Commit afa46cf5 authored by Kirill Smelkov's avatar Kirill Smelkov

Turn pygopath into full pygolang

Not only we can import modules by full path, but now we can also spawn
threads/coroutines and exchange data in between them with the same
primitives and semantic as in Go.

The bulk of new functionality is copied from here:

	kirr/go123@9e1aa6ab

Original commit description follows:

"""
golang: New _Python_ package to provide Go-like features to Python language
- `go` spawns lightweight thread.
- `chan` and `select` provide channels with Go semantic.
- `method` allows to define methods separate from class.
- `gimport` allows to import python modules by full path in a Go workspace.

The focus of first draft was on usage interface and on correctness, not speed.
In particular select should be fully working.

If there is a chance I will maybe try to followup with gevent-based
implementation in the future.
Hide whitespace changes
"""
parent 9c61f254
Pygopath is free software licensed under GPLv3+ with additional permission
Pygolang is free software licensed under GPLv3+ with additional permission
to link, combine and redistribute it with other free or open source software.
Please see https://www.nexedi.com/licensing for rationale and options.
......
recursive-include testdata *.py
recursive-include golang/testdata *.py
=================================================================
Pygopath - Import python modules by full path in a Go workspace
=================================================================
========================================
Pygolang - Go-like features for Python
========================================
Module `gopath` provides way to import python modules by full path in a Go workspace.
Package golang provides Go-like features for Python:
- `go` spawns lightweight thread.
- `chan` and `select` provide channels with Go semantic.
- `method` allows to define methods separate from class.
- `gimport` allows to import python modules by full path in a Go workspace.
Goroutines and channels
-----------------------
`go` spawns a thread, or a coroutine if gevent was activated. It is possible to
exchange data in between either threads or coroutines via channels. `chan`
creates a new channel with Go semantic - either synchronous or buffered. Use
`chan.recv`, `chan.send` and `chan.close` for communication. `select` can be
used to multiplex on several channels. For example::
ch1 = chan() # synchronous channel
ch2 = chan(3) # channel with buffer of size 3
def _():
ch1.send('a')
ch2.send('b')
go(_)
ch1.recv() # will give 'a'
ch2.recv_() # will give ('b', True)
_, _rx = select(
ch1.recv, # 0
ch2.recv_, # 1
(ch2.send, obj2), # 2
default, # 3
)
if _ == 0:
# _rx is what was received from ch1
...
if _ == 1:
# _rx is (rx, ok) of what was received from ch2
...
if _ == 2:
# we know obj2 was sent to ch2
...
if _ == 3:
# default case
...
Methods
-------
`method` decorator allows to define methods separate from class.
For example::
@method(MyClass)
def my_method(self, ...):
...
will define `MyClass.my_method()`.
Import
------
`gimport` provides way to import python modules by full path in a Go workspace.
For example
::
lonet = gopath.gimport('lab.nexedi.com/kirr/go123/xnet/lonet')
lonet = gimport('lab.nexedi.com/kirr/go123/xnet/lonet')
will import either
......
# -*- coding: utf-8 -*-
# Copyright (C) 2018 Nexedi SA and Contributors.
# Kirill Smelkov <kirr@nexedi.com>
#
# This program is free software: you can Use, Study, Modify and Redistribute
# it under the terms of the GNU General Public License version 3, or (at your
# option) any later version, as published by the Free Software Foundation.
#
# You can also Link and Combine this program with other software covered by
# the terms of any of the Free Software licenses or any of the Open Source
# Initiative approved licenses and Convey the resulting work. Corresponding
# source of such a combination shall include the source code for all other
# software used.
#
# This program is distributed WITHOUT ANY WARRANTY; without even the implied
# warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
"""Package golang provides Go-like features for Python
- `go` spawns lightweight thread.
- `chan` and `select` provide channels with Go semantic.
- `method` allows to define methods separate from class.
