#include "gd.h" #include "gdhelpers.h" #ifdef HAVE_LIBTTF #define NEED_CACHE 1 #else #ifdef HAVE_LIBFREETYPE #define NEED_CACHE 1 #endif #endif #ifdef NEED_CACHE /* * gdcache.c * * Caches of pointers to user structs in which the least-recently-used * element is replaced in the event of a cache miss after the cache has * reached a given size. * * John Ellson (ellson@lucent.com) Oct 31, 1997 * * Test this with: * gcc -o gdcache -g -Wall -DTEST gdcache.c * * The cache is implemented by a singly-linked list of elements * each containing a pointer to a user struct that is being managed by * the cache. * * The head structure has a pointer to the most-recently-used * element, and elements are moved to this position in the list each * time they are used. The head also contains pointers to three * user defined functions: * - a function to test if a cached userdata matches some keydata * - a function to provide a new userdata struct to the cache * if there has been a cache miss. * - a function to release a userdata struct when it is * no longer being managed by the cache * * In the event of a cache miss the cache is allowed to grow up to * a specified maximum size. After the maximum size is reached then * the least-recently-used element is discarded to make room for the * new. The most-recently-returned value is always left at the * beginning of the list after retrieval. * * In the current implementation the cache is traversed by a linear * search from most-recent to least-recent. This linear search * probably limits the usefulness of this implementation to cache * sizes of a few tens of elements. */ #include "gdcache.h" /*********************************************************/ /* implementation */ /*********************************************************/ /* create a new cache */ gdCache_head_t * gdCacheCreate( int size, gdCacheTestFn_t gdCacheTest, gdCacheFetchFn_t gdCacheFetch, gdCacheReleaseFn_t gdCacheRelease ) { gdCache_head_t *head; head = (gdCache_head_t *)gdMalloc(sizeof(gdCache_head_t)); head->mru = NULL; head->size = size; head->gdCacheTest = gdCacheTest; head->gdCacheFetch = gdCacheFetch; head->gdCacheRelease = gdCacheRelease; return head; } void gdCacheDelete( gdCache_head_t *head ) { gdCache_element_t *elem, *prev; elem = head->mru; while(elem) { (*(head->gdCacheRelease))(elem->userdata); prev = elem; elem = elem->next; gdFree((char *)prev); } gdFree((char *)head); } void * gdCacheGet( gdCache_head_t *head, void *keydata ) { int i=0; gdCache_element_t *elem, *prev = NULL, *prevprev = NULL; void *userdata; elem = head->mru; while(elem) { if ((*(head->gdCacheTest))(elem->userdata, keydata)) { if (i) { /* if not already most-recently-used */ /* relink to top of list */ prev->next = elem->next; elem->next = head->mru; head->mru = elem; } return elem->userdata; } prevprev = prev; prev = elem; elem = elem->next; i++; } userdata = (*(head->gdCacheFetch))(&(head->error), keydata); if (! userdata) { /* if there was an error in the fetch then don't cache */ return NULL; } if (i < head->size) { /* cache still growing - add new elem */ elem = (gdCache_element_t *)gdMalloc(sizeof(gdCache_element_t)); } else { /* cache full - replace least-recently-used */ /* preveprev becomes new end of list */ prevprev->next = NULL; elem = prev; (*(head->gdCacheRelease))(elem->userdata); } /* relink to top of list */ elem->next = head->mru; head->mru = elem; elem->userdata = userdata; return userdata; } /*********************************************************/ /* test stub */ /*********************************************************/ #ifdef TEST #include typedef struct { int key; int value; } key_value_t; static int cacheTest( void *map, void *key ) { return (((key_value_t *)map)->key == *(int *)key); } static void * cacheFetch( char **error, void *key ) { key_value_t *map; map = (key_value_t *)gdMalloc(sizeof(key_value_t)); map->key = *(int *)key; map->value = 3; *error = NULL; return (void *)map; } static void cacheRelease( void *map) { gdFree( (char *)map ); } int main(char *argv[], int argc) { gdCache_head_t *cacheTable; int elem, key; cacheTable = gdCacheCreate(3, cacheTest, cacheFetch, cacheRelease); key = 20; elem = *(int *)gdCacheGet(cacheTable, &key); key = 30; elem = *(int *)gdCacheGet(cacheTable, &key); key = 40; elem = *(int *)gdCacheGet(cacheTable, &key); key = 50; elem = *(int *)gdCacheGet(cacheTable, &key); key = 30; elem = *(int *)gdCacheGet(cacheTable, &key); key = 30; elem = *(int *)gdCacheGet(cacheTable, &key); gdCacheDelete(cacheTable); return 0; } #endif /* TEST */ #endif /* HAVE_LIBTTF */