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f285b4fcee16da820bd0a1b6411f66b85bcd0806
mariadb/mysys/my_bitmap.c
serg@serg.mylan 79573a5ee8 after merge fixes
2005-03-09 19:22:30 +01:00

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/* Copyright (C) 2000 MySQL AB
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */
/*
Handling of uchar arrays as large bitmaps.
API limitations (or, rather asserted safety assumptions,
to encourage correct programming)
* the size of the used bitmap is less than ~(uint) 0
* it's a multiple of 8 (for efficiency reasons)
* when arguments are a bitmap and a bit number, the number
must be within bitmap size
* bitmap_set_prefix() is an exception - one can use ~0 to set all bits
* when both arguments are bitmaps, they must be of the same size
* bitmap_intersect() is an exception :)
(for for Bitmap::intersect(ulonglong map2buff))
If THREAD is defined all bitmap operations except bitmap_init/bitmap_free
are thread-safe.
TODO:
Make assembler THREAD safe versions of these using test-and-set instructions
*/
#include "mysys_priv.h"
#include <my_bitmap.h>
#include <m_string.h>
static inline void bitmap_lock(MY_BITMAP *map)
{
#ifdef THREAD
if (map->mutex)
pthread_mutex_lock(map->mutex);
#endif
}
static inline void bitmap_unlock(MY_BITMAP *map)
{
#ifdef THREAD
if (map->mutex)
pthread_mutex_unlock(map->mutex);
#endif
}
my_bool bitmap_init(MY_BITMAP *map, uchar *buf, uint bitmap_size,
my_bool thread_safe)
{
DBUG_ENTER("bitmap_init");
DBUG_ASSERT((bitmap_size & 7) == 0);
bitmap_size/=8;
if (!(map->bitmap=buf) &&
!(map->bitmap= (uchar*) my_malloc(bitmap_size +
(thread_safe ?
sizeof(pthread_mutex_t) : 0),
MYF(MY_WME | MY_ZEROFILL))))
return 1;
map->bitmap_size=bitmap_size;
#ifdef THREAD
if (thread_safe)
{
map->mutex=(pthread_mutex_t *)(map->bitmap+bitmap_size);
pthread_mutex_init(map->mutex, MY_MUTEX_INIT_FAST);
}
else
map->mutex=0;
#endif
DBUG_RETURN(0);
}
void bitmap_free(MY_BITMAP *map)
{
DBUG_ENTER("bitmap_free");
if (map->bitmap)
{
#ifdef THREAD
if (map->mutex)
pthread_mutex_destroy(map->mutex);
#endif
my_free((char*) map->bitmap, MYF(0));
map->bitmap=0;
}
DBUG_VOID_RETURN;
}
void bitmap_set_bit(MY_BITMAP *map, uint bitmap_bit)
{
DBUG_ASSERT(map->bitmap && bitmap_bit < map->bitmap_size*8);
bitmap_lock(map);
bitmap_fast_set_bit(map, bitmap_bit);
bitmap_unlock(map);
}
uint bitmap_set_next(MY_BITMAP *map)
{
uchar *bitmap=map->bitmap;
uint bit_found = MY_BIT_NONE;
uint bitmap_size=map->bitmap_size*8;
uint i;
DBUG_ASSERT(map->bitmap);
bitmap_lock(map);
for (i=0; i < bitmap_size ; i++, bitmap++)
{
if (*bitmap != 0xff)
{ /* Found slot with free bit */
uint b;
for (b=0; ; b++)
{
if (!(*bitmap & (1 << b)))
{
*bitmap |= 1<<b;
bit_found = (i*8)+b;
break;
}
}
break; /* Found bit */
}
}
bitmap_unlock(map);
return bit_found;
}
void bitmap_clear_bit(MY_BITMAP *map, uint bitmap_bit)
{
DBUG_ASSERT(map->bitmap && bitmap_bit < map->bitmap_size*8);
bitmap_lock(map);
bitmap_fast_clear_bit(map, bitmap_bit);
bitmap_unlock(map);
}
void bitmap_set_prefix(MY_BITMAP *map, uint prefix_size)
{
uint prefix_bytes, prefix_bits;
DBUG_ASSERT(map->bitmap &&
(prefix_size <= map->bitmap_size*8 || prefix_size == (uint) ~0));
bitmap_lock(map);
set_if_smaller(prefix_size, map->bitmap_size*8);
if ((prefix_bytes= prefix_size / 8))
memset(map->bitmap, 0xff, prefix_bytes);
if ((prefix_bits= prefix_size & 7))
map->bitmap[prefix_bytes++]= (1 << prefix_bits)-1;
if (prefix_bytes < map->bitmap_size)
bzero(map->bitmap+prefix_bytes, map->bitmap_size-prefix_bytes);
bitmap_unlock(map);
}
void bitmap_clear_all(MY_BITMAP *map)
{
bitmap_set_prefix(map, 0);
}
void bitmap_set_all(MY_BITMAP *map)
{
bitmap_set_prefix(map, ~0);
}
my_bool bitmap_is_prefix(const MY_BITMAP *map, uint prefix_size)
{
