~drizzle-trunk/drizzle/development

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/* Copyright (C) 2000-2006 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 */

/* key handling functions */

#include "myisamdef.h"
#include <mystrings/m_ctype.h>
#include <mystrings/m_string.h>
#include <drizzled/util/test.h>

static bool _mi_get_prev_key(MI_INFO *info, MI_KEYDEF *keyinfo, unsigned char *page,
                                unsigned char *key, unsigned char *keypos,
                                uint32_t *return_key_length);

        /* Check index */

int _mi_check_index(MI_INFO *info, int inx)
{
  if (inx == -1)                        /* Use last index */
    inx=info->lastinx;
  if (inx < 0 || ! mi_is_key_active(info->s->state.key_map, inx))
  {
    my_errno=HA_ERR_WRONG_INDEX;
    return -1;
  }
  if (info->lastinx != inx)             /* Index changed */
  {
    info->lastinx = inx;
    info->page_changed=1;
    info->update= ((info->update & (HA_STATE_CHANGED | HA_STATE_ROW_CHANGED)) |
                   HA_STATE_NEXT_FOUND | HA_STATE_PREV_FOUND);
  }
  if (info->opt_flag & WRITE_CACHE_USED && flush_io_cache(&info->rec_cache))
    return(-1);
  return(inx);
} /* mi_check_index */


        /*
        ** Search after row by a key
        ** Position to row is stored in info->lastpos
        ** Return: -1 if not found
        **          1 if one should continue search on higher level
        */

int _mi_search(register MI_INFO *info, register MI_KEYDEF *keyinfo,
               unsigned char *key, uint32_t key_len, uint32_t nextflag, register my_off_t pos)
{
  bool last_key;
  int error,flag;
  uint32_t nod_flag;
  unsigned char *keypos,*maxpos;
  unsigned char lastkey[MI_MAX_KEY_BUFF],*buff;

  if (pos == HA_OFFSET_ERROR)
  {
    my_errno=HA_ERR_KEY_NOT_FOUND;                      /* Didn't find key */
    info->lastpos= HA_OFFSET_ERROR;
    if (!(nextflag & (SEARCH_SMALLER | SEARCH_BIGGER | SEARCH_LAST)))
      return(-1);                          /* Not found ; return error */
    return(1);                             /* Search at upper levels */
  }

  if (!(buff=_mi_fetch_keypage(info,keyinfo,pos,DFLT_INIT_HITS,info->buff,
                               test(!(nextflag & SEARCH_SAVE_BUFF)))))
    goto err;

  flag=(*keyinfo->bin_search)(info,keyinfo,buff,key,key_len,nextflag,
                              &keypos,lastkey, &last_key);
  if (flag == MI_FOUND_WRONG_KEY)
    return(-1);
  nod_flag=mi_test_if_nod(buff);
  maxpos=buff+mi_getint(buff)-1;

  if (flag)
  {
    if ((error=_mi_search(info,keyinfo,key,key_len,nextflag,
                          _mi_kpos(nod_flag,keypos))) <= 0)
      return(error);

    if (flag >0)
    {
      if (nextflag & (SEARCH_SMALLER | SEARCH_LAST) &&
          keypos == buff+2+nod_flag)
        return(1);                                 /* Bigger than key */
    }
    else if (nextflag & SEARCH_BIGGER && keypos >= maxpos)
      return(1);                                   /* Smaller than key */
  }
  else
  {
    if ((nextflag & SEARCH_FIND) && nod_flag &&
	((keyinfo->flag & (HA_NOSAME | HA_NULL_PART)) != HA_NOSAME ||
	 key_len != USE_WHOLE_KEY))
    {
      if ((error=_mi_search(info,keyinfo,key,key_len,SEARCH_FIND,
                            _mi_kpos(nod_flag,keypos))) >= 0 ||
          my_errno != HA_ERR_KEY_NOT_FOUND)
        return(error);
      info->last_keypage= HA_OFFSET_ERROR;              /* Buffer not in mem */
    }
  }
  if (pos != info->last_keypage)
  {
    unsigned char *old_buff=buff;
    if (!(buff=_mi_fetch_keypage(info,keyinfo,pos,DFLT_INIT_HITS,info->buff,
                                 test(!(nextflag & SEARCH_SAVE_BUFF)))))
      goto err;
    keypos=buff+(keypos-old_buff);
    maxpos=buff+(maxpos-old_buff);
  }

  if ((nextflag & (SEARCH_SMALLER | SEARCH_LAST)) && flag != 0)
  {
    uint32_t not_used[2];
    if (_mi_get_prev_key(info,keyinfo, buff, info->lastkey, keypos,
                         &info->lastkey_length))
      goto err;
    if (!(nextflag & SEARCH_SMALLER) &&
        ha_key_cmp(keyinfo->seg, info->lastkey, key, key_len, SEARCH_FIND,
                   not_used))
    {
      my_errno=HA_ERR_KEY_NOT_FOUND;                    /* Didn't find key */
      goto err;
    }
  }
  else
  {
    info->lastkey_length=(*keyinfo->get_key)(keyinfo,nod_flag,&keypos,lastkey);
    if (!info->lastkey_length)
      goto err;
    memcpy(info->lastkey,lastkey,info->lastkey_length);
  }
  info->lastpos=_mi_dpos(info,0,info->lastkey+info->lastkey_length);
  /* Save position for a possible read next / previous */
  info->int_keypos=info->buff+ (keypos-buff);
  info->int_maxpos=info->buff+ (maxpos-buff);
  info->int_nod_flag=nod_flag;
  info->int_keytree_version=keyinfo->version;
  info->last_search_keypage=info->last_keypage;
  info->page_changed=0;
  info->buff_used= (info->buff != buff);        /* If we have to reread buff */

  return(0);

err:
  info->lastpos= HA_OFFSET_ERROR;
  info->page_changed=1;
  return (-1);
} /* _mi_search */


        /* Search after key in page-block */
        /* If packed key puts smaller or identical key in buff */
        /* ret_pos point to where find or bigger key starts */
        /* ARGSUSED */

int _mi_bin_search(MI_INFO *info, register MI_KEYDEF *keyinfo, unsigned char *page,
                   unsigned char *key, uint32_t key_len, uint32_t comp_flag, unsigned char **ret_pos,
                   unsigned char *buff, bool *last_key)
{
  (void)buff;
  register int start,mid,end,save_end;
  int flag;
  uint32_t totlength,nod_flag,not_used[2];

  totlength=keyinfo->keylength+(nod_flag=mi_test_if_nod(page));
  start=0; mid=1;
  save_end=end=(int) ((mi_getint(page)-2-nod_flag)/totlength-1);
  page+=2+nod_flag;

  while (start != end)
  {
    mid= (start+end)/2;
    if ((flag=ha_key_cmp(keyinfo->seg,page+(uint) mid*totlength,key,key_len,
                         comp_flag, not_used))
        >= 0)
      end=mid;
    else
      start=mid+1;
  }
  if (mid != start)
    flag=ha_key_cmp(keyinfo->seg,page+(uint) start*totlength,key,key_len,
                     comp_flag, not_used);
  if (flag < 0)
    start++;                    /* point at next, bigger key */
  *ret_pos=page+(uint) start*totlength;
  *last_key= end == save_end;
  return(flag);
} /* _mi_bin_search */


/*
  Locate a packed key in a key page.

  SYNOPSIS
    _mi_seq_search()
    info                        Open table information.
    keyinfo                     Key definition information.
    page                        Key page (beginning).
    key                         Search key.
    key_len                     Length to use from search key or USE_WHOLE_KEY
    comp_flag                   Search flags like SEARCH_SAME etc.
    ret_pos             RETURN  Position in key page behind this key.
    buff                RETURN  Copy of previous or identical unpacked key.
    last_key            RETURN  If key is last in page.

  DESCRIPTION
    Used instead of _mi_bin_search() when key is packed.
    Puts smaller or identical key in buff.
    Key is searched sequentially.

  RETURN
    > 0         Key in 'buff' is smaller than search key.
    0           Key in 'buff' is identical to search key.
    < 0         Not found.
*/

int _mi_seq_search(MI_INFO *info, register MI_KEYDEF *keyinfo, unsigned char *page,
                   unsigned char *key, uint32_t key_len, uint32_t comp_flag, unsigned char **ret_pos,
                   unsigned char *buff, bool *last_key)
{
  int flag=0;
  uint32_t nod_flag,length=0,not_used[2];
  unsigned char t_buff[MI_MAX_KEY_BUFF],*end;

  end= page+mi_getint(page);
  nod_flag=mi_test_if_nod(page);
  page+=2+nod_flag;
  *ret_pos=page;
  t_buff[0]=0;                                  /* Avoid bugs */
  while (page < end)
  {
    length=(*keyinfo->get_key)(keyinfo,nod_flag,&page,t_buff);
    if (length == 0 || page > end)
    {
      mi_print_error(info->s, HA_ERR_CRASHED);
      my_errno=HA_ERR_CRASHED;
      return(MI_FOUND_WRONG_KEY);
    }
    if ((flag=ha_key_cmp(keyinfo->seg,t_buff,key,key_len,comp_flag,
                         not_used)) >= 0)
      break;
    memcpy(buff,t_buff,length);
    *ret_pos=page;
  }
  if (flag == 0)
    memcpy(buff,t_buff,length);                 /* Result is first key */
  *last_key= page == end;
  return(flag);
} /* _mi_seq_search */


int _mi_prefix_search(MI_INFO *info, register MI_KEYDEF *keyinfo, unsigned char *page,
                      unsigned char *key, uint32_t key_len, uint32_t nextflag, unsigned char **ret_pos,
                      unsigned char *buff, bool *last_key)
{
  /*
    my_flag is raw comparison result to be changed according to
    SEARCH_NO_FIND,SEARCH_LAST and HA_REVERSE_SORT flags.
    flag is the value returned by ha_key_cmp and as treated as final
  */
  int flag=0, my_flag=-1;
  uint32_t nod_flag, length=0, len, matched, cmplen, kseg_len;
  uint32_t prefix_len=0,suffix_len;
  int key_len_skip, seg_len_pack=0, key_len_left;
  unsigned char *end, *kseg, *vseg;
  unsigned char *sort_order=keyinfo->seg->charset->sort_order;
  unsigned char tt_buff[MI_MAX_KEY_BUFF+2], *t_buff=tt_buff+2;
  unsigned char *saved_from=NULL, *saved_to=NULL, *saved_vseg=NULL;
  uint32_t  saved_length=0, saved_prefix_len=0;
  uint32_t  length_pack;


  t_buff[0]=0;                                  /* Avoid bugs */
  end= page+mi_getint(page);
  nod_flag=mi_test_if_nod(page);
  page+=2+nod_flag;
  *ret_pos=page;
  kseg=key;

  get_key_pack_length(kseg_len,length_pack,kseg);
  key_len_skip=length_pack+kseg_len;
  key_len_left=(int) key_len- (int) key_len_skip;
  /* If key_len is 0, then lenght_pack is 1, then key_len_left is -1. */
  cmplen=(key_len_left>=0) ? kseg_len : key_len-length_pack;

  /*
    Keys are compressed the following way:

    If the max length of first key segment <= 127 bytes the prefix is
    1 byte else it's 2 byte

    (prefix) length  The high bit is set if this is a prefix for the prev key.
    [suffix length]  Packed length of suffix if the previous was a prefix.
    (suffix) data    Key data bytes (past the common prefix or whole segment).
    [next-key-seg]   Next key segments (([packed length], data), ...)
    pointer          Reference to the data file (last_keyseg->length).
  */

  matched=0;  /* how many char's from prefix were alredy matched */
  len=0;      /* length of previous key unpacked */

  while (page < end)
  {
    uint32_t packed= *page & 128;

    vseg=page;
    if (keyinfo->seg->length >= 127)
    {
      suffix_len=mi_uint2korr(vseg) & 32767;
      vseg+=2;
    }
    else
      suffix_len= *vseg++ & 127;

    if (packed)
    {
      if (suffix_len == 0)
      {
        /* == 0x80 or 0x8000, same key, prefix length == old key length. */
        prefix_len=len;
      }
      else
      {
        /* > 0x80 or 0x8000, this is prefix lgt, packed suffix lgt follows. */
        prefix_len=suffix_len;
        get_key_length(suffix_len,vseg);
      }
    }
    else
    {
      /* Not packed. No prefix used from last key. */
      prefix_len=0;
    }

    len=prefix_len+suffix_len;
    seg_len_pack=get_pack_length(len);
    t_buff=tt_buff+3-seg_len_pack;
    store_key_length(t_buff,len);

    if (prefix_len > saved_prefix_len)
      memcpy(t_buff+seg_len_pack+saved_prefix_len,saved_vseg,
             prefix_len-saved_prefix_len);
    saved_vseg=vseg;
    saved_prefix_len=prefix_len;

