/* * tree.h * (c) 2019 Jonas Gunz * License: MIT * */ /** * Binary tree designed to serve as a static lookup table. * On the fly rebalancing is not intended. * * The char* _key is used as a primary key, the tree can * carry any generic payload in void* _data. * _key is case INsensitive. * * tree_balanced_insert tries to create an optimally balanced * tree from the given dataset. Only works correctly on an empty * tree. * * The root does not need special initialization. * * A query with tree_get() returns _data on an exact match, * NULL if no matching key is found. * * To free the memory, do not use free() on root, but * tree_destroy() instead. _key and _data can be freed * by providing _TREE_FREE_DATA | _TREE_FREE_KEY. * * Example: * * struct tree_node* root = NULL; * * // A String is used as data * tree_insert ( &root, "one", "data one" ); * tree_insert ( &root, "two", "data two" ); * * printf( "%s\n", tree_get( &root, "two" ) ); * * tree_destroy ( &root, 0 ); * **/ #pragma once #include #include #include #include //TODO remove #include #include "log.h" #define _TREE_FREE_DATA 0x01 #define _TREE_FREE_KEY 0x02 struct tree_node { char* key; void* data; struct tree_node* above; struct tree_node* below; }; int tree_insert ( struct tree_node** _root, char* _key, void* _data ); /** * Inserts the given list into the tree, achieving optimal depth. * Expects a sorted list. * */ int tree_balanced_insert ( struct tree_node** _root, void* _data[], char* _key[], unsigned int _len); /** * Returns (void*)node->data on success, NULL on failure * */ void* tree_get ( struct tree_node** _root, char* _query ); int tree_destroy( struct tree_node** _root, uint8_t _options );