如何用python实现各种数据结构

    def quick_sort(_list):
            if len(_list) < 2:
                return _list
            pivot_index = 0
            pivot = _list(pivot_index)
            left_list = [i for i in _list[:pivot_index] if i < pivot]
            right_list = [i for i in _list[pivot_index:] if i > pivot]
        return quick_sort(left) + [pivot] + quick_sort(right)

    def select_sort(seq):
        n = len(seq)
        for i in range(n-1)
        min_idx = i
            for j in range(i+1,n):
                if seq[j] < seq[min_inx]:
                    min_idx = j
            if min_idx != i:
                seq[i], seq[min_idx] = seq[min_idx],seq[i]

    def insertion_sort(_list):
        n = len(_list)
        for i in range(1,n):
            value = _list[i]
            pos = i
            while pos > 0 and value < _list[pos - 1]
                _list[pos] = _list[pos - 1]
                pos -= 1
            _list[pos] = value
            print(sql)

    def merge_sorted_list(_list1,_list2):   #合并有序列表
        len_a, len_b = len(_list1),len(_list2)
        a = b = 0
        sort = []
        while len_a > a and len_b > b:
            if _list1[a] > _list2[b]:
                sort.append(_list2[b])
                b += 1
            else:
                sort.append(_list1[a])
                a += 1
        if len_a > a:
            sort.append(_list1[a:])
        if len_b > b:
            sort.append(_list2[b:])
        return sort

    def merge_sort(_list):
        if len(list1)<2:
            return list1
        else:
            mid = int(len(list1)/2)
            left = mergesort(list1[:mid])
            right = mergesort(list1[mid:])
            return merge_sorted_list(left,right)

    from heapq import nsmallest
    def heap_sort(_list):
        return nsmallest(len(_list),_list)

    from collections import deque
    class Stack:
        def __init__(self):
            self.s = deque()
        def peek(self):
            p = self.pop()
            self.push(p)
            return p
        def push(self, el):
            self.s.append(el)
        def pop(self):
            return self.pop()

    from collections import deque
    class Queue:
        def __init__(self):
            self.s = deque()
        def push(self, el):
            self.s.append(el)
        def pop(self):
            return self.popleft()

    def binary_search(_list,num):
        mid = len(_list)//2
        if len(_list) < 1:
            return Flase
        if num > _list[mid]:
            BinarySearch(_list[mid:],num)
        elif num < _list[mid]:
            BinarySearch(_list[:mid],num)
        else:
            return _list.index(num)