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# Copyright 2015 The Tornado Authors
#
# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.

import collections
import datetime
import types

from tornado import gen, ioloop
from tornado.concurrent import Future, future_set_result_unless_cancelled

from typing import Union, Optional, Type, Any, Awaitable
import typing

if typing.TYPE_CHECKING:
    from typing import Deque, Set  # noqa: F401

__all__ = ["Condition", "Event", "Semaphore", "BoundedSemaphore", "Lock"]


class _TimeoutGarbageCollector(object):
    """Base class for objects that periodically clean up timed-out waiters.

    Avoids memory leak in a common pattern like:

        while True:
            yield condition.wait(short_timeout)
            print('looping....')
    """

    def __init__(self) -> None:
        self._waiters = collections.deque()  # type: Deque[Future]
        self._timeouts = 0

    def _garbage_collect(self) -> None:
        # Occasionally clear timed-out waiters.
        self._timeouts += 1
        if self._timeouts > 100:
            self._timeouts = 0
            self._waiters = collections.deque(w for w in self._waiters if not w.done())


class Condition(_TimeoutGarbageCollector):
    """A condition allows one or more coroutines to wait until notified.

    Like a standard `threading.Condition`, but does not need an underlying lock
    that is acquired and released.

    With a `Condition`, coroutines can wait to be notified by other coroutines:

    .. testcode::

        import asyncio
        from tornado import gen
        from tornado.locks import Condition

        condition = Condition()

        async def waiter():
            print("I'll wait right here")
            await condition.wait()
            print("I'm done waiting")

        async def notifier():
            print("About to notify")
            condition.notify()
            print("Done notifying")

        async def runner():
            # Wait for waiter() and notifier() in parallel
            await gen.multi([waiter(), notifier()])

        asyncio.run(runner())

    .. testoutput::

        I'll wait right here
        About to notify
        Done notifying
        I'm done waiting

    `wait` takes an optional ``timeout`` argument, which is either an absolute
    timestamp::

        io_loop = IOLoop.current()

        # Wait up to 1 second for a notification.
        await condition.wait(timeout=io_loop.time() + 1)

    ...or a `datetime.timedelta` for a timeout relative to the current time::

        # Wait up to 1 second.
        await condition.wait(timeout=datetime.timedelta(seconds=1))

    The method returns False if there's no notification before the deadline.

    .. versionchanged:: 5.0
       Previously, waiters could be notified synchronously from within
       `notify`. Now, the notification will always be received on the
       next iteration of the `.IOLoop`.
    """

    def __repr__(self) -> str:
        result = "<%s" % (self.__class__.__name__,)
        if self._waiters:
            result += " waiters[%s]" % len(self._waiters)
        return result + ">"

    def wait(
        self, timeout: Optional[Union[float, datetime.timedelta]] = None
    ) -> Awaitable[bool]:
        """Wait for `.notify`.

        Returns a `.Future` that resolves ``True`` if the condition is notified,
        or ``False`` after a timeout.
        """
        waiter = Future()  # type: Future[bool]
        self._waiters.append(waiter)
        if timeout:

            def on_timeout() -> None:
                if not waiter.done():
                    future_set_result_unless_cancelled(waiter, False)
                self._garbage_collect()

            io_loop = ioloop.IOLoop.current()
            timeout_handle = io_loop.add_timeout(timeout, on_timeout)
            waiter.add_done_callback(lambda _: io_loop.remove_timeout(timeout_handle))
        return waiter

    def notify(self, n: int = 1) -> None:
        """Wake ``n`` waiters."""
        waiters = []  # Waiters we plan to run right now.
        while n and self._waiters:
            waiter = self._waiters.popleft()
            if not waiter.done():  # Might have timed out.
                n -= 1
                waiters.append(waiter)

        for waiter in waiters:
            future_set_result_unless_cancelled(waiter, True)

    def notify_all(self) -> None:
        """Wake all waiters."""
        self.notify(len(self._waiters))


class Event(object):
    """An event blocks coroutines until its internal flag is set to True.

    Similar to `threading.Event`.

    A coroutine can wait for an event to be set. Once it is set, calls to
    ``yield event.wait()`` will not block unless the event has been cleared:

    .. testcode::

        import asyncio
        from tornado import gen
        from tornado.locks import Event

        event = Event()

        async def waiter():
            print("Waiting for event")
            await event.wait()
            print("Not waiting this time")
            await event.wait()
            print("Done")

        async def setter():
            print("About to set the event")
            event.set()

        async def runner():
            await gen.multi([waiter(), setter()])

        asyncio.run(runner())

    .. testoutput::

        Waiting for event
        About to set the event
        Not waiting this time
        Done
    """

    def __init__(self) -> None:
        self._value = False
        self._waiters = set()  # type: Set[Future[None]]

    def __repr__(self) -> str:
        return "<%s %s>" % (
            self.__class__.__name__,
            "set" if self.is_set() else "clear",
        )

    def is_set(self) -> bool:
        """Return ``True`` if the internal flag is true."""
        return self._value

    def set(self) -> None:
        """Set the internal flag to ``True``. All waiters are awakened.

