![[Swift]LeetCode752. 打开转盘锁 | Open the Lock,第1张](/aiimages/%5BSwift%5DLeetCode752.+%E6%89%93%E5%BC%80%E8%BD%AC%E7%9B%98%E9%94%81+%7C+Open+the+Lock.png "[Swift]LeetCode752. 打开转盘锁 | Open the Lock,第1张")
You have a lock in front of you with 4 circular wheels. Each wheel has 10 slots: ‘0‘,‘1‘,‘2‘,‘3‘,‘4‘,‘5‘,‘6‘,‘7‘,‘8‘,‘9‘. The wheels can rotate freely and wrap around: for example we can turn ‘9‘ to be ‘0‘,or ‘0‘ to be ‘9‘. Each move consists of turning one wheel one slot.
The lock initially starts at ‘0000‘,a string representing the state of the 4 wheels.
You are given a List of deadends dead ends,meaning if the lock displays any of these codes,the wheels of the lock will stop turning and you will be unable to open it.
Given a target representing the value of the wheels that will unlock the lock,return the minimum total number of turns required to open the lock,or -1 if it is impossible.
Example 1:
input: deadends = ["0201","0101","0102","1212","2002"],target = "0202"Output: 6Explanation:A sequence of valID moves would be "0000" -> "1000" -> "1100" -> "1200" -> "1201" -> "1202" -> "0202".Note that a sequence like "0000" -> "0001" -> "0002" -> "0102" -> "0202" would be invalID,because the wheels of the lock become stuck after the display becomes the dead end "0102".
Example 2:
input: deadends = ["8888"],target = "0009"Output: 1Explanation:We can turn the last wheel in reverse to move from "0000" -> "0009".
Example 3:
input: deadends = ["8887","8889","8878","8898","8788","8988","7888","9888"],target = "8888"Output: -1Explanation:We can‘t reach the target without getting stuck.
Example 4:
input: deadends = ["0000"],target = "8888"Output: -1
Note:
The length ofdeadends will be in the range [1,500]. target will not be in the List deadends. Every string in deadends and the string target will be a string of 4 digits from the 10,000 possibilitIEs ‘0000‘ to ‘9999‘. 你有一个带有四个圆形拨轮的转盘锁。每个拨轮都有10个数字: ‘0‘,‘9‘ 。每个拨轮可以自由旋转:例如把 ‘9‘ 变为 ‘0‘,‘0‘ 变为 ‘9‘ 。每次旋转都只能旋转一个拨轮的一位数字。
锁的初始数字为 ‘0000‘ ,一个代表四个拨轮的数字的字符串。
列表 deadends 包含了一组死亡数字,一旦拨轮的数字和列表里的任何一个元素相同,这个锁将会被永久锁定,无法再被旋转。
字符串 target 代表可以解锁的数字,你需要给出最小的旋转次数,如果无论如何不能解锁,返回 -1。
示例 1:
输入:deadends = ["0201",target = "0202"输出:6解释:可能的移动序列为 "0000" -> "1000" -> "1100" -> "1200" -> "1201" -> "1202" -> "0202"。注意 "0000" -> "0001" -> "0002" -> "0102" -> "0202" 这样的序列是不能解锁的,因为当拨动到 "0102" 时这个锁就会被锁定。
示例 2:
输入: deadends = ["8888"],target = "0009"输出:1解释:把最后一位反向旋转一次即可 "0000" -> "0009"。
示例 3:
输入: deadends = ["8887",target = "8888"输出:-1解释:无法旋转到目标数字且不被锁定。
示例 4:
输入: deadends = ["0000"],target = "8888"输出:-1
提示:
死亡列表deadends 的长度范围为 [1,500]。 目标数字 target 不会在 deadends之中。 每个 deadends 和 target 中的字符串的数字会在 10,000 个可能的情况 ‘0000‘ 到 ‘9999‘ 中产生。 