栈的定义
class Stack:
"""
items[0]为栈底
"""
def __init__(self):
self.items = []
def isEmpty(self):
return self.items == []
def push(self, item):
self.items.append(item)
def pop(self):
return self.items.pop()
def peek(self):
return self.items[-1]
def size(self):
return len(self.items)
应用(一)括号匹配
只匹配小括号()
def parChecker(symbolString):
"""
判断括号是否成对匹配
:param symbolString:
:return:
"""
s = Stack()
balanced = True
index = 0
while index < len(symbolString) and balanced:
symbol = symbolString[index]
if symbol == "(":
s.push(symbol)
else:
if s.isEmpty():
balanced = False
else:
s.pop()
index += 1
if s.isEmpty() and balanced:
print("匹配成功", s.size())
else:
print("匹配失败", s.size())
通用{}[]()
def matches(open, close):
opens = "([{"
closes = ")]}"
return opens.index(open) == closes.index(close)
# def parChecker2(symbolString):
# """
# 判断括号是否成对匹配
# :param symbolString:
# :return:
# """
# s = Stack()
# balanced = True
# index = 0
# while index < len(symbolString) and balanced:
# symbol = symbolString[index]
if symbol in "([{":
# s.push(symbol)
# else:
# if s.isEmpty():
# balanced = False
# else:
top = s.pop()
if not matches(top, symbol):
balanced = False
#
# index += 1
# if s.isEmpty() and balanced:
# print("匹配成功", s.size())
# else:
# print("匹配失败", s.size())
应用(二)进制转换-除n取余法
十进制转二进制
def divideBy2(d):
"""
十进制 ==> 2进制
:param d:
:return:
"""
s = Stack()
while d > 0:
b = d % 2
s.push(b)
d //= 2
binstr = ""
while s.size() > 0:
binstr += str(s.pop())
print(binstr)
十进制转十六以下任意进制
其实我们还可以扩展到n进制,多用一些字母代替数字即可。
def baseConverter(d):
"""
十进制 ==> 16以下任意进制
:return:
"""
base = 16
digits = "0123456789ABCDEF"
s = Stack()
while d > 0:
b = d % base
s.push(b)
d //= base
basestr = ""
while s.size() > 0:
basestr += str(s.pop())
print(basestr)
应用(三)算术表达式转换&求值
术语
中缀表达式(运算符在数字中间): A+BC
全括号中缀表达式: ((A+(BC))+D)
前缀表达式: +AB代表A+B
后缀表达式: AB+代表A+B
结论:距离操作数最近的操作符越优先参与运算
中缀表达式转后缀表达式
算法:
从左到右扫描中缀表达式
遇到操作数123...ABC...,直接输出
遇到左括号(,压入栈s
遇到右括号),一直弹出栈顶操作符(并输出)直到遇到左括号
遇到操作符+-*/,
(1)优先级大于栈顶操作符,压入栈s
(2)优先级小于栈顶操作符,一直弹出栈顶操作符(并输出)直到大于栈顶操作符后,压入栈s
扫描完毕,弹出栈s中所有操作符(并输出)
def infixTOpostfix(infixstr):
"""
中缀表达式 ==> 后缀表达式
:param infixstr:
:return:
"""
prec = {}
prec['*'] = 3
prec['/'] = 3
prec['+'] = 2
prec['-'] = 2
prec['('] = 0
s = Stack()
pflist = []
iflist = list(infixstr)
for c in iflist:
if c in "0123456789" or c in "ABCDEFJHIJKLMN":
pflist.append(c)
elif c == "(":
s.push(c)
elif c == ")":
top = s.pop()
while top != "(":
pflist.append(top)
top = s.pop()
else:
while (not s.isEmpty()) and prec[c] <= prec[s.peek()]:
pflist.append(s.pop())
s.push(c)
while not s.isEmpty():
pflist.append(s.pop())
print(" ".join(pflist))
后缀表达式计算
算法:
从左到右扫描后缀表达式
遇到数字,压入栈s
遇到操作符,弹出两个操作数op2, op1,把计算得到的结果压入栈s
直到扫描完毕,此时栈中仅剩一个元素,即为计算结果
def doMath(c, op1, op2):
if c == "+":
return op1 + op2
elif c == "-":
return op1 - op2
elif c == "*":
return op1 * op2
elif c == "/":
return op1 / op2
def postfixEval(postfixstr):
s = Stack()
pflist = postfixstr.split()
for c in pflist:
if c in "0123456789":
s.push(int(c))
else:
op2 = s.pop() # 先弹出的是右操作数(计算减法和除法时操作数左右顺序有区分)
op1 = s.pop()
res = doMath(c, op1, op2)
s.push(res)
print(s.pop())