    {
      unsigned char *from=vseg+suffix_len;
      HA_KEYSEG *keyseg;
      uint32_t l;

      for (keyseg=keyinfo->seg+1 ; keyseg->type ; keyseg++ )
      {

        if (keyseg->flag & HA_NULL_PART)
        {
          if (!(*from++))
            continue;
        }
        if (keyseg->flag & (HA_VAR_LENGTH_PART | HA_BLOB_PART | HA_SPACE_PACK))
        {
          get_key_length(l,from);
        }
        else
          l=keyseg->length;

        from+=l;
      }
      from+=keyseg->length;
      page=from+nod_flag;
      length=from-vseg;
    }

    if (page > end)
    {
      mi_print_error(info->s, HA_ERR_CRASHED);
      my_errno=HA_ERR_CRASHED;
      return(MI_FOUND_WRONG_KEY);
    }

    if (matched >= prefix_len)
    {
      /* We have to compare. But we can still skip part of the key */
      uint32_t  left;
      unsigned char *k=kseg+prefix_len;

      /*
        If prefix_len > cmplen then we are in the end-space comparison
        phase. Do not try to acces the key any more ==> left= 0.
      */
      left= ((len <= cmplen) ? suffix_len :
             ((prefix_len < cmplen) ? cmplen - prefix_len : 0));

      matched=prefix_len+left;

      if (sort_order)
      {
        for (my_flag=0;left;left--)
          if ((my_flag= (int) sort_order[*vseg++] - (int) sort_order[*k++]))
            break;
      }
      else
      {
        for (my_flag=0;left;left--)
          if ((my_flag= (int) *vseg++ - (int) *k++))
            break;
      }

      if (my_flag>0)      /* mismatch */
        break;
      if (my_flag==0) /* match */
      {
	/*
        **  len cmplen seg_left_len more_segs
        **     <                               matched=len; continue search
        **     >      =                        prefix ? found : (matched=len; continue search)
        **     >      <                 -      ok, found
        **     =      <                 -      ok, found
        **     =      =                 -      ok, found
        **     =      =                 +      next seg
        */
        if (len < cmplen)
        {
	  if ((keyinfo->seg->type != HA_KEYTYPE_TEXT &&
	       keyinfo->seg->type != HA_KEYTYPE_VARTEXT1 &&
               keyinfo->seg->type != HA_KEYTYPE_VARTEXT2))
	    my_flag= -1;
	  else
	  {
	    /* We have to compare k and vseg as if they were space extended */
	    unsigned char *k_end= k+ (cmplen - len);
	    for ( ; k < k_end && *k == ' '; k++) ;
	    if (k == k_end)
	      goto cmp_rest;		/* should never happen */
	    if (*k < (unsigned char) ' ')
	    {
	      my_flag= 1;		/* Compared string is smaller */
	      break;
	    }
	    my_flag= -1;		/* Continue searching */
	  }
        }
        else if (len > cmplen)
        {
	  unsigned char *vseg_end;
	  if ((nextflag & SEARCH_PREFIX) && key_len_left == 0)
	    goto fix_flag;

	  /* We have to compare k and vseg as if they were space extended */
	  for (vseg_end= vseg + (len-cmplen) ;
	       vseg < vseg_end && *vseg == (unsigned char) ' ';
	       vseg++, matched++) ;
	  assert(vseg < vseg_end);

	  if (*vseg > (unsigned char) ' ')
	  {
	    my_flag= 1;			/* Compared string is smaller */
	    break;
	  }
	  my_flag= -1;			/* Continue searching */
        }
        else
	{
      cmp_rest:
	  if (key_len_left>0)
	  {
	    uint32_t not_used[2];
	    if ((flag = ha_key_cmp(keyinfo->seg+1,vseg,
				   k, key_len_left, nextflag, not_used)) >= 0)
	      break;
	  }
	  else
	  {
	    /*
	      at this line flag==-1 if the following lines were already
	      visited and 0 otherwise,  i.e. flag <=0 here always !!!
	    */
	fix_flag:
	    assert(flag <= 0);
	    if (nextflag & (SEARCH_NO_FIND | SEARCH_LAST))
	      flag=(nextflag & (SEARCH_BIGGER | SEARCH_LAST)) ? -1 : 1;
	    if (flag>=0)
	      break;
	  }
	}
      }
      matched-=left;
    }
    /* else (matched < prefix_len) ---> do nothing. */

    memcpy(buff,t_buff,saved_length=seg_len_pack+prefix_len);
    saved_to=buff+saved_length;
    saved_from=saved_vseg;
    saved_length=length;
    *ret_pos=page;
  }
  if (my_flag)
    flag=(keyinfo->seg->flag & HA_REVERSE_SORT) ? -my_flag : my_flag;
  if (flag == 0)
  {
    memcpy(buff,t_buff,saved_length=seg_len_pack+prefix_len);
    saved_to=buff+saved_length;
    saved_from=saved_vseg;
    saved_length=length;
  }
  if (saved_length)
    memcpy(saved_to,saved_from,saved_length);

  *last_key= page == end;

  return(flag);
} /* _mi_prefix_search */


        /* Get pos to a key_block */

my_off_t _mi_kpos(uint32_t nod_flag, unsigned char *after_key)
{
  after_key-=nod_flag;
  switch (nod_flag) {
#if SIZEOF_OFF_T > 4
  case 7:
    return mi_uint7korr(after_key)*MI_MIN_KEY_BLOCK_LENGTH;
  case 6:
    return mi_uint6korr(after_key)*MI_MIN_KEY_BLOCK_LENGTH;
  case 5:
    return mi_uint5korr(after_key)*MI_MIN_KEY_BLOCK_LENGTH;
#else
  case 7:
    after_key++;
  case 6:
    after_key++;
  case 5:
    after_key++;
#endif
  case 4:
    return ((my_off_t) mi_uint4korr(after_key))*MI_MIN_KEY_BLOCK_LENGTH;
  case 3:
    return ((my_off_t) mi_uint3korr(after_key))*MI_MIN_KEY_BLOCK_LENGTH;
  case 2:
    return (my_off_t) (mi_uint2korr(after_key)*MI_MIN_KEY_BLOCK_LENGTH);
  case 1:
    return (uint) (*after_key)*MI_MIN_KEY_BLOCK_LENGTH;
  case 0:                                       /* At leaf page */
  default:                                      /* Impossible */
    return(HA_OFFSET_ERROR);
  }
} /* _kpos */