Runtime: 296 ms Memory Usage: 20.1 MB 1 class Solution { 2 func openLock(_ deadends: [String],_ target: String) -> Int { 3 var start: Set<String> = [] 4 var end: Set<String> = [] 5 let deadends: Set<String> = Set(deadends) 6 7 var startToNow: Set<String> = [] 8 var endToNow: Set<String> = [] 9 10 start.insert("0000")11 end.insert(target)12 13 startToNow.insert("0000")14 endToNow.insert(target)15 16 var steps = 017 18 // Tip: Start from both sIDes19 while !start.isEmpty && !end.isEmpty {20 var temp: Set<String> = []21 22 if !start.intersection(end).isEmpty {23 return steps24 }25 26 for s in start {27 if deadends.contains(s) { continue }28 29 for next in getNext(s) {30 if !deadends.contains(next) && !startToNow.contains(next) {31 temp.insert(next)32 }33 }34 }35 steps += 136 37 (start,end) = (end,temp)38 (startToNow,endToNow) = (endToNow,startToNow.union(temp))39 }40 41 return -142 }43 44 private func getNext(_ s: String) -> Set<String> {45 var s: [Int] = Array(s).map{ return Int(String($0))! }46 var res: Set<String> = []47 48 for i in 0 ..< 4 {49 var t = s50 t[i] = (s[i] + 1) % 1051 res.insert(t.reduce("",{ return $0 + String($1) }))52 t[i] = (s[i] - 1 + 10) % 1053 res.insert(t.reduce("",{ return $0 + String($1) }))54 }55 return res56 }57 }
560ms
1 class Solution { 2 struct Value: Hashable,customstringconvertible { 3 let v1: Int 4 let v2: Int 5 let v3: Int 6 let v4: Int 7 8 init(v1: Int,v2: Int,v3: Int,v4: Int) { 9 self.v1 = v1 10 self.v2 = v2 11 self.v3 = v3 12 self.v4 = v4 13 } 14 15 init(value: Int) { 16 let digits = Value.convertToDigits(number: value) 17 18 self.init(v1: digits[0],v2: digits[1],v3: digits[2],v4: digits[3]) 19 } 20 21 var nextValues: [Value] { 22 return [ 23 Value(v1: v1.incrementDecimal(),v2: v2,v3: v3,v4: v4), 24 Value(v1: v1.decrementDecimal(), 25 Value(v1: v1,v2: v2.incrementDecimal(), 26 Value(v1: v1,v2: v2.decrementDecimal(), 27 Value(v1: v1,v3: v3.incrementDecimal(), 28 Value(v1: v1,v3: v3.decrementDecimal(), 29 Value(v1: v1,v4: v4.incrementDecimal()), 30 Value(v1: v1,v4: v4.decrementDecimal()), 31 ] 32 } 33 34 var description: String { 35 return "\(v1)\(v2)\(v3)\(v4)" 36 } 37 38 private static func convertToDigits(number: Int) -> [Int] { 39 let first = number % 10 40 let second = (number % 100) / 10 41 let third = (number % 1000) / 100 42 let fourth = (number % 10000) / 1000 43 44 return [fourth,third,second,first] 45 } 46 } 47 48 class Combination: Hashable { 49 let value: Value 50 let step: Int 51 52 init(value: Value,step: Int) { 53 self.value = value 54 self.step = step 55 } 56 57 var hashValue: Int { 58 return value.hashValue 59 } 60 61 static func == (lhs: Solution.Combination,rhs: Solution.Combination) -> Bool { 62 return lhs.value == rhs.value 63 } 64 } 65 66 private var queue: [Combination] = [] 67 private var queuedValues: Set<Value> = [] 68 69 func openLock(_ deadends: [String],_ target: String) -> Int { 70 let convertedDeadends = deadends.map { Int($0)! } 71 let convertedTarget = Int(target)! 72 73 return openLock(convertedDeadends,convertedTarget) 74 } 75 76 private func openLock(_ deadends: [Int],_ target: Int) -> Int { 77 let initialCombination = Combination(value: Value(value: 0),step: 0) 78 let targetValue = Value(value: target) 79 let deadendValues = Set(deadends.map { Value(value: $0) }) 80 81 queue.append(initialCombination) 82 83 while !queue.isEmpty { 84 let combination = queue.removeFirst() 85 86 guard !deadendValues.contains(combination.value) else { continue } 87 if combination.value == targetValue { 88 return combination.step 89 } 90 91 