- `gimport` allows to import python modules by full path in a Go workspace.
...
"""
__all__ = ['method', 'go', 'chan', 'select', 'default', 'panic', 'gimport']
from golang._gopath import gimport # make gimport available from golang
import threading, collections, random
# TODO -> use gevent + fallback to !gevent implementation if gevent was not initialized.
# The following should automatically prefer to use gevent as golang backend:
#
# from gevent import monkey; monkey.patch_all()
# import golang ...
#
# But we should not use gevent by default - using it without its monkey patching
# does not make lots of sense and monkey patching has to be performed as the
# first step of a program (i.e. it is not good to put it under `import golang`).
#
# We can also provide `gpython` interpreter which does gevent monkey patching
# and puts everything from golang.__all__ to __builtins__.
# method decorator allows to define methods separate from class.
#
# For example:
#
# @method(MyClass)
# def my_method(self, ...):
# ...
def method(cls):
def deco(f):
if isinstance(f, (staticmethod, classmethod)):
func_name = f.__func__.func_name
else:
func_name = f.func_name
setattr(cls, func_name, f)
return deco
# panic stops normal execution of current goroutine.
def panic(arg):
raise _PanicError(arg)
class _PanicError(Exception):
pass
# go spawns lightweight thread.
#
# NOTE it spawns threading.Thread, but if gevent was activated via
# `gevent.monkey.patch_all`, it will spawn greenlet, not full OS thread.
def go(f, *argv, **kw):
threading.Thread(target=f, args=argv, kwargs=kw).start()
# ---- channels ----
# _RecvWaiting represents a receiver waiting on a chan.
class _RecvWaiting(object):
# .group _WaitGroup group of waiters this receiver is part of
# .chan chan channel receiver is waiting on
#
# on wakeup: sender|closer -> receiver:
# .rx_ rx_ for recv
def __init__(self, group, ch):
self.group = group
self.chan = ch
group.register(self)
# wakeup notifies waiting receiver that recv_ completed.
def wakeup(self, rx, ok):
self.rx_ = (rx, ok)
self.group.wakeup()
# _SendWaiting represents a sender waiting on a chan.
class _SendWaiting(object):
# .group _WaitGroup group of waiters this sender is part of
# .chan chan channel sender is waiting on
# .obj object that was passed to send
#
# on wakeup: receiver|closer -> sender:
# .ok bool whether send succeeded (it will not on close)
def __init__(self, group, ch, obj):
self.group = group
self.chan = ch
self.obj = obj
group.register(self)
# wakeup notifies waiting sender that send completed.
def wakeup(self, ok):
self.ok = ok
self.group.wakeup()
# _WaitGroup is a group of waiting senders and receivers.
#
# Only 1 waiter from the group can succeed waiting.
class _WaitGroup(object):
# ._waitv [] of _{Send|Recv}Waiting
# ._sema semaphore used for wakeup
#
# ._mu lock
#
# on wakeup: sender|receiver -> group:
# .which _{Send|Recv}Waiting instance which succeeded waiting.
def __init__(self):
self._waitv = []
self._sema = threading.Lock() # in python it is valid to release lock from another thread.
self._sema.acquire()
self._mu = threading.Lock()
self.which = None
def register(self, wait):
self._waitv.append(wait)
# try_to_win tries to win waiter after it was dequeued from a channel's {_send|_recv}q.
#
# -> ok: true if won, false - if not.
def try_to_win(self, waiter):
with self._mu: # NOTE order is always: waiter.chan._mu > ._mu
if self.which is not None:
return False
else:
self.which = waiter
return True
# wait waits for winning case of group to complete.
def wait(self):
self._sema.acquire()
