/* Copyright (c) 2001, 2016, Oracle and/or its affiliates. All rights reserved. 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; version 2 of the License. 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., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ /* Handling of uchar arrays as large bitmaps. API limitations (or, rather asserted safety assumptions, to encourage correct programming) * the internal size is a set of 32 bit words * the number of bits specified in creation can be any number > 0 a bitmap with zero bits can be created and initialized, but not used. * there are THREAD safe versions of most calls called bitmap_lock_* TODO: Make assembler THREAD safe versions of these using test-and-set instructions Original version created by Sergei Golubchik 2001 - 2004. New version written and test program added and some changes to the interface was made by Mikael Ronström 2005, with assistance of Tomas Ulin and Mats Kindahl. */ #include "mysys_priv.h" #include "my_sys.h" #include #include #include void create_last_word_mask(MY_BITMAP *map) { /* Get the number of used bits (1..8) in the last byte */ unsigned int const used= 1U + ((map->n_bits-1U) & 0x7U); /* Create a mask with the upper 'unused' bits set and the lower 'used' bits clear. The bits within each byte is stored in big-endian order. */ unsigned char const mask= (~((1 << used) - 1)) & 255; /* The first bytes are to be set to zero since they represent real bits in the bitvector. The last bytes are set to 0xFF since they represent bytes not used by the bitvector. Finally the last byte contains bits as set by the mask above. */ unsigned char *ptr= (unsigned char*)&map->last_word_mask; /* Avoid out-of-bounds read/write if we have zero bits. */ map->last_word_ptr= map->n_bits == 0 ? map->bitmap : map->bitmap + no_words_in_map(map) - 1; switch (no_bytes_in_map(map) & 3) { case 1: map->last_word_mask= ~0U; ptr[0]= mask; return; case 2: map->last_word_mask= ~0U; ptr[0]= 0; ptr[1]= mask; return; case 3: map->last_word_mask= 0U; ptr[2]= mask; ptr[3]= 0xFFU; return; case 0: map->last_word_mask= 0U; ptr[3]= mask; return; } } static inline void bitmap_lock(MY_BITMAP *map MY_ATTRIBUTE((unused))) { if (map->mutex) mysql_mutex_lock(map->mutex); } static inline void bitmap_unlock(MY_BITMAP *map MY_ATTRIBUTE((unused))) { if (map->mutex) mysql_mutex_unlock(map->mutex); } static inline uint get_first_set(uint32 value, uint word_pos) { uchar *byte_ptr= (uchar*)&value; uchar byte_value; uint byte_pos, bit_pos; for (byte_pos=0; byte_pos < 4; byte_pos++, byte_ptr++) { byte_value= *byte_ptr; if (byte_value) { for (bit_pos=0; ; bit_pos++) if (byte_value & (1 << bit_pos)) return (word_pos*32) + (byte_pos*8) + bit_pos; } } return MY_BIT_NONE; } static inline uint get_first_not_set(uint32 value, uint word_pos) { uchar *byte_ptr= (uchar*)&value; uchar byte_value; uint byte_pos, bit_pos; for (byte_pos=0; byte_pos < 4; byte_pos++, byte_ptr++) { byte_value= *byte_ptr; if (byte_value != 0xFF) { for (bit_pos=0; ; bit_pos++) if (!(byte_value & (1 << bit_pos))) return (word_pos*32) + (byte_pos*8) + bit_pos; } } return MY_BIT_NONE; } my_bool bitmap_init(MY_BITMAP *map, my_bitmap_map *buf, uint n_bits, my_bool thread_safe MY_ATTRIBUTE((unused))) { DBUG_ENTER("bitmap_init"); if (!buf) { uint size_in_bytes= bitmap_buffer_size(n_bits); uint extra= 0; if (thread_safe) { size_in_bytes= ALIGN_SIZE(size_in_bytes); extra= sizeof(mysql_mutex_t); } map->mutex= 0; if (!