def sortedListToBST(self, head): """ :type head: ListNode :rtype: TreeNode """ if head is None: return None elif head.next is None: return TreeNode(head.val) total_count = 0 cur_node = head while cur_node is not None: cur_node = cur_node.next total_count += 1 mid_count = int(total_count / 2) cur_node = head while mid_count > 1: cur_node = cur_node.next mid_count -= 1 root_tree_node = TreeNode(cur_node.next.val) right_head = cur_node.next.next cur_node.next = None root_tree_node.left = self.sortedListToBST(head) root_tree_node.right = self.sortedListToBST(right_head) return root_tree_node
def preOrderDes(self, items): if len(items) == 0: return None item = items.pop(0) if item == "#": return None else: root = TreeNode(int(item)) root.left = self.preOrderDes(items) root.right = self.preOrderDes(items) return root
def sortedArrayToBST(self, nums): """ :type nums: List[int] :rtype: TreeNode """ if len(nums) == 0: return None left = 0 right = len(nums) - 1 mid = left + (right - left) / 2 root_node = TreeNode(nums[mid]) root_node.left = self.sortedArrayToBST(nums[:mid]) root_node.right = self.sortedArrayToBST(nums[mid + 1:]) return root_node
def backTrack(self, start, end): root_list = [] if start > end: root_list.append(None) return root_list for index in range(start, end + 1): left_root_list = self.backTrack(start, index - 1) right_root_list = self.backTrack(index + 1, end) for left_root in left_root_list: for right_root in right_root_list: new_root = TreeNode(index) new_root.left = left_root new_root.right = right_root root_list.append(new_root) return root_list
def buildTree(self, inorder, postorder): """ :type inorder: List[int] :type postorder: List[int] :rtype: TreeNode """ if len(inorder) == 0: return None root_val = postorder[-1] root_val_index = -1 for index, val in enumerate(inorder): if val == root_val: root_val_index = index break root_node = TreeNode(root_val) root_node.left = self.buildTree(inorder[:root_val_index], postorder[:root_val_index]) root_node.right = self.buildTree(inorder[root_val_index + 1:], postorder[root_val_index:-1]) return root_node
pre = cur.right while pre.left is None and pre.right is None: pre = pre.next level += 1 def connect_recursive(self, root): if root: return dummy = TreeNode(-1) pre = dummy cur = root while cur: if cur.left: pre.next = cur.left pre = cur.left if cur.right: pre.next = cur.right pre = cur.right cur = cur.next self.connect_recursive(dummy.next) if __name__ == '__main__': node1 = TreeNode(1) node2 = TreeNode(2) node1.left = node2 solution = Solution() solution.connect(node1)