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kernel heartbeat does not share zmq context with rest of the app...
kernel heartbeat does not share zmq context with rest of the app This prevents the heartbeat from ever waiting for the GIL, which could cause erroneous heartbeat failures.
Fernando Perez - - Load All Authors

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multiengine1.ipy
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#-------------------------------------------------------------------------------
# Imports
#-------------------------------------------------------------------------------
import time
import numpy
# import IPython.kernel.magic
from IPython.parallel import Client, Reference
from IPython.parallel import error
rc = Client()
mux = rc[:]
#-------------------------------------------------------------------------------
# Setup
#-------------------------------------------------------------------------------
%load_ext parallelmagic
mux.block = True
mux.clear()
mux.activate()
n = len(rc)
assert n >= 4, "Not Enough Engines: %i, 4 needed for this script"%n
values = [
10,
1.0,
range(100),
('asdf', 1000),
{'a': 10, 'b': 20}
]
keys = ['a','b','c','d','e']
sequences = [
range(100),
numpy.arange(100)
]
#-------------------------------------------------------------------------------
# Blocking execution
#-------------------------------------------------------------------------------
# Execute
with mux.sync_imports():
import math
import numpy
mux.execute('a = 2.0*math.pi')
print mux['a']
for id in mux.targets:
mux.execute('b=%d' % id, targets=id)
try:
mux.execute('b = 10',targets=max(mux.targets)+1)
except IndexError:
print "Caught invalid engine ID OK."
try:
mux.apply(lambda : 1/0)
except error.CompositeError:
print "Caught 1/0 correctly."
%px print a, b
try:
%px 1/0
except error.CompositeError:
print "Caught 1/0 correctly."
# %autopx
%px a = numpy.random.random((4,4))
%px a = a+a.transpose()
# %autopx
print mux.apply(numpy.linalg.eigvals, Reference('a'))
mux.targets = [0,2]
%px a = 5
mux.targets = [1,3]
%px a = 10
mux.targets = rc.ids
print mux['a']
# Push/Pull
mux.push(dict(a=10, b=30, c={'f':range(10)}))
mux.pull(('a', 'b'))
for id in mux.targets:
mux.push(dict(a=id), targets=id)
for id in mux.targets:
mux.pull('a', targets=id)
mux.pull('a')
mux['a'] = 100
mux['a']
# get_result/reset/keys
mux.get_result()
%result
mux.apply(lambda : globals().keys())
mux.clear()
mux.apply(lambda : globals().keys())
try:
%result
except error.CompositeError:
print "Caught IndexError ok."
%px a = 5
mux.get_result(-1)
mux.apply(lambda : globals().keys())
# Queue management methods
%px import time
ars = [mux.apply_async(time.sleep, 2.0) for x in range(5)]
mux.queue_status()
time.sleep(3.0)
mux.abort(ars, block=True)
mux.queue_status()
time.sleep(2.0)
mux.queue_status()
mux.wait(ars)
for ar in ars:
try:
ar.r
except error.CompositeError:
print "Caught QueueCleared OK."
# scatter/gather
mux.scatter('a', range(10))
mux.gather('a')
mux.scatter('b', numpy.arange(10))
mux.gather('b')
#-------------------------------------------------------------------------------
# Non-Blocking execution
#-------------------------------------------------------------------------------
mux.block = False
# execute
ar1 = mux.execute('a=5')
with mux.sync_imports():
import sets
ar1.wait()
ar1 = mux.execute('1/0')
ar2 = mux.execute('c = sets.Set()')
mux.wait((ar1, ar2))
try:
ar1.r
except error.CompositeError:
print "Caught ZeroDivisionError OK."
ar = mux.execute("arint 'hi'")
ar.r
ar = mux.apply(lambda : 1/0)
try:
ar.r
except error.CompositeError:
print "Caught ZeroDivisionError OK."
# Make sure we can reraise it!
try:
ar.r
except error.CompositeError:
print "Caught ZeroDivisionError OK."
# push/pull
ar1 = mux.push(dict(a=10))
ar1.get()
ar2 = mux.pull('a')
ar2.r
# This is a command to make sure the end of the file is happy.
print "The tests are done!"