八大排序算法的python实现
2023-09-14 09:12:14 时间
# -*- coding: utf-8 -*- # 冒泡排序 def bubble_sort(nums): i = 1 exchanged = True while i < len(nums) and exchanged: exchanged = False for j in range(len(nums) - i): if nums[j] > nums[j + 1]: nums[j], nums[j + 1] = nums[j + 1], nums[j] exchanged = True i += 1 return nums # 快速排序 def quick_sort(nums, left=0, right=None): if right == None: right = len(nums) - 1 if left >= right: return nums low = left high = right key = nums[left] while left < right: while left < right and nums[right] >= key: right -= 1 nums[left], nums[right] = nums[right], nums[left] while left < right and nums[left] <= key: left += 1 nums[left], nums[right] = nums[right], nums[left] quick_sort(nums, low, left - 1) # 递归 quick_sort(nums, right + 1, high) # left == right return nums # 插入排序 def insert_sort(nuns): for i in range(1, len(nums)): key = nums[i] i -= 1 while i >= 0 and nums[i] > key: nums[i + 1] = nums[i] i -= 1 nums[i + 1] = key return nums # 希尔排序 def shell_sort(nums): gap = len(nums) // 2 # 初始增量,//整除 while gap > 0: # 缩小增量,直至增量为1 for i in range(0, gap): # 分组 j = i + gap while j < len(nums): # 组内插入排序 key = nums[j] k = j - gap while k >= 0 and nums[k] > key: nums[k + gap] = nums[k] k -= gap nums[k + gap] = key j += gap gap //= 2 return nums # 选择排序 def select_sort(nums): for i in range(len(nums)): minimum = i for j in range(i + 1, len(nums)): if nums[j] < nums[minimum]: minimum = j nums[i], nums[minimum] = nums[minimum], nums[i] return nums # 堆排序 def max_heapify(nums, i, size): # 最大堆调整 # 注意数组的size比数组的最大索引大1 lchild = 2 * i + 1 rchild = 2 * i + 2 maximum = i if i < size // 2: if nums[lchild] > nums[maximum]: maximum = lchild if rchild < size: # 肯定有左子节点,未必有右子节点 if nums[rchild] > nums[maximum]: maximum = rchild if maximum != i: nums[i], nums[maximum] = nums[maximum], nums[i] max_heapify(nums, maximum, size) # 递归 def build_max_heap(nums, size): # 创建最大堆 for i in range(size // 2 - 1, -1, -1): max_heapify(nums, i, size) def heap_sort(nums): size = len(nums) build_max_heap(nums, size) for i in range(1, size): nums[0], nums[size - i] = nums[size - i], nums[0] max_heapify(nums, 0, size - i) return nums # 归并排序 def merge_sort(nums): length = len(nums) if length <= 1: return nums list1 = merge_sort(nums[: length // 2]) list2 = merge_sort(nums[length // 2:]) # 递归 i = 0 j = 0 k = 0 while i < len(list1) and j < len(list2): if list1[i] < list2[j]: nums[k] = list1[i] i += 1 k += 1 else: nums[k] = list2[j] j += 1 k += 1 nums = nums[: k] + list1[i:] nums = nums[: k] + list2[j:] # 其中一个为空列表 return nums # 基数排序 def radix_sort(nums): maximum = nums[0] for num in nums: # 找到最大值 if num > maximum: maximum = num k = 1 while maximum // (10 ** k) > 0: # 判定最大值是几位数 k += 1 for i in range(k): buckets = [[] for x in range(10)] for num in nums: buckets[(num // (10 ** i)) % 10].append(num) nums = [] for b in buckets: nums += b return nums # 测试 nums0 = list(range(200)) nums = list(range(200)) random.shuffle(nums) print(bubble_sort(nums) == nums0) print(quick_sort(nums) == nums0) print(insert_sort(nums) == nums0) print(shell_sort(nums) == nums0) print(select_sort(nums) == nums0) print(heap_sort(nums) == nums0) print(merge_sort(nums) == nums0) print(radix_sort(nums) == nums0)
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