mitogen/mitogen/select.py

# Copyright 2019, David Wilson
#
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# modification, are permitted provided that the following conditions are met:
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# 1. Redistributions of source code must retain the above copyright notice,
# this list of conditions and the following disclaimer.
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# !mitogen: minify_safe

import mitogen.core


class Error(mitogen.core.Error):
    pass


class Event(object):
    """
    Represents one selected event.
    """
    #: The first Receiver or Latch the event traversed.
    source = None

    #: The :class:`mitogen.core.Message` delivered to a receiver, or the object
    #: posted to a latch.
    data = None


class Select(object):
    """
    Support scatter/gather asynchronous calls and waiting on multiple
    :class:`receivers <mitogen.core.Receiver>`,
    :class:`channels <mitogen.core.Channel>`,
    :class:`latches <mitogen.core.Latch>`, and
    :class:`sub-selects <Select>`.

    If `oneshot` is :data:`True`, then remove each receiver as it yields a
    result; since :meth:`__iter__` terminates once the final receiver is
    removed, this makes it convenient to respond to calls made in parallel::

        total = 0
        recvs = [c.call_async(long_running_operation) for c in contexts]

        for msg in mitogen.select.Select(recvs):
            print('Got %s from %s' % (msg, msg.receiver))
            total += msg.unpickle()

        # Iteration ends when last Receiver yields a result.
        print('Received total %s from %s receivers' % (total, len(recvs)))

    :class:`Select` may drive a long-running scheduler:

    .. code-block:: python

        with mitogen.select.Select(oneshot=False) as select:
            while running():
                for msg in select:
                    process_result(msg.receiver.context, msg.unpickle())
                for context, workfunc in get_new_work():
                    select.add(context.call_async(workfunc))

    :class:`Select` may be nested:

    .. code-block:: python

        subselects = [
            mitogen.select.Select(get_some_work()),
            mitogen.select.Select(get_some_work()),
            mitogen.select.Select([
                mitogen.select.Select(get_some_work()),
                mitogen.select.Select(get_some_work())
            ])
        ]

        for msg in mitogen.select.Select(selects):
            print(msg.unpickle())

    :class:`Select` may be used to mix inter-thread and inter-process IO::

        latch = mitogen.core.Latch()
        start_thread(latch)
        recv = remote_host.call_async(os.getuid)

        sel = Select([latch, recv])
        event = sel.get_event()
        if event.source is latch:
            # woken by a local thread
        else:
            # woken by function call result
    """

    notify = None

    def __init__(self, receivers=(), oneshot=True):
        self._receivers = []
        self._oneshot = oneshot
        self._latch = mitogen.core.Latch()
        for recv in receivers:
            self.add(recv)

    @classmethod
    def all(cls, receivers):
        """
        Take an iterable of receivers and retrieve a :class:`Message
        <mitogen.core.Message>` from each, returning the result of calling
        :meth:`Message.unpickle() <mitogen.core.Message.unpickle>` on each in
        turn. Results are returned in the order they arrived.

        This is sugar for handling batch :meth:`Context.call_async
        <mitogen.parent.Context.call_async>` invocations:

        .. code-block:: python

            print('Total disk usage: %.02fMiB' % (sum(
                mitogen.select.Select.all(
                    context.call_async(get_disk_usage)
                    for context in contexts
                ) / 1048576.0
            ),))

        However, unlike in a naive comprehension such as:

        .. code-block:: python

            recvs = [c.call_async(get_disk_usage) for c in contexts]
            sum(recv.get().unpickle() for recv in recvs)

        Result processing happens in the order results arrive, rather than the
        order requests were issued, so :meth:`all` should always be faster.
        """
        return list(msg.unpickle() for msg in cls(receivers))

    def _put(self, value):
        self._latch.put(value)
        if self.notify:
            self.notify(self)

    def __bool__(self):
        """
        Return :data:`True` if any receivers are registered with this select.
        """
        return bool(self._receivers)

    __nonzero__ = __bool__

    def __enter__(self):
        return self

    def __exit__(self, e_type, e_val, e_tb):
        self.close()

    def iter_data(self):
        """
        Yield :attr:`Event.data` until no receivers remain in the select,
        either because `oneshot` is :data:`True`, or each receiver was
        explicitly removed via :meth:`remove`.