enqueuePossibleCombinations(from: combination) 92 } 93 94 return -1 95 } 96 97 private func enqueuePossibleCombinations(from combination: Combination) { 98 let nextStep = combination.step + 1 99 100 combination.value.nextValues.forEach {101 enqueueIfPossible(value: $0,step: nextStep)102 }103 }104 105 private func enqueueIfPossible(value: Value,step: Int) {106 guard !queuedValues.contains(value) else { return }107 queuedValues.insert(value)108 109 let combination = Combination(value: value,step: step)110 queue.append(combination)111 }112 }113 114 extension Int {115 func incrementDecimal() -> Int {116 return (self + 1) % 10117 }118 119 func decrementDecimal() -> Int {120 return (self - 1 + 10) % 10121 }122 }
696ms
1 final class Solution { 2 3 func openLock(_ deadends: [String],_ target: String) -> Int { 4 let deadends = Set(deadends.map { str in 5 Array(str).map { Int(String($0))! } 6 }) 7 let target = Array(target).map { Int(String($0))! } 8 let start = [0,0,0] 9 var q = Queue<[Int]>()10 var visited = Set<[Int]>()11 q.push(start)12 visited.insert(start)13 var count = 014 while !q.isEmpty {15 let size = q.size16 for i in 0..<q.size {17 let node = q.pop()18 if deadends.contains(node) { continue }19 if target == node { return count }20 for (i,digit) in node.enumerated() {21 var neighbor = node22 neighbor[i] = (digit + 1) % 1023 if !visited.contains(neighbor) {24 q.push(neighbor)25 visited.insert(neighbor)26 }27 neighbor = node28 neighbor[i] = (digit - 1)29 if neighbor[i] == -1 { neighbor[i] = 9 }30 if !visited.contains(neighbor) {31 q.push(neighbor)32 visited.insert(neighbor)33 }34 }35 }36 count += 137 }38 return -139 }40 }41 42 struct Queue<T> {43 var arr = [T]()44 var head = 045 46 mutating func push(_ val: T) {47 arr.append(val)48 }49 50 mutating func pop() -> T {51 let res = arr[head]52 head += 153 return res54 }55 56 var isEmpty: Bool {57 return head >= arr.count58 }59 60 var size: Int {61 return arr.count - head62 }63 }
704ms
1 typealias Combo = [Int] 2 3 class Solution { 4 func openLock(_ deadends: [String],_ target: String) -> Int { 5 let target = Array(target).compactMap {Int(String($0)) } 6 let start = [0,0] 7 var seen = Set<Combo>() 8 9 for word in deadends {10 seen.insert(Array(word).map { Int(String($0))! })11 }12 guard !seen.contains(start) else { return -1 }13 var q: [Combo] = [start]14 var level = 015 16 while !q.isEmpty {17 18 var tempQ: [Combo] = []19 for current in q {20 guard current != target else { return level }21 seen.insert(current) // add to deadends/visited List22 23 for i in 0 ..< current.count {24 var nextValue = current25 nextValue[i].next()26 27 if !seen.contains(nextValue) {28 tempQ.append(nextValue)29 seen.insert(nextValue)30 }31 32 var prevValue = current33 prevValue[i].prev()34 35 if !seen.contains(prevValue) {36 tempQ.append(prevValue)37 seen.insert(prevValue)38 }39 }40 }41 level += 142 q = tempQ43 44 }45 return -146 }47 }48 49 extension Int {50 mutating func next() {51 self = (self + 1) % 1052 }53 mutating func prev() {54 self = (self + 10 - 1) % 1055 }56 }
772ms
