def buildParseTree(self): """ 构建解析树 使用栈来保存父节点 """ pStack = Stack() eTree = BinaryTree('') pStack.push(eTree) curentTree = eTree for i in self.fplist: # 如果标记是 (, 为当前节点创建一个子节点, 并下沉至该节点 if i == "(": curentTree.insertLeft("") pStack.push(curentTree) curentTree = curentTree.getLeftChild() # 如果当前标记在列表["+", "-", "/", "*"], 将当前节点的值设置为当前标记对应的运算符;为当前节点穿件一个右节点并下沉至该节点 elif i not in "=-*/": curentTree.setRootVal(eval(i)) parent = pStack.pop() curentTree = parent # 如果当前值是是数值, 就将当前节点的数值设置为该数值并返回至父节点 elif i in "=-*/": curentTree.setRootVal(eval(i)) curentTree.insertRight("") pStack.push(curentTree) curentTree.getRightChild() # 如果标记是), 则跳到当前节点的父节点 elif i == ")": parent = pStack.pop() curentTree = parent else: raise ValueError("Error: %s" % i) return eTree
class MyQueue: def __init__(self): self.new_stack = Stack() self.old_stack = Stack() def _shift_stacks(self): if self.old_stack.is_empty(): while not self.new_stack.is_empty(): self.old_stack.push(self.new_stack.pop()) def add(self, value): return self.new_stack.push(value) def peek(self): if self.is_empty(): return False self._shift_stacks() return self.old_stack.peek() def remove(self): if self.is_empty(): return False self._shift_stacks() return self.old_stack.pop() def is_empty(self): return len(self) == 0 def __len__(self): return len(self.new_stack) + len(self.old_stack)
class SortedStack(Stack): def __init__(self): super().__init__() self.temp_stack = Stack() def push(self, item): if self.is_empty() or item < self.peek(): super().push(item) else: while self.peek() is not None and item > self.peek(): self.temp_stack.push(self.pop()) super().push(item) while not self.temp_stack.is_empty(): super().push(self.temp_stack.pop())
class MinStack(Stack): def __init__(self): super().__init__() self.minvals = Stack() def push(self, value): super().push(value) if not self.minvals or value <= self.min(): self.minvals.push(value) def pop(self): value = super().pop() if value == self.min(): self.minvals.pop() return value def min(self): return self.minvals.peek()
def calculatePostOrderFormulas(self, postOrderformulas): """ 计算后序表达式 """ operaDict = { "+": operator.add, "-": operator.sub, "*": operator.mul, "/": operator.truediv } postStack = Stack() postOrderList = list(postOrderformulas) for ch in postOrderList: if ch.isdigit(): postStack.push(eval(ch)) else: opN1 = postStack.pop() opN2 = postStack.pop() postStack.push(operaDict[ch](opN2, opN1)) return postStack.pop()
class RStack: rStack = Stack() convertString = "0123456789ABCDEF" def formatHex(self, n, base): self.toStr(n, base) hexNum = "" while not self.rStack.isEmpty(): hexNum += self.rStack.pop() return hexNum def toStr(self, n, base): assert isinstance(n, int) assert isinstance(base, int) assert base <= len(self.convertString) if n < base: self.rStack.push(self.convertString[n]) else: self.rStack.push(self.convertString[n % base]) self.toStr(n // base, base)
def parseChecker(self, symbolStr): s = Stack() balanced = True index = 0 while index < len(symbolStr) and balanced: symbol = symbolStr[index] if symbol in "{[(": s.push(symbol) elif s.isEmpty(): balanced = False else: topSym = s.pop() if not self.matches(topSym, symbol): balanced = False index += 1 if balanced and s.isEmpty(): return True else: return False
def __init__(self): self.new_stack = Stack() self.old_stack = Stack()
def conversionToPostOrder(self, inOrdErexpr): """ 后序转换 """ # 构建运算符优先级字典 prec = {"*": 3, "/": 3, "+": 2, "-": 2, "(": 1, ")": 1} if not self.parseChecker(inOrdErexpr): raise ValueError opStack = Stack() postOrderList = list() exprList = inOrdErexpr.split() for ch in exprList: if ch.isdigit(): postOrderList.append(ch) elif ch == "(": opStack.push(ch) elif ch == ")": topOper = opStack.pop() while topOper != "(": postOrderList.append(topOper) topOper = opStack.pop() else: # 比较运算符优先级,如果栈中运算符的优先级>当前运算符, 追加至转换列表中 while (not opStack.isEmpty()) and (prec[opStack.peek()] > prec[ch]): postOrderList.append(opStack.pop()) opStack.push(ch) # 将栈中的运算符追加至转换列表中 while not opStack.isEmpty(): postOrderList.append(opStack.pop()) return "".join(postOrderList)
def __init__(self): super().__init__() self.temp_stack = Stack()
def __init__(self): super().__init__() self.minvals = Stack()