        Calling `.wait` once the flag is set will not block.
        """
        if not self._value:
            self._value = True

            for fut in self._waiters:
                if not fut.done():
                    fut.set_result(None)

    def clear(self) -> None:
        """Reset the internal flag to ``False``.

        Calls to `.wait` will block until `.set` is called.
        """
        self._value = False

    def wait(
        self, timeout: Optional[Union[float, datetime.timedelta]] = None
    ) -> Awaitable[None]:
        """Block until the internal flag is true.

        Returns an awaitable, which raises `tornado.util.TimeoutError` after a
        timeout.
        """
        fut = Future()  # type: Future[None]
        if self._value:
            fut.set_result(None)
            return fut
        self._waiters.add(fut)
        fut.add_done_callback(lambda fut: self._waiters.remove(fut))
        if timeout is None:
            return fut
        else:
            timeout_fut = gen.with_timeout(timeout, fut)
            # This is a slightly clumsy workaround for the fact that
            # gen.with_timeout doesn't cancel its futures. Cancelling
            # fut will remove it from the waiters list.
            timeout_fut.add_done_callback(
                lambda tf: fut.cancel() if not fut.done() else None
            )
            return timeout_fut


class _ReleasingContextManager(object):
    """Releases a Lock or Semaphore at the end of a "with" statement.

    with (yield semaphore.acquire()):
        pass

    # Now semaphore.release() has been called.
    """

    def __init__(self, obj: Any) -> None:
        self._obj = obj

    def __enter__(self) -> None:
        pass

    def __exit__(
        self,
        exc_type: "Optional[Type[BaseException]]",
        exc_val: Optional[BaseException],
        exc_tb: Optional[types.TracebackType],
    ) -> None:
        self._obj.release()


class Semaphore(_TimeoutGarbageCollector):
    """A lock that can be acquired a fixed number of times before blocking.

    A Semaphore manages a counter representing the number of `.release` calls
    minus the number of `.acquire` calls, plus an initial value. The `.acquire`
    method blocks if necessary until it can return without making the counter
    negative.

    Semaphores limit access to a shared resource. To allow access for two
    workers at a time:

    .. testsetup:: semaphore

       from collections import deque

       from tornado import gen
       from tornado.ioloop import IOLoop
       from tornado.concurrent import Future

       inited = False

       async def simulator(futures):
           for f in futures:
               # simulate the asynchronous passage of time
               await gen.sleep(0)
               await gen.sleep(0)
               f.set_result(None)

       def use_some_resource():
           global inited
           global futures_q
           if not inited:
               inited = True
               # Ensure reliable doctest output: resolve Futures one at a time.
               futures_q = deque([Future() for _ in range(3)])
               IOLoop.current().add_callback(simulator, list(futures_q))

           return futures_q.popleft()

    .. testcode:: semaphore

        import asyncio
        from tornado import gen
        from tornado.locks import Semaphore

        sem = Semaphore(2)

        async def worker(worker_id):
            await sem.acquire()
            try:
                print("Worker %d is working" % worker_id)
                await use_some_resource()
            finally:
                print("Worker %d is done" % worker_id)
                sem.release()

        async def runner():
            # Join all workers.
            await gen.multi([worker(i) for i in range(3)])

        asyncio.run(runner())

    .. testoutput:: semaphore

        Worker 0 is working
        Worker 1 is working
        Worker 0 is done
        Worker 2 is working
        Worker 1 is done
        Worker 2 is done

    Workers 0 and 1 are allowed to run concurrently, but worker 2 waits until
    the semaphore has been released once, by worker 0.

    The semaphore can be used as an async context manager::

        async def worker(worker_id):
            async with sem:
                print("Worker %d is working" % worker_id)
                await use_some_resource()

            # Now the semaphore has been released.
            print("Worker %d is done" % worker_id)

    For compatibility with older versions of Python, `.acquire` is a
    context manager, so ``worker`` could also be written as::

        @gen.coroutine
        def worker(worker_id):
            with (yield sem.acquire()):
                print("Worker %d is working" % worker_id)
                yield use_some_resource()

            # Now the semaphore has been released.
            print("Worker %d is done" % worker_id)

    .. versionchanged:: 4.3
       Added ``async with`` support in Python 3.5.

