mirror of
https://github.com/moparisthebest/SickRage
synced 2024-11-06 01:15:05 -05:00
772 lines
28 KiB
Python
772 lines
28 KiB
Python
"""``tornado.gen`` is a generator-based interface to make it easier to
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work in an asynchronous environment. Code using the ``gen`` module
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is technically asynchronous, but it is written as a single generator
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instead of a collection of separate functions.
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For example, the following asynchronous handler::
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class AsyncHandler(RequestHandler):
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@asynchronous
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def get(self):
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http_client = AsyncHTTPClient()
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http_client.fetch("http://example.com",
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callback=self.on_fetch)
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def on_fetch(self, response):
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do_something_with_response(response)
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self.render("template.html")
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could be written with ``gen`` as::
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class GenAsyncHandler(RequestHandler):
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@gen.coroutine
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def get(self):
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http_client = AsyncHTTPClient()
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response = yield http_client.fetch("http://example.com")
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do_something_with_response(response)
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self.render("template.html")
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Most asynchronous functions in Tornado return a `.Future`;
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yielding this object returns its `~.Future.result`.
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For functions that do not return ``Futures``, `Task` works with any
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function that takes a ``callback`` keyword argument (most Tornado functions
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can be used in either style, although the ``Future`` style is preferred
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since it is both shorter and provides better exception handling)::
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@gen.coroutine
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def get(self):
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yield gen.Task(AsyncHTTPClient().fetch, "http://example.com")
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You can also yield a list or dict of ``Futures`` and/or ``Tasks``, which will be
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started at the same time and run in parallel; a list or dict of results will
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be returned when they are all finished::
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@gen.coroutine
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def get(self):
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http_client = AsyncHTTPClient()
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response1, response2 = yield [http_client.fetch(url1),
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http_client.fetch(url2)]
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response_dict = yield dict(response3=http_client.fetch(url3),
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response4=http_client.fetch(url4))
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response3 = response_dict['response3']
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response4 = response_dict['response4']
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.. versionchanged:: 3.2
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Dict support added.
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For more complicated interfaces, `Task` can be split into two parts:
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`Callback` and `Wait`::
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class GenAsyncHandler2(RequestHandler):
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@gen.coroutine
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def get(self):
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http_client = AsyncHTTPClient()
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http_client.fetch("http://example.com",
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callback=(yield gen.Callback("key")))
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response = yield gen.Wait("key")
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do_something_with_response(response)
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self.render("template.html")
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The ``key`` argument to `Callback` and `Wait` allows for multiple
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asynchronous operations to be started at different times and proceed
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in parallel: yield several callbacks with different keys, then wait
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for them once all the async operations have started.
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The result of a `Wait` or `Task` yield expression depends on how the callback
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was run. If it was called with no arguments, the result is ``None``. If
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it was called with one argument, the result is that argument. If it was
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called with more than one argument or any keyword arguments, the result
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is an `Arguments` object, which is a named tuple ``(args, kwargs)``.
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"""
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from __future__ import absolute_import, division, print_function, with_statement
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import collections
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import functools
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import itertools
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import sys
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import types
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from tornado.concurrent import Future, TracebackFuture, is_future, chain_future
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from tornado.ioloop import IOLoop
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from tornado import stack_context
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class KeyReuseError(Exception):
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pass
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class UnknownKeyError(Exception):
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pass
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class LeakedCallbackError(Exception):
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pass
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class BadYieldError(Exception):
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pass
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class ReturnValueIgnoredError(Exception):
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pass
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class TimeoutError(Exception):
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"""Exception raised by ``with_timeout``."""
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def engine(func):
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"""Callback-oriented decorator for asynchronous generators.
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This is an older interface; for new code that does not need to be
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compatible with versions of Tornado older than 3.0 the
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`coroutine` decorator is recommended instead.
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This decorator is similar to `coroutine`, except it does not
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return a `.Future` and the ``callback`` argument is not treated
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specially.
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In most cases, functions decorated with `engine` should take
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a ``callback`` argument and invoke it with their result when
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they are finished. One notable exception is the
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`~tornado.web.RequestHandler` :ref:`HTTP verb methods <verbs>`,
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which use ``self.finish()`` in place of a callback argument.