1 class Solution { 2 func openLock(_ deadends: [String],_ target: String) -> Int { 3 let target = Array(target).map{ Int("\(") })! 40 let deadends = Set(Array(deadends).map{ $".map{ Int(\(") } }) 5)!var() 6 visited = Set<[Int]>var0 0 queue = [([0,)]], 7var0 8 i = while queue.count { 9 i != queue[i]10 let (candIDate,index) =111 i += ifcontinue } visited.contains(candIDate) || deadends.contains(candIDate) { 12ifreturn index } candIDate == target { 13 visited.insert(candIDate)14 forin 0 j 3 {...15var candIDate 16 c =19 c[j] = (c[j] + 17) % 1)) queue.append((c,index+18 }19 forin 0 j 3 {...20var candIDate 21 c =09 c[j] = c[j] == 1 ? 22 : c[j] - 1)) queue.append((c,index+23 }24 if100000 return i > 10000 { } -25 }26 return1 27 - }28 1class }
784ms
Solution { 2 queue[i]10 func openLock(_ deadends: [String],index) =111 i += ifcontinue } visited.contains(candIDate) || deadends.contains(candIDate) { 12ifreturn index } candIDate == target { 13 visited.insert(candIDate)14 forin 0 j 3 {...15var candIDate 16 c =var c[j] 17 cj =19 c[j] = (cj + 18) % 1)) queue.append((c,index+1909 c[j] = cj == 1 ? 20 : cj - 1)) queue.append((c,index+21 }22 }23 return1 24 - }25 1class }Runtime: 864 ms Memory Usage: 20.3 MB
Solution { 2 Int { 3 func openLock(_ deadends: [String],_ target: String) ->var(deadends) 4 deadlock:Set<String> = Set<String>if" 0000 deadlock.contains(") 5 { 6 return1 7 - } 8 var0 9 res:Int = var" 0000 visited:Set<String> = ["]10var" 0000 q:[String] = ["]11whileq.isEmpty) 12(! {13 114 res += forin from k 0 strIDe(1:q.count,to:),by:-15 {16 q.removeFirst()17 let t:String = Array(t)18 let arrChar:[Character] =0.ascii} let arrInt:[Int] = arrChar.map{$19forin 0 i t.count 20..< {21 var arrChar[i] 22 c:Character =var arrInt[i] 23 num:Int =var0 " str1:String = t.subString(9,i) + String(c == "048 ? 1 : num - 1 + )) + t.subString(i + 24var0 " str2:String = t.subString(0,i) + String(c == "948 ? 1 : num - 1 - )) + t.subString(i + 25if target 26 str1 == target || str2 == {27 return res 28 }29 ifdeadlock.contains(str1) 30 !visited.contains(str1) && ! {31 q.append(str1)32 }33 ifdeadlock.contains(str2) 34 !visited.contains(str2) && ! {35 q.append(str2)36 }37 visited.insert(str1)38 visited.insert(str2) 39 } 40 }41 }42 return1 43 - }44 }45 46// Character扩展 47extension Character 48 { 49 //Character转ASCII整数值(定义小写为整数值) 50var ascii: Int { 51get { 52return0 ) Int(self.unicodeScalars.first?.value ?? 53 } 54 } 55 }56 57extension String { 58 // 截取字符串:指定索引和字符数 59// - begin: 开始截取处索引 60// - count: 截取的字符数量 61 String {62 func subString(_ begin:Int,_ count:Int) ->0,begin)) let start = self.index(self.startIndex,offsetBy: max(63 count))64 let end = self.index(self.startIndex,offsetBy: min(self.count,begin +returnend]) 65 String(self[start..< }66 67// 截取字符串:从index到结束处 68// - Parameter index: 开始索引 69// - Returns: 子字符串 70 String {71 func subString(_ index: Int) -> self.count)72 let theIndex = self.index(self.endindex,offsetBy: index -returnendindex]) 73 String(self[theIndex..< }74 }@H_419_2305@ 总结
以上是内存溢出为你收集整理的[Swift]LeetCode752. 打开转盘锁 | Open the Lock全部内容,希望文章能够帮你解决[Swift]LeetCode752. 打开转盘锁 | Open the Lock所遇到的程序开发问题。
如果觉得内存溢出网站内容还不错,欢迎将内存溢出网站推荐给程序员好友。
欢迎分享,转载请注明来源:内存溢出
微信扫一扫
支付宝扫一扫
评论列表(0条)