Thu, 03 May 2018 10:44:33 +0200
adds ucx_avl_free_content() function and documentation in modules.md
docs/src/modules.md | file | annotate | diff | comparison | revisions | |
src/avl.c | file | annotate | diff | comparison | revisions | |
src/map.c | file | annotate | diff | comparison | revisions | |
src/ucx/avl.h | file | annotate | diff | comparison | revisions |
--- a/docs/src/modules.md Thu May 03 10:09:49 2018 +0200 +++ b/docs/src/modules.md Thu May 03 10:44:33 2018 +0200 @@ -51,6 +51,47 @@ All common binary tree operations are implemented. Furthermore, this module provides search functions via lower and upper bounds. +### Filtering items with a time window + +Suppose you have a list of items which contain a `time_t` value and your task +is to find all items within a time window `[t_start, t_end]`. +With AVL Trees this is easy: +```C +/* --------------------- + * Somewhere in a header + */ +typedef struct { + time_t ts; + // other important data +} MyObject; + +/* ----------- + * Source code + */ + +UcxAVLTree* tree = ucx_avl_new(ucx_longintcmp); +// ... populate tree with objects, use '& MyObject.ts' as key ... + + +// Now find every item, with 30 <= ts <= 70 +time_t ts_start = 30; +time_t ts_end = 70; + +printf("Values in range:\n"); +for ( + UcxAVLNode* node = ucx_avl_find_node( + tree, (intptr_t) &ts_start, + ucx_longintdist, UCX_AVL_FIND_LOWER_BOUNDED); + node && (*(time_t*)node->key) <= ts_end; + node = ucx_avl_succ(node) + ) { + printf(" ts: %ld\n", ((MyObject*)node->value)->ts); +} + +ucx_avl_free_content(tree, free); +ucx_avl_free(tree); +``` + ## Buffer *Header file:* [buffer.h](api/buffer_8h.html)
--- a/src/avl.c Thu May 03 10:09:49 2018 +0200 +++ b/src/avl.c Thu May 03 10:44:33 2018 +0200 @@ -136,6 +136,23 @@ alfree(al, tree); } +static void ucx_avl_free_content_node(UcxAllocator *al, UcxAVLNode *node, + ucx_destructor destr) { + if (node) { + ucx_avl_free_content_node(al, node->left, destr); + ucx_avl_free_content_node(al, node->right, destr); + if (destr) { + destr(node->value); + } else { + alfree(al, node->value); + } + } +} + +void ucx_avl_free_content(UcxAVLTree *tree, ucx_destructor destr) { + ucx_avl_free_content_node(tree->allocator, tree->root, destr); +} + UcxAVLNode *ucx_avl_get_node(UcxAVLTree *tree, intptr_t key) { UcxAVLNode *n = tree->root; int cmpresult;
--- a/src/map.c Thu May 03 10:09:49 2018 +0200 +++ b/src/map.c Thu May 03 10:44:33 2018 +0200 @@ -89,7 +89,7 @@ if (destr) { destr(val); } else { - map->allocator->free(val, NULL); + alfree(map->allocator, val); } } }
--- a/src/ucx/avl.h Thu May 03 10:09:49 2018 +0200 +++ b/src/ucx/avl.h Thu May 03 10:44:33 2018 +0200 @@ -135,11 +135,36 @@ /** * Destroys a UcxAVLTree. + * + * Note, that the contents are not automatically freed. + * Use may use #ucx_avl_free_content() before calling this function. + * * @param tree the tree to destroy + * @see ucx_avl_free_content() */ void ucx_avl_free(UcxAVLTree *tree); /** + * Frees the contents of a UcxAVLTree. + * + * This is a convenience function that iterates over the tree and passes all + * values to the specified destructor function. + * + * If no destructor is specified (<code>NULL</code>), the free() function of + * the tree's own allocator is used. + * + * You must ensure, that it is valid to pass each value in the map to the same + * destructor function. + * + * You should free the entire tree afterwards, as the contents will be invalid. + * + * @param tree for which the contents shall be freed + * @param destr optional pointer to a destructor function + * @see ucx_avl_free() + */ +void ucx_avl_free_content(UcxAVLTree *tree, ucx_destructor destr); + +/** * Macro for initializing a new UcxAVLTree with the default allocator and a * ucx_ptrcmp() compare function. *