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#!/usr/bin/env python3
import sys
import bootstrap
import decorator_utils
import executors
import parallelize as p
import smart_future
@p.parallelize(method=p.Method.THREAD)
def compute_factorial_thread(n):
total = 1
for x in range(2, n):
total *= x
return total
@p.parallelize(method=p.Method.PROCESS)
def compute_factorial_process(n):
total = 1
for x in range(2, n):
total *= x
return total
@p.parallelize(method=p.Method.REMOTE)
def compute_factorial_remote(n):
total = 1
for x in range(2, n):
total *= x
return total
@decorator_utils.timed
def test_thread_parallelization() -> None:
results = []
for _ in range(50):
f = compute_factorial_thread(_)
results.append(f)
smart_future.wait_all(results)
for future in results:
print(f'Thread: {future}')
texecutor = executors.DefaultExecutors().thread_pool()
texecutor.shutdown()
@decorator_utils.timed
def test_process_parallelization() -> None:
results = []
for _ in range(50):
results.append(compute_factorial_process(_))
for future in smart_future.wait_any(results):
print(f'Process: {future}')
pexecutor = executors.DefaultExecutors().process_pool()
pexecutor.shutdown()
@decorator_utils.timed
def test_remote_parallelization() -> None:
results = []
for _ in range(10):
results.append(compute_factorial_remote(_))
for result in smart_future.wait_any(results):
print(result)
rexecutor = executors.DefaultExecutors().remote_pool()
rexecutor.shutdown()
@bootstrap.initialize
def main() -> None:
test_thread_parallelization()
test_process_parallelization()
test_remote_parallelization()
sys.exit(0)
if __name__ == '__main__':
main()
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