Esempio n. 1
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def start_algorithm():
    """
    Starts the algorithm based on the selection from the user in the ComboBox
    Expected Complexity: dependent on the sort selected
    """

    global data_list

    if algorithm_menu.get() == "Bubble Sort":
        bubble_sort(data_list, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Selection Sort":
        selection_sort(data_list, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Insertion Sort":
        insertion_sort(data_list, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Quick Sort":
        quick_sort(data_list, 0,
                   len(data_list) - 1, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Merge Sort":
        merge_sort(data_list, 0,
                   len(data_list) - 1, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Heap Sort":
        heap_sort(data_list, draw_data, speed_scale.get())

    elif algorithm_menu.get() == "Cocktail Sort":
        cocktail_sort(data_list, draw_data, speed_scale.get())
Esempio n. 2
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 def test_bubble_sort(self):
     for x in range(TEST_ARRAYS_COUNT):
         array = [random.randrange(0, 1000) for y in range(x * 100 + 1)]
         unsorted = array.copy()
         unsorted.sort()
         bubble_sort(array)
         self.assertEqual(unsorted, array)
def StartAlogrithm():
    global data
    if not data: return

    if algMenu.get() == 'Quick Sort':
        quick_sort(data, 0, len(data) - 1, drawData, speedScale.get())
        drawData(data, ['green' for x in range(len(data))])
    elif algMenu.get() == 'Bubble Sort':
        bubble_sort(data, drawData, speedScale.get())
Esempio n. 4
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def StartAlgorithm():
    global data
    if not data:
        return
    if algo_menu.get() == "Bubble Sort":
        bubble_sort(data, drawData, speedScale.get())
    elif algo_menu.get() == "Merge Sort":
        merge_sort(data, drawData, speedScale.get())

    drawData(data, ["skyblue" for x in range(len(data))])
Esempio n. 5
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def start_algo():
    global data
    if not data: return
    if algo_menu.get() == 'Quick Sort':
        quick_sort(data, 0, len(data) - 1, draw_data, speed_scale.get())
    elif algo_menu.get() == 'Bubble Sort':
        bubble_sort(data, draw_data, speed_scale.get())
    elif algo_menu.get() == 'Merge Sort':
        merge_sort(data, draw_data, speed_scale.get())

    draw_data(data, ['purple' for i in range(len(data))])
Esempio n. 6
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def test_bubble(user_int):
    test_list = [i for i in range(user_int)]
    random.shuffle(test_list)

    start_time = time.time()
    bubble_sort(test_list)
    final_time = time.time()

    total_time = final_time - start_time
    result_str = generate_results(test_list, total_time, "   Bubble")

    print(result_str)

    return None
Esempio n. 7
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def test_bubble(user_int):

    # build the test list
    test_list = [i for i in range(user_int)]
    random.shuffle(test_list)

    # time tracking of the sort
    start_time = time.time()
    bubble_sort(test_list)
    final_time = time.time()

    # generate and print results
    total_time = final_time - start_time
    result_str = generate_results(test_list, total_time, "   Bubble")

    print(result_str)

    return None
Esempio n. 8
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def start_algorithm():
    global data
    selected_algo = algo_list.get("anchor")
    # print("Selected Algorithm "+selectedAlgo)
    # print(data)
    # bubble_sort(data, draw_data, speed_scale.get())

    if not data:
        return

    if selected_algo == 'Bubble Sort':
        bubble_sort(data, draw_data, speed_scale.get())

    # elif selected_algo == 'Quick Sort':
    #     quick_sort(data, 0, len(data)-1, drawData, speedScale.get())
    #     drawData(data, ['green' for x in range(len(data))])
    #
    elif selected_algo == 'Merge Sort':
        merge_sort(data, draw_data, speed_scale.get())
Esempio n. 9
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def StartAlgorithm():
    global data
    if not data: return

    if algMenu.get() == 'Quick Sort':
        quick_sort(data, 0, len(data)-1, drawData, speedScale.get())
        drawData(data, ['green' for x in range(len(data))])
    
    elif algMenu.get() == 'Bubble Sort':
        bubble_sort(data, drawData, speedScale.get())
        
    elif algMenu.get() == 'Selection Sort':
        selectionSort(data, drawData, speedScale.get())
        
    elif algMenu.get() == 'Insertion Sort':
        insertionSort(data, drawData, speedScale.get())
        
        
    elif algMenu.get() == 'Merge Sort':
        merge_sort(data, drawData, speedScale.get())
        
    drawData(data, ['green' for x in range(len(data))])
Esempio n. 10
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    def test_BubbleSort(self):
        sorted = bubble_sort(self.data_1)

        self.assertEqual(self.data_1[0], 1)
        self.assertEqual(self.data_1[1], 2)
        self.assertEqual(self.data_1[2], 3)
        self.assertEqual(self.data_1[3], 4)
        self.assertEqual(self.data_1[4], 5)
        self.assertEqual(self.data_1[5], 6)
        self.assertEqual(self.data_1[6], 7)
        self.assertEqual(self.data_1[7], 8)
        self.assertEqual(self.data_1[8], 9)
        self.assertEqual(self.data_1[9], 10)
Esempio n. 11
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def StartAlgorithm():
    global data
    bubble_sort(data, drawData, speedScale.get())
Esempio n. 12
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    def test1(self):
        arr = [1, 2, 3, 4, 5, 6, 7]

        assert bubble_sort(arr) == [1, 2, 3, 4, 5, 6, 7]
Esempio n. 13
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    def test3(self):
        arr = [5, 4, 1, 6, 8, 10, 2, 4, 7]

        assert bubble_sort(arr) == [1, 2, 4, 4, 5, 6, 7, 8, 10]
Esempio n. 14
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    def test2(self):
        arr = [1, 2, 3, 4, 5, 6, 7]

        arr.reverse()

        assert bubble_sort(arr) == [1, 2, 3, 4, 5, 6, 7]
Esempio n. 15
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def start_algorithm():
    global data
    selectedAlgo = algo_list.get("anchor")
    print("Selected Algorithm " + selectedAlgo)
    print(data)
    bubble_sort(data, draw_data, speed_scale.get())
Esempio n. 16
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     break
 elif alg == 2:
     comeco = time.time()
     merge_sort(numeros, 0, len(numeros) - 1)
     fim = time.time() - comeco
     alg = 'Merge-Sort'
     break
 elif alg == 3:
     comeco = time.time()
     selection_sort(numeros)
     fim = time.time() - comeco
     alg = 'Selection-Sort'
     break
 elif alg == 4:
     comeco = time.time()
     bubble_sort(numeros)
     fim = time.time() - comeco
     alg = 'Bubble-Sort'
     break
 elif alg == 5:
     comeco = time.time()
     shell_sort(numeros)
     fim = time.time() - comeco
     alg = 'Shell-Sort'
 elif alg == 6:
     comeco = time.time()
     cocktail_sort(numeros)
     fim = time.time() - comeco
     alg = 'Cocktail-Sort'
     break
 else: