cpython/Lib/test/support/interpreters/queues.py

225 lines
6.4 KiB
Python

"""Cross-interpreter Queues High Level Module."""
import pickle
import queue
import time
import weakref
import _xxinterpqueues as _queues
# aliases:
from _xxinterpqueues import (
QueueError, QueueNotFoundError,
)
__all__ = [
'create', 'list_all',
'Queue',
'QueueError', 'QueueNotFoundError', 'QueueEmpty', 'QueueFull',
]
class QueueEmpty(_queues.QueueEmpty, queue.Empty):
"""Raised from get_nowait() when the queue is empty.
It is also raised from get() if it times out.
"""
class QueueFull(_queues.QueueFull, queue.Full):
"""Raised from put_nowait() when the queue is full.
It is also raised from put() if it times out.
"""
_SHARED_ONLY = 0
_PICKLED = 1
def create(maxsize=0, *, syncobj=False):
"""Return a new cross-interpreter queue.
The queue may be used to pass data safely between interpreters.
"syncobj" sets the default for Queue.put()
and Queue.put_nowait().
"""
fmt = _SHARED_ONLY if syncobj else _PICKLED
qid = _queues.create(maxsize, fmt)
return Queue(qid, _fmt=fmt)
def list_all():
"""Return a list of all open queues."""
return [Queue(qid, _fmt=fmt)
for qid, fmt in _queues.list_all()]
_known_queues = weakref.WeakValueDictionary()
class Queue:
"""A cross-interpreter queue."""
def __new__(cls, id, /, *, _fmt=None):
# There is only one instance for any given ID.
if isinstance(id, int):
id = int(id)
else:
raise TypeError(f'id must be an int, got {id!r}')
if _fmt is None:
_fmt = _queues.get_default_fmt(id)
try:
self = _known_queues[id]
except KeyError:
self = super().__new__(cls)
self._id = id
self._fmt = _fmt
_known_queues[id] = self
_queues.bind(id)
return self
def __del__(self):
try:
_queues.release(self._id)
except QueueNotFoundError:
pass
try:
del _known_queues[self._id]
except KeyError:
pass
def __repr__(self):
return f'{type(self).__name__}({self.id})'
def __hash__(self):
return hash(self._id)
@property
def id(self):
return self._id
@property
def maxsize(self):
try:
return self._maxsize
except AttributeError:
self._maxsize = _queues.get_maxsize(self._id)
return self._maxsize
def empty(self):
return self.qsize() == 0
def full(self):
return _queues.is_full(self._id)
def qsize(self):
return _queues.get_count(self._id)
def put(self, obj, timeout=None, *,
syncobj=None,
_delay=10 / 1000, # 10 milliseconds
):
"""Add the object to the queue.
This blocks while the queue is full.
If "syncobj" is None (the default) then it uses the
queue's default, set with create_queue()..
If "syncobj" is false then all objects are supported,
at the expense of worse performance.
If "syncobj" is true then the object must be "shareable".
Examples of "shareable" objects include the builtin singletons,
str, and memoryview. One benefit is that such objects are
passed through the queue efficiently.
The key difference, though, is conceptual: the corresponding
object returned from Queue.get() will be strictly equivalent
to the given obj. In other words, the two objects will be
effectively indistinguishable from each other, even if the
object is mutable. The received object may actually be the
same object, or a copy (immutable values only), or a proxy.
Regardless, the received object should be treated as though
the original has been shared directly, whether or not it
actually is. That's a slightly different and stronger promise
than just (initial) equality, which is all "syncobj=False"
can promise.
"""
if syncobj is None:
fmt = self._fmt
else:
fmt = _SHARED_ONLY if syncobj else _PICKLED
if timeout is not None:
timeout = int(timeout)
if timeout < 0:
raise ValueError(f'timeout value must be non-negative')
end = time.time() + timeout
if fmt is _PICKLED:
obj = pickle.dumps(obj)
while True:
try:
_queues.put(self._id, obj, fmt)
except _queues.QueueFull as exc:
if timeout is not None and time.time() >= end:
exc.__class__ = QueueFull
raise # re-raise
time.sleep(_delay)
else:
break
def put_nowait(self, obj, *, syncobj=None):
if syncobj is None:
fmt = self._fmt
else:
fmt = _SHARED_ONLY if syncobj else _PICKLED
if fmt is _PICKLED:
obj = pickle.dumps(obj)
try:
_queues.put(self._id, obj, fmt)
except _queues.QueueFull as exc:
exc.__class__ = QueueFull
raise # re-raise
def get(self, timeout=None, *,
_delay=10 / 1000, # 10 milliseconds
):
"""Return the next object from the queue.
This blocks while the queue is empty.
"""
if timeout is not None:
timeout = int(timeout)
if timeout < 0:
raise ValueError(f'timeout value must be non-negative')
end = time.time() + timeout
while True:
try:
obj, fmt = _queues.get(self._id)
except _queues.QueueEmpty as exc:
if timeout is not None and time.time() >= end:
exc.__class__ = QueueEmpty
raise # re-raise
time.sleep(_delay)
else:
break
if fmt == _PICKLED:
obj = pickle.loads(obj)
else:
assert fmt == _SHARED_ONLY
return obj
def get_nowait(self):
"""Return the next object from the channel.
If the queue is empty then raise QueueEmpty. Otherwise this
is the same as get().
"""
try:
return _queues.get(self._id)
except _queues.QueueEmpty as exc:
exc.__class__ = QueueEmpty
raise # re-raise
_queues._register_queue_type(Queue)