uint prefix_bits= prefix_size & 7, res= 0;
uchar *m= map->bitmap, *end_prefix= map->bitmap+prefix_size/8,
*end= map->bitmap+map->bitmap_size;
DBUG_ASSERT(map->bitmap && prefix_size <= map->bitmap_size*8);
bitmap_lock((MY_BITMAP *)map);
while (m < end_prefix)
if (*m++ != 0xff)
goto ret;
if (prefix_bits && *m++ != (1 << prefix_bits)-1)
goto ret;
while (m < end)
if (*m++ != 0)
goto ret;
res=1;
ret:
bitmap_unlock((MY_BITMAP *)map);
return res;
}
my_bool bitmap_is_clear_all(const MY_BITMAP *map)
{
return bitmap_is_prefix(map, 0);
}
my_bool bitmap_is_set_all(const MY_BITMAP *map)
{
return bitmap_is_prefix(map, map->bitmap_size*8);
}
my_bool bitmap_is_set(const MY_BITMAP *map, uint bitmap_bit)
{
DBUG_ASSERT(map->bitmap && bitmap_bit < map->bitmap_size*8);
return bitmap_fast_is_set(map, bitmap_bit);
}
my_bool bitmap_is_subset(const MY_BITMAP *map1, const MY_BITMAP *map2)
{
uint res=0;
uchar *m1=map1->bitmap, *m2=map2->bitmap, *end;
DBUG_ASSERT(map1->bitmap && map2->bitmap &&
map1->bitmap_size==map2->bitmap_size);
bitmap_lock((MY_BITMAP *)map1);
bitmap_lock((MY_BITMAP *)map2);
end= m1+map1->bitmap_size;
while (m1 < end)
{
if ((*m1++) & ~(*m2++))
goto ret;
}
res=1;
ret:
bitmap_unlock((MY_BITMAP *)map2);
bitmap_unlock((MY_BITMAP *)map1);
return res;
}
my_bool bitmap_cmp(const MY_BITMAP *map1, const MY_BITMAP *map2)
{
uint res;
DBUG_ASSERT(map1->bitmap && map2->bitmap &&
map1->bitmap_size==map2->bitmap_size);
bitmap_lock((MY_BITMAP *)map1);
bitmap_lock((MY_BITMAP *)map2);
res= memcmp(map1->bitmap, map2->bitmap, map1->bitmap_size)==0;
bitmap_unlock((MY_BITMAP *)map2);
bitmap_unlock((MY_BITMAP *)map1);
return res;
}
void bitmap_intersect(MY_BITMAP *map, const MY_BITMAP *map2)
{
uchar *to=map->bitmap, *from=map2->bitmap, *end;
uint len=map->bitmap_size, len2=map2->bitmap_size;
DBUG_ASSERT(map->bitmap && map2->bitmap);
bitmap_lock(map);
bitmap_lock((MY_BITMAP *)map2);
end= to+min(len,len2);
while (to < end)
*to++ &= *from++;
if (len2 < len)
{
end+=len-len2;
while (to < end)
*to++=0;
}
bitmap_unlock((MY_BITMAP *)map2);
bitmap_unlock(map);
}
void bitmap_subtract(MY_BITMAP *map, const MY_BITMAP *map2)
{
uchar *to=map->bitmap, *from=map2->bitmap, *end;
DBUG_ASSERT(map->bitmap && map2->bitmap &&
map->bitmap_size==map2->bitmap_size);
bitmap_lock(map);
bitmap_lock((MY_BITMAP *)map2);
end= to+map->bitmap_size;
while (to < end)
*to++ &= ~(*from++);
bitmap_unlock((MY_BITMAP *)map2);
bitmap_unlock(map);
}
void bitmap_union(MY_BITMAP *map, const MY_BITMAP *map2)
{
uchar *to=map->bitmap, *from=map2->bitmap, *end;
DBUG_ASSERT(map->bitmap && map2->bitmap &&
map->bitmap_size==map2->bitmap_size);
bitmap_lock(map);
bitmap_lock((MY_BITMAP *)map2);
end= to+map->bitmap_size;
while (to < end)
*to++ |= *from++;
bitmap_unlock((MY_BITMAP *)map2);
bitmap_unlock(map);
}
/*
SYNOPSIS
bitmap_bits_set()
map
RETURN
Number of set bits in the bitmap.
*/
uint bitmap_bits_set(const MY_BITMAP *map)
{
uchar *m= map->bitmap;
uchar *end= m + map->bitmap_size;
uint res= 0;
DBUG_ASSERT(map->bitmap);
bitmap_lock((MY_BITMAP *)map);
while (m < end)
{
res+= my_count_bits_ushort(*m++);
}
bitmap_unlock((MY_BITMAP *)map);
return res;
}
/*
SYNOPSIS
bitmap_get_first()
map
RETURN
Number of first unset bit in the bitmap or MY_BIT_NONE if all bits are set.
*/
uint bitmap_get_first(const MY_BITMAP *map)
{
uchar *bitmap=map->bitmap;
uint bit_found = MY_BIT_NONE;
uint bitmap_size=map->bitmap_size*8;
uint i;
DBUG_ASSERT(map->bitmap);
bitmap_lock((MY_BITMAP *)map);
for (i=0; i < bitmap_size ; i++, bitmap++)
{
if (*bitmap != 0xff)
{ /* Found slot with free bit */
uint b;
for (b=0; ; b++)
{
if (!(*bitmap & (1 << b)))
{
bit_found = (i*8)+b;
break;
}
}
break; /* Found bit */
}
}
bitmap_unlock((MY_BITMAP *)map);
return bit_found;
}
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