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"""
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func = _make_coroutine_wrapper(func, replace_callback=False)
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@functools.wraps(func)
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def wrapper(*args, **kwargs):
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future = func(*args, **kwargs)
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def final_callback(future):
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if future.result() is not None:
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raise ReturnValueIgnoredError(
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"@gen.engine functions cannot return values: %r" %
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(future.result(),))
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future.add_done_callback(final_callback)
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return wrapper
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def coroutine(func, replace_callback=True):
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"""Decorator for asynchronous generators.
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Any generator that yields objects from this module must be wrapped
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in either this decorator or `engine`.
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Coroutines may "return" by raising the special exception
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`Return(value) <Return>`. In Python 3.3+, it is also possible for
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the function to simply use the ``return value`` statement (prior to
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Python 3.3 generators were not allowed to also return values).
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In all versions of Python a coroutine that simply wishes to exit
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early may use the ``return`` statement without a value.
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Functions with this decorator return a `.Future`. Additionally,
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they may be called with a ``callback`` keyword argument, which
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will be invoked with the future's result when it resolves. If the
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coroutine fails, the callback will not be run and an exception
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will be raised into the surrounding `.StackContext`. The
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``callback`` argument is not visible inside the decorated
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function; it is handled by the decorator itself.
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From the caller's perspective, ``@gen.coroutine`` is similar to
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the combination of ``@return_future`` and ``@gen.engine``.
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"""
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return _make_coroutine_wrapper(func, replace_callback=True)
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def _make_coroutine_wrapper(func, replace_callback):
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"""The inner workings of ``@gen.coroutine`` and ``@gen.engine``.
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The two decorators differ in their treatment of the ``callback``
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argument, so we cannot simply implement ``@engine`` in terms of
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``@coroutine``.
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"""
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@functools.wraps(func)
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def wrapper(*args, **kwargs):
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future = TracebackFuture()
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if replace_callback and 'callback' in kwargs:
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callback = kwargs.pop('callback')
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IOLoop.current().add_future(
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future, lambda future: callback(future.result()))
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try:
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result = func(*args, **kwargs)
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except (Return, StopIteration) as e:
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result = getattr(e, 'value', None)
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except Exception:
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future.set_exc_info(sys.exc_info())
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return future
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else:
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if isinstance(result, types.GeneratorType):
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# Inline the first iteration of Runner.run. This lets us
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# avoid the cost of creating a Runner when the coroutine
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# never actually yields, which in turn allows us to
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# use "optional" coroutines in critical path code without
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# performance penalty for the synchronous case.
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try:
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orig_stack_contexts = stack_context._state.contexts
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yielded = next(result)
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if stack_context._state.contexts is not orig_stack_contexts:
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yielded = TracebackFuture()
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yielded.set_exception(
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stack_context.StackContextInconsistentError(
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'stack_context inconsistency (probably caused '
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'by yield within a "with StackContext" block)'))
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except (StopIteration, Return) as e:
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future.set_result(getattr(e, 'value', None))
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except Exception:
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future.set_exc_info(sys.exc_info())
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else:
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Runner(result, future, yielded)
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return future
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future.set_result(result)
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return future
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return wrapper
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class Return(Exception):
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"""Special exception to return a value from a `coroutine`.
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If this exception is raised, its value argument is used as the
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result of the coroutine::
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@gen.coroutine
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def fetch_json(url):
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response = yield AsyncHTTPClient().fetch(url)
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raise gen.Return(json_decode(response.body))
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In Python 3.3, this exception is no longer necessary: the ``return``
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statement can be used directly to return a value (previously
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``yield`` and ``return`` with a value could not be combined in the
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same function).
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By analogy with the return statement, the value argument is optional,
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but it is never necessary to ``raise gen.Return()``. The ``return``
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statement can be used with no arguments instead.
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"""
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def __init__(self, value=None):
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super(Return, self).__init__()
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self.value = value
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class YieldPoint(object):
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"""Base class for objects that may be yielded from the generator.
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Applications do not normally need to use this class, but it may be
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subclassed to provide additional yielding behavior.
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"""
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def start(self, runner):
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"""Called by the runner after the generator has yielded.
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No other methods will be called on this object before ``start``.
