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#!/usr/bin/python3
# -*- python -*-
'''
join python – Join-calculus for Python
Copyright © 2014 Mattias Andrée (maandree@member.fsf.org)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
'''
import time
import random
import threading
class signal:
def __init__(self, f):
self.f = f
def __call__(self, *args, **kwargs):
class signal_:
def __init__(self, f):
def f_():
self.rc = f(*args, **kwargs)
self.rc = None
self.t = threading.Thread(target = f_)
self.t.start()
def join(self):
self.t.join()
return self.rc
return signal_(self.f)
class fragment:
def __init__(self, f):
self.f = f
self.queue = []
self.condition = threading.Condition()
def __call__(self, *args, **kwargs):
self.f(*args, **kwargs)
self.condition.acquire()
self.queue.append((args, kwargs))
self.condition.notify()
self.condition.release()
def unjoin(self, args, kwargs):
self.condition.acquire()
self.queue.insert(0, (args, kwargs))
self.condition.notify()
self.condition.release()
def join(*fs):
rc = []
for f in fs:
f.condition.acquire()
f.condition.wait()
rc.append(f.queue.pop(0))
f.condition.release()
return rc[0] if len(fs) == 1 else rc
def ordered_join(*f_groups):
condition = threading.Condition()
rc = None
index = 0
for f_group in f_groups:
def join_(fs, index):
params = join(*fs)
already_done = rc is not None
if not already_done:
condition.acquire()
if rc is None:
params = (index, rc)
condition.notify()
condition.release()
else:
if not already_done:
condition.release()
if len(fs) == 1:
fs[0].unjoin(*params)
else:
for i, f in enumerate(fs):
f.unjoin(*(params[i]))
threading.Thread(target = join_, args = (f_group, index)).start()
index += 1
condition.acquire()
condition.wait()
condition.release()
return rc
def unordered_join(*f_groups):
ready = [i for i, fs in enumerate(f_groups) if all([len(f.queue) for f in fs])]
if len(ready):
i = ready[random.randrange(len(ready))]
return (i, join(*(f_groups[i])))
else:
return ordered_join(*f_groups)
# extra, not a part of join-calculus
def concurrently(*fs):
ts = [threading.Thread(target = f, args = args, kwargs = kwargs) for f in fs]
for t in ts:
ts.start()
for t in ts:
ts.join()
class test:
@signal
def signal(f, *args):
f(*args)
return 'test'
@fragment
def fragment(*args, **kwargs):
pass
def join(param):
(jargs, jkwargs) = join(test.fragment)
print(param, dict(jkwargs), *jargs)
s = test.signal(test.join, 'join')
time.sleep(1)
test.fragment('arg1', 'arg2', a = 'A', b = 'B')
print(s.join())
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