(self):
try:
return self.stack[-1]
except IndexError:
return self.default()
def clear(self):
self.stack[:] = []
def defaults():
return {'request': None, 'registry': global_registry}
manager = ThreadLocalManager(default=defaults)
[docs]
def get_current_request():
"""
Return the currently active request or ``None`` if no request
is currently active.
This function should be used *extremely sparingly*, usually only
in unit testing code. It's almost always usually a mistake to use
``get_current_request`` outside a testing context because its
usage makes it possible to write code that can be neither easily
tested nor scripted.
"""
return manager.get()['request']
[docs]
def get_current_registry(
context=None,
): # context required by getSiteManager API
"""
Return the currently active :term:`application registry` or the
global application registry if no request is currently active.
This function should be used *extremely sparingly*, usually only
in unit testing code. It's almost always usually a mistake to use
``get_current_registry`` outside a testing context because its
usage makes it possible to write code that can be neither easily
tested nor scripted.
"""
return manager.get()['registry']
class RequestContext:
def __init__(self, request):
self.request = request
def begin(self):
request = self.request
registry = request.registry
manager.push({'registry': registry, 'request': request})
return request
def end(self):
manager.pop()
def __enter__(self):
return self.begin()
def __exit__(self, *args):
self.end()