/* Copyright (C) 2000-2002, 2004 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; 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /* functions on blocks; Keys and records are saved in blocks */ #include "heapdef.h" /* Find record according to record-position. The record is located by factoring position number pos into (p_0, p_1, ...) such that pos = SUM_i(block->level_info[i].records_under_level * p_i) {p_0, p_1, ...} serve as indexes to descend the blocks tree. */ byte *hp_find_block(HP_BLOCK *block, ulong pos) { reg1 int i; reg3 HP_PTRS *ptr; /* block base ptr */ for (i=block->levels-1, ptr=block->root ; i > 0 ; i--) { ptr=(HP_PTRS*)ptr->blocks[pos/block->level_info[i].records_under_level]; pos%=block->level_info[i].records_under_level; } return (byte*) ptr+ pos*block->recbuffer; } /* Get one new block-of-records. Alloc ptr to block if needed SYNOPSIS hp_get_new_block() block HP_BLOCK tree-like block alloc_length OUT Amount of memory allocated from the heap Interrupts are stopped to allow ha_panic in interrupts RETURN 0 OK 1 Out of memory */ int hp_get_new_block(HP_BLOCK *block, ulong *alloc_length) { reg1 uint i,j; HP_PTRS *root; for (i=0 ; i < block->levels ; i++) if (block->level_info[i].free_ptrs_in_block) break; /* Allocate space for leaf block plus space for upper level blocks up to first level that has a free slot to put the pointer. In some cases we actually allocate more then we need: Consider e.g. a situation where we have one level 1 block and one level 0 block, the level 0 block is full and this function is called. We only need a leaf block in this case. Nevertheless, we will get here with i=1 and will also allocate sizeof(HP_PTRS) for non-leaf block and will never use this space. This doesn't add much overhead - with current values of sizeof(HP_PTRS) and my_default_record_cache_size we get about 1/128 unused memory. */ *alloc_length=sizeof(HP_PTRS)*i+block->records_in_block* block->recbuffer; if (!(root=(HP_PTRS*) my_malloc(*alloc_length,MYF(MY_WME)))) return 1; if (i == 0) { block->levels=1; block->root=block->level_info[0].last_blocks=root; } else { dont_break(); /* Dont allow SIGHUP or SIGINT */ if ((uint) i == block->levels) { /* Adding a new level on top of the existing ones. */ block->levels=i+1; /* Use first allocated HP_PTRS as a top-level block. Put the current block tree into the first slot of a new top-level block. */ block->level_info[i].free_ptrs_in_block=HP_PTRS_IN_NOD-1; ((HP_PTRS**) root)[0]= block->root; block->root=block->level_info[i].last_blocks= root++; } /* Occupy the free slot we've found at level i */ block->level_info[i].last_blocks-> blocks[HP_PTRS_IN_NOD - block->level_info[i].free_ptrs_in_block--]= (byte*) root; /* Add a block subtree with each node having one left-most child */ for (j=i-1 ; j >0 ; j--) { block->level_info[j].last_blocks= root++; block->level_info[j].last_blocks->blocks[0]=(byte*) root; block->level_info[j].free_ptrs_in_block=HP_PTRS_IN_NOD-1; } /* root now points to last (block->records_in_block* block->recbuffer) allocated bytes. Use it as a leaf block. */ block->level_info[0].last_blocks= root; allow_break(); /* Allow SIGHUP & SIGINT */ } return 0; } /* free all blocks under level */ byte *hp_free_level(HP_BLOCK *block, uint level, HP_PTRS *pos, byte *last_pos) { int i,max_pos; byte *next_ptr; if (level == 1) next_ptr=(byte*) pos+block->recbuffer; else { max_pos= (block->level_info[level-1].last_blocks == pos) ? HP_PTRS_IN_NOD - block->level_info[level-1].free_ptrs_in_block : HP_PTRS_IN_NOD; next_ptr=(byte*) (pos+1); for (i=0 ; i < max_pos ; i++) next_ptr=hp_free_level(block,level-1, (HP_PTRS*) pos->blocks[i],next_ptr); } if ((byte*) pos != last_pos) { my_free((gptr) pos,MYF(0)); return last_pos; } return next_ptr; /* next memory position */ }