# wakeup wakes up the group.
#
# prior to wakeup try_to_win must have been called.
# in practice this means that waiters queued to chan.{_send|_recv}q must
# be dequeued with _dequeWaiter.
def wakeup(self):
assert self.which is not None
self._sema.release()
# dequeAll removes all registered waiters from their wait queues.
def dequeAll(self):
for w in self._waitv:
ch = w.chan
if isinstance(w, _SendWaiting):
queue = ch._sendq
else:
assert isinstance(w, _RecvWaiting)
queue = ch._recvq
with ch._mu:
try:
queue.remove(w)
except ValueError:
pass
# _dequeWaiter dequeues a send or recv waiter from a channel's _recvq or _sendq.
#
# the channel owning {_recv|_send}q must be locked.
def _dequeWaiter(queue):
while len(queue) > 0:
w = queue.popleft()
# if this waiter can win its group - return it.
# if not - someone else from its group already has won, and so we anyway have
# to remove the waiter from the queue.
if w.group.try_to_win(w):
return w
return None
# chan is a channel with Go semantic.
class chan(object):
# ._cap channel capacity
# ._mu lock
# ._dataq deque *: data buffer
# ._recvq deque _RecvWaiting: blocked receivers
# ._sendq deque _SendWaiting: blocked senders
# ._closed bool
def __init__(self, size=0):
self._cap = size
self._mu = threading.Lock()
self._dataq = collections.deque()
self._recvq = collections.deque()
self._sendq = collections.deque()
self._closed = False
# send sends object to a receiver.
#
# .send(obj)
def send(self, obj):
self._mu.acquire()
if 1:
ok = self._trysend(obj)
if ok:
return
g = _WaitGroup()
me = _SendWaiting(g, self, obj)
self._sendq.append(me)
self._mu.release()
g.wait()
assert g.which is me
if not me.ok:
panic("send on closed channel")
# recv_ is "comma-ok" version of recv.
#
# ok is true - if receive was delivered by a successful send.
# ok is false - if receive is due to channel being closed and empty.
#
# .recv_() -> (rx, ok)
def recv_(self):
self._mu.acquire()
if 1:
rx_, ok = self._tryrecv()
if ok:
return rx_
g = _WaitGroup()
me = _RecvWaiting(g, self)
self._recvq.append(me)
self._mu.release()
g.wait()
assert g.which is me
return me.rx_
# recv receives from the channel.
#
# .recv() -> rx
def recv(self):
rx, _ = self.recv_()
return rx
# _trysend(obj) -> ok
#
# must be called with ._mu held.
# if ok or panic - returns with ._mu released.
# if !ok - returns with ._mu still being held.
def _trysend(self, obj):
if self._closed:
self._mu.release()
panic("send on closed channel")
# synchronous channel
if self._cap == 0:
recv = _dequeWaiter(self._recvq)
if recv is None:
return False
self._mu.release()
recv.wakeup(obj, True)
return True
# buffered channel
else:
if len(self._dataq) >= self._cap:
return False
self._dataq.append(obj)
recv = _dequeWaiter(self._recvq)
self._mu.release()
if recv is not None:
rx = self._dataq.popleft()
recv.wakeup(rx, True)
return True
# _tryrecv() -> rx_=(rx, ok), ok
#
# must be called with ._mu held.
# if ok or panic - returns with ._mu released.
# if !ok - returns with ._mu still being held.
def _tryrecv(self):
# buffered
if len(self._dataq) > 0:
rx = self._dataq.popleft()
# wakeup a blocked writer, if there is any
send = _dequeWaiter(self._sendq)
self._mu.release()
if send is not None:
self._dataq.append(send.obj)
send.wakeup(True)
return (rx, True), True
# closed
if self._closed:
self._mu.release()
return (None, False), True
# sync | empty: there is waiting writer
send = _dequeWaiter(self._sendq)
if send is None:
return (None, False), False
self._mu.release()
rx = send.obj
send.wakeup(True)
