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.
思路:
说白了,就是把中序遍历拆成几个部分写。
我的代码:
class BSTIterator {
public:
BSTIterator(TreeNode *root) {
pCur = root;
while(pCur != NULL)
{
v.push_back(pCur);
pCur = pCur->left;
}
}
/** @return whether we have a next smallest number */
bool hasNext() {
return (!v.empty() || NULL != pCur);
}
/** @return the next smallest number */
int next() {
int num;
TreeNode * tmp = v.back();
v.pop_back();
num = tmp->val;
pCur = tmp->right;
while(pCur != NULL)
{
v.push_back(pCur);
pCur = pCur->left;
}
return num;
}
private:
vector<TreeNode *> v;
TreeNode * pCur;
};
大神更精简的代码: 经验,把相同功能的代码放在一起可以简化代码。
public class BSTIterator {
Stack<TreeNode> stack = null ;
TreeNode current = null ;
public BSTIterator(TreeNode root) {
current = root;
stack = new Stack<> ();
}
/** @return whether we have a next smallest number */
public boolean hasNext() {
return !stack.isEmpty() || current != null;
}
/** @return the next smallest number */
public int next() {
while (current != null) {
stack.push(current);
current = current.left ;
}
TreeNode t = stack.pop() ;
current = t.right ;
return t.val ;
}
}