【LeetCode】173. Binary Search Tree Iterator (2 solutions)

时间:2023-03-09 21:52:17
【LeetCode】173. Binary Search Tree Iterator (2 solutions)

Binary Search Tree Iterator

Implement an iterator over a binary search tree (BST). Your iterator will be initialized with the root node of a BST.

Calling next() will return the next smallest number in the BST.

Note: next() and hasNext() should run in average O(1) time and uses O(h) memory, where h is the height of the tree.

Credits:
Special thanks to @ts for adding this problem and creating all test cases.

解法一:暴力解法先不考虑空间复杂度

中序遍历后装入队列,顺序输出。

/**

 * Definition for binary tree

 * struct TreeNode {

 *     int val;

 *     TreeNode *left;

 *     TreeNode *right;

 *     TreeNode(int x) : val(x), left(NULL), right(NULL) {}

 * };

 */

class BSTIterator {

public:

    queue<int> minq;

    map<TreeNode*, bool> m;

    stack<TreeNode *> s;

    BSTIterator(TreeNode *root) {

        //inOrder traversal

        if(root != NULL)

        {

            s.push(root);

            m[root] = true;

            while(!s.empty())

            {

                TreeNode* top = s.top();

                if(top->left && m.find(top->left) == m.end())

                {

                    s.push(top->left);

                    m[top->left] = true;

                    continue;

                }

                minq.push(top->val);

                s.pop();

                if(top->right && m.find(top->right) == m.end())

                {

                    s.push(top->right);

                    m[top->right] = true;

                }

            }

        }

    }

    /** @return whether we have a next smallest number */

    bool hasNext() {

        return !minq.empty();

    }

    /** @return the next smallest number */

    int next() {

        int front = minq.front();

        minq.pop();

        return front;

    }

};

/**

 * Your BSTIterator will be called like this:

 * BSTIterator i = BSTIterator(root);

 * while (i.hasNext()) cout << i.next();

 */

【LeetCode】173. Binary Search Tree Iterator (2 solutions)

解法二:空间复杂度O(h)的解法

每次取出栈顶元素(即当前最小)后,查找下一个元素并压栈。

/**

 * Definition for binary tree

 * struct TreeNode {

 *     int val;

 *     TreeNode *left;

 *     TreeNode *right;

 *     TreeNode(int x) : val(x), left(NULL), right(NULL) {}

 * };

 */

class BSTIterator {

public:

    stack<TreeNode*> stk;

    int nextmin;

    BSTIterator(TreeNode *root) {

        while(root)

        {

            stk.push(root);

            root = root->left;

        }

    }

    /** @return whether we have a next smallest number */

    bool hasNext() {

        if(!stk.empty())

        {

            TreeNode* top = stk.top();

            stk.pop();

            nextmin = top->val;

            TreeNode* cur = top->right;

            if(cur)

            {

                stk.push(cur);

                cur = cur->left;

                while(cur)

                {

                    stk.push(cur);

                    cur = cur->left;

                }

            }

            return true;

        }

        else

            return false;

    }

    /** @return the next smallest number */

    int next() {

        return nextmin;

    }

};

/**

 * Your BSTIterator will be called like this:

 * BSTIterator i = BSTIterator(root);

 * while (i.hasNext()) cout << i.next();

 */

【LeetCode】173. Binary Search Tree Iterator (2 solutions)

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