ref: 00c219c7d9c2b9f60c2db0e1ba7289b2301209a7
dir: /libfreetype/ftlru.c/
/***************************************************************************/ /* */ /* ftlru.c */ /* */ /* Simple LRU list-cache (body). */ /* */ /* Copyright 2000-2001, 2002 by */ /* David Turner, Robert Wilhelm, and Werner Lemberg. */ /* */ /* This file is part of the FreeType project, and may only be used, */ /* modified, and distributed under the terms of the FreeType project */ /* license, LICENSE.TXT. By continuing to use, modify, or distribute */ /* this file you indicate that you have read the license and */ /* understand and accept it fully. */ /* */ /***************************************************************************/ #include <ft2build.h> #include FT_CACHE_H #include FT_CACHE_INTERNAL_LRU_H #include FT_LIST_H #include FT_INTERNAL_OBJECTS_H #include "ftcerror.h" FT_EXPORT_DEF( FT_Error ) FT_LruList_New( FT_LruList_Class clazz, FT_UInt max_nodes, FT_Pointer user_data, FT_Memory memory, FT_LruList *alist ) { FT_Error error; FT_LruList list; if ( !alist || !clazz ) return FTC_Err_Invalid_Argument; *alist = NULL; if ( !FT_ALLOC( list, clazz->list_size ) ) { /* initialize common fields */ list->clazz = clazz; list->memory = memory; list->max_nodes = max_nodes; list->data = user_data; if ( clazz->list_init ) { error = clazz->list_init( list ); if ( error ) { if ( clazz->list_done ) clazz->list_done( list ); FT_FREE( list ); } } *alist = list; } return error; } FT_EXPORT_DEF( void ) FT_LruList_Destroy( FT_LruList list ) { FT_Memory memory; FT_LruList_Class clazz; if ( !list ) return; memory = list->memory; clazz = list->clazz; FT_LruList_Reset( list ); if ( clazz->list_done ) clazz->list_done( list ); FT_FREE( list ); } FT_EXPORT_DEF( void ) FT_LruList_Reset( FT_LruList list ) { FT_LruNode node; FT_LruList_Class clazz; FT_Memory memory; if ( !list ) return; node = list->nodes; clazz = list->clazz; memory = list->memory; while ( node ) { FT_LruNode next = node->next; if ( clazz->node_done ) clazz->node_done( node, list->data ); FT_FREE( node ); node = next; } list->nodes = NULL; list->num_nodes = 0; } FT_EXPORT_DEF( FT_Error ) FT_LruList_Lookup( FT_LruList list, FT_LruKey key, FT_LruNode *anode ) { FT_Error error = 0; FT_LruNode node, *pnode; FT_LruList_Class clazz; FT_LruNode* plast; FT_LruNode result = NULL; FT_Memory memory; if ( !list || !key || !anode ) return FTC_Err_Invalid_Argument; pnode = &list->nodes; plast = pnode; node = NULL; clazz = list->clazz; memory = list->memory; if ( clazz->node_compare ) { for (;;) { node = *pnode; if ( node == NULL ) break; if ( clazz->node_compare( node, key, list->data ) ) break; plast = pnode; pnode = &(*pnode)->next; } } else { for (;;) { node = *pnode; if ( node == NULL ) break; if ( node->key == key ) break; plast = pnode; pnode = &(*pnode)->next; } } if ( node ) { /* move element to top of list */ if ( list->nodes != node ) { *pnode = node->next; node->next = list->nodes; list->nodes = node; } result = node; goto Exit; } /* we haven't found the relevant element. We will now try */ /* to create a new one. */ /* */ /* first, check if our list if full, when appropriate */ if ( list->max_nodes > 0 && list->num_nodes >= list->max_nodes ) { /* this list list is full; we will now flush */ /* the oldest node, if there's one! */ FT_LruNode last = *plast; if ( last ) { if ( clazz->node_flush ) { error = clazz->node_flush( last, key, list->data ); } else { if ( clazz->node_done ) clazz->node_done( last, list->data ); last->key = key; error = clazz->node_init( last, key, list->data ); } if ( !error ) { /* move it to the top of the list */ *plast = NULL; last->next = list->nodes; list->nodes = last; result = last; goto Exit; } /* in case of error during the flush or done/init cycle, */ /* we need to discard the node */ if ( clazz->node_done ) clazz->node_done( last, list->data ); *plast = NULL; list->num_nodes--; FT_FREE( last ); goto Exit; } } /* otherwise, simply allocate a new node */ if ( FT_ALLOC( node, clazz->node_size ) ) goto Exit; node->key = key; error = clazz->node_init( node, key, list->data ); if ( error ) { FT_FREE( node ); goto Exit; } result = node; node->next = list->nodes; list->nodes = node; list->num_nodes++; Exit: *anode = result; return error; } FT_EXPORT_DEF( void ) FT_LruList_Remove( FT_LruList list, FT_LruNode node ) { FT_LruNode *pnode; if ( !list || !node ) return; pnode = &list->nodes; for (;;) { if ( *pnode == node ) { FT_Memory memory = list->memory; FT_LruList_Class clazz = list->clazz; *pnode = node->next; node->next = NULL; if ( clazz->node_done ) clazz->node_done( node, list->data ); FT_FREE( node ); list->num_nodes--; break; } pnode = &(*pnode)->next; } } FT_EXPORT_DEF( void ) FT_LruList_Remove_Selection( FT_LruList list, FT_LruNode_SelectFunc select_func, FT_Pointer select_data ) { FT_LruNode *pnode, node; FT_LruList_Class clazz; FT_Memory memory; if ( !list || !select_func ) return; memory = list->memory; clazz = list->clazz; pnode = &list->nodes; for (;;) { node = *pnode; if ( node == NULL ) break; if ( select_func( node, select_data, list->data ) ) { *pnode = node->next; node->next = NULL; if ( clazz->node_done ) clazz->node_done( node, list ); FT_FREE( node ); } else pnode = &(*pnode)->next; } } /* END */