        :meth:`__iter__` is an alias for :meth:`iter_data`, allowing loops
        like::

            for msg in Select([recv1, recv2]):
                print msg.unpickle()
        """
        while self._receivers:
            yield self.get_event().data

    __iter__ = iter_data

    def iter_events(self):
        """
        Yield :class:`Event` instances until no receivers remain in the select.
        """
        while self._receivers:
            yield self.get_event()

    loop_msg = 'Adding this Select instance would create a Select cycle'

    def _check_no_loop(self, recv):
        if recv is self:
            raise Error(self.loop_msg)

        for recv_ in self._receivers:
            if recv_ == recv:
                raise Error(self.loop_msg)
            if isinstance(recv_, Select):
                recv_._check_no_loop(recv)

    owned_msg = 'Cannot add: Receiver is already owned by another Select'

    def add(self, recv):
        """
        Add a :class:`mitogen.core.Receiver`, :class:`Select` or
        :class:`mitogen.core.Latch` to the select.

        :raises mitogen.select.Error:
            An attempt was made to add a :class:`Select` to which this select
            is indirectly a member of.
        """
        if isinstance(recv, Select):
            recv._check_no_loop(self)

        self._receivers.append(recv)
        if recv.notify is not None:
            raise Error(self.owned_msg)

        recv.notify = self._put
        # After installing the notify function, _put() will potentially begin
        # receiving calls from other threads immediately, but not for items
        # they already had buffered. For those we call _put(), possibly
        # duplicating the effect of other _put() being made concurrently, such
        # that the Select ends up with more items in its buffer than exist in
        # the underlying receivers. We handle the possibility of receivers
        # marked notified yet empty inside Select.get(), so this should be
        # robust.
        for _ in range(recv.size()):
            self._put(recv)

    not_present_msg = 'Instance is not a member of this Select'

    def remove(self, recv):
        """
        Remove an object from from the select. Note that if the receiver has
        notified prior to :meth:`remove`, it will still be returned by a
        subsequent :meth:`get`. This may change in a future version.
        """
        try:
            if recv.notify != self._put:
                raise ValueError
            self._receivers.remove(recv)
            recv.notify = None
        except (IndexError, ValueError):
            raise Error(self.not_present_msg)

    def close(self):
        """
        Remove the select's notifier function from each registered receiver,
        mark the associated latch as closed, and cause any thread currently
        sleeping in :meth:`get` to be woken with
        :class:`mitogen.core.LatchError`.

        This is necessary to prevent memory leaks in long-running receivers. It
        is called automatically when the Python :keyword:`with` statement is
        used.
        """
        for recv in self._receivers[:]:
            self.remove(recv)
        self._latch.close()

    def size(self):
        """
        Return the number of items currently buffered.

        As with :class:`Queue.Queue`, `0` may be returned even though a
        subsequent call to :meth:`get` will succeed, since a message may be
        posted at any moment between :meth:`size` and :meth:`get`.

        As with :class:`Queue.Queue`, `>0` may be returned even though a
        subsequent call to :meth:`get` will block, since another waiting thread
        may be woken at any moment between :meth:`size` and :meth:`get`.
        """
        return sum(recv.size() for recv in self._receivers)

    def empty(self):
        """
        Return `size() == 0`.

        .. deprecated:: 0.2.8
           Use :meth:`size` instead.
        """
        return self._latch.empty()

    empty_msg = 'Cannot get(), Select instance is empty'

    def get(self, timeout=None, block=True):
        """
        Call `get_event(timeout, block)` returning :attr:`Event.data` of the
        first available event.
        """
        return self.get_event(timeout, block).data

    def get_event(self, timeout=None, block=True):
        """
        Fetch the next available :class:`Event` from any source, or raise
        :class:`mitogen.core.TimeoutError` if no value is available within
        `timeout` seconds.

        On success, the message's :attr:`receiver
        <mitogen.core.Message.receiver>` attribute is set to the receiver.

        :param float timeout:
            Timeout in seconds.
        :param bool block:
            If :data:`False`, immediately raise
            :class:`mitogen.core.TimeoutError` if the select is empty.
        :return:
            :class:`Event`.
        :raises mitogen.core.TimeoutError:
            Timeout was reached.
        :raises mitogen.core.LatchError:
            :meth:`close` has been called, and the underlying latch is no
            longer valid.
        """
        if not self._receivers:
            raise Error(self.empty_msg)

        while True:
            recv = self._latch.get(timeout=timeout, block=block)
            try:
                if isinstance(recv, Select):
                    event = recv.get_event(block=False)
                else:
                    event = Event()
                    event.source = recv
                    event.data = recv.get(block=False)
                if self._oneshot:
                    self.remove(recv)
                if isinstance(recv, mitogen.core.Receiver):
                    # Remove in 0.3.x.
                    event.data.receiver = recv
                return event
            except mitogen.core.TimeoutError:
                # A receiver may have been queued with no result if another
                # thread drained it before we woke up, or because another
                # thread drained it between add() calling recv.empty() and
                # self._put(), or because Select.add() caused duplicate _put()
                # calls. In this case simply retry.
                continue