return (rx, True), True
# close closes sending side of the channel.
def close(self):
recvv = []
sendv = []
with self._mu:
if self._closed:
panic("close of closed channel")
self._closed = True
# schedule: wake-up all readers
while 1:
recv = _dequeWaiter(self._recvq)
if recv is None:
break
recvv.append(recv)
# schedule: wake-up all writers (they will panic)
while 1:
send = _dequeWaiter(self._sendq)
if send is None:
break
sendv.append(send)
# perform scheduled wakeups outside of ._mu
for recv in recvv:
recv.wakeup(None, False)
for send in sendv:
send.wakeup(False)
def __len__(self):
return len(self._dataq)
# default represents default case for select.
default = object()
# select executes one ready send or receive channel case.
#
# if no case is ready and default case was provided, select chooses default.
# if no case is ready and default was not provided, select blocks until one case becomes ready.
#
# returns: selected case number and receive info (None if send case was selected).
#
# example:
#
# _, _rx = select(
# ch1.recv, # 0
# ch2.recv_, # 1
# (ch2.send, obj2), # 2
# default, # 3
# )
# if _ == 0:
# # _rx is what was received from ch1
# ...
# if _ == 1:
# # _rx is (rx, ok) of what was received from ch2
# ...
# if _ == 2:
# # we know obj2 was sent to ch2
# ...
# if _ == 3:
# # default case
# ...
def select(*casev):
# XXX select on nil chan?
# XXX select{} -> block forever
# select promise: if multiple cases are ready - one will be selected randomly
ncasev = list(enumerate(casev))
random.shuffle(ncasev)
# first pass: poll all cases and bail out in the end if default was provided
recvv = [] # [](n, ch, commaok)
sendv = [] # [](n, ch, tx)
ndefault = None
for (n, case) in ncasev:
# default: remember we have it
if case is default:
if ndefault is not None:
panic("select: multiple default")
ndefault = n
# send
elif isinstance(case, tuple):
send, tx = case
if send.im_class is not chan:
panic("select: send on non-chan: %r" % (send.im_class,))
if send.im_func is not chan.send.im_func:
panic("select: send expected: %r" % (send,))
ch = send.im_self
ch._mu.acquire()
if 1:
ok = ch._trysend(tx)
if ok:
return n, None
ch._mu.release()
sendv.append((n, ch, tx))
# recv
else:
recv = case
if recv.im_class is not chan:
panic("select: recv on non-chan: %r" % (ch.im_class,))
if recv.im_func is chan.recv.im_func:
commaok = False
elif recv.im_func is chan.recv_.im_func:
commaok = True
else:
panic("select: recv expected: %r" % (recv,))
ch = recv.im_self
ch._mu.acquire()
if 1:
rx_, ok = ch._tryrecv()
if ok:
if not commaok:
rx, ok = rx_
rx_ = rx
return n, rx_
ch._mu.release()
recvv.append((n, ch, commaok))
# execute default if we have it
if ndefault is not None:
return ndefault, None
# second pass: subscribe and wait on all rx/tx cases
g = _WaitGroup()
try:
for n, ch, tx in sendv:
ch._mu.acquire()
if 1:
ok = ch._trysend(tx)
if ok:
return n, None
w = _SendWaiting(g, ch, tx)
w.sel_n = n
ch._sendq.append(w)
ch._mu.release()
for n, ch, commaok in recvv:
ch._mu.acquire()
if 1:
rx_, ok = ch._tryrecv()
if ok:
if not commaok:
rx, ok = rx_
rx_ = rx
return n, rx_
w = _RecvWaiting(g, ch)
w.sel_n = n
w.sel_commaok = commaok
ch._recvq.append(w)
ch._mu.release()
g.wait()
sel = g.which
if isinstance(sel, _SendWaiting):
if not sel.ok:
panic("send on closed channel")
return sel.sel_n, None
if isinstance(sel, _RecvWaiting):
rx_ = sel.rx_
if not sel.sel_commaok:
rx, ok = rx_
rx_ = rx
return sel.sel_n, rx_
raise AssertionError("select: unreachable")
finally:
# unsubscribe not-succeeded waiters
g.dequeAll()
......@@ -16,7 +16,7 @@
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
"""Module gopath provides way to import python modules by full path in a Go workspace.
