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Given a binary tree, check whether it is a mirror of itself (ie, symmetric around its center).
For example, this binary tree is symmetric:
1 / \ 2 2 / \ / \ 3 4 4 3
But the following is not:
1 / \ 2 2 \ \ 3 3
Note: Bonus points if you could solve it both recursively and iteratively.
判断二叉树是否是平衡树,比如有两个节点n1, n2,我们需要比较n1的左子节点的值和n2的右子节点的值是否相等,同时还要比较n1的右子节点的值和n2的左子结点的值是否相等,以此类推比较完所有的左右两个节点。我们可以用递归和迭代两种方法来实现,写法不同,但是算法核心都一样。
解法一:
class Solution { public: bool isSymmetric(TreeNode *root) { if (!root) return true; return isSymmetric(root->left, root->right); } bool isSymmetric(TreeNode *left, TreeNode *right) { if (!left && !right) return true; if (left && !right || !left && right || left->val != right->val) return false; return isSymmetric(left->left, right->right) && isSymmetric(left->right, right->left); } };
迭代写法需要借助两个队列queue来实现,我们首先判空,如果root为空,直接返回true。否则将root的左右两个子结点分别装入两个队列,然后开始循环,循环条件是两个队列都不为空。在while循环中,我们首先分别将两个队列中的队首元素取出来,如果两个都是空结点,那么直接跳过,因为我们还没有比较完,有可能某个结点没有左子结点,但是右子结点仍然存在,所以这里只能continue。然后再看,如果有一个为空,另一个不为空,那么此时对称性已经被破坏了,不用再比下去了,直接返回false。若两个结点都存在,但是其结点值不同,这也破坏了对称性,返回false。否则的话将node1的左子结点和右子结点排入队列1,注意这里要将node2的右子结点和左子结点排入队列2,注意顺序的对应问题。最后循环结束后直接返回true,这里不必再去check两个队列是否同时为空,因为循环结束后只可能是两个队列均为空的情况,其他情况比如一空一不空的直接在循环内部就返回false了,参见代码如下:
解法二:
class Solution { public: bool isSymmetric(TreeNode* root) { if (!root) return true; queue<TreeNode*> q1, q2; q1.push(root->left); q2.push(root->right); while (!q1.empty() && !q2.empty()) { TreeNode *node1 = q1.front(); q1.pop(); TreeNode *node2 = q2.front(); q2.pop(); if (!node1 && !node2) continue; if((node1 && !node2) || (!node1 && node2)) return false; if (node1->val != node2->val) return false; q1.push(node1->left); q1.push(node1->right); q2.push(node2->right); q2.push(node2->left); } return true; } };
参考资料:
https://leetcode.com/problems/symmetric-tree/
https://leetcode.com/problems/symmetric-tree/discuss/33054/Recursive-and-non-recursive-solutions-in-Java
LeetCode All in One 题目讲解汇总(持续更新中...)
The text was updated successfully, but these errors were encountered:
solution 2 can also work if using one queue instead of two queues
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这里是对称树, 不是平衡树。 平衡树指的是任意节点两个子树高度差在一之内
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Given a binary tree, check whether it is a mirror of itself (ie, symmetric around its center).
For example, this binary tree is symmetric:
But the following is not:
Note:
Bonus points if you could solve it both recursively and iteratively.
判断二叉树是否是平衡树,比如有两个节点n1, n2,我们需要比较n1的左子节点的值和n2的右子节点的值是否相等,同时还要比较n1的右子节点的值和n2的左子结点的值是否相等,以此类推比较完所有的左右两个节点。我们可以用递归和迭代两种方法来实现,写法不同,但是算法核心都一样。
解法一:
迭代写法需要借助两个队列queue来实现,我们首先判空,如果root为空,直接返回true。否则将root的左右两个子结点分别装入两个队列,然后开始循环,循环条件是两个队列都不为空。在while循环中,我们首先分别将两个队列中的队首元素取出来,如果两个都是空结点,那么直接跳过,因为我们还没有比较完,有可能某个结点没有左子结点,但是右子结点仍然存在,所以这里只能continue。然后再看,如果有一个为空,另一个不为空,那么此时对称性已经被破坏了,不用再比下去了,直接返回false。若两个结点都存在,但是其结点值不同,这也破坏了对称性,返回false。否则的话将node1的左子结点和右子结点排入队列1,注意这里要将node2的右子结点和左子结点排入队列2,注意顺序的对应问题。最后循环结束后直接返回true,这里不必再去check两个队列是否同时为空,因为循环结束后只可能是两个队列均为空的情况,其他情况比如一空一不空的直接在循环内部就返回false了,参见代码如下:
解法二:
参考资料:
https://leetcode.com/problems/symmetric-tree/
https://leetcode.com/problems/symmetric-tree/discuss/33054/Recursive-and-non-recursive-solutions-in-Java
LeetCode All in One 题目讲解汇总(持续更新中...)
The text was updated successfully, but these errors were encountered: