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1be87441fe
the change that prevents 'insure' from becomming confused and issuing leak
reports. Some minor speed fixes. That sort of thing.
Chris -)-----
(This used to be commit 164cc91d81
)
413 lines
19 KiB
C
413 lines
19 KiB
C
#ifndef UBI_CACHE_H
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#define UBI_CACHE_H
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/* ========================================================================== **
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* ubi_Cache.h
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*
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* Copyright (C) 1997 by Christopher R. Hertel
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*
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* Email: crh@ubiqx.mn.org
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* -------------------------------------------------------------------------- **
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*
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* This module implements a generic cache.
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*
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* -------------------------------------------------------------------------- **
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Library General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Library General Public License for more details.
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*
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* You should have received a copy of the GNU Library General Public
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* License along with this library; if not, write to the Free
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* Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*
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* -------------------------------------------------------------------------- **
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*
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* This module uses a splay tree to implement a simple cache. The cache
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* module adds a thin layer of functionality to the splay tree. In
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* particular:
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*
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* - The tree (cache) may be limited in size by the number of
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* entries permitted or the amount of memory used. When either
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* limit is exceeded cache entries are removed until the cache
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* conforms.
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* - Some statistical information is kept so that an approximate
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* "hit ratio" can be calculated.
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* - There are several functions available that provide access to
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* and management of cache size limits, hit ratio, and tree
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* trimming.
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*
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* The splay tree is used because recently accessed items tend toward the
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* top of the tree and less recently accessed items tend toward the bottom.
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* This makes it easy to purge less recently used items should the cache
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* exceed its limits.
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*
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* To use this module, you will need to supply a comparison function of
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* type ubi_trCompFunc and a node-freeing function of type
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* ubi_trKillNodeRtn. See ubi_BinTree.h for more information on
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* these. (This is all basic ubiqx tree management stuff.)
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*
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* Notes:
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*
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* - Cache performance will start to suffer dramatically if the
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* cache becomes large enough to force the OS to start swapping
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* memory to disk. This is because the nodes of the underlying tree
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* will be scattered across memory in an order that is completely
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* unrelated to their traversal order. As more and more of the
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* cache is placed into swap space, more and more swaps will be
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* required for a simple traversal (...and then there's the splay
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* operation).
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*
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* In one simple test under Linux, the load and dump of a cache of
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* 400,000 entries took only 1min, 40sec of real time. The same
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* test with 450,000 records took 2 *hours* and eight minutes.
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*
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* - In an effort to save memory, I considered using an unsigned
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* short to save the per-entry entry size. I would have tucked this
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* value into some unused space in the tree node structure. On
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* 32-bit word aligned systems this would have saved an additional
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* four bytes per entry. I may revisit this issue, but for now I've
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* decided against it.
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*
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* Using an unsigned short would limit the size of an entry to 64K
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* bytes. That's probably more than enough for most applications.
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* The key word in that last sentence, however, is "probably". I
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* really dislike imposing such limits on things.
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*
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* - Each entry keeps track of the amount of memory it used and the
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* cache header keeps the total. This information is provided via
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* the EntrySize parameter in ubi_cachePut(), so it is up to you to
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* make sure that the numbers are accurate. (The numbers don't even
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* have to represent bytes used.)
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*
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* As you consider this, note that the strdup() function--as an
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* example--will call malloc(). The latter generally allocates a
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* multiple of the system word size, which may be more than the
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* number of bytes needed to store the string.
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*
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* -------------------------------------------------------------------------- **
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*
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* Log: ubi_Cache.h,v
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* Revision 0.4 1999/09/22 03:42:24 crh
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* Fixed a minor typo.
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*
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* Revision 0.3 1998/06/03 18:00:15 crh
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* Further fiddling with sys_include.h, which is no longer explicitly
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* included by this module since it is inherited from ubi_BinTree.h.
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*
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* Revision 0.2 1998/06/02 01:36:18 crh
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* Changed include name from ubi_null.h to sys_include.h to make it
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* more generic.
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*
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* Revision 0.1 1998/05/20 04:36:02 crh
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* The C file now includes ubi_null.h. See ubi_null.h for more info.
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*
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* Revision 0.0 1997/12/18 06:25:23 crh
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* Initial Revision.
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*
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* ========================================================================== **
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*/
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#include "ubi_SplayTree.h"
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/* -------------------------------------------------------------------------- **
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* Typedefs...
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*
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* ubi_cacheRoot - Cache header structure, which consists of a binary
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* tree root and other required housekeeping fields, as
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* listed below.
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* ubi_cacheRootPtr - Pointer to a Cache.
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*
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* ubi_cacheEntry - A cache Entry, which consists of a tree node
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* structure and the size (in bytes) of the entry
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* data. The entry size should be supplied via
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* the EntrySize parameter of the ubi_cachePut()
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* function.
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*
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* ubi_cacheEntryPtr - Pointer to a ubi_cacheEntry.
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*
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*/
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typedef struct
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{
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ubi_trRoot root; /* Splay tree control structure. */
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ubi_trKillNodeRtn free_func; /* Function used to free entries. */
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unsigned long max_entries; /* Max cache entries. 0 == unlimited */
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unsigned long max_memory; /* Max memory to use. 0 == unlimited */
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unsigned long mem_used; /* Memory currently in use (bytes). */
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unsigned short cache_hits; /* Incremented on succesful find. */
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unsigned short cache_trys; /* Incremented on cache lookup. */
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} ubi_cacheRoot;
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typedef ubi_cacheRoot *ubi_cacheRootPtr;
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typedef struct
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{
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ubi_trNode node; /* Tree node structure. */
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unsigned long entry_size; /* Entry size. Used when managing
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* caches with maximum memory limits.
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*/
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} ubi_cacheEntry;
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typedef ubi_cacheEntry *ubi_cacheEntryPtr;
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/* -------------------------------------------------------------------------- **
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* Macros...
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*
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* ubi_cacheGetMaxEntries() - Report the current maximum number of entries
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* allowed in the cache. Zero indicates no
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* maximum.
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* ubi_cacheGetMaxMemory() - Report the current maximum amount of memory
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* that may be used in the cache. Zero
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* indicates no maximum.
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* ubi_cacheGetEntryCount() - Report the current number of entries in the
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* cache.
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* ubi_cacheGetMemUsed() - Report the amount of memory currently in use
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* by the cache.
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*/
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#define ubi_cacheGetMaxEntries( Cptr ) (((ubi_cacheRootPtr)(Cptr))->max_entries)
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#define ubi_cacheGetMaxMemory( Cptr ) (((ubi_cacheRootPtr)(Cptr))->max_memory)
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#define ubi_cacheGetEntryCount( Cptr ) (((ubi_cacheRootPtr)(Cptr))->root.count)
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#define ubi_cacheGetMemUsed( Cptr ) (((ubi_cacheRootPtr)(Cptr))->mem_used)
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/* -------------------------------------------------------------------------- **
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* Prototypes...
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*/
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ubi_cacheRootPtr ubi_cacheInit( ubi_cacheRootPtr CachePtr,
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ubi_trCompFunc CompFunc,
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ubi_trKillNodeRtn FreeFunc,
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unsigned long MaxEntries,
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unsigned long MaxMemory );
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/* ------------------------------------------------------------------------ **
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* Initialize a cache header structure.
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*
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* Input: CachePtr - A pointer to a ubi_cacheRoot structure that is
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* to be initialized.
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* CompFunc - A pointer to the function that will be called
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* to compare two cache values. See the module
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* comments, above, for more information.
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* FreeFunc - A pointer to a function that will be called
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* to free a cache entry. If you allocated
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* the cache entry using malloc(), then this
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* will likely be free(). If you are allocating
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* cache entries from a free list, then this will
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* likely be a function that returns memory to the
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* free list, etc.