"""Module _gopath provides way to import python modules by full path in a Go workspace.
For example
......@@ -56,8 +56,8 @@ def _gimport(name):
# reason: if we leave dots in place, python emits warning:
# RuntimeWarning: Parent module 'lab.nexedi' not found while handling absolute import
#
# we put every imported module under `gopath.` namespace with '.' changed to '_'
modname = 'gopath.' + name.replace('.', '_')
# we put every imported module under `golang._gopath.` namespace with '.' changed to '_'
modname = 'golang._gopath.' + name.replace('.', '_')
try:
return sys.modules[modname]
......
......@@ -18,7 +18,7 @@
# See https://www.nexedi.com/licensing for rationale and options.
import os, os.path
from gopath import gimport
from golang._gopath import gimport
GOPATH_orig = None
......
# -*- coding: utf-8 -*-
# Copyright (C) 2018 Nexedi SA and Contributors.
# Kirill Smelkov <kirr@nexedi.com>
#
# This program is free software: you can Use, Study, Modify and Redistribute
# it under the terms of the GNU General Public License version 3, or (at your
# option) any later version, as published by the Free Software Foundation.
#
# You can also Link and Combine this program with other software covered by
# the terms of any of the Free Software licenses or any of the Open Source
# Initiative approved licenses and Convey the resulting work. Corresponding
# source of such a combination shall include the source code for all other
# software used.
#
# This program is distributed WITHOUT ANY WARRANTY; without even the implied
# warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
"""Package gcompat provides Go-compatibility layer for Python"""
# qq is substitute for %q, which is missing in python.
#
# (python's automatic escape uses smartquotes quoting with either ' or ").
def qq(obj):
# go: like %s, %q automatically converts to string
if not isinstance(obj, basestring):
obj = str(obj)
return _quote(obj)
# _quote quotes string into valid "..." string always quoted with ".
def _quote(s):
# TODO also accept unicode as input.
# TODO output printable UTF-8 characters as-is, but escape non-printable UTF-8 and invalid UTF-8 bytes.
outv = []
# we don't want ' to be escaped
for _ in s.split("'"):
# this escape almost everything except " character
# NOTE string_escape does not do smartquotes and always uses ' for quoting
# (repr(str) is the same except it does smartquoting picking ' or " automatically)
q = _.encode("string_escape")
q = q.replace('"', r'\"')
outv.append(q)
return '"' + "'".join(outv) + '"'
# -*- coding: utf-8 -*-
# Copyright (C) 2018 Nexedi SA and Contributors.
# Kirill Smelkov <kirr@nexedi.com>
#
# This program is free software: you can Use, Study, Modify and Redistribute
# it under the terms of the GNU General Public License version 3, or (at your
# option) any later version, as published by the Free Software Foundation.
#
# You can also Link and Combine this program with other software covered by
# the terms of any of the Free Software licenses or any of the Open Source
# Initiative approved licenses and Convey the resulting work. Corresponding
# source of such a combination shall include the source code for all other
# software used.
#
# This program is distributed WITHOUT ANY WARRANTY; without even the implied
# warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
from golang.gcompat import qq
def test_qq():
testv = (
# in want without leading/trailing "
('', r""),
('\'', r"'"),
('"', r"\""),
('abc\ndef', r"abc\ndef"),
('a\'c\ndef', r"a'c\ndef"),
('a\"c\ndef', r"a\"c\ndef"),
# ('привет', r"привет"), TODO
)
for tin, twant in testv:
twant = '"' + twant + '"' # add lead/trail "
