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0eb1825af2
* [ADD] tests for odd_even_transposition_parallel * adding another test because build failed 6 hrs * comment out all tests to see if it fails * list(range(10)[::-1]) test uncommented * [a, x, c] test uncommented * [1.9, 42.0, 2.8] test uncommented * [False, True, False] test uncommented * [1, 32.0, 9] test uncommented * [1, 32.0, 9] test uncommented * [-442, -98, -554, 266, -491, 985, -53, -529, 82, -429] test uncommented * test non global lock * [DEL] Testing multiple data types. Couldn't get doctest to work * [ADD] Comment on why non global process lock
165 lines
5.1 KiB
Python
165 lines
5.1 KiB
Python
"""
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This is an implementation of odd-even transposition sort.
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It works by performing a series of parallel swaps between odd and even pairs of
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variables in the list.
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This implementation represents each variable in the list with a process and
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each process communicates with its neighboring processes in the list to perform
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comparisons.
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They are synchronized with locks and message passing but other forms of
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synchronization could be used.
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"""
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from multiprocessing import Lock, Pipe, Process
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# lock used to ensure that two processes do not access a pipe at the same time
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# NOTE This breaks testing on build runner. May work better locally
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# process_lock = Lock()
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"""
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The function run by the processes that sorts the list
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position = the position in the list the process represents, used to know which
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neighbor we pass our value to
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value = the initial value at list[position]
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LSend, RSend = the pipes we use to send to our left and right neighbors
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LRcv, RRcv = the pipes we use to receive from our left and right neighbors
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resultPipe = the pipe used to send results back to main
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"""
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def oe_process(position, value, l_send, r_send, lr_cv, rr_cv, result_pipe):
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process_lock = Lock()
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# we perform n swaps since after n swaps we know we are sorted
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# we *could* stop early if we are sorted already, but it takes as long to
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# find out we are sorted as it does to sort the list with this algorithm
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for i in range(10):
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if (i + position) % 2 == 0 and r_send is not None:
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# send your value to your right neighbor
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process_lock.acquire()
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r_send[1].send(value)
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process_lock.release()
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# receive your right neighbor's value
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process_lock.acquire()
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temp = rr_cv[0].recv()
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process_lock.release()
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# take the lower value since you are on the left
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value = min(value, temp)
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elif (i + position) % 2 != 0 and l_send is not None:
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# send your value to your left neighbor
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process_lock.acquire()
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l_send[1].send(value)
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process_lock.release()
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# receive your left neighbor's value
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process_lock.acquire()
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temp = lr_cv[0].recv()
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process_lock.release()
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# take the higher value since you are on the right
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value = max(value, temp)
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# after all swaps are performed, send the values back to main
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result_pipe[1].send(value)
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"""
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the function which creates the processes that perform the parallel swaps
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arr = the list to be sorted
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"""
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def odd_even_transposition(arr):
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"""
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>>> odd_even_transposition(list(range(10)[::-1])) == sorted(list(range(10)[::-1]))
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True
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>>> odd_even_transposition(["a", "x", "c"]) == sorted(["x", "a", "c"])
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True
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>>> odd_even_transposition([1.9, 42.0, 2.8]) == sorted([1.9, 42.0, 2.8])
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True
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>>> odd_even_transposition([False, True, False]) == sorted([False, False, True])
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True
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>>> odd_even_transposition([1, 32.0, 9]) == sorted([False, False, True])
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False
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>>> odd_even_transposition([1, 32.0, 9]) == sorted([1.0, 32, 9.0])
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True
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>>> unsorted_list = [-442, -98, -554, 266, -491, 985, -53, -529, 82, -429]
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>>> odd_even_transposition(unsorted_list) == sorted(unsorted_list)
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True
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>>> unsorted_list = [-442, -98, -554, 266, -491, 985, -53, -529, 82, -429]
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>>> odd_even_transposition(unsorted_list) == sorted(unsorted_list + [1])
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False
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"""
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process_array_ = []
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result_pipe = []
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# initialize the list of pipes where the values will be retrieved
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for _ in arr:
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result_pipe.append(Pipe())
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# creates the processes
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# the first and last process only have one neighbor so they are made outside
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# of the loop
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temp_rs = Pipe()
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temp_rr = Pipe()
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process_array_.append(
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Process(
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target=oe_process,
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args=(0, arr[0], None, temp_rs, None, temp_rr, result_pipe[0]),
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)
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)
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temp_lr = temp_rs
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temp_ls = temp_rr
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for i in range(1, len(arr) - 1):
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temp_rs = Pipe()
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temp_rr = Pipe()
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process_array_.append(
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Process(
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target=oe_process,
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args=(i, arr[i], temp_ls, temp_rs, temp_lr, temp_rr, result_pipe[i]),
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)
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)
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temp_lr = temp_rs
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temp_ls = temp_rr
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process_array_.append(
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Process(
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target=oe_process,
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args=(
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len(arr) - 1,
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arr[len(arr) - 1],
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temp_ls,
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None,
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temp_lr,
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None,
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result_pipe[len(arr) - 1],
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),
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)
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)
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# start the processes
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for p in process_array_:
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p.start()
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# wait for the processes to end and write their values to the list
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for p in range(len(result_pipe)):
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arr[p] = result_pipe[p][0].recv()
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process_array_[p].join()
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return arr
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# creates a reverse sorted list and sorts it
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def main():
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arr = list(range(10, 0, -1))
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print("Initial List")
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print(*arr)
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arr = odd_even_transposition(arr)
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print("Sorted List\n")
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print(*arr)
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if __name__ == "__main__":
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main()
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