[Swift]LeetCode150. 逆波兰表达式求值 | Evaluate Reverse Polish Notation
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Evaluate the value of an arithmetic expression in Reverse Polish Notation.
Valid operators are +, -, *, /. Each operand may be an integer or another expression.
Note:
- Division between two integers should truncate toward zero.
- The given RPN expression is always valid. That means the expression would always evaluate to a result and there won't be any divide by zero operation.
Example 1:
Input: ["2", "1", "+", "3", "*"] Output: 9 Explanation: ((2 + 1) * 3) = 9
Example 2:
Input: ["4", "13", "5", "/", "+"] Output: 6 Explanation: (4 + (13 / 5)) = 6
Example 3:
Input: ["10", "6", "9", "3", "+", "-11", "*", "/", "*", "17", "+", "5", "+"] Output: 22 Explanation: ((10 * (6 / ((9 + 3) * -11))) + 17) + 5 = ((10 * (6 / (12 * -11))) + 17) + 5 = ((10 * (6 / -132)) + 17) + 5 = ((10 * 0) + 17) + 5 = (0 + 17) + 5 = 17 + 5 = 22
根据逆波兰表示法,求表达式的值。
有效的运算符包括 +, -, *, / 。每个运算对象可以是整数,也可以是另一个逆波兰表达式。
说明:
- 整数除法只保留整数部分。
- 给定逆波兰表达式总是有效的。换句话说,表达式总会得出有效数值且不存在除数为 0 的情况。
示例 1:
输入: ["2", "1", "+", "3", "*"] 输出: 9 解释: ((2 + 1) * 3) = 9
示例 2:
输入: ["4", "13", "5", "/", "+"] 输出: 6 解释: (4 + (13 / 5)) = 6
示例 3:
输入: ["10", "6", "9", "3", "+", "-11", "*", "/", "*", "17", "+", "5", "+"] 输出: 22 解释: ((10 * (6 / ((9 + 3) * -11))) + 17) + 5 = ((10 * (6 / (12 * -11))) + 17) + 5 = ((10 * (6 / -132)) + 17) + 5 = ((10 * 0) + 17) + 5 = (0 + 17) + 5 = 17 + 5 = 22
52ms
1 class Solution { 2 func evalRPN(_ tokens: [String]) -> Int { 3 var intStack = [Int]() 4 for t in tokens { 5 switch t { 6 case "+": 7 guard let a = intStack.popLast(), let b = intStack.popLast() else {return -1} 8 intStack.append(a+b) 9 case "-": 10 guard let a = intStack.popLast(), let b = intStack.popLast() else {return -1} 11 intStack.append(b-a) 12 case "*": 13 guard let a = intStack.popLast(), let b = intStack.popLast() else {return -1} 14 intStack.append(b*a) 15 case "/": 16 guard let a = intStack.popLast(), let b = intStack.popLast() else {return -1} 17 intStack.append(b/a) 18 default: 19 guard let n = Int(t) else {return -1} 20 intStack.append(n) 21 } 22 } 23 return intStack.last! 24 } 25 }
60ms
1 class Stack<T> { 2 var arr = [T]() 3 4 func insert(_ v: T) { 5 arr.append(v) 6 } 7 8 func dequeue() -> T? { 9 if arr.count == 0 { return nil } 10 return arr.removeLast() 11 } 12 } 13 14 class Solution { 15 func evalRPN(_ tokens: [String]) -> Int { 16 let stack = Stack<Int>() 17 for item in tokens { 18 if let numericItem = Int(item) { 19 stack.insert(numericItem) 20 } else { 21 if let rhs = stack.dequeue(), let lhs = stack.dequeue() { 22 switch item { 23 case "+": 24 stack.insert(lhs + rhs) 25 case "-": 26 stack.insert(lhs - rhs) 27 case "*": 28 stack.insert(lhs * rhs) 29 case "/": 30 stack.insert(lhs / rhs) 31 default: 32 break 33 } 34 } else { 35 fatalError("wrong rpn") 36 } 37 } 38 } 39 return stack.dequeue()! 40 } 41 }
64ms