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"""
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raise NotImplementedError()
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def is_ready(self):
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"""Called by the runner to determine whether to resume the generator.
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Returns a boolean; may be called more than once.
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"""
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raise NotImplementedError()
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def get_result(self):
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"""Returns the value to use as the result of the yield expression.
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This method will only be called once, and only after `is_ready`
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has returned true.
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"""
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raise NotImplementedError()
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class Callback(YieldPoint):
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"""Returns a callable object that will allow a matching `Wait` to proceed.
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The key may be any value suitable for use as a dictionary key, and is
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used to match ``Callbacks`` to their corresponding ``Waits``. The key
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must be unique among outstanding callbacks within a single run of the
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generator function, but may be reused across different runs of the same
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function (so constants generally work fine).
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The callback may be called with zero or one arguments; if an argument
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is given it will be returned by `Wait`.
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"""
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def __init__(self, key):
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self.key = key
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def start(self, runner):
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self.runner = runner
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runner.register_callback(self.key)
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def is_ready(self):
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return True
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def get_result(self):
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return self.runner.result_callback(self.key)
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class Wait(YieldPoint):
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"""Returns the argument passed to the result of a previous `Callback`."""
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def __init__(self, key):
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self.key = key
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def start(self, runner):
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self.runner = runner
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def is_ready(self):
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return self.runner.is_ready(self.key)
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def get_result(self):
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return self.runner.pop_result(self.key)
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class WaitAll(YieldPoint):
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"""Returns the results of multiple previous `Callbacks <Callback>`.
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The argument is a sequence of `Callback` keys, and the result is
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a list of results in the same order.
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`WaitAll` is equivalent to yielding a list of `Wait` objects.
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"""
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def __init__(self, keys):
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self.keys = keys
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def start(self, runner):
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self.runner = runner
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def is_ready(self):
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return all(self.runner.is_ready(key) for key in self.keys)
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def get_result(self):
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return [self.runner.pop_result(key) for key in self.keys]
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def Task(func, *args, **kwargs):
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"""Runs a single asynchronous operation.
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Takes a function (and optional additional arguments) and runs it with
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those arguments plus a ``callback`` keyword argument. The argument passed
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to the callback is returned as the result of the yield expression.
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A `Task` is equivalent to a `Callback`/`Wait` pair (with a unique
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key generated automatically)::
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result = yield gen.Task(func, args)
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func(args, callback=(yield gen.Callback(key)))
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result = yield gen.Wait(key)
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.. versionchanged:: 4.0
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``gen.Task`` is now a function that returns a `.Future`, instead of
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a subclass of `YieldPoint`. It still behaves the same way when
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yielded.
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"""
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future = Future()
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def handle_exception(typ, value, tb):
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if future.done():
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return False
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future.set_exc_info((typ, value, tb))
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return True
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def set_result(result):
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if future.done():
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return
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future.set_result(result)
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with stack_context.ExceptionStackContext(handle_exception):
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func(*args, callback=_argument_adapter(set_result), **kwargs)
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return future
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class YieldFuture(YieldPoint):
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def __init__(self, future, io_loop=None):
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self.future = future
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self.io_loop = io_loop or IOLoop.current()
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def start(self, runner):
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if not self.future.done():
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self.runner = runner
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self.key = object()
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runner.register_callback(self.key)
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self.io_loop.add_future(self.future, runner.result_callback(self.key))
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else:
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self.runner = None
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self.result = self.future.result()
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def is_ready(self):
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if self.runner is not None:
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return self.runner.is_ready(self.key)
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else:
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return True
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def get_result(self):
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if self.runner is not None:
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return self.runner.pop_result(self.key).result()
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else:
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return self.result
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class Multi(YieldPoint):
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"""Runs multiple asynchronous operations in parallel.
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Takes a list of ``YieldPoints`` or ``Futures`` and returns a list of
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their responses. It is not necessary to call `Multi` explicitly,
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since the engine will do so automatically when the generator yields
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a list of ``YieldPoints`` or a mixture of ``YieldPoints`` and ``Futures``.
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Instead of a list, the argument may also be a dictionary whose values are
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Futures, in which case a parallel dictionary is returned mapping the same
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keys to their results.
