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multithread_cell_sorting_analysis.py
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multithread_cell_sorting_analysis.py
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import sys, getopt
from tkinter import *
import threading
from modules.multithread.StatusProbe import StatusProbe
from modules.multithread.SelectionSortCell import SelectionSortCell
from modules.multithread.BubbleSortCell import BubbleSortCell
from modules.multithread.MergeSortCell import MergeSortCell
from modules.multithread.CellGroup import CellGroup, GroupStatus
from modules.multithread.MultiThreadCell import CellStatus
from visualization.CellImage import CellImage
from visualization.CellGroupImage import CellGroupImage
import random
# VALUE_LIST = [28, 34, 6, 20, 7, 89, 34, 18, 29, 51]
#VALUE_LIST = range(20,0,-1)
def create_cells_within_one_group(value_list, threadLock, swapping_count, status_probe):
if len(value_list) == 0:
return []
left_boundary = (0, 1)
right_boundary = (len(value_list) - 1, 1)
cells = []
for i in range(0, len(value_list)):
cell = None
if random.random() <= 1:
cell = BubbleSortCell(i + 1, value_list[i], threadLock, (i, 1), cells, left_boundary, right_boundary, status_probe, disable_visualization=True, swapping_count=swapping_count)
else:
cell = SelectionSortCell(i + 1, value_list[i], threadLock, (i, 1), cells, left_boundary, right_boundary, status_probe, disable_visualization=True, swapping_count=swapping_count)
cells.append(cell)
period = 100000000
start_count_down = 1000000
cell_group = CellGroup(cells, cells, 0, left_boundary, right_boundary, GroupStatus.ACTIVE, threadLock, start_count_down, period)
for cell in cells:
cell.group = cell_group
return cells, [cell_group]
def print_current_status(cells):
print([{"value": c.value, "group id": c.group.group_id, "group status": c.group.status, "cell status": c.status, "left": c.left_boundary, "right": c.right_boundary} for c in cells])
def is_sorted(cells):
prev_cell = cells[0]
for c in cells:
if c.value < prev_cell.value:
return False
prev_cell = c
return True
# print([{"value": c.value, "group id": c.group.group_id, "group status": c.group.status, "cell status": c.status, "left": c.left_boundary, "right": c.right_boundary} for c in cells])
def kill_all_thread(cells, groups):
for c in cells:
c.status = CellStatus.INACTIVE
for g in groups:
g.status = GroupStatus.MERGED
def activate(cells, cell_groups):
for cell in cells:
cell.start()
for group in cell_groups:
group.start()
def get_pass_in_args(argv):
cell_type = ""
try:
opts, args = getopt.getopt(argv, "h", ["cell_type="])
except getopt.GetoptError:
print("please specify cell type using '--cell_type='")
sys.exit(2)
for opt, arg in opts:
if opt == "-h":
print("multithread_cell_sorting.py --cell_type=<cell_type>")
sys.exit()
if opt == "--cell_type":
cell_type = arg
if not cell_type:
print("please specify cell type using '--cell_type='")
sys.exit(2)
return cell_type
def main(argv):
#cell_type = get_pass_in_args(argv)
swapping_counts = []
for i in range(100):
threadLock = threading.Lock()
print(f">>>>>>>>>>>>>>>>> Prepare cells to sort for instance {i + 1} <<<<<<<<<<<<<<<<<<<<")
value_list = randomlist = random.sample(range(0, 100), 50)
status_probe = StatusProbe()
cells, cell_groups = create_cells_within_one_group(value_list, threadLock, swapping_count, status_probe)
threadLock.acquire()
print("Activating cells...")
activate(cells, cell_groups)
threadLock.release()
# shape = canvas.create_oval(30 - 20, 30 - 20, 30 + 20, 30 + 20, fill="white")
# text = canvas.create_text(30, 30, text="3")
print("Start sorting......")
while not is_sorted(cells):
#print_current_status(cells)
time.sleep(0.0001)
threadLock.acquire()
kill_all_thread(cells, cell_groups)
threadLock.release()
swapping_counts.append(swapping_count[0])
print(">>>>>>>>>>>>>>>>> Sorting complete, killed all threads. <<<<<<<<<<<<<<<<<<<<\n")
time.sleep(2)
print(swapping_counts)
if __name__ == "__main__":
main(sys.argv[1:])