        /* Save pos to a key_block */

void _mi_kpointer(register MI_INFO *info, register unsigned char *buff, my_off_t pos)
{
  pos/=MI_MIN_KEY_BLOCK_LENGTH;
  switch (info->s->base.key_reflength) {
#if SIZEOF_OFF_T > 4
  case 7: mi_int7store(buff,pos); break;
  case 6: mi_int6store(buff,pos); break;
  case 5: mi_int5store(buff,pos); break;
#else
  case 7: *buff++=0;
    /* fall trough */
  case 6: *buff++=0;
    /* fall trough */
  case 5: *buff++=0;
    /* fall trough */
#endif
  case 4: mi_int4store(buff,pos); break;
  case 3: mi_int3store(buff,pos); break;
  case 2: mi_int2store(buff,(uint) pos); break;
  case 1: buff[0]= (unsigned char) pos; break;
  default: abort();                             /* impossible */
  }
} /* _mi_kpointer */


        /* Calc pos to a data-record from a key */


my_off_t _mi_dpos(MI_INFO *info, uint32_t nod_flag, unsigned char *after_key)
{
  my_off_t pos;
  after_key-=(nod_flag + info->s->rec_reflength);
  switch (info->s->rec_reflength) {
#if SIZEOF_OFF_T > 4
  case 8:  pos= (my_off_t) mi_uint8korr(after_key);  break;
  case 7:  pos= (my_off_t) mi_uint7korr(after_key);  break;
  case 6:  pos= (my_off_t) mi_uint6korr(after_key);  break;
  case 5:  pos= (my_off_t) mi_uint5korr(after_key);  break;
#else
  case 8:  pos= (my_off_t) mi_uint4korr(after_key+4);   break;
  case 7:  pos= (my_off_t) mi_uint4korr(after_key+3);   break;
  case 6:  pos= (my_off_t) mi_uint4korr(after_key+2);   break;
  case 5:  pos= (my_off_t) mi_uint4korr(after_key+1);   break;
#endif
  case 4:  pos= (my_off_t) mi_uint4korr(after_key);  break;
  case 3:  pos= (my_off_t) mi_uint3korr(after_key);  break;
  case 2:  pos= (my_off_t) mi_uint2korr(after_key);  break;
  default:
    pos=0L;                                     /* Shut compiler up */
  }
  return (info->s->options &
          (HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD)) ? pos :
            pos*info->s->base.pack_reclength;
}


/* Calc position from a record pointer ( in delete link chain ) */

my_off_t _mi_rec_pos(MYISAM_SHARE *s, unsigned char *ptr)
{
  my_off_t pos;
  switch (s->rec_reflength) {
#if SIZEOF_OFF_T > 4
  case 8:
    pos= (my_off_t) mi_uint8korr(ptr);
    if (pos == HA_OFFSET_ERROR)
      return HA_OFFSET_ERROR;                   /* end of list */
    break;
  case 7:
    pos= (my_off_t) mi_uint7korr(ptr);
    if (pos == (((my_off_t) 1) << 56) -1)
      return HA_OFFSET_ERROR;                   /* end of list */
    break;
  case 6:
    pos= (my_off_t) mi_uint6korr(ptr);
    if (pos == (((my_off_t) 1) << 48) -1)
      return HA_OFFSET_ERROR;                   /* end of list */
    break;
  case 5:
    pos= (my_off_t) mi_uint5korr(ptr);
    if (pos == (((my_off_t) 1) << 40) -1)
      return HA_OFFSET_ERROR;                   /* end of list */
    break;
#else
  case 8:
  case 7:
  case 6:
  case 5:
    ptr+= (s->rec_reflength-4);
    /* fall through */
#endif
  case 4:
    pos= (my_off_t) mi_uint4korr(ptr);
    if (pos == (my_off_t) UINT32_MAX)
      return  HA_OFFSET_ERROR;
    break;
  case 3:
    pos= (my_off_t) mi_uint3korr(ptr);
    if (pos == (my_off_t) (1 << 24) -1)
      return HA_OFFSET_ERROR;
    break;
  case 2:
    pos= (my_off_t) mi_uint2korr(ptr);
    if (pos == (my_off_t) (1 << 16) -1)
      return HA_OFFSET_ERROR;
    break;
  default: abort();                             /* Impossible */
  }
  return ((s->options &
          (HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD)) ? pos :
          pos*s->base.pack_reclength);
}


        /* save position to record */

void _mi_dpointer(MI_INFO *info, unsigned char *buff, my_off_t pos)
{
  if (!(info->s->options &
        (HA_OPTION_PACK_RECORD | HA_OPTION_COMPRESS_RECORD)) &&
      pos != HA_OFFSET_ERROR)
    pos/=info->s->base.pack_reclength;

  switch (info->s->rec_reflength) {
#if SIZEOF_OFF_T > 4
  case 8: mi_int8store(buff,pos); break;
  case 7: mi_int7store(buff,pos); break;
  case 6: mi_int6store(buff,pos); break;
  case 5: mi_int5store(buff,pos); break;
#else
  case 8: *buff++=0;
    /* fall trough */
  case 7: *buff++=0;
    /* fall trough */
  case 6: *buff++=0;
    /* fall trough */
  case 5: *buff++=0;
    /* fall trough */
#endif
  case 4: mi_int4store(buff,pos); break;
  case 3: mi_int3store(buff,pos); break;
  case 2: mi_int2store(buff,(uint) pos); break;
  default: abort();                             /* Impossible */
  }
} /* _mi_dpointer */


        /* Get key from key-block */
        /* page points at previous key; its advanced to point at next key */
        /* key should contain previous key */
        /* Returns length of found key + pointers */
        /* nod_flag is a flag if we are on nod */

        /* same as _mi_get_key but used with fixed length keys */

uint32_t _mi_get_static_key(register MI_KEYDEF *keyinfo, uint32_t nod_flag,
                       register unsigned char **page, register unsigned char *key)
{
  memcpy(key, *page, keyinfo->keylength+nod_flag);
  *page+=keyinfo->keylength+nod_flag;
  return(keyinfo->keylength);
} /* _mi_get_static_key */


/*
  get key witch is packed against previous key or key with a NULL column.

  SYNOPSIS
    _mi_get_pack_key()
    keyinfo                     key definition information.
    nod_flag                    If nod: Length of node pointer, else zero.
    page_pos            RETURN  position in key page behind this key.
    key                 IN/OUT  in: prev key, out: unpacked key.

  RETURN
    key_length + length of data pointer
*/

uint32_t _mi_get_pack_key(register MI_KEYDEF *keyinfo, uint32_t nod_flag,
                      register unsigned char **page_pos, register unsigned char *key)
{
  register HA_KEYSEG *keyseg;
  unsigned char *start_key,*page=*page_pos;
  uint32_t length;

  start_key=key;
  for (keyseg=keyinfo->seg ; keyseg->type ;keyseg++)
  {
    if (keyseg->flag & HA_PACK_KEY)
    {
      /* key with length, packed to previous key */
      unsigned char *start=key;
      uint32_t packed= *page & 128,tot_length,rest_length;
      if (keyseg->length >= 127)
      {
        length=mi_uint2korr(page) & 32767;
        page+=2;
      }
      else
        length= *page++ & 127;

      if (packed)
      {
	if (length > (uint) keyseg->length)
	{
          mi_print_error(keyinfo->share, HA_ERR_CRASHED);
	  my_errno=HA_ERR_CRASHED;
	  return 0;				/* Error */
	}
	if (length == 0)			/* Same key */
	{
	  if (keyseg->flag & HA_NULL_PART)
	    *key++=1;				/* Can't be NULL */
	  get_key_length(length,key);
	  key+= length;				/* Same diff_key as prev */
	  if (length > keyseg->length)
	  {
            mi_print_error(keyinfo->share, HA_ERR_CRASHED);
	    my_errno=HA_ERR_CRASHED;
	    return 0;
	  }
	  continue;
	}
	if (keyseg->flag & HA_NULL_PART)
	{
	  key++;				/* Skip null marker*/
	  start++;
	}

	get_key_length(rest_length,page);
	tot_length=rest_length+length;

	/* If the stored length has changed, we must move the key */
	if (tot_length >= 255 && *start != 255)
	{
	  /* length prefix changed from a length of one to a length of 3 */
	  bmove_upp(key+length+3, key+length+1, length);
	  *key=255;
	  mi_int2store(key+1,tot_length);
	  key+=3+length;
	}
	else if (tot_length < 255 && *start == 255)
	{
          memmove(key+1,key+3,length);
	  *key=tot_length;
	  key+=1+length;
	}
	else
	{
	  store_key_length_inc(key,tot_length);
	  key+=length;
	}
	memcpy(key,page,rest_length);
	page+=rest_length;
	key+=rest_length;
	continue;
      }
      else
      {
        if (keyseg->flag & HA_NULL_PART)
        {
          if (!length--)                        /* Null part */
          {
            *key++=0;
            continue;
          }
          *key++=1;                             /* Not null */
        }
      }
      if (length > (uint) keyseg->length)
      {
        mi_print_error(keyinfo->share, HA_ERR_CRASHED);
        my_errno=HA_ERR_CRASHED;
        return 0;                               /* Error */
      }
      store_key_length_inc(key,length);
    }
    else
    {
      if (keyseg->flag & HA_NULL_PART)
      {
        if (!(*key++ = *page++))
          continue;
      }
      if (keyseg->flag &
          (HA_VAR_LENGTH_PART | HA_BLOB_PART | HA_SPACE_PACK))
      {
        unsigned char *tmp=page;
        get_key_length(length,tmp);
        length+=(uint) (tmp-page);
      }
      else
        length=keyseg->length;
    }
    memcpy(key, page, length);
    key+=length;
    page+=length;
  }
  length=keyseg->length+nod_flag;
  memmove(key,page,length);
  *page_pos= page+length;
  return ((uint) (key-start_key)+keyseg->length);
} /* _mi_get_pack_key */



/* key that is packed relatively to previous */

uint32_t _mi_get_binary_pack_key(register MI_KEYDEF *keyinfo, uint32_t nod_flag,
                             register unsigned char **page_pos, register unsigned char *key)
{
  register HA_KEYSEG *keyseg;
  unsigned char *start_key,*page,*page_end,*from,*from_end;
  uint32_t length,tmp;

  page= *page_pos;
  page_end=page+MI_MAX_KEY_BUFF+1;
  start_key=key;

  /*
    Keys are compressed the following way:

    prefix length    Packed length of prefix common with prev key (1 or 3 bytes)
    for each key segment:
      [is null]        Null indicator if can be null (1 byte, zero means null)
      [length]         Packed length if varlength (1 or 3 bytes)
      key segment      'length' bytes of key segment value
    pointer          Reference to the data file (last_keyseg->length).

    get_key_length() is a macro. It gets the prefix length from 'page'
    and puts it into 'length'. It increments 'page' by 1 or 3, depending
    on the packed length of the prefix length.
  */
  get_key_length(length,page);
  if (length)
  {
    if (length > keyinfo->maxlength)
    {
      mi_print_error(keyinfo->share, HA_ERR_CRASHED);
      my_errno=HA_ERR_CRASHED;
      return(0);                                 /* Wrong key */
    }
    /* Key is packed against prev key, take prefix from prev key. */
    from= key;
    from_end= key + length;
  }
  else
  {
    /* Key is not packed against prev key, take all from page buffer. */
    from= page;
    from_end= page_end;
  }

