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Given a binary tree
struct TreeLinkNode { TreeLinkNode *left; TreeLinkNode *right; TreeLinkNode *next; }
Populate each next pointer to point to its next right node. If there is no next right node, the next pointer should be set to NULL
.
Initially, all next pointers are set to NULL
.
Note:
For example,
Given the following perfect binary tree,
1 / 2 3 / \ / 4 5 6 7
After calling your function, the tree should look like:
1 -> NULL / 2 -> 3 -> NULL / \ / 4->5->6->7 -> NULL
思路:一层一层的连接,同一个父节点的左子树的邻居是其父节点的右子树 父节点右子树的邻居是 父节点邻居的左子树
我用的递归
void connect(TreeLinkNode *root) { if(root == NULL) return; TreeLinkNode * parent = root; TreeLinkNode * cur = parent->left; while(parent != NULL && cur != NULL) { cur = cur->next = parent->right; //左子树的邻居是同一个parent的右子树 cur->next = (parent->next == NULL) ? NULL : parent->next->left; //右子树的邻居 是parent的邻居的左子树 parent = parent->next; cur = (parent == NULL) ? NULL : parent->left; } connect(root->left); //连接下一层 }
大神的非递归代码:外面加一圈对层循环
void connect(TreeLinkNode *root) { if(!root) return; while(root -> left) { TreeLinkNode *p = root; while(p) { p -> left -> next = p -> right; if(p -> next) p -> right -> next = p -> next -> left; p = p -> next; } root = root -> left; } }
Follow up for problem "Populating Next Right Pointers in Each Node".
What if the given tree could be any binary tree? Would your previous solution still work?
Note:
For example,
Given the following binary tree,
1 / 2 3 / \ 4 5 7
After calling your function, the tree should look like:
1 -> NULL / 2 -> 3 -> NULL / \ 4-> 5 -> 7 -> NULL
思路:非完全二叉树。关键是每一层要判断邻居是哪一个,每层的第一个有数字的位置也要定位。
我的代码,根据上一题的思路,用的非递归。对父节点左右子树都空,左子树空,右子树空,都非空分类处理。
void connect2(TreeLinkNode *root) { if(root == NULL) return; TreeLinkNode * newroot = root; while(newroot != NULL) //对层循环 { TreeLinkNode * p = newroot; //当前层父节点推进 TreeLinkNode * cur = NULL; //当前连接层当前指针位置 newroot = NULL; //下一层第一个父节点的位置 while(p != NULL) { if(p->left == NULL && p->right == NULL); else if(p->left == NULL) { if(cur == NULL) newroot = cur = p->right; else cur = cur->next = p->right; } else if(p->right == NULL) { if(cur == NULL) newroot = cur = p->left; else cur = cur->next = p->left; } else { if(cur == NULL) newroot = cur = p->left; else cur = cur->next = p->left; cur = cur->next = p->right; } p = p->next; } } }
大神的代码,处理的时候只要分左子树是否空,和右子树是否空即可。不需要分那么多情况。
public class Solution { public void connect(TreeLinkNode root) { while(root != null){ TreeLinkNode tempChild = new TreeLinkNode(0); //该层的伪头结点,方便定位下一层第一个值的位置 TreeLinkNode currentChild = tempChild; //这两个值不用每次分配,在外面分配,内部循环使用即可 while(root!=null){ //只分两种情况就行了 if(root.left != null) { currentChild.next = root.left; currentChild = currentChild.next;} if(root.right != null) { currentChild.next = root.right; currentChild = currentChild.next;} root = root.next; } root = tempChild.next; } } }
【leetcode】Populating Next Right Pointers in Each Node I & II(middle)
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原文地址:http://www.cnblogs.com/dplearning/p/4428962.html