TreeNode *buildBST(vector<int> &num, int l, int h){
if(l==h){
return NULL;
}
TreeNode * root = new TreeNode(num[(l+h)/2]);
root->left = buildBST(num,l,(l+h)/2);
root->right = buildBST(num,(l+h)/2+1,h);
return root;
}
TreeNode* buildBST(ListNode *head, int listLen) {
if (head == NULL || listLen == 0) {
return NULL;
}
int nodeCount = 0;
ListNode *node = head;
while (node->next != NULL && nodeCount != listLen / 2) {
nodeCount++;
node = node->next;
}
TreeNode *root = new TreeNode(node->val);
root->left = buildBST(head, nodeCount);
root->right = buildBST(node->next, listLen - 1 - nodeCount);
return root;
}
TreeNode* buildBST(vector<int>& nums, int begin, int end){
if(begin >= end)
return NULL;
int mid = (begin + end)/2;
TreeNode* root = new TreeNode(nums[mid]);
TreeNode* left = buildBST(nums, begin, mid);
TreeNode* right = buildBST(nums, mid+1, end);
root->left = left;
root->right = right;
return root;
}
/**
* Definition for a binary tree node.
* struct TreeNode {
* int val;
* struct TreeNode *left;
* struct TreeNode *right;
* };
*/
struct TreeNode* buildBST(struct ListNode* head, struct ListNode* end) {
struct TreeNode* bst = (struct TreeNode*) malloc(sizeof(struct TreeNode));
struct ListNode* p = head, *q = head;
if(head == end)
return NULL;
while(p!=end && p->next!=end){
p = p->next->next;
q = q->next;
}
bst->val = q->val;
bst->left = buildBST(head, q);//end will not be considered
bst->right = buildBST(q->next, end);
return bst;
}
TreeNode* buildBST(ListNode* head) {
if(head == NULL) return NULL;
ListNode* pre = head;
ListNode* slow = head;
ListNode* fast = head;
while(fast->next && fast->next->next) {
pre = slow;
slow = slow->next;
fast = fast->next->next;
}
TreeNode* tree = new TreeNode(slow->val);
//cout << slow->val << endl;
if(pre != slow) pre->next = NULL;
if(pre != slow) tree->left = buildBST(head);
tree->right = buildBST(slow->next);
return tree;
}
TreeNode* sortedListToBST(ListNode *head) {
if (head == NULL) {
return NULL;
}
int listLen = 1;
ListNode *node = head;
while (node->next != NULL) {
listLen++;
node = node->next;
}
return buildBST(head, listLen);
}
TreeNode* sortedListToBST(ListNode* head) {
return buildBST(head);
}
TreeNode *sortedArrayToBST(vector<int> &num) {
return buildBST(num, 0, num.size());
}
TreeNode* sortedArrayToBST(vector<int>& nums) {
int size = nums.size();
return buildBST(nums, 0, size);
}
struct TreeNode* sortedListToBST(struct ListNode* head) {
if(head == NULL)return NULL;
return buildBST(head, NULL);
}