  /*
    The trouble is that key can be split in two parts:
      The first part (prefix) is in from .. from_end - 1.
      The second part starts at page.
    The split can be at every byte position. So we need to check for
    the end of the first part before using every byte.
  */
  for (keyseg=keyinfo->seg ; keyseg->type ;keyseg++)
  {
    if (keyseg->flag & HA_NULL_PART)
    {
      /* If prefix is used up, switch to rest. */
      if (from == from_end) { from=page;  from_end=page_end; }
      if (!(*key++ = *from++))
        continue;                               /* Null part */
    }
    if (keyseg->flag & (HA_VAR_LENGTH_PART | HA_BLOB_PART | HA_SPACE_PACK))
    {
      /* If prefix is used up, switch to rest. */
      if (from == from_end) { from=page;  from_end=page_end; }
      /* Get length of dynamic length key part */
      if ((length= (*key++ = *from++)) == 255)
      {
        /* If prefix is used up, switch to rest. */
        if (from == from_end) { from=page;  from_end=page_end; }
        length= (uint) ((*key++ = *from++)) << 8;
        /* If prefix is used up, switch to rest. */
        if (from == from_end) { from=page;  from_end=page_end; }
        length+= (uint) ((*key++ = *from++));
      }
    }
    else
      length=keyseg->length;

    if ((tmp=(uint) (from_end-from)) <= length)
    {
      key+=tmp;                                 /* Use old key */
      length-=tmp;
      from=page; from_end=page_end;
    }
    memmove(key, from, length);
    key+=length;
    from+=length;
  }
  /*
    Last segment (type == 0) contains length of data pointer.
    If we have mixed key blocks with data pointer and key block pointer,
    we have to copy both.
  */
  length=keyseg->length+nod_flag;
  if ((tmp=(uint) (from_end-from)) <= length)
  {
    /* Remaining length is less or equal max possible length. */
    memcpy(key+tmp,page,length-tmp);            /* Get last part of key */
    *page_pos= page+length-tmp;
  }
  else
  {
    /*
      Remaining length is greater than max possible length.
      This can happen only if we switched to the new key bytes already.
      'page_end' is calculated with MI_MAX_KEY_BUFF. So it can be far
      behind the real end of the key.
    */
    if (from_end != page_end)
    {
      mi_print_error(keyinfo->share, HA_ERR_CRASHED);
      my_errno=HA_ERR_CRASHED;
      return(0);                                 /* Error */
    }
    /* Copy data pointer and, if appropriate, key block pointer. */
    memcpy(key, from, length);
    *page_pos= from+length;
  }
  return((uint) (key-start_key)+keyseg->length);
}


        /* Get key at position without knowledge of previous key */
        /* Returns pointer to next key */

unsigned char *_mi_get_key(MI_INFO *info, MI_KEYDEF *keyinfo, unsigned char *page,
                   unsigned char *key, unsigned char *keypos, uint32_t *return_key_length)
{
  uint32_t nod_flag;

  nod_flag=mi_test_if_nod(page);
  if (! (keyinfo->flag & (HA_VAR_LENGTH_KEY | HA_BINARY_PACK_KEY)))
  {
    memmove(key,keypos,keyinfo->keylength+nod_flag);
    return(keypos+keyinfo->keylength+nod_flag);
  }
  else
  {
    page+=2+nod_flag;
    key[0]=0;                                   /* safety */
    while (page <= keypos)
    {
      *return_key_length=(*keyinfo->get_key)(keyinfo,nod_flag,&page,key);
      if (*return_key_length == 0)
      {
        mi_print_error(info->s, HA_ERR_CRASHED);
        my_errno=HA_ERR_CRASHED;
        return(0);
      }
    }
  }
  return(page);
} /* _mi_get_key */


        /* Get key at position without knowledge of previous key */
        /* Returns 0 if ok */

static bool _mi_get_prev_key(MI_INFO *info, MI_KEYDEF *keyinfo, unsigned char *page,
                                unsigned char *key, unsigned char *keypos,
                                uint32_t *return_key_length)
{
  uint32_t nod_flag;

  nod_flag=mi_test_if_nod(page);
  if (! (keyinfo->flag & (HA_VAR_LENGTH_KEY | HA_BINARY_PACK_KEY)))
  {
    *return_key_length=keyinfo->keylength;
    memmove(key, keypos - *return_key_length-nod_flag, *return_key_length);
    return(0);
  }
  else
  {
    page+=2+nod_flag;
    key[0]=0;                                   /* safety */
    while (page < keypos)
    {
      *return_key_length=(*keyinfo->get_key)(keyinfo,nod_flag,&page,key);
      if (*return_key_length == 0)
      {
        mi_print_error(info->s, HA_ERR_CRASHED);
        my_errno=HA_ERR_CRASHED;
        return(1);
      }
    }
  }
  return(0);
} /* _mi_get_key */



        /* Get last key from key-page */
        /* Return pointer to where key starts */

unsigned char *_mi_get_last_key(MI_INFO *info, MI_KEYDEF *keyinfo, unsigned char *page,
                        unsigned char *lastkey, unsigned char *endpos, uint32_t *return_key_length)
{
  uint32_t nod_flag;
  unsigned char *lastpos;

  nod_flag=mi_test_if_nod(page);
  if (! (keyinfo->flag & (HA_VAR_LENGTH_KEY | HA_BINARY_PACK_KEY)))
  {
    lastpos=endpos-keyinfo->keylength-nod_flag;
    *return_key_length=keyinfo->keylength;
    if (lastpos > page)
      memmove(lastkey,lastpos,keyinfo->keylength+nod_flag);
  }
  else
  {
    lastpos=(page+=2+nod_flag);
    lastkey[0]=0;
    while (page < endpos)
    {
      lastpos=page;
      *return_key_length=(*keyinfo->get_key)(keyinfo,nod_flag,&page,lastkey);
      if (*return_key_length == 0)
      {
        mi_print_error(info->s, HA_ERR_CRASHED);
        my_errno=HA_ERR_CRASHED;
        return(0);
      }
    }
  }
  return(lastpos);
} /* _mi_get_last_key */


        /* Calculate length of key */

uint32_t _mi_keylength(MI_KEYDEF *keyinfo, register unsigned char *key)
{
  register HA_KEYSEG *keyseg;
  unsigned char *start;

  if (! (keyinfo->flag & (HA_VAR_LENGTH_KEY | HA_BINARY_PACK_KEY)))
    return (keyinfo->keylength);

  start=key;
  for (keyseg=keyinfo->seg ; keyseg->type ; keyseg++)
  {
    if (keyseg->flag & HA_NULL_PART)
      if (!*key++)
        continue;
    if (keyseg->flag & (HA_SPACE_PACK | HA_BLOB_PART | HA_VAR_LENGTH_PART))
    {
      uint32_t length;
      get_key_length(length,key);
      key+=length;
    }
    else
      key+= keyseg->length;
  }
  return((uint) (key-start)+keyseg->length);
} /* _mi_keylength */


/*
  Calculate length of part key.