1 class Solution { 2 private struct Stack<Type> { 3 var arr = [Type]() 4 mutating func push(_ e: Type) { 5 arr.insert(e, at: arr.count) 6 } 7 mutating func pop() -> Type? { 8 if arr.count > 0 { 9 return arr.remove(at: arr.count-1) 10 } 11 return nil 12 } 13 14 var isEmpty: Bool { 15 return arr.count <= 0 16 } 17 } 18 19 func evalRPN(_ tokens: [String]) -> Int { 20 var stack = Stack<Int>() 21 for str in tokens { 22 if let num = Int(str) { 23 stack.push(num) 24 } else { 25 let op2 = stack.pop()! 26 let op1 = stack.pop()! 27 var ret = 0 28 switch str { 29 case "+": 30 ret = op1 + op2 31 case "-": 32 ret = op1 - op2 33 case "*": 34 ret = op1 * op2 35 case "/": 36 ret = op1 / op2 37 default: 38 break 39 } 40 stack.push(ret) 41 } 42 } 43 return stack.pop()! 44 } 45 }
100ms
1 class Solution { 2 enum Operation: String { 3 case plus = "+" 4 case minus = "-" 5 case divive = "/" 6 case mutiple = "*" 7 8 func comput(_ num1: Int, _ num2: Int) -> Int { 9 switch self { 10 case .plus: 11 return num1 + num2 12 case .minus: 13 return num1 - num2 14 case .divive: 15 return num1 / num2 16 case .mutiple: 17 return num1 * num2 18 } 19 } 20 } 21 22 func evalRPN(_ tokens: [String]) -> Int { 23 var opertationNumer: [Int] = [] 24 25 tokens.forEach { (token) in 26 if let num = Int(token) { 27 opertationNumer.append(num) 28 } else if let operation = Operation(rawValue: token) { 29 if let num2 = opertationNumer.popLast(), 30 let num1 = opertationNumer.popLast() { 31 let res = operation.comput(num1, num2) 32 opertationNumer.append(res) 33 } 34 } 35 } 36 return opertationNumer.popLast()! 37 } 38 }
116ms
1 class Solution { 2 func evalRPN(_ tokens: [String]) -> Int { 3 var stack = [Int]() 4 5 for char in tokens { 6 switch char { 7 case "+": 8 stack.append(stack.remove(at: stack.count - 2) + stack.removeLast()) 9 case "-": 10 stack.append(stack.remove(at: stack.count - 2) - stack.removeLast()) 11 case "*": 12 stack.append(stack.remove(at: stack.count - 2) * stack.removeLast()) 13 case "/": 14 stack.append(stack.remove(at: stack.count - 2) / stack.removeLast()) 15 default: 16 stack.append(Int(String(char))!) 17 } 18 } 19 20 return stack.first! 21 } 22 }
120ms
1 class Solution { 2 func evalRPN(_ tokens: [String]) -> Int { 3 var stack = [Int]() 4 5 for token in tokens { 6 if let num = Int(token) { 7 stack.append(num) 8 } else { 9 let post = stack.removeLast() 10 let prev = stack.removeLast() 11 12 stack.append(operate(prev, post, token)) 13 } 14 } 15 16 return stack.first ?? 0 17 } 18 19 func operate(_ prev: Int, _ post: Int, _ token: String) -> Int{ 20 switch token { 21 case "+": 22 return prev + post 23 case "-": 24 return prev - post 25 case "*": 26 return prev * post 27 default: 28 return prev / post 29 } 30 } 31 }
124ms
1 class Solution { 2 func evalRPN(_ tokens: [String]) -> Int { 3 4 var stack = [String]() 5 6 for (_ , str) in tokens.enumerated() { 7 if str != "+" && str != "-" && str != "*" && str != "/" { 8 stack.append(str) 9 } else { 10 let postStr = stack.removeLast() 11 let preStr = stack.removeLast() 12 13 var res = 0 14 if str == "+" { 15 res = Int(preStr)! + Int(postStr)! 16 } else if str == "-" { 17 res = Int(preStr)! - Int(postStr)! 18 } else if str == "*" { 19 res = Int(preStr)! * Int(postStr)! 20 } else { 21 res = Int(preStr)! / Int(postStr)! 22 } 23 24 stack.append(String(res)) 25 } 26 } 27 28 let val = stack.removeLast() 29 return Int(val)! 30 } 31 }
