def test_do_tasks_after_close_raises_exc():
m = Multiprocess()
f = lambda: 1
m.add_tasks(f, [()])
m.close()
with pytest.raises(MultiprocessClosed):
m.do_tasks()
def test_disable_load_bar_works(capsys): m = Multiprocess(show_loading_bar=False) m.add_tasks(lambda: 1, [()]) m.close() out, err = capsys.readouterr() assert (out == '') assert (err == '')
def test_empty_fn():
def f():
pass
m = Multiprocess()
m.add_tasks(f, [()])
m.do_tasks()
m.close()
def test_lambda_pickling(): f = lambda q: q.push(1) q = Queue() m = Multiprocess() m.add_tasks(f, [(q, )]) m.do_tasks() m.close() assert (q.qsize() == 1) assert (q.pop() == 1) assert (q.qsize() == 0)
def test_close_does_calls_do_task():
def f(q):
q.push(1)
q = Queue()
m = Multiprocess()
m.add_tasks(f, [(q, )])
m.close()
assert (q.qsize() == 1)
assert (q.pop() == 1)
assert (q.qsize() == 0)
def test_fn_raises_exc_is_caught():
m = Multiprocess()
def f():
raise ValueError('unique')
m.add_tasks(f, [()])
with pytest.raises(MultiprocessProcessException) as excinfo:
m.do_tasks()
assert 'unique' in str(excinfo.value)
m.close()
def test_do_tasks_after_error_raises_exc():
def f():
raise ValueError('error')
m = Multiprocess()
m.add_tasks(f, [()])
with pytest.raises(MultiprocessProcessException):
m.do_tasks()
with pytest.raises(MultiprocessClosed):
m.do_tasks()
m.close()
def test_do_tasks_twice():
def f(q):
q.push(1)
q = Queue()
m = Multiprocess()
m.add_tasks(f, [(q, )])
m.do_tasks()
assert (q.qsize() == 1)
m.add_tasks(f, [(q, )])
m.do_tasks()
assert (q.qsize() == 2)
def test_queue():
q = Queue()
m = Multiprocess()
def f(q):
q.push(1)
m.add_tasks(f, [(q, )])
m.do_tasks()
m.close()
assert (q.qsize() == 1)
assert (q.pop() == 1)
assert (q.qsize() == 0)
def test_stdout(capsys):
m = Multiprocess()
sys.stderr.write("\r\n")
m.add_tasks(lambda: 1, [()])
m.do_tasks()
m.close()
out, err = capsys.readouterr()
assert (out == '')
spl = [v.split('\r')[-1] for v in err.split('\n')]
while len(spl) and spl[0] == '':
spl = spl[1:]
assert (len(spl) == 2)
assert (spl[0].startswith('100%'))
assert (spl[1] == '')
def test_multiple_tasks():
def f(q, num):
q.push(num)
q = Queue()
m = Multiprocess()
arr = range(100)
m.add_tasks(f, [(
q,
num,
) for num in arr])
m.do_tasks()
m.close()
assert (q.qsize() == len(arr))
l = [q.pop() for v in range(q.qsize())]
assert (set(l) == set(arr))
def multiprocess(fn, arr_of_args, **kwargs):
"""Execute several tasks in parallel. Requires a function `fn`
and an array of argument tuples `arr_of_args`, each representing a call to the function.
Additionally, you can provide arguments the same as you would with `Multiprocess`
Example
>>> # exec f(x) and f(y) in parallel
>>> multiprocess(f, [(x,), (y,)])
If you don't want a loading bar
>>> multiprocess(f, [(x,), (y,)], show_loading_bar=False)
"""
m = Multiprocess(**kwargs)
m.add_tasks(fn, arr_of_args)
m.do_tasks()
m.close()
def test_no_loading_bar(): m = Multiprocess(show_loading_bar=False) f = lambda: 1 m.add_tasks(f, [()]) m.close()