  Used in mi_rkey() to find the key found for the key-part that was used.
  This is needed in case of multi-byte character sets where we may search
  after '0xDF' but find 'ss'
*/

uint32_t _mi_keylength_part(MI_KEYDEF *keyinfo, register unsigned char *key,
			HA_KEYSEG *end)
{
  register HA_KEYSEG *keyseg;
  unsigned char *start= key;

  for (keyseg=keyinfo->seg ; keyseg != end ; keyseg++)
  {
    if (keyseg->flag & HA_NULL_PART)
      if (!*key++)
        continue;
    if (keyseg->flag & (HA_SPACE_PACK | HA_BLOB_PART | HA_VAR_LENGTH_PART))
    {
      uint32_t length;
      get_key_length(length,key);
      key+=length;
    }
    else
      key+= keyseg->length;
  }
  return (uint) (key-start);
}

        /* Move a key */

unsigned char *_mi_move_key(MI_KEYDEF *keyinfo, unsigned char *to, unsigned char *from)
{
  register uint32_t length;
  length= _mi_keylength(keyinfo, from);
  memcpy(to, from, length);
  return to+length;
}

        /* Find next/previous record with same key */
        /* This can't be used when database is touched after last read */

int _mi_search_next(register MI_INFO *info, register MI_KEYDEF *keyinfo,
                    unsigned char *key, uint32_t key_length, uint32_t nextflag, my_off_t pos)
{
  int error;
  uint32_t nod_flag;
  unsigned char lastkey[MI_MAX_KEY_BUFF];

  /* Force full read if we are at last key or if we are not on a leaf
     and the key tree has changed since we used it last time
     Note that even if the key tree has changed since last read, we can use
     the last read data from the leaf if we haven't used the buffer for
     something else.
  */

  if (((nextflag & SEARCH_BIGGER) && info->int_keypos >= info->int_maxpos) ||
      info->page_changed ||
      (info->int_keytree_version != keyinfo->version &&
       (info->int_nod_flag || info->buff_used)))
    return(_mi_search(info,keyinfo,key, USE_WHOLE_KEY,
                           nextflag | SEARCH_SAVE_BUFF, pos));

  if (info->buff_used)
  {
    if (!_mi_fetch_keypage(info,keyinfo,info->last_search_keypage,
                           DFLT_INIT_HITS,info->buff,0))
      return(-1);
    info->buff_used=0;
  }

  /* Last used buffer is in info->buff */
  nod_flag=mi_test_if_nod(info->buff);

  if (nextflag & SEARCH_BIGGER)                                 /* Next key */
  {
    my_off_t tmp_pos=_mi_kpos(nod_flag,info->int_keypos);
    if (tmp_pos != HA_OFFSET_ERROR)
    {
      if ((error=_mi_search(info,keyinfo,key, USE_WHOLE_KEY,
                            nextflag | SEARCH_SAVE_BUFF, tmp_pos)) <=0)
        return(error);
    }
    memcpy(lastkey,key,key_length);
    if (!(info->lastkey_length=(*keyinfo->get_key)(keyinfo,nod_flag,
                                                   &info->int_keypos,lastkey)))
      return(-1);
  }
  else                                                  /* Previous key */
  {
    uint32_t length;
    /* Find start of previous key */
    info->int_keypos=_mi_get_last_key(info,keyinfo,info->buff,lastkey,
                                      info->int_keypos, &length);
    if (!info->int_keypos)
      return(-1);
    if (info->int_keypos == info->buff+2)
      return(_mi_search(info,keyinfo,key, USE_WHOLE_KEY,
                             nextflag | SEARCH_SAVE_BUFF, pos));
    if ((error=_mi_search(info,keyinfo,key, USE_WHOLE_KEY,
			  nextflag | SEARCH_SAVE_BUFF,
                          _mi_kpos(nod_flag,info->int_keypos))) <= 0)
      return(error);

    /* QQ: We should be able to optimize away the following call */
    if (! _mi_get_last_key(info,keyinfo,info->buff,lastkey,
                           info->int_keypos,&info->lastkey_length))
      return(-1);
  }
  memcpy(info->lastkey,lastkey,info->lastkey_length);
  info->lastpos=_mi_dpos(info,0,info->lastkey+info->lastkey_length);
  return(0);
} /* _mi_search_next */


        /* Search after position for the first row in an index */
        /* This is stored in info->lastpos */

int _mi_search_first(register MI_INFO *info, register MI_KEYDEF *keyinfo,
                     register my_off_t pos)
{
  uint32_t nod_flag;
  unsigned char *page;

  if (pos == HA_OFFSET_ERROR)
  {
    my_errno=HA_ERR_KEY_NOT_FOUND;
    info->lastpos= HA_OFFSET_ERROR;
    return(-1);
  }

  do
  {
    if (!_mi_fetch_keypage(info,keyinfo,pos,DFLT_INIT_HITS,info->buff,0))
    {
      info->lastpos= HA_OFFSET_ERROR;
      return(-1);
    }
    nod_flag=mi_test_if_nod(info->buff);
    page=info->buff+2+nod_flag;
  } while ((pos=_mi_kpos(nod_flag,page)) != HA_OFFSET_ERROR);

  if (!(info->lastkey_length=(*keyinfo->get_key)(keyinfo,nod_flag,&page,
                                                 info->lastkey)))
    return(-1);                            /* Crashed */

  info->int_keypos=page; info->int_maxpos=info->buff+mi_getint(info->buff)-1;
  info->int_nod_flag=nod_flag;
  info->int_keytree_version=keyinfo->version;
  info->last_search_keypage=info->last_keypage;
  info->page_changed=info->buff_used=0;
  info->lastpos=_mi_dpos(info,0,info->lastkey+info->lastkey_length);

  return(0);
} /* _mi_search_first */


        /* Search after position for the last row in an index */
        /* This is stored in info->lastpos */

int _mi_search_last(register MI_INFO *info, register MI_KEYDEF *keyinfo,
                    register my_off_t pos)
{
  uint32_t nod_flag;
  unsigned char *buff,*page;

