def recursive_remove(S: ArrayStack):
    if S.is_empty():
        pass
    else:
        S.pop()
        print(S._data)
        recursive_remove(S)
Пример #2
0
def reverse_list_by_stack(l: List, s: ArrayStack):
    for i in l:
        s.push(i)

    for i in range(len(l)):
        if s.is_empty():
            break
        else:
            l[i] = s.pop()

    return l
Пример #3
0
def kuo_hao_match(expr: str):
    """返回True 如果所有的delimiters 都前后正确匹配,反之返回False"""
    left = '([{'
    right = ')]}'
    happened = ArrayStack()
    for _chr in expr:
        if _chr in left:
            happened.push(_chr)

        elif _chr in right:
            if happened.is_empty():
                return False
            if right.index(_chr) != left.index(happened.pop()):
                return False

    # 如果能顺利遍历排空所有happened,则返回True
    return happened.is_empty()
Пример #4
0
from ADT import ArrayStack
from typing import List


def reverse_list_by_stack(l: List, s: ArrayStack):
    for i in l:
        s.push(i)

    for i in range(len(l)):
        if s.is_empty():
            break
        else:
            l[i] = s.pop()

    return l


if __name__ == "__main__":
    s = ArrayStack()
    l = [i for i in range(10)]
    l = reverse_list_by_stack(l, s)
    print(l)
 def transfer(self, S: ArrayStack, T: ArrayStack):
     while True:
         try:
             T.push(S.pop())
         except:
             break
from ADT import ArrayStack


class Solution:
    def transfer(self, S: ArrayStack, T: ArrayStack):
        while True:
            try:
                T.push(S.pop())
            except:
                break


if __name__ == "__main__":
    s = ArrayStack()
    t = ArrayStack()
    for i in range(10):
        s.push(i)

    sol = Solution()
    sol.transfer(S=s, T=t)
    print(t._data)