assert qq(tin) == twant
# -*- coding: utf-8 -*-
# Copyright (C) 2018 Nexedi SA and Contributors.
# Kirill Smelkov <kirr@nexedi.com>
#
# This program is free software: you can Use, Study, Modify and Redistribute
# it under the terms of the GNU General Public License version 3, or (at your
# option) any later version, as published by the Free Software Foundation.
#
# You can also Link and Combine this program with other software covered by
# the terms of any of the Free Software licenses or any of the Open Source
# Initiative approved licenses and Convey the resulting work. Corresponding
# source of such a combination shall include the source code for all other
# software used.
#
# This program is distributed WITHOUT ANY WARRANTY; without even the implied
# warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
#
# See COPYING file for full licensing terms.
# See https://www.nexedi.com/licensing for rationale and options.
from golang import go, chan, select, default, _PanicError
from pytest import raises
import time, threading
# tdelay delays a bit.
#
# XXX needed in situations when we need to start with known ordering but do not
# have a way to wait properly for ordering event.
def tdelay():
time.sleep(1E-3) # 1ms
def test_chan():
# sync: pre-close vs send/recv
ch = chan()
ch.close()
assert ch.recv() == None
assert ch.recv_() == (None, False)
assert ch.recv_() == (None, False)
raises(_PanicError, "ch.send(0)")
raises(_PanicError, "ch.close()")
# sync: send vs recv
ch = chan()
def _():
ch.send(1)
assert ch.recv() == 2
ch.close()
go(_)
assert ch.recv() == 1
ch.send(2)
assert ch.recv_() == (None, False)
assert ch.recv_() == (None, False)
# sync: close vs send
ch = chan()
def _():
tdelay()
ch.close()
go(_)
raises(_PanicError, "ch.send(0)")
# close vs recv
ch = chan()
def _():
tdelay()
ch.close()
go(_)
assert ch.recv_() == (None, False)
# sync: close vs multiple recv
ch = chan()
done = chan()
mu = threading.Lock()
s = set()
def _():
assert ch.recv_() == (None, False)
with mu:
x = len(s)
s.add(x)
done.send(x)
for i in range(3):
go(_)
ch.close()
for i in range(3):
done.recv()
assert s == {0,1,2}
# buffered
ch = chan(3)
done = chan()
for _ in range(2):
for i in range(3):
assert len(ch) == i
ch.send(i)
assert len(ch) == i+1
for i in range(3):
assert ch.recv_() == (i, True)
assert len(ch) == 0
for i in range(3):
ch.send(i)
assert len(ch) == 3
def _():
tdelay()
assert ch.recv_() == (0, True)
done.send('a')
for i in range(1,4):
assert ch.recv_() == (i, True)
assert ch.recv_() == (None, False)
done.send('b')
go(_)
ch.send(3) # will block without receiver
assert done.recv() == 'a'
ch.close()
assert done.recv() == 'b'
def test_select():
# non-blocking try send: not ok
ch = chan()
_, _rx = select(
(ch.send, 0),
default,
)
assert (_, _rx) == (1, None)
# non-blocking try recv: not ok
_, _rx = select(
ch.recv,
default,
)
assert (_, _rx) == (1, None)
_, _rx = select(
ch.recv_,
default,
)
assert (_, _rx) == (1, None)
# non-blocking try send: ok
ch = chan()
done = chan()
def _():
i = 0
while 1:
x = ch.recv()
if x == 'stop':
break
assert x == i
i += 1
done.close()
go(_)
for i in range(10):
tdelay()
_, _rx = select(
(ch.send, i),
default,
)
assert (_, _rx) == (0, None)
