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add timeout for unmet dependencies in task scheduler
add timeout for unmet dependencies in task scheduler

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dependencies.py
118 lines | 3.0 KiB | text/x-python | PythonLexer
from IPython.zmq.parallel import error
from IPython.zmq.parallel.dependency import Dependency
from IPython.zmq.parallel.client import *
client = Client()
# this will only run on machines that can import numpy:
@require('numpy')
def norm(A):
from numpy.linalg import norm
return norm(A,2)
def checkpid(pid):
"""return the pid of the engine"""
import os
return os.getpid() == pid
def checkhostname(host):
import socket
return socket.gethostname() == host
def getpid():
import os
return os.getpid()
pid0 = client[0].apply_sync(getpid)
# this will depend on the pid being that of target 0:
@depend(checkpid, pid0)
def getpid2():
import os
return os.getpid()
view = client[None]
view.block=True
# will run on anything:
pids1 = [ view.apply(getpid) for i in range(len(client.ids)) ]
print pids1
# will only run on e0:
pids2 = [ view.apply(getpid2) for i in range(len(client.ids)) ]
print pids2
print "now test some dependency behaviors"
def wait(t):
import time
time.sleep(t)
return t
# fail after some time:
def wait_and_fail(t):
import time
time.sleep(t)
return 1/0
successes = [ view.apply_async(wait, 1).msg_ids[0] for i in range(len(client.ids)) ]
failures = [ view.apply_async(wait_and_fail, 1).msg_ids[0] for i in range(len(client.ids)) ]
mixed = [failures[0],successes[0]]
d1a = Dependency(mixed, mode='any', success_only=False) # yes
d1b = Dependency(mixed, mode='any', success_only=True) # yes
d2a = Dependency(mixed, mode='all', success_only=False) # yes after / no follow
d2b = Dependency(mixed, mode='all', success_only=True) # no
d3 = Dependency(failures, mode='any', success_only=True) # no
d4 = Dependency(failures, mode='any', success_only=False) # yes
d5 = Dependency(failures, mode='all', success_only=False) # yes after / no follow
d6 = Dependency(successes, mode='all', success_only=False) # yes after / no follow
client.block = False
r1a = client.apply(getpid, after=d1a)
r1b = client.apply(getpid, follow=d1b)
r2a = client.apply(getpid, after=d2b, follow=d2a)
r2b = client.apply(getpid, after=d2a, follow=d2b)
r3 = client.apply(getpid, after=d3)
r4a = client.apply(getpid, after=d4)
r4b = client.apply(getpid, follow=d4)
r4c = client.apply(getpid, after=d3, follow=d4)
r5 = client.apply(getpid, after=d5)
r5b = client.apply(getpid, follow=d5, after=d3)
r6 = client.apply(getpid, follow=d6)
r6b = client.apply(getpid, after=d6, follow=d2b)
def should_fail(f):
try:
f()
except error.KernelError:
pass
else:
print 'should have raised'
# raise Exception("should have raised")
# print r1a.msg_ids
r1a.get()
# print r1b.msg_ids
r1b.get()
# print r2a.msg_ids
should_fail(r2a.get)
# print r2b.msg_ids
should_fail(r2b.get)
# print r3.msg_ids
should_fail(r3.get)
# print r4a.msg_ids
r4a.get()
# print r4b.msg_ids
r4b.get()
# print r4c.msg_ids
should_fail(r4c.get)
# print r5.msg_ids
r5.get()
# print r5b.msg_ids
should_fail(r5b.get)
# print r6.msg_ids
should_fail(r6.get) # assuming > 1 engine
# print r6b.msg_ids
should_fail(r6b.get)
print 'done'