132ms
1 class Solution { 2 func evalRPN(_ tokens: [String]) -> Int { 3 guard tokens.count > 0 else { return 0 } 4 let operators = Set<String>(["+", "-", "*", "/"]) 5 var stack = [String]() 6 for token in tokens { 7 if operators.contains(token) { 8 let b = Int(stack.removeLast())! 9 let a = Int(stack.removeLast())! 10 var res = 0 11 switch token { 12 case "+": 13 res = a + b 14 break 15 case "-": 16 res = a - b 17 break 18 case "*": 19 res = a * b 20 break 21 case "/": 22 res = a / b 23 break 24 default: 25 break 26 } 27 stack.append(String(res)) 28 } else { 29 stack.append(token) 30 } 31 } 32 return Int(stack[0])! 33 } 34 }
148ms
1 class Solution { 2 enum Operator: String { 3 case plus = "+" 4 case minus = "-" 5 case multiplication = "*" 6 case division = "/" 7 8 func evaluate(_ num1: Int, _ num2: Int) -> Int { 9 let expression = self.expression() 10 return expression(num1, num2) 11 } 12 13 func expression() -> ((Int, Int) -> Int) { 14 switch self { 15 case .plus: 16 return { (a, b) in return (a + b) } 17 case .minus: 18 return { (a, b) in return (a - b) } 19 case .multiplication: 20 return { (a, b) in return (a * b) } 21 case .division: 22 return { (a, b) in return (a / b) } 23 } 24 } 25 } 26 27 func evalRPN(_ tokens: [String]) -> Int { 28 let resultStack = Stack<Int>() 29 30 for token in tokens { 31 if let operatorValue = makeOperator(token) { 32 if let num1 = resultStack.pop(), let num2 = resultStack.pop() { 33 let result = operatorValue.evaluate(num2, num1) 34 resultStack.push(result) 35 } else { 36 assertionFailure("input tokens are not valid") 37 return 0 38 } 39 } else if let integerValue = makeInteger(token) { 40 resultStack.push(integerValue) 41 } else { 42 assertionFailure("input token is not valid") 43 return 0 44 } 45 } 46 47 if let result = resultStack.pop() { 48 return result 49 } else { 50 assertionFailure("input tokens are not in correct format") 51 return 0 52 } 53 } 54 55 func makeInteger(_ str: String) -> Int? { 56 return Int(str) 57 } 58 59 func makeOperator(_ str: String) -> Operator? { 60 return Operator(rawValue: str) 61 } 62 } 63 64 public class Stack<T> { 65 66 class Node { 67 let value: T 68 var next: Node? 69 70 init(value: T, next: Node? = nil) { 71 self.value = value 72 self.next = next 73 } 74 } 75 76 private var top: Node? = nil 77 public private(set) var count: Int = 0 78 79 public func push(_ value: T) { 80 let node = Node(value: value) 81 node.next = top 82 top = node 83 count += 1 84 } 85 86 @discardableResult 87 public func pop() -> T? { 88 let value = top?.value 89 top = top?.next 90 count -= 1 91 return value 92 } 93 94 func printDescription() { 95 var currentNode = top 96 while let node = currentNode { 97 print("[\(node.value)]", terminator: "->") 98 currentNode = currentNode?.next 99 } 100 print("[]") 101 } 102 }