(buf= (my_bitmap_map*) my_malloc(key_memory_MY_BITMAP_bitmap, size_in_bytes+extra, MYF(MY_WME)))) DBUG_RETURN(1); if (thread_safe) { map->mutex= (mysql_mutex_t *) ((char*) buf + size_in_bytes); mysql_mutex_init(key_BITMAP_mutex, map->mutex, MY_MUTEX_INIT_FAST); } } else { DBUG_ASSERT(thread_safe == 0); map->mutex= NULL; } map->bitmap= buf; map->n_bits= n_bits; create_last_word_mask(map); bitmap_clear_all(map); DBUG_RETURN(0); } void bitmap_free(MY_BITMAP *map) { DBUG_ENTER("bitmap_free"); if (map->bitmap) { if (map->mutex) mysql_mutex_destroy(map->mutex); my_free(map->bitmap); map->bitmap=0; } DBUG_VOID_RETURN; } /* test if bit already set and set it if it was not (thread unsafe method) SYNOPSIS bitmap_fast_test_and_set() MAP bit map struct BIT bit number RETURN 0 bit was not set !=0 bit was set */ my_bool bitmap_fast_test_and_set(MY_BITMAP *map, uint bitmap_bit) { uchar *value= ((uchar*) map->bitmap) + (bitmap_bit / 8); uchar bit= 1 << ((bitmap_bit) & 7); uchar res= (*value) & bit; *value|= bit; return res; } /* test if bit already set and set it if it was not (thread safe method) SYNOPSIS bitmap_fast_test_and_set() map bit map struct bitmap_bit bit number RETURN 0 bit was not set !=0 bit was set */ my_bool bitmap_test_and_set(MY_BITMAP *map, uint bitmap_bit) { my_bool res; DBUG_ASSERT(map->bitmap && bitmap_bit < map->n_bits); bitmap_lock(map); res= bitmap_fast_test_and_set(map, bitmap_bit); bitmap_unlock(map); return res; } /* test if bit already set and clear it if it was set(thread unsafe method) SYNOPSIS bitmap_fast_test_and_set() MAP bit map struct BIT bit number RETURN 0 bit was not set !=0 bit was set */ my_bool bitmap_fast_test_and_clear(MY_BITMAP *map, uint bitmap_bit) { uchar *byte= (uchar*) map->bitmap + (bitmap_bit / 8); uchar bit= 1 << ((bitmap_bit) & 7); uchar res= (*byte) & bit; *byte&= ~bit; return res; } my_bool bitmap_test_and_clear(MY_BITMAP *map, uint bitmap_bit) { my_bool res; DBUG_ASSERT(map->bitmap && bitmap_bit < map->n_bits); bitmap_lock(map); res= bitmap_fast_test_and_clear(map, bitmap_bit); bitmap_unlock(map); return res; } uint bitmap_set_next(MY_BITMAP *map) { uint bit_found; DBUG_ASSERT(map->bitmap); if ((bit_found= bitmap_get_first(map)) != MY_BIT_NONE) bitmap_set_bit(map, bit_found); return bit_found; } /** Set the specified number of bits in the bitmap buffer. @param map [IN] Bitmap @param prefix_size [IN] Number of bits to be set @return void */ void bitmap_set_prefix(MY_BITMAP *map, uint prefix_size) { uint prefix_bytes, prefix_bits, d; uchar *m= (uchar *)map->bitmap; DBUG_ASSERT(map->bitmap && (prefix_size <= map->n_bits || prefix_size == (uint) ~0)); set_if_smaller(prefix_size, map->n_bits); if ((prefix_bytes= prefix_size / 8)) memset(m, 0xff, prefix_bytes); m+= prefix_bytes; if ((prefix_bits= prefix_size & 7)) { *(m++)= (1 << prefix_bits)-1; // As the prefix bits are set, lets count this byte too as a prefix byte. prefix_bytes ++; } if ((d= no_bytes_in_map(map)-prefix_bytes)) memset(m, 0, d); } my_bool bitmap_is_prefix(const MY_BITMAP *map, uint prefix_size) { uint prefix_bits= prefix_size % 32; my_bitmap_map *word_ptr= map->bitmap, last_word; my_bitmap_map *end_prefix= word_ptr + prefix_size / 32; DBUG_ASSERT(word_ptr && prefix_size <= map->n_bits); /* 1: Words that should be filled with 1 */ for (; word_ptr < end_prefix; word_ptr++) if (*word_ptr != 0xFFFFFFFF) return FALSE; DBUG_ASSERT(map->n_bits > 0); last_word= *map->last_word_ptr & ~map->last_word_mask; /* 2: Word which contains the end of the prefix (if any) */ if (prefix_bits) { if (word_ptr == map->last_word_ptr) return uint4korr((uchar*)&last_word) == (uint32)((1 << prefix_bits) - 1); else if (uint4korr((uchar*)word_ptr) != (uint32)((1 << prefix_bits) - 1)) return FALSE; word_ptr++; } /* 3: Words that should be filled with 0 */ for (; word_ptr < map->last_word_ptr; word_ptr++) if (*word_ptr != 0) return FALSE; /* We can end up here in two situations: 1) We went through the whole bitmap in step 1. This will happen if the whole bitmap is filled with 1 and prefix_size is a multiple of 32 (i.e. the prefix does not end in the middle of a word). In this case word_ptr will be larger than map->last_word_ptr. 2) We have gone through steps 1-3 and just need to check that also the last word is 0. */ return word_ptr > map->last_word_ptr || last_word == 0; } my_bool bitmap_is_set_all(const MY_BITMAP *map) { my_bitmap_map *data_ptr= map->bitmap; my_bitmap_map *end= map->last_word_ptr; DBUG_ASSERT(map->n_bits > 0); for (; data_ptr < end; data_ptr++) if (*data_ptr != 0xFFFFFFFF) return FALSE; if ((*map->last_word_ptr | map->last_word_mask) != 0xFFFFFFFF) return FALSE; return TRUE; } my_bool bitmap_is_clear_all(const MY_BITMAP *map) { my_bitmap_map *data_ptr= map->bitmap; my_bitmap_map *end= map->last_word_ptr; DBUG_ASSERT(map->n_bits > 0); for (; data_ptr < end; data_ptr++) if (*data_ptr) return FALSE; if (*map->last_word_ptr & ~map->last_word_mask) return FALSE; return TRUE; } /* Return TRUE if map1 is a subset of map2 */ my_bool bitmap_is_subset(const MY_BITMAP *map1, const MY_BITMAP *map2) { my_bitmap_map *m1= map1->bitmap, *m2= map2->bitmap, *end; DBUG_ASSERT(map1->bitmap && map2->bitmap && map1->n_bits==map2->n_bits); end= map1->last_word_ptr; for (; m1 < end; m1++, m2++) if (*m1 & ~(*m2)) return FALSE; DBUG_ASSERT(map1->n_bits > 0); DBUG_ASSERT(map2->n_bits > 0); if ((*map1->last_word_ptr & ~map1->last_word_mask) & ~(*map2->last_word_ptr & ~map2->last_word_mask)) return FALSE; return TRUE; } /* True if bitmaps has any common bits */ my_bool bitmap_is_overlapping(const MY_BITMAP *map1, const MY_BITMAP *map2) { my_bitmap_map *m1= map1->bitmap, *m2= map2->bitmap, *end; DBUG_ASSERT(map1->bitmap && map2->bitmap && map1->n_bits==map2->n_bits); DBUG_ASSERT(map1->n_bits > 0); DBUG_ASSERT(map2->n_bits > 0); end= map1->last_word_ptr; for (; m1 < end; m1++, m2++) if (*m1 & *m2) return TRUE; if ((*map1->last_word_ptr & ~map1->last_word_mask) & (*map2->last_word_ptr & ~map2->last_word_mask)) return TRUE; return FALSE; } void bitmap_intersect(MY_BITMAP *map, const MY_BITMAP *map2) { my_bitmap_map *to= map->bitmap, *from= map2->bitmap, *end; uint len= no_words_in_map(map), len2 = no_words_in_map(map2); DBUG_ASSERT(map->bitmap && map2->bitmap); end= to + MY_MIN(len, len2); for (; to < end; to++, from++) *to &= *from; if (len >= len2) map->bitmap[len2 - 1] &= ~map2->last_word_mask; if (len2 < len) { end+=len-len2; for (; to < end; to++) *to= 0; } } /* Set/clear all bits above a bit. SYNOPSIS bitmap_set_above() map RETURN The bitmap to change. from_byte The bitmap buffer byte offset to start with. use_bit The bit value (1/0) to use for all upper bits. NOTE You can only set/clear full bytes. The function is meant for the situation that you copy a smaller bitmap to a bigger bitmap. Bitmap lengths are always multiple of eigth (the size of a byte). Using 'from_byte' saves multiplication and division by eight during parameter passing. RETURN void */ void bitmap_set_above(MY_BITMAP *map, uint from_byte, uint use_bit) { uchar use_byte= use_bit ? 