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"""
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def __init__(self, children):
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self.keys = None
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if isinstance(children, dict):
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self.keys = list(children.keys())
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children = children.values()
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self.children = []
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for i in children:
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if is_future(i):
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i = YieldFuture(i)
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self.children.append(i)
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assert all(isinstance(i, YieldPoint) for i in self.children)
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self.unfinished_children = set(self.children)
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def start(self, runner):
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for i in self.children:
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i.start(runner)
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def is_ready(self):
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finished = list(itertools.takewhile(
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lambda i: i.is_ready(), self.unfinished_children))
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self.unfinished_children.difference_update(finished)
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return not self.unfinished_children
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def get_result(self):
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result = (i.get_result() for i in self.children)
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if self.keys is not None:
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return dict(zip(self.keys, result))
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else:
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return list(result)
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def multi_future(children):
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"""Wait for multiple asynchronous futures in parallel.
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Takes a list of ``Futures`` (but *not* other ``YieldPoints``) and returns
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a new Future that resolves when all the other Futures are done.
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If all the ``Futures`` succeeded, the returned Future's result is a list
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of their results. If any failed, the returned Future raises the exception
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of the first one to fail.
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Instead of a list, the argument may also be a dictionary whose values are
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Futures, in which case a parallel dictionary is returned mapping the same
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keys to their results.
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It is not necessary to call `multi_future` explcitly, since the engine will
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do so automatically when the generator yields a list of `Futures`.
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This function is faster than the `Multi` `YieldPoint` because it does not
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require the creation of a stack context.
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.. versionadded:: 4.0
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"""
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if isinstance(children, dict):
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keys = list(children.keys())
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children = children.values()
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else:
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keys = None
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assert all(is_future(i) for i in children)
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unfinished_children = set(children)
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future = Future()
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if not children:
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future.set_result({} if keys is not None else [])
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def callback(f):
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unfinished_children.remove(f)
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if not unfinished_children:
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try:
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result_list = [i.result() for i in children]
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except Exception:
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future.set_exc_info(sys.exc_info())
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else:
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if keys is not None:
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future.set_result(dict(zip(keys, result_list)))
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else:
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future.set_result(result_list)
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for f in children:
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f.add_done_callback(callback)
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return future
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def maybe_future(x):
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"""Converts ``x`` into a `.Future`.
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If ``x`` is already a `.Future`, it is simply returned; otherwise
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it is wrapped in a new `.Future`. This is suitable for use as
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``result = yield gen.maybe_future(f())`` when you don't know whether
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``f()`` returns a `.Future` or not.
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"""
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if is_future(x):
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return x
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else:
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fut = Future()
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fut.set_result(x)
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return fut
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def with_timeout(timeout, future, io_loop=None):
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"""Wraps a `.Future` in a timeout.
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Raises `TimeoutError` if the input future does not complete before
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``timeout``, which may be specified in any form allowed by
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`.IOLoop.add_timeout` (i.e. a `datetime.timedelta` or an absolute time
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relative to `.IOLoop.time`)
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Currently only supports Futures, not other `YieldPoint` classes.
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.. versionadded:: 4.0
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"""
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# TODO: allow yield points in addition to futures?
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# Tricky to do with stack_context semantics.
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#
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# It's tempting to optimize this by cancelling the input future on timeout
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# instead of creating a new one, but A) we can't know if we are the only
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# one waiting on the input future, so cancelling it might disrupt other
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# callers and B) concurrent futures can only be cancelled while they are
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# in the queue, so cancellation cannot reliably bound our waiting time.
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result = Future()
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chain_future(future, result)
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|
if io_loop is None:
|
|
io_loop = IOLoop.current()
|
|
timeout_handle = io_loop.add_timeout(
|
|
timeout,
|
|
lambda: result.set_exception(TimeoutError("Timeout")))
|
|
if isinstance(future, Future):
|
|
# We know this future will resolve on the IOLoop, so we don't
|
|
# need the extra thread-safety of IOLoop.add_future (and we also
|
|
# don't care about StackContext here.
|
|
future.add_done_callback(
|
|
lambda future: io_loop.remove_timeout(timeout_handle))
|
|
else:
|
|
# concurrent.futures.Futures may resolve on any thread, so we
|
|
# need to route them back to the IOLoop.
|
|
io_loop.add_future(
|
|
future, lambda future: io_loop.remove_timeout(timeout_handle))
|
|
return result
|
|
|
|
|
|
_null_future = Future()
|
|
_null_future.set_result(None)
|
|
|
|
moment = Future()
|
|
moment.__doc__ = \
|
|
"""A special object which may be yielded to allow the IOLoop to run for
|
|
one iteration.
