原文出处 二分查找算法+代码(通俗易懂简洁简要)
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二分查找是一个能够把单值查找时间复杂度从O(n)降到O(logn)的算法。

二分查找的前提是数组有序(依照从小到大或从大到小的顺序排列)

有两种办法能够实现:递归和循环

为了节约寄存函数调用的栈,个别倡议应用循环

def binarysearch(nums, target):    #   循环实现    工夫复杂度O(logn)    low = 0    high = len(nums)-1    while low <= high:        mid = (low + high) // 2        guess = nums[mid]        if guess == target:            return mid        elif guess < target:            low = mid + 1        else:            high = mid - 1    return -1

如果nums=[1,2,7,7,7,7,7,9], target=7, 查找最左侧的7怎么办?

def binarysearch2(self, nums, target):  # 工夫复杂度O(logn)    left, right = 0, len(nums)-1    while left <= right:        mid = (left + right) // 2        if nums[mid] == target:            if mid == 0 or nums[mid-1] != target:                return mid            else:                right = mid - 1        elif nums[mid] < target:            left = mid + 1        else:            right = mid - 1    return -1

github代码出处:https://github.com/stevezkw19...

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