0xff : 0; uchar *to= (uchar *)map->bitmap + from_byte; uchar *end= (uchar *)map->bitmap + (map->n_bits+7)/8; for (; to < end; to++) *to= use_byte; } void bitmap_subtract(MY_BITMAP *map, const MY_BITMAP *map2) { my_bitmap_map *to= map->bitmap, *from= map2->bitmap, *end; DBUG_ASSERT(map->bitmap && map2->bitmap && map->n_bits==map2->n_bits); DBUG_ASSERT(map->n_bits > 0); end= map->last_word_ptr; for (; to <= end; to++, from++) *to &= ~(*from); } void bitmap_union(MY_BITMAP *map, const MY_BITMAP *map2) { my_bitmap_map *to= map->bitmap, *from= map2->bitmap, *end; DBUG_ASSERT(map->bitmap && map2->bitmap && map->n_bits==map2->n_bits); DBUG_ASSERT(map->n_bits > 0); end= map->last_word_ptr; for (; to <= end; to++, from++) *to |= *from; } void bitmap_xor(MY_BITMAP *map, const MY_BITMAP *map2) { my_bitmap_map *to= map->bitmap, *from= map2->bitmap, *end; DBUG_ASSERT(map->bitmap && map2->bitmap && map->n_bits==map2->n_bits); DBUG_ASSERT(map->n_bits > 0); end= map->last_word_ptr; for (; to <= end; to++, from++) *to ^= *from; } void bitmap_invert(MY_BITMAP *map) { my_bitmap_map *to= map->bitmap, *end; DBUG_ASSERT(map->bitmap); DBUG_ASSERT(map->n_bits > 0); end= map->last_word_ptr; for (; to <= end; to++) *to ^= 0xFFFFFFFF; } uint bitmap_bits_set(const MY_BITMAP *map) { my_bitmap_map *data_ptr= map->bitmap; my_bitmap_map *end= map->last_word_ptr; uint res= 0; DBUG_ASSERT(map->bitmap); DBUG_ASSERT(map->n_bits > 0); for (; data_ptr < end; data_ptr++) res+= my_count_bits_uint32(*data_ptr); /*Reset last bits to zero*/ res+= my_count_bits_uint32(*map->last_word_ptr & ~map->last_word_mask); return res; } void bitmap_copy(MY_BITMAP *map, const MY_BITMAP *map2) { my_bitmap_map *to= map->bitmap, *from= map2->bitmap, *end; DBUG_ASSERT(map->bitmap && map2->bitmap && map->n_bits==map2->n_bits); DBUG_ASSERT(map->n_bits > 0); end= map->last_word_ptr; for (; to <= end; to++, from++) *to = *from; } uint bitmap_get_first_set(const MY_BITMAP *map) { uint word_pos; my_bitmap_map *data_ptr, *end= map->last_word_ptr; DBUG_ASSERT(map->bitmap); DBUG_ASSERT(map->n_bits > 0); data_ptr= map->bitmap; for (word_pos=0; data_ptr < end; data_ptr++, word_pos++) if (*data_ptr) return get_first_set(*data_ptr, word_pos); return get_first_set(*map->last_word_ptr & ~map->last_word_mask, word_pos); } /** Get the next set bit. @param map Bitmap @param bitmap_bit Bit to start search from @return Index to first bit set after bitmap_bit */ uint bitmap_get_next_set(const MY_BITMAP *map, uint bitmap_bit) { uint word_pos, byte_to_mask, i; my_bitmap_map first_word; unsigned char *ptr= (unsigned char*) &first_word; my_bitmap_map *data_ptr, *end= map->last_word_ptr; DBUG_ASSERT(map->bitmap); DBUG_ASSERT(map->n_bits > 0); /* Look for the next bit */ bitmap_bit++; if (bitmap_bit >= map->n_bits) return MY_BIT_NONE; word_pos= bitmap_bit / 32; data_ptr= map->bitmap + word_pos; first_word= *data_ptr; /* Mask out previous bits */ byte_to_mask= (bitmap_bit % 32) / 8; for (i= 0; i < byte_to_mask; i++) ptr[i]= 0; ptr[byte_to_mask]&= 0xFFU << (bitmap_bit & 7); if (data_ptr == end) return get_first_set(first_word & ~map->last_word_mask, word_pos); if (first_word) return get_first_set(first_word, word_pos); for (data_ptr++, word_pos++; data_ptr < end; data_ptr++, word_pos++) if (*data_ptr) return get_first_set(*data_ptr, word_pos); return get_first_set(*end & ~map->last_word_mask, word_pos); } uint bitmap_get_first(const MY_BITMAP *map) { uint word_pos; my_bitmap_map *data_ptr, *end= map->last_word_ptr; DBUG_ASSERT(map->bitmap); DBUG_ASSERT(map->n_bits > 0); data_ptr= map->bitmap; for (word_pos=0; data_ptr < end; data_ptr++, word_pos++) if (*data_ptr != 0xFFFFFFFF) return get_first_not_set(*data_ptr, word_pos); return get_first_not_set(*map->last_word_ptr | map->last_word_mask, word_pos); } uint bitmap_lock_set_next(MY_BITMAP *map) { uint bit_found; bitmap_lock(map); bit_found= bitmap_set_next(map); bitmap_unlock(map); return bit_found; } void bitmap_lock_clear_bit(MY_BITMAP *map, uint bitmap_bit) { bitmap_lock(map); DBUG_ASSERT(map->bitmap && bitmap_bit < map->n_bits); bitmap_clear_bit(map, bitmap_bit); bitmap_unlock(map); }