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➤微信公众号:山青咏芝(shanqingyongzhi)
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Given a binary tree, return the inorder traversal of its nodes\' values.
Example:
Input: [1,null,2,3] 1 \ 2 / 3 Output: [1,3,2]
Follow up: Recursive solution is trivial, could you do it iteratively?
给定一个二叉树,返回它的中序 遍历。
示例:
输入: [1,null,2,3] 1 \ 2 / 3 输出: [1,3,2]
进阶: 递归算法很简单,你可以通过迭代算法完成吗?
8ms
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 guard let root = root else { return [Int]() } 17 18 var ret = [Int]() 19 var worklist = [TreeNode]() 20 var n : TreeNode? = root 21 22 while !worklist.isEmpty || n != nil { 23 if n != nil { 24 worklist.append(n!) 25 n = n!.left 26 } else { 27 n = worklist.popLast() 28 ret.append(n!.val) 29 n = n!.right 30 } 31 } 32 33 return ret 34 } 35 }
8ms
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 return inorderTraversal_morris(root) 17 } 18 19 func inorderTraversal_morris(_ r: TreeNode?) -> [Int] { 20 var root = r 21 if root == nil { 22 return [] 23 } else { 24 var res: [Int] = [] 25 var pre: TreeNode? = nil 26 while root != nil { 27 if root?.left == nil { 28 res.append((root?.val)!) 29 root = root?.right 30 } else { 31 pre = root?.left 32 while pre?.right != nil && pre?.right! !== root { 33 pre = pre?.right 34 } 35 if pre?.right == nil { 36 pre?.right = root 37 root = root?.left 38 } else { 39 pre?.right = nil 40 res.append((root?.val)!) 41 root = root?.right 42 } 43 } 44 } 45 return res 46 } 47 } 48 // Recursion, t = O(N), average s = O(log(N)), worst s = O(N) 49 func inorderTraversal_iteration(_ root: TreeNode?) -> [Int] { 50 var res: [Int] = [] 51 var stack: [TreeNode?] = [] 52 var curr: TreeNode? = root 53 while curr != nil || stack.isEmpty == false { 54 while let unwrapped = curr { 55 stack.append(unwrapped) 56 curr = curr?.left 57 } 58 let last: TreeNode? = stack.removeLast() 59 res.append(last!.val) 60 curr = last!.right 61 } 62 return res 63 } 64 func inorderTraversal_recursion_helper(root: TreeNode?, arr: inout [Int]) { 65 guard let root = root else { return } 66 inorderTraversal_recursion_helper(root: root.left, arr: &arr) 67 arr.append(root.val) 68 inorderTraversal_recursion_helper(root: root.right, arr: &arr) 69 } 70 // Recursion, t = O(N), average s = O(log(N)), worst s = O(N) 71 func inorderTraversal_recursion(_ root: TreeNode?) -> [Int] { 72 var res: [Int] = [] 73 inorderTraversal_recursion_helper(root: root, arr: &res) 74 return res 75 } 76 }
8ms
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 var arr = [Int]() 17 if root != nil && root!.left != nil { 18 arr.append(contentsOf:inorderTraversal(root!.left)) 19 } 20 if root != nil { 21 arr.append(root!.val) 22 } 23 if root != nil && root!.right != nil { 24 arr.append(contentsOf:inorderTraversal(root!.right)) 25 } 26 return arr 27 } 28 }
12ms
1 class Solution { 2 func inorderTraversal(_ root: TreeNode?) -> [Int] { 3 var answer: [Int] = [] 4 inorder(root, &answer) 5 return answer 6 } 7 8 func inorder(_ node: TreeNode?, _ answer: inout [Int]) { 9 if let node = node { 10 inorder(node.left, &answer) 11 answer.append(node.val) 12 inorder(node.right, &answer) 13 } 14 } 15 }
16ms
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 var result = [Int]() 17 var stack = [TreeNode]() 18 var pops = [TreeNode]() 19 var p = root 20 if p != nil { 21 stack.append(p!) 22 }else { 23 return result 24 } 25 26 while (p != nil) { 27 28 var isp = false 29 if let lastPop = pops.last { 30 if lastPop === p! { 31 pops.removeLast() 32 isp = true 33 } 34 } 35 let l = p!.left 36 if (l != nil) && !isp{ 37 stack.append(l!) 38 pops.append(p!) 39 }else { 40 result.append(p!.val) 41 stack.removeLast() 42 if let r = p!.right { 43 stack.append(r) 44 } 45 } 46 p = stack.last 47 } 48 49 return result 50 } 51 }
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 var result : [Int] = [] 17 if(root?.left != nil){ 18 let leftResult : [Int] = inorderTraversal(root!.left) 19 result.append(contentsOf: leftResult) 20 } 21 22 if(root != nil){ 23 result.append(root!.val) 24 } 25 26 if(root?.right != nil){ 27 let rightResult : [Int] = inorderTraversal(root!.right) 28 result.append(contentsOf: rightResult) 29 } 30 return result 31 } 32 }
68ms
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 inorderTraversal(_ root: TreeNode?) -> [Int] { 16 var tRoot: TreeNode? = root 17 var stack: [TreeNode] = [] 18 var result: [Int] = [] 19 while tRoot != nil || stack.count > 0 { 20 if tRoot != nil { 21 stack.append(tRoot!) 22 tRoot = tRoot?.left 23 } else if stack.count > 0 { 24 tRoot = stack.popLast() 25 result.append(tRoot!.val) 26 tRoot = tRoot?.right 27 } 28 } 29 return result 30 } 31 }
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