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Given a binary search tree and the lowest and highest boundaries as L and R, trim the tree so that all its elements lies in [L, R] (R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary search tree.
Given a binary search tree and the lowest and highest boundaries as
LandR, trim the tree so that all its elements lies in[L, R](R >= L). You might need to change the root of the tree, so the result should return the new root of the trimmed binary search tree.Example 1:
Example 2:
这道题让我们修剪一棵二叉搜索树,给了个边界范围[L, R], 所有不在这个范围内的结点应该被移除掉,但是仍需要保留二叉搜索树的性质,即左<根<右,有时候是小于等于。博主最开始的想法是先遍历一遍二叉树,将在返回内的结点值都放到一个数组后,遍历结束后再根据数组重建一棵二叉搜索树。这种方法会在某些test case上fail掉,可能会改变原来的二叉搜索树的结构,所以我们只能换一种思路。正确方法其实应该是在遍历的过程中就修改二叉树,移除不合题意的结点。当然对于二叉树的题,十有八九都是要用递归来解的。首先判断如果root为空,那么直接返回空即可。然后就是要看根结点是否在范围内,如果根结点值小于L,那么返回对其右子结点调用递归函数的值;如果根结点大于R,那么返回对其左子结点调用递归函数的值。如果根结点在范围内,将其左子结点更新为对其左子结点调用递归函数的返回值,同样,将其右子结点更新为对其右子结点调用递归函数的返回值。最后返回root即可,参见代码如下:
解法一:
下面这种方法是迭代的写法,虽然树的题一般都是用递归来写,简洁又美观。但是我们也可以强行用while来代替递归,比如下面这种写法:
解法二:
参考资料:
https://discuss.leetcode.com/topic/102034/java-solution-6-liner
https://discuss.leetcode.com/topic/104140/java-solution-iteration-version
LeetCode All in One 题目讲解汇总(持续更新中...)
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