|
|
|
|
This is not needed in normal use but it can be helpful in long-running
|
|
coroutines that are likely to yield Futures that are ready instantly.
|
|
|
|
Usage: ``yield gen.moment``
|
|
|
|
.. versionadded:: 4.0
|
|
"""
|
|
moment.set_result(None)
|
|
|
|
|
|
class Runner(object):
|
|
"""Internal implementation of `tornado.gen.engine`.
|
|
|
|
Maintains information about pending callbacks and their results.
|
|
|
|
The results of the generator are stored in ``result_future`` (a
|
|
`.TracebackFuture`)
|
|
"""
|
|
def __init__(self, gen, result_future, first_yielded):
|
|
self.gen = gen
|
|
self.result_future = result_future
|
|
self.future = _null_future
|
|
self.yield_point = None
|
|
self.pending_callbacks = None
|
|
self.results = None
|
|
self.running = False
|
|
self.finished = False
|
|
self.had_exception = False
|
|
self.io_loop = IOLoop.current()
|
|
# For efficiency, we do not create a stack context until we
|
|
# reach a YieldPoint (stack contexts are required for the historical
|
|
# semantics of YieldPoints, but not for Futures). When we have
|
|
# done so, this field will be set and must be called at the end
|
|
# of the coroutine.
|
|
self.stack_context_deactivate = None
|
|
if self.handle_yield(first_yielded):
|
|
self.run()
|
|
|
|
def register_callback(self, key):
|
|
"""Adds ``key`` to the list of callbacks."""
|
|
if self.pending_callbacks is None:
|
|
# Lazily initialize the old-style YieldPoint data structures.
|
|
self.pending_callbacks = set()
|
|
self.results = {}
|
|
if key in self.pending_callbacks:
|
|
raise KeyReuseError("key %r is already pending" % (key,))
|
|
self.pending_callbacks.add(key)
|
|
|
|
def is_ready(self, key):
|
|
"""Returns true if a result is available for ``key``."""
|
|
if self.pending_callbacks is None or key not in self.pending_callbacks:
|
|
raise UnknownKeyError("key %r is not pending" % (key,))
|
|
return key in self.results
|
|
|
|
def set_result(self, key, result):
|
|
"""Sets the result for ``key`` and attempts to resume the generator."""
|
|
self.results[key] = result
|
|
if self.yield_point is not None and self.yield_point.is_ready():
|
|
try:
|
|
self.future.set_result(self.yield_point.get_result())
|
|
except:
|
|
self.future.set_exc_info(sys.exc_info())
|
|
self.yield_point = None
|
|
self.run()
|
|
|
|
def pop_result(self, key):
|
|
"""Returns the result for ``key`` and unregisters it."""
|
|
self.pending_callbacks.remove(key)
|
|
return self.results.pop(key)
|
|
|
|
def run(self):
|
|
"""Starts or resumes the generator, running until it reaches a
|
|
yield point that is not ready.
|
|
"""
|
|
if self.running or self.finished:
|
|
return
|
|
try:
|
|
self.running = True
|
|
while True:
|
|
future = self.future
|
|
if not future.done():
|
|
return
|
|
self.future = None
|
|
try:
|
|
orig_stack_contexts = stack_context._state.contexts
|
|
try:
|
|
value = future.result()
|
|
except Exception:
|
|
self.had_exception = True
|
|
yielded = self.gen.throw(*sys.exc_info())
|
|
else:
|
|
yielded = self.gen.send(value)
|
|
if stack_context._state.contexts is not orig_stack_contexts:
|
|
self.gen.throw(
|
|
stack_context.StackContextInconsistentError(
|
|
'stack_context inconsistency (probably caused '
|
|
'by yield within a "with StackContext" block)'))
|
|
except (StopIteration, Return) as e:
|
|
self.finished = True
|
|
self.future = _null_future
|
|
if self.pending_callbacks and not self.had_exception:
|
|
# If we ran cleanly without waiting on all callbacks
|
|
# raise an error (really more of a warning). If we
|
|
# had an exception then some callbacks may have been
|
|
# orphaned, so skip the check in that case.
|
|
raise LeakedCallbackError(
|
|
"finished without waiting for callbacks %r" %
|
|
self.pending_callbacks)
|
|
self.result_future.set_result(getattr(e, 'value', None))
|
|
self.result_future = None
|
|
self._deactivate_stack_context()
|
|
return
|
|
except Exception:
|
|
self.finished = True
|
|
self.future = _null_future
|
|
self.result_future.set_exc_info(sys.exc_info())
|
|
self.result_future = None
|
|
self._deactivate_stack_context()
|
|
return
|
|
if not self.handle_yield(yielded):
|
|
return
|
|
finally:
|
|
self.running = False
|
|
|
|
def handle_yield(self, yielded):
|
|
if isinstance(yielded, list):
|
|
if all(is_future(f) for f in yielded):
|
|
yielded = multi_future(yielded)
|
|
else:
|
|
yielded = Multi(yielded)
|
|
elif isinstance(yielded, dict):
|
|
if all(is_future(f) for f in yielded.values()):
|
|
yielded = multi_future(yielded)
|
|
else:
|
|
yielded = Multi(yielded)
|
|
|
|
if isinstance(yielded, YieldPoint):
|
|
self.future = TracebackFuture()
|
|
def start_yield_point():
|
|
try:
|
|
yielded.start(self)
|
|
if yielded.is_ready():
|
|
self.future.set_result(
|
|
yielded.get_result())
|
|
else:
|
|
self.yield_point = yielded
|
|
except Exception:
|
|
self.future = TracebackFuture()
|
|
self.future.set_exc_info(sys.exc_info())
|
|
if self.stack_context_deactivate is None:
|
|
# Start a stack context if this is the first
|
|
# YieldPoint we've seen.
|
|
with stack_context.ExceptionStackContext(
|
|
self.handle_exception) as deactivate:
|
|
self.stack_context_deactivate = deactivate
|
|
def cb():
|
|
start_yield_point()
|
|
self.run()
|
|
self.io_loop.add_callback(cb)
|
|
return False
|
|
else:
|
|
start_yield_point()
|
|
elif is_future(yielded):
|
|
self.future = yielded
|
|
if not self.future.done() or self.future is moment:
|
|
self.io_loop.add_future(
|
|
self.future, lambda f: self.run())
|
|
return False
|
|
else:
|
|
self.future = TracebackFuture()
|
|
self.future.set_exception(BadYieldError(
|
|
"yielded unknown object %r" % (yielded,)))
|
|
return True
|
|
|
|
def result_callback(self, key):
|
|
return stack_context.wrap(_argument_adapter(
|
|
functools.partial(self.set_result, key)))
|
|
|
|
def handle_exception(self, typ, value, tb):
|
|
if not self.running and not self.finished:
|
|
self.future = TracebackFuture()
|
|
self.future.set_exc_info((typ, value, tb))
|
|
self.run()
|
|
return True
|
|
else:
|
|
return False
|
|
|
|
def _deactivate_stack_context(self):
|
|
if self.stack_context_deactivate is not None:
|
|
self.stack_context_deactivate()
|
|
self.stack_context_deactivate = None
|
|
|
|
Arguments = collections.namedtuple('Arguments', ['args', 'kwargs'])
|
|
|
|
|
|
def _argument_adapter(callback):
|
|
"""Returns a function that when invoked runs ``callback`` with one arg.
|
|
|
|
If the function returned by this function is called with exactly
|
|
one argument, that argument is passed to ``callback``. Otherwise
|
|
the args tuple and kwargs dict are wrapped in an `Arguments` object.
|
|
"""
|
|
def wrapper(*args, **kwargs):
|
|
if kwargs or len(args) > 1:
|
|
callback(Arguments(args, kwargs))
|
|
elif args:
|
|
callback(args[0])
|
|
else:
|
|
callback(None)
|
|
return wrapper
|