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Serialization is the process of converting a data structure or object into a sequence of bits so that it can be stored in a file or memory buffer, or transmitted across a network connection link to be reconstructed later in the same or another computer environment.
Design an algorithm to serialize and deserialize a binary tree. There is no restriction on how your serialization/deserialization algorithm should work. You just need to ensure that a binary tree can be serialized to a string and this string can be deserialized to the original tree structure.
For example, you may serialize the following tree
1
/ 2 3
/ 4 5
as "[1,2,3,null,null,4,5]", just the same as how LeetCode OJ serializes a binary tree. You do not necessarily need to follow this format, so please be creative and come up with different approaches yourself.
Note: Do not use class member/global/static variables to store states. Your serialize and deserialize algorithms should be stateless.
Credits:
Special thanks to @Louis1992 for adding this problem and creating all test cases.
【解析1】
其实LeetCode上树的表示方式就挺好,即"[1,2,3,null,null,4,5]"这种形式,我们接下来就实现以下这种序列化。
序列化比较容易,我们做一个层次遍历就好,空的地方用null表示,稍微不同的地方是题目中示例得到的结果是"[1,2,3,null,null,4,5,null,null,null,null,]",即 4 和 5 的两个空节点我们也存了下来。
饭序列化时,我们根据都好分割得到每个节点。需要注意的是,反序列化时如何寻找父节点与子节点的对应关系,我们知道在数组中,如果满二叉树(或完全二叉树)的父节点下标是 i,那么其左右孩子的下标分别为 2*i+1 和 2*i+2,但是这里并不一定是满二叉树(或完全二叉树),所以这个对应关系需要稍作修改。如下面这个例子:
5
/ 4 7
/ /
3 2
/ /
-1 9
序列化结果为[5,4,7,3,null,2,null,-1,null,9,null,null,null,null,null,]。
其中,节点 2 的下标是 5,可它的左孩子 9 的下标为 9,并不是 2*i+1=11,原因在于 前面有个 null 节点,这个 null 节点没有左右孩子,所以后面的节点下标都提前了2。所以我们只需要记录每个节点前有多少个 null 节点,就可以找出该节点的孩子在哪里了,其左右孩子分别为 2*(i-num)+1 和 2*(i-num)+2(num为当前节点之前 null 节点的个数)。
【java代码】非递归
1 /** 2 * Definition for a binary tree node. 3 * public class TreeNode { 4 * int val; 5 * TreeNode left; 6 * TreeNode right; 7 * TreeNode(int x) { val = x; } 8 * } 9 */ 10 public class Codec { 11 12 // Encodes a tree to a single string. 13 public String serialize(TreeNode root) { 14 StringBuilder sb = new StringBuilder(); 15 Queue<TreeNode> queue = new LinkedList<TreeNode>(); 16 queue.offer(root); 17 18 while (!queue.isEmpty()) { 19 TreeNode node = queue.poll(); 20 if (node == null) { 21 sb.append("null,"); 22 } else { 23 sb.append(String.valueOf(node.val) + ","); 24 queue.offer(node.left); 25 queue.offer(node.right); 26 } 27 } 28 29 return sb.toString(); 30 } 31 32 // Decodes your encoded data to tree. 33 public TreeNode deserialize(String data) { 34 if (data == null || data.isEmpty()) return null; 35 36 String[] vals = data.split(","); 37 int[] nums = new int[vals.length]; // 节点i之前null节点的个数 38 TreeNode[] nodes = new TreeNode[vals.length]; 39 40 for (int i = 0; i < vals.length; i++) { //计算每个节点前面null节点的数目 41 if (i > 0) { 42 nums[i] = nums[i - 1]; 43 } 44 if (vals[i].equals("null")) { 45 nodes[i] = null; 46 nums[i]++; 47 } else { 48 nodes[i] = new TreeNode(Integer.parseInt(vals[i])); 49 } 50 } 51 52 for (int i = 0; i < vals.length; i++) { //对节点进行连接操作 53 if (nodes[i] == null) { 54 continue; 55 } 56 nodes[i].left = nodes[2 * (i - nums[i]) + 1]; 57 nodes[i].right = nodes[2 * (i - nums[i]) + 2]; 58 } 59 60 return nodes[0]; 61 } 62 63 }
【解析2】
我们也可以用递归来解决这个问题:The idea is simple: print the tree in pre-order traversal and use "X" to denote null node and split node with ",". We can use a StringBuilder for building the string on the fly. For deserializing, we use a Queue to store the pre-order traversal and since we have "X" as null node, we know exactly how to where to end building subtress.
这个思路用到的是树的前序遍历,因为序列中包含了值为null的节点,因此我们可以很容易地进行反序列化操作。
【java代码】递归
1 public class Codec { 2 private static final String spliter = ","; 3 private static final String NN = "X"; 4 5 // Encodes a tree to a single string. 6 public String serialize(TreeNode root) { 7 StringBuilder sb = new StringBuilder(); 8 buildString(root, sb); 9 return sb.toString(); 10 } 11 12 private void buildString(TreeNode node, StringBuilder sb) { 13 if (node == null) { 14 sb.append(NN).append(spliter); 15 } else { 16 sb.append(node.val).append(spliter); 17 buildString(node.left, sb); 18 buildString(node.right,sb); 19 } 20 } 21 // Decodes your encoded data to tree. 22 public TreeNode deserialize(String data) { 23 Deque<String> nodes = new LinkedList<>(); 24 nodes.addAll(Arrays.asList(data.split(spliter))); 25 return buildTree(nodes); 26 } 27 28 private TreeNode buildTree(Deque<String> nodes) { 29 String val = nodes.remove(); 30 if (val.equals(NN)) return null; 31 else { 32 TreeNode node = new TreeNode(Integer.valueOf(val)); 33 node.left = buildTree(nodes); 34 node.right = buildTree(nodes); 35 return node; 36 } 37 } 38 }
LeetCode OJ 297. Serialize and Deserialize Binary Tree
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原文地址:http://www.cnblogs.com/liujinhong/p/5484776.html
