Algorithm Problems
From Hawk Wiki
Contents
Binary Tree
Binary search
def search_binary_tree(node, key): if node is None: return None # key not found if key < node.key: return search_binary_tree(node.leftChild, key) elif key > node.key: return search_binary_tree(node.rightChild, key) else: # key is equal to node key return node.value # found key
Binary tree insert
/* Inserts the node pointed to by "newNode" into the subtree rooted at "treeNode" */ void InsertNode(Node* &treeNode, Node *newNode) { if (treeNode == NULL) treeNode = newNode; else if (newNode->key < treeNode->key) InsertNode(treeNode->left, newNode); else InsertNode(treeNode->right, newNode); }
Binary tree depth
/////////////////////////////////////////////////////////////////////// // Get depth of a binary tree // Input: pTreeNode - the head of a binary tree // Output: the depth of a binary tree /////////////////////////////////////////////////////////////////////// int TreeDepth(SBinaryTreeNode *pTreeNode) { // the depth of a empty tree is 0 if(!pTreeNode) return 0; // the depth of left sub-tree int nLeft = TreeDepth(pTreeNode->m_pLeft); // the depth of right sub-tree int nRight = TreeDepth(pTreeNode->m_pRight); // depth is the binary tree return (nLeft > nRight) ? (nLeft + 1) : (nRight + 1);
Print linklist inversed
/////////////////////////////////////////////////////////////////////// // Print a list from end to beginning // Input: pListHead - the head of list /////////////////////////////////////////////////////////////////////// void PrintListReversely(ListNode* pListHead) { if(pListHead != NULL) { // Print the next node first if (pListHead->m_pNext != NULL) { PrintListReversely(pListHead->m_pNext); } // Print this node printf("%d", pListHead->m_nKey); } }
Inverse Array
for (int i = 0; i < b; i=i++){ char temp1 = a[i]; a[i] = a[(b-1)-i]; a[(b-1)-i] = temp1; cout << a[i] ; }