    """

    def __init__(self, value: int = 1) -> None:
        super().__init__()
        if value < 0:
            raise ValueError("semaphore initial value must be >= 0")

        self._value = value

    def __repr__(self) -> str:
        res = super().__repr__()
        extra = (
            "locked" if self._value == 0 else "unlocked,value:{0}".format(self._value)
        )
        if self._waiters:
            extra = "{0},waiters:{1}".format(extra, len(self._waiters))
        return "<{0} [{1}]>".format(res[1:-1], extra)

    def release(self) -> None:
        """Increment the counter and wake one waiter."""
        self._value += 1
        while self._waiters:
            waiter = self._waiters.popleft()
            if not waiter.done():
                self._value -= 1

                # If the waiter is a coroutine paused at
                #
                #     with (yield semaphore.acquire()):
                #
                # then the context manager's __exit__ calls release() at the end
                # of the "with" block.
                waiter.set_result(_ReleasingContextManager(self))
                break

    def acquire(
        self, timeout: Optional[Union[float, datetime.timedelta]] = None
    ) -> Awaitable[_ReleasingContextManager]:
        """Decrement the counter. Returns an awaitable.

        Block if the counter is zero and wait for a `.release`. The awaitable
        raises `.TimeoutError` after the deadline.
        """
        waiter = Future()  # type: Future[_ReleasingContextManager]
        if self._value > 0:
            self._value -= 1
            waiter.set_result(_ReleasingContextManager(self))
        else:
            self._waiters.append(waiter)
            if timeout:

                def on_timeout() -> None:
                    if not waiter.done():
                        waiter.set_exception(gen.TimeoutError())
                    self._garbage_collect()

                io_loop = ioloop.IOLoop.current()
                timeout_handle = io_loop.add_timeout(timeout, on_timeout)
                waiter.add_done_callback(
                    lambda _: io_loop.remove_timeout(timeout_handle)
                )
        return waiter

    def __enter__(self) -> None:
        raise RuntimeError("Use 'async with' instead of 'with' for Semaphore")

    def __exit__(
        self,
        typ: "Optional[Type[BaseException]]",
        value: Optional[BaseException],
        traceback: Optional[types.TracebackType],
    ) -> None:
        self.__enter__()

    async def __aenter__(self) -> None:
        await self.acquire()

    async def __aexit__(
        self,
        typ: "Optional[Type[BaseException]]",
        value: Optional[BaseException],
        tb: Optional[types.TracebackType],
    ) -> None:
        self.release()


class BoundedSemaphore(Semaphore):
    """A semaphore that prevents release() being called too many times.

    If `.release` would increment the semaphore's value past the initial
    value, it raises `ValueError`. Semaphores are mostly used to guard
    resources with limited capacity, so a semaphore released too many times
    is a sign of a bug.
    """

    def __init__(self, value: int = 1) -> None:
        super().__init__(value=value)
        self._initial_value = value

    def release(self) -> None:
        """Increment the counter and wake one waiter."""
        if self._value >= self._initial_value:
            raise ValueError("Semaphore released too many times")
        super().release()


class Lock(object):
    """A lock for coroutines.

    A Lock begins unlocked, and `acquire` locks it immediately. While it is
    locked, a coroutine that yields `acquire` waits until another coroutine
    calls `release`.

    Releasing an unlocked lock raises `RuntimeError`.

    A Lock can be used as an async context manager with the ``async
    with`` statement:

    >>> from tornado import locks
    >>> lock = locks.Lock()
    >>>
    >>> async def f():
    ...    async with lock:
    ...        # Do something holding the lock.
    ...        pass
    ...
    ...    # Now the lock is released.

    For compatibility with older versions of Python, the `.acquire`
    method asynchronously returns a regular context manager:

    >>> async def f2():
    ...    with (yield lock.acquire()):
    ...        # Do something holding the lock.
    ...        pass
    ...
    ...    # Now the lock is released.

    .. versionchanged:: 4.3
       Added ``async with`` support in Python 3.5.

    """

    def __init__(self) -> None:
        self._block = BoundedSemaphore(value=1)

    def __repr__(self) -> str:
        return "<%s _block=%s>" % (self.__class__.__name__, self._block)

    def acquire(
        self, timeout: Optional[Union[float, datetime.timedelta]] = None
    ) -> Awaitable[_ReleasingContextManager]:
        """Attempt to lock. Returns an awaitable.

        Returns an awaitable, which raises `tornado.util.TimeoutError` after a
        timeout.
        """
        return self._block.acquire(timeout)

    def release(self) -> None:
        """Unlock.

        The first coroutine in line waiting for `acquire` gets the lock.

        If not locked, raise a `RuntimeError`.
        """
        try:
            self._block.release()
        except ValueError:
            raise RuntimeError("release unlocked lock")

    def __enter__(self) -> None:
        raise RuntimeError("Use `async with` instead of `with` for Lock")

    def __exit__(
        self,
        typ: "Optional[Type[BaseException]]",
        value: Optional[BaseException],
        tb: Optional[types.TracebackType],
    ) -> None:
        self.__enter__()

    async def __aenter__(self) -> None:
        await self.acquire()

    async def __aexit__(
        self,
        typ: "Optional[Type[BaseException]]",
        value: Optional[BaseException],
        tb: Optional[types.TracebackType],
    ) -> None:
        self.release()

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