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★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★★ Given the Find the lexicographically smallest string that starts at a leaf of this tree and ends at the root. (As a reminder, any shorter prefix of a string is lexicographically smaller: for example,
Example 1: Input: [0,1,2,3,4,3,4]
Output:
Example 2: Input: [25,1,3,1,3,0,2]
Output:
Example 3: Input: [2,2,1,null,1,0,null,0]
Output:
Note:
给定一颗根结点为 找出按字典序最小的字符串,该字符串从这棵树的一个叶结点开始,到根结点结束。 (小贴士:字符串中任何较短的前缀在字典序上都是较小的:例如,在字典序上
示例 1: 输入:[0,1,2,3,4,3,4] 输出:"dba" 示例 2: 输入:[25,1,3,1,3,0,2] 输出:"adz" 示例 3: 输入:[2,2,1,null,1,0,null,0] 输出:"abc"
提示:
Runtime: 24 ms Memory Usage: 3.8 MB
1 /** 2 * Definition for a binary tree node. 3 * public class TreeNode { 4 * public var val: Int 5 * public var left: TreeNode? 6 * public var right: TreeNode? 7 * public init(_ val: Int) { 8 * self.val = val 9 * self.left = nil 10 * self.right = nil 11 * } 12 * } 13 */ 14 class Solution { 15 var ret:String = "~" 16 func smallestFromLeaf(_ root: TreeNode?) -> String { 17 dfs(root,"") 18 return ret 19 } 20 21 func dfs(_ cur: TreeNode?,_ s: String) 22 { 23 var s = s 24 if cur == nil {return} 25 s = String((97 + cur!.val).ASCII) + s 26 if cur?.left == nil && cur?.right == nil 27 { 28 if s < ret {ret = s} 29 } 30 dfs(cur?.left, s) 31 dfs(cur?.right, s) 32 } 33 } 34 35 //Int扩展方法 36 extension Int 37 { 38 //属性:ASCII值(定义大写为字符值) 39 var ASCII:Character 40 { 41 get {return Character(UnicodeScalar(self)!)} 42 } 43 } 24ms 1 /** 2 * Definition for a binary tree node. 3 * public class TreeNode { 4 * public var val: Int 5 * public var left: TreeNode? 6 * public var right: TreeNode? 7 * public init(_ val: Int) { 8 * self.val = val 9 * self.left = nil 10 * self.right = nil 11 * } 12 * } 13 */ 14 class Solution { 15 func smallestFromLeaf(_ root: TreeNode?) -> String { 16 guard let root = root else { 17 return "" 18 } 19 20 let left = smallestFromLeaf(root.left) 21 let right = smallestFromLeaf(root.right) 22 23 if left == "" { 24 return right + convertIntToChar(val: root.val) 25 } 26 27 if right == "" { 28 return left + convertIntToChar(val: root.val) 29 } 30 31 return min(left + convertIntToChar(val: root.val), right + convertIntToChar(val: root.val)) 32 } 33 34 func convertIntToChar(val: Int) -> String { 35 return ["a", "b", "c", "d", "e", "f", "g", "h", "i", "j", "k", "l", "m", "n", "o", "p", "q", "r", "s", "t", "u", "v", "w", "x", "y", "z"][val] 36 } 37 } 28ms 1 /** 2 * Definition for a binary tree node. 3 * public class TreeNode { 4 * public var val: Int 5 * public var left: TreeNode? 6 * public var right: TreeNode? 7 * public init(_ val: Int) { 8 * self.val = val 9 * self.left = nil 10 * self.right = nil 11 * } 12 * } 13 */ 14 class Solution { 15 func smallestFromLeaf(_ root: TreeNode?) -> String { 16 var dict: [Int: String] = [0: "a", 1: "b", 2: "c", 3: "d", 4: "e", 5: "f", 6: "g", 7: "h", 8: "i", 9: "j", 10: "k", 11: "l", 12: "m", 13: "n", 14: "o", 15: "p", 16: "q", 17: "r", 18: "s", 19: "t", 20: "u", 21: "v", 22: "w", 23: "x", 24: "y", 25: "z", ] 17 var lists: [String] = [] 18 var maxDepth = 0 19 20 if root?.left == nil && root?.right == nil { 21 return String(dict[root?.val ?? 0] ?? "") 22 } 23 24 func search(_ node: TreeNode?, str: String) { 25 guard let node = node else { 26 return 27 } 28 29 var str = str 30 31 str = "\(dict[node.val] ?? "")\(str)" 32 33 if node.left == nil && node.right == nil && str.count > 1 { 34 lists.append(str) 35 } 36 37 search(node.left, str: str) 38 search(node.right, str: str) 39 } 40 41 search(root, str: "") 42 43 return lists.sorted().first ?? "" 44 } 45 } 32ms 1 /** 2 * Definition for a binary tree node. 3 * public class TreeNode { 4 * public var val: Int 5 * public var left: TreeNode? 6 * public var right: TreeNode? 7 * public var parent: TreeNode? 8 * public init(_ val: Int) { 9 * self.val = val 10 * self.left = nil 11 * self.right = nil 12 * self.parent = nil 13 * } 14 * } 15 */ 16 class Solution { 17 18 func smallestFromLeaf(_ root: TreeNode?) -> String { 19 var ans = [String]() 20 smallestFromLeaf(root, "", &ans) 21 ans.sort() 22 return ans.count > 0 ? ans.first! : "" 23 } 24 25 func smallestFromLeaf(_ root: TreeNode?, _ str: String, _ ans: inout [String]) { 26 guard let node = root else { 27 return 28 } 29 var str = str 30 str += String(Unicode.Scalar(97 + node.val)!) 31 if node.left == nil && node.right == nil { 32 var rs = String(str.reversed()) 33 ans.append(rs) 34 } 35 36 if let left = node.left { 37 smallestFromLeaf(left, str, &ans) 38 } 39 40 if let right = node.right { 41 smallestFromLeaf(right, str, &ans) 42 } 43 } 44 } 40ms 1 class Solution { 2 func smallestFromLeaf(_ root: TreeNode?) -> String { 3 var s = "" 4 if root == nil { 5 return "" 6 } 7 var q = [TreeNode]() 8 q.append(root!) 9 var strs = [String]() 10 var m = [Int:Character]() 11 for n in 0 ... 25 { 12 m[n] = 13 Character(Unicode.Scalar(n + Int("a".first!.unicodeScalars.first!.value))!) 14 } 15 strs.append("\(m[root!.val]!)") 16 var alStr = [String]() 17 while q.count > 0 { 18 var tq = [TreeNode]() 19 var ts = [String]() 20 while q.count > 0 { 21 if let nd = q.popLast(), let s = strs.popLast() { 22 var fl = false 23 var fr = false 24 if let nl = nd.left { 25 tq.append(nl) 26 ts.append(s + "\(m[nl.val]!)") 27 } else { 28 fl = true 29 } 30 if let nr = nd.right { 31 tq.append(nr) 32 ts.append(s + "\(m[nr.val]!)") 33 } else { 34 fr = true 35 } 36 if fl && fr { 37 alStr.append(String(s.reversed())) 38 } else if fl || fr { 39 //alStr.append(String(s.reversed())) 40 } 41 } 42 } 43 strs = ts 44 q = tq 45 } 46 alStr.sort() 47 return alStr[0] 48 } 49 }
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