179 lines
5.5 KiB
Python
179 lines
5.5 KiB
Python
import os
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import random
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import timeit
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import prettytable
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def GUI():
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current_list=[]
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while True:
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print("1 - Generate a List")
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print("2 - Show Current List")
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print("3 - Bubble Sort")
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print("4 - Strand Sort")
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print("5 - Best Case")
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print("6 - Average Case")
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print("7 - Worst Case")
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print("8 - Clear screen")
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print("0 - Exit")
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value = input("> ")
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match value:
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case "1":
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n=int(input("Select lenght of the list: "))
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current_list = generate_list(n)
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print("Generated list: {}\n".format(current_list))
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case "2":
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show_list(current_list)
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case "3":
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steps=int(input("Please select the number of steps: "))
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current_list=bubble_sort(current_list,steps)
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case "4":
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steps=int(input("Please select the number of steps: "))
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current_list=strand_sort(current_list,steps)
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case "5":
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print("Please choose the sorting algorithm: ")
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print("1 - Bubble Sort")
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print("2 - Strand Sort")
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s=input(">")
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match s:
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case "1":
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best_case(bubble_sort)
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case "2":
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best_case(strand_sort)
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case _:
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print("Invalid command")
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case "6":
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print("Please choose the sorting algorithm: ")
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print("1 - Bubble Sort")
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print("2 - Strand Sort")
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s=input("> ")
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match s:
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case "1":
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average_case(bubble_sort)
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case "2":
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average_case(strand_sort)
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case _:
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print("Invalid command")
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case "7":
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print("Please choose the sorting algorithm: ")
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print("1 - Bubble Sort")
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print("2 - Strand Sort")
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s=input("> ")
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match s:
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case "1":
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worst_case(bubble_sort)
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case "2":
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worst_case(strand_sort)
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case _:
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print("Invalid command")
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case "8":
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cls = lambda: os.system('cls')
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cls()
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case "0":
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exit()
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case _:
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print("Invalid command")
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def bubble_sort(l,step):
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if step!=0:
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print("Starting list: {}".format(l))
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current_step=0
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for i in range(len(l)-1):
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sorted=True
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for j in range(len(l)-1-i):
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if l[j]>l[j+1]:
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l[j],l[j+1]=l[j+1],l[j]
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sorted=False
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current_step+=1
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if step!=0 and current_step % step == 0:
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print("List after {} steps: {}".format(current_step,l))
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if sorted:
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break
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if step!=0:
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print("Sorted list: {}\n".format(l))
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return l
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def strand_sort(l,step):
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if step!=0:
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print("Starting list: {}\n".format(l))
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current_step=0
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aux_list=[]
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final_list=[]
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while l:
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aux_list=[]
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aux_list.append(l.pop(0))
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current_step+=1
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strand_sort_message(current_step,l,aux_list,final_list,step)
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for i in l.copy():
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if aux_list[-1] <= i:
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aux_list.append(l.pop(l.index(i)))
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current_step+=1
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strand_sort_message(current_step,l,aux_list,final_list,step)
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if final_list:
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i=0
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while aux_list:
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if aux_list[-1]>final_list[i]:
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i+=1
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else:
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final_list.insert(i,aux_list[-1])
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aux_list.pop()
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current_step+=1
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strand_sort_message(current_step,l,aux_list,final_list,step)
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i=0
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else:
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final_list=aux_list.copy()
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aux_list.clear()
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current_step+=1
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strand_sort_message(current_step,l,aux_list,final_list,step)
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if step!=0:
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print("Sorted list: {}\n".format(final_list))
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return final_list
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def strand_sort_message(current_step,l,aux_list,final_list,step):
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if step!=0 and current_step%step==0:
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print("Lists after {} steps:".format(current_step))
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print("Starting list: {}".format(l))
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print("Working list: {}".format(aux_list))
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print("Final list: {}\n".format(final_list))
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def generate_list(n):
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return [random.randint(0,100) for _ in range(n)]
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def show_list(l):
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print("Current list: {}\n".format(l))
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def best_case(sort):
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n=500
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times=[]
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while n<=8000:
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time=timeit.timeit(lambda: sort(list(range(1,n+1)),0),number=1)
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times.append((n,time))
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n*=2
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display_times(times)
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def worst_case(sort):
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n=500
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times=[]
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while n<=8000:
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time=timeit.timeit(lambda: sort(list(range(n,0,-1)),0),number=1)
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times.append((n,time))
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n*=2
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display_times(times)
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def average_case(sort):
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n=500
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times=[]
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while n<=8000:
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time=timeit.timeit(lambda: sort(generate_list(n),0),number=1)
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times.append((n,time))
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n*=2
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display_times(times)
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def display_times(times):
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x=prettytable.PrettyTable()
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x.field_names=["List lenght","Time"]
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x.add_rows(times)
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print(x)
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if __name__=="__main__":
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GUI() |