ch.send('stop')
done.recv()
# non-blocking try recv: ok
ch = chan()
done = chan()
def _():
for i in range(10):
ch.send(i)
done.close()
go(_)
for i in range(10):
tdelay()
if i % 2:
_, _rx = select(
ch.recv,
default,
)
assert (_, _rx) == (0, i)
else:
_, _rx = select(
ch.recv_,
default,
)
assert (_, _rx) == (0, (i, True))
done.recv()
# blocking 2·send
ch1 = chan()
ch2 = chan()
done = chan()
def _():
tdelay()
assert ch1.recv() == 'a'
done.close()
go(_)
_, _rx = select(
(ch1.send, 'a'),
(ch2.send, 'b'),
)
assert (_, _rx) == (0, None)
done.recv()
assert len(ch1._sendq) == len(ch1._recvq) == 0
assert len(ch2._sendq) == len(ch2._recvq) == 0
# blocking 2·recv
ch1 = chan()
ch2 = chan()
done = chan()
def _():
tdelay()
ch1.send('a')
done.close()
go(_)
_, _rx = select(
ch1.recv,
ch2.recv,
)
assert (_, _rx) == (0, 'a')
done.recv()
assert len(ch1._sendq) == len(ch1._recvq) == 0
assert len(ch2._sendq) == len(ch2._recvq) == 0
# blocking send/recv
ch1 = chan()
ch2 = chan()
done = chan()
def _():
tdelay()
assert ch1.recv() == 'a'
done.close()
go(_)
_, _rx = select(
(ch1.send, 'a'),
ch2.recv,
)
assert (_, _rx) == (0, None)
done.recv()
assert len(ch1._sendq) == len(ch1._recvq) == 0
assert len(ch2._sendq) == len(ch2._recvq) == 0
# blocking recv/send
ch1 = chan()
ch2 = chan()
done = chan()
def _():
tdelay()
ch1.send('a')
done.close()
go(_)
_, _rx = select(
ch1.recv,
(ch2.send, 'b'),
)
assert (_, _rx) == (0, 'a')
done.recv()
assert len(ch1._sendq) == len(ch1._recvq) == 0
assert len(ch2._sendq) == len(ch2._recvq) == 0
# buffered ping-pong
ch = chan(1)
for i in range(10):
_, _rx = select(
(ch.send, i),
ch.recv,
)
assert _ == (i % 2)
assert _rx == (i - 1 if i % 2 else None)
# select vs select
for i in range(10):
ch1 = chan()
ch2 = chan()
done = chan()
def _():
_, _rx = select(
(ch1.send, 'a'),
(ch2.send, 'xxx2'),
)
assert (_, _rx) == (0, None)
_, _rx = select(
(ch1.send, 'yyy2'),
ch2.recv,
)
assert (_, _rx) == (1, 'b')
done.close()
go(_)
_, _rx = select(
ch1.recv,
(ch2.send, 'xxx1'),
)
assert (_, _rx) == (0, 'a')
_, _rx = select(
(ch1.send, 'yyy1'),
(ch2.send, 'b'),
)
assert (_, _rx) == (1, None)
done.recv()
assert len(ch1._sendq) == len(ch1._recvq) == 0
assert len(ch2._sendq) == len(ch2._recvq) == 0
# pygopath | pythonic package setup
# pygolang | pythonic package setup
from setuptools import setup, find_packages
# read file content
......@@ -7,20 +7,18 @@ def readfile(path):
return f.read()
setup(
name = 'pygopath',
version = '0.0.0.dev1',
description = 'Import python modules by full-path in Go workspace',
name = 'pygolang',
version = '0.0.0.dev2',
description = 'Go-like features for Python',
long_description = readfile('README.rst'),
url = 'https://lab.nexedi.com/kirr/pygopath',
url = 'https://lab.nexedi.com/kirr/pygolang',
license = 'GPLv3+ with wide exception for Open-Source',
author = 'Kirill Smelkov',
author_email= 'kirr@nexedi.com',
keywords = 'go GOPATH python import',
keywords = 'go channel goroutine GOPATH python import',
# XXX find_packages does not find top-level *.py
#packages = find_packages(),
packages = [''],
packages = find_packages(),
extras_require = {
'test': ['pytest'],
......
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