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* MaxEntries - The maximum number of entries that will be
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* allowed to exist in the cache. If this limit
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* is exceeded, then existing entries will be
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* removed from the cache. A value of zero
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* indicates that there is no limit on the number
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* of cache entries. See ubi_cachePut().
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* MaxMemory - The maximum amount of memory, in bytes, to be
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* allocated to the cache (excluding the cache
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* header). If this is exceeded, existing entries
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* in the cache will be removed until enough memory
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* has been freed to meet the condition. See
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* ubi_cachePut().
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*
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* Output: A pointer to the initialized cache (i.e., the same as CachePtr).
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*
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* Notes: Both MaxEntries and MaxMemory may be changed after the cache
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* has been created. See
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* ubi_cacheSetMaxEntries()
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* ubi_cacheSetMaxMemory()
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* ubi_cacheGetMaxEntries()
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* ubi_cacheGetMaxMemory() (the latter two are macros).
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*
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* - Memory is allocated in multiples of the word size. The
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* return value of the strlen() function does not reflect
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* this; it will allways be less than or equal to the amount
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* of memory actually allocated. Keep this in mind when
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* choosing a value for MaxMemory.
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*
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* ------------------------------------------------------------------------ **
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*/
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ubi_cacheRootPtr ubi_cacheClear( ubi_cacheRootPtr CachePtr );
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/* ------------------------------------------------------------------------ **
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* Remove and free all entries in an existing cache.
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*
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* Input: CachePtr - A pointer to the cache that is to be cleared.
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*
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* Output: A pointer to the cache header (i.e., the same as CachePtr).
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* This function re-initializes the cache header.
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*
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* ------------------------------------------------------------------------ **
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*/
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void ubi_cachePut( ubi_cacheRootPtr CachePtr,
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unsigned long EntrySize,
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ubi_cacheEntryPtr EntryPtr,
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ubi_trItemPtr Key );
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/* ------------------------------------------------------------------------ **
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* Add an entry to the cache.
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*
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* Input: CachePtr - A pointer to the cache into which the entry
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* will be added.
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* EntrySize - The size, in bytes, of the memory block indicated
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* by EntryPtr. This will be copied into the
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* EntryPtr->entry_size field.
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* EntryPtr - A pointer to a memory block that begins with a
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* ubi_cacheEntry structure. The entry structure
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* should be followed immediately by the data to be
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* cached (even if that is a pointer to yet more data).
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* Key - Pointer used to identify the lookup key within the
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* Entry.
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*
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* Output: None.
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*
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* Notes: After adding the new node, the cache is "trimmed". This
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* removes extra nodes if the tree has exceeded it's memory or
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* entry count limits. It is unlikely that the newly added node
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* will be purged from the cache (assuming a reasonably large
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* cache), since new nodes in a splay tree (which is what this
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* module was designed to use) are moved to the top of the tree
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* and the cache purge process removes nodes from the bottom of
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* the tree.
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* - The underlying splay tree is opened in OVERWRITE mode. If
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* the input key matches an existing key, the existing entry will
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* be politely removed from the tree and freed.
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* - Memory is allocated in multiples of the word size. The
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* return value of the strlen() function does not reflect
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* this; it will allways be less than or equal to the amount
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* of memory actually allocated.
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*
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* ------------------------------------------------------------------------ **
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*/
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ubi_cacheEntryPtr ubi_cacheGet( ubi_cacheRootPtr CachePtr,
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ubi_trItemPtr FindMe );
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/* ------------------------------------------------------------------------ **
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* Attempt to retrieve an entry from the cache.
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*
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* Input: CachePtr - A ponter to the cache that is to be searched.
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* FindMe - A ubi_trItemPtr that indicates the key for which
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* to search.
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*
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* Output: A pointer to the cache entry that was found, or NULL if no
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* matching entry was found.
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*
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* Notes: This function also updates the hit ratio counters.
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* The counters are unsigned short. If the number of cache tries
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* reaches 32768, then both the number of tries and the number of
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* hits are divided by two. This prevents the counters from
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* overflowing. See the comments in ubi_cacheHitRatio() for
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* additional notes.
