/* * Created by Brett on 09/01/23. * Licensed under GNU General Public License V3.0 * See LICENSE file for license detail */ #ifndef BLT_BINARY_TREE_H #define BLT_BINARY_TREE_H #include #include #include #include #include // TODO: blt::queue #include namespace blt { class binary_search_tree_error : public std::runtime_error { public: explicit binary_search_tree_error(const std::string& string): runtime_error(string) {} }; template> class AVL_node_tree { private: struct node { T val; node* left; node* right; node(const T& t): val(t) {} node(T&& m): val(m) {} node(const node& copy) = delete; node(node&& move) = delete; node& operator=(const node& copy) = delete; node& operator=(node&& move) = delete; ~node() { delete left; delete right; } }; ALLOC alloc; node* root = nullptr; public: AVL_node_tree() = default; AVL_node_tree(const AVL_node_tree& copy) = delete; AVL_node_tree(AVL_node_tree&& move) = delete; AVL_node_tree& operator=(const AVL_node_tree& copy) = delete; AVL_node_tree& operator=(AVL_node_tree&& move) = delete; size_t height(node* start = nullptr) { if (start == nullptr) start = root; if (start == nullptr) return 0; std::queue nodes; nodes.push(start); size_t height = 0; while (!nodes.empty()) { height++; size_t level_count = nodes.size(); while (level_count-- > 0) { if (nodes.front()->left != nullptr) nodes.push(nodes.front()->left); if (nodes.front()->right != nullptr) nodes.push(nodes.front()->right); nodes.pop(); } } return height; } void insert(const T& t) { if (root == nullptr) { root = new node(t); return; } node* search = root; node* parent = nullptr; while (true) { if (t < search->val) { if (search->left == nullptr) { search->left = new node(t); break; } search = search->left; } else { if (search->right == nullptr) { search->right = new node(t); break; } search = search->right; } parent = search; } } ~AVL_node_tree() { delete root; } }; } #endif //BLT_BINARY_TREE_H