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*
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* ------------------------------------------------------------------------ **
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*/
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ubi_trBool ubi_cacheDelete( ubi_cacheRootPtr CachePtr, ubi_trItemPtr DeleteMe );
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/* ------------------------------------------------------------------------ **
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* Find and delete the specified cache entry.
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*
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* Input: CachePtr - A pointer to the cache.
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* DeleteMe - The key of the entry to be deleted.
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*
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* Output: TRUE if the entry was found & freed, else FALSE.
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*
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* ------------------------------------------------------------------------ **
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*/
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ubi_trBool ubi_cacheReduce( ubi_cacheRootPtr CachePtr, unsigned long count );
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/* ------------------------------------------------------------------------ **
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* Remove <count> entries from the bottom of the cache.
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*
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* Input: CachePtr - A pointer to the cache which is to be reduced in
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* size.
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* count - The number of entries to remove.
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*
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* Output: The function will return TRUE if <count> entries were removed,
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* else FALSE. A return value of FALSE should indicate that
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* there were less than <count> entries in the cache, and that the
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* cache is now empty.
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*
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* Notes: This function forces a reduction in the number of cache entries
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* without requiring that the MaxMemory or MaxEntries values be
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* changed.
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*
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* ------------------------------------------------------------------------ **
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*/
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unsigned long ubi_cacheSetMaxEntries( ubi_cacheRootPtr CachePtr,
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unsigned long NewSize );
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/* ------------------------------------------------------------------------ **
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* Change the maximum number of entries allowed to exist in the cache.
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*
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* Input: CachePtr - A pointer to the cache to be modified.
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* NewSize - The new maximum number of cache entries.
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*
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* Output: The maximum number of entries previously allowed to exist in
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* the cache.
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*
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* Notes: If the new size is less than the old size, this function will
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* trim the cache (remove excess entries).
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* - A value of zero indicates an unlimited number of entries.
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*
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* ------------------------------------------------------------------------ **
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*/
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unsigned long ubi_cacheSetMaxMemory( ubi_cacheRootPtr CachePtr,
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unsigned long NewSize );
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/* ------------------------------------------------------------------------ **
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* Change the maximum amount of memory to be used for storing cache
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* entries.
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*
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* Input: CachePtr - A pointer to the cache to be modified.
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* NewSize - The new cache memory size.
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*
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* Output: The previous maximum memory size.
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*
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* Notes: If the new size is less than the old size, this function will
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* trim the cache (remove excess entries).
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* - A value of zero indicates that the cache has no memory limit.
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*
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* ------------------------------------------------------------------------ **
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*/
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int ubi_cacheHitRatio( ubi_cacheRootPtr CachePtr );
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/* ------------------------------------------------------------------------ **
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* Returns a value that is 10,000 times the slightly weighted average hit
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* ratio for the cache.
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*
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* Input: CachePtr - Pointer to the cache to be queried.
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*
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* Output: An integer that is 10,000 times the number of successful
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* cache hits divided by the number of cache lookups, or:
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* (10000 * hits) / trys
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* You can easily convert this to a float, or do something
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* like this (where i is the return value of this function):
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*
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* printf( "Hit rate : %d.%02d%%\n", (i/100), (i%100) );
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*
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* Notes: I say "slightly-weighted", because the numerator and
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* denominator are both accumulated in locations of type
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* 'unsigned short'. If the number of cache trys becomes
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* large enough, both are divided by two. (See function
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* ubi_cacheGet().)
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* Dividing both numerator and denominator by two does not
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* change the ratio (much...it is an integer divide), but it
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* does mean that subsequent increments to either counter will
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* have twice as much significance as previous ones.
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*
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* - The value returned by this function will be in the range
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* [0..10000] because ( 0 <= cache_hits <= cache_trys ) will
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* always be true.
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*
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* ------------------------------------------------------------------------ **
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*/
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/* -------------------------------------------------------------------------- */
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#endif /* ubi_CACHE_H */
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