  if (pos == HA_OFFSET_ERROR)
  {
    my_errno=HA_ERR_KEY_NOT_FOUND;                      /* Didn't find key */
    info->lastpos= HA_OFFSET_ERROR;
    return(-1);
  }

  buff=info->buff;
  do
  {
    if (!_mi_fetch_keypage(info,keyinfo,pos,DFLT_INIT_HITS,buff,0))
    {
      info->lastpos= HA_OFFSET_ERROR;
      return(-1);
    }
    page= buff+mi_getint(buff);
    nod_flag=mi_test_if_nod(buff);
  } while ((pos=_mi_kpos(nod_flag,page)) != HA_OFFSET_ERROR);

  if (!_mi_get_last_key(info,keyinfo,buff,info->lastkey,page,
                        &info->lastkey_length))
    return(-1);
  info->lastpos=_mi_dpos(info,0,info->lastkey+info->lastkey_length);
  info->int_keypos=info->int_maxpos=page;
  info->int_nod_flag=nod_flag;
  info->int_keytree_version=keyinfo->version;
  info->last_search_keypage=info->last_keypage;
  info->page_changed=info->buff_used=0;

  return(0);
} /* _mi_search_last */



/****************************************************************************
**
** Functions to store and pack a key in a page
**
** mi_calc_xx_key_length takes the following arguments:
**  nod_flag    If nod: Length of nod-pointer
**  next_key    Position to pos after the new key in buffer
**  org_key     Key that was before the next key in buffer
**  prev_key    Last key before current key
**  key         Key that will be stored
**  s_temp      Information how next key will be packed
****************************************************************************/

/* Static length key */

int
_mi_calc_static_key_length(MI_KEYDEF *keyinfo,uint32_t nod_flag,
                           unsigned char *next_pos,
                           unsigned char *org_key,
                           unsigned char *prev_key,
                           unsigned char *key, MI_KEY_PARAM *s_temp)
{
  (void)next_pos;
  (void)org_key;
  (void)prev_key;
  s_temp->key=key;
  return (int) (s_temp->totlength=keyinfo->keylength+nod_flag);
}

/* Variable length key */

int
_mi_calc_var_key_length(MI_KEYDEF *keyinfo,uint32_t nod_flag,
                        unsigned char *next_pos,
                        unsigned char *org_key,
                        unsigned char *prev_key,
                        unsigned char *key, MI_KEY_PARAM *s_temp)
{
  (void)next_pos;
  (void)org_key;
  (void)prev_key;
  s_temp->key=key;
  return (int) (s_temp->totlength=_mi_keylength(keyinfo,key)+nod_flag);
}

/*
  length of key with a variable length first segment which is prefix
  compressed (myisamchk reports 'packed + stripped')

  Keys are compressed the following way:

  If the max length of first key segment <= 127 bytes the prefix is
  1 byte else it's 2 byte

  prefix byte(s) The high bit is set if this is a prefix for the prev key
  length         Packed length if the previous was a prefix byte
  [length]       data bytes ('length' bytes)
  next-key-seg   Next key segments

  If the first segment can have NULL:
  The length is 0 for NULLS and 1+length for not null columns.

*/

int
_mi_calc_var_pack_key_length(MI_KEYDEF *keyinfo,uint32_t nod_flag,
                             unsigned char *next_key,
                             unsigned char *org_key,
                             unsigned char *prev_key,
                             unsigned char *key,
                             MI_KEY_PARAM *s_temp)
{
  register HA_KEYSEG *keyseg;
  int length;
  uint32_t key_length,ref_length,org_key_length=0,
       length_pack,new_key_length,diff_flag,pack_marker;
  unsigned char *start,*end,*key_end,*sort_order;
  bool same_length;

  length_pack=s_temp->ref_length=s_temp->n_ref_length=s_temp->n_length=0;
  same_length=0; keyseg=keyinfo->seg;
  key_length=_mi_keylength(keyinfo,key)+nod_flag;

  sort_order=0;

  /* diff flag contains how many bytes is needed to pack key */
  if (keyseg->length >= 127)
  {
    diff_flag=2;
    pack_marker=32768;
  }
  else
  {
    diff_flag= 1;
    pack_marker=128;
  }
  s_temp->pack_marker=pack_marker;

  /* Handle the case that the first part have NULL values */
  if (keyseg->flag & HA_NULL_PART)
  {
    if (!*key++)
    {
      s_temp->key=key;
      s_temp->key_length= 0;
      s_temp->totlength=key_length-1+diff_flag;
      s_temp->next_key_pos=0;                   /* No next key */
      return (s_temp->totlength);
    }
    s_temp->store_not_null=1;
    key_length--;                               /* We don't store NULL */
    if (prev_key && !*prev_key++)
      org_key=prev_key=0;                       /* Can't pack against prev */
    else if (org_key)
      org_key++;                                /* Skip NULL */
  }
  else
    s_temp->store_not_null=0;
  s_temp->prev_key=org_key;

  /* The key part will start with a packed length */

  get_key_pack_length(new_key_length,length_pack,key);
  end=key_end= key+ new_key_length;
  start=key;

  /* Calc how many characters are identical between this and the prev. key */
  if (prev_key)
  {
    get_key_length(org_key_length,prev_key);
    s_temp->prev_key=prev_key;          /* Pointer at data */
    /* Don't use key-pack if length == 0 */
    if (new_key_length && new_key_length == org_key_length)
      same_length=1;
    else if (new_key_length > org_key_length)
      end=key + org_key_length;

    if (sort_order)                             /* SerG */
    {
      while (key < end && sort_order[*key] == sort_order[*prev_key])
      {
        key++; prev_key++;
      }
    }
    else
    {
      while (key < end && *key == *prev_key)
      {
        key++; prev_key++;
      }
    }
  }

  s_temp->key=key;
  s_temp->key_length= (uint) (key_end-key);

  if (same_length && key == key_end)
  {
    /* identical variable length key */
    s_temp->ref_length= pack_marker;
    length=(int) key_length-(int) (key_end-start)-length_pack;
    length+= diff_flag;
    if (next_key)
    {                                           /* Can't combine with next */
      s_temp->n_length= *next_key;              /* Needed by _mi_store_key */
      next_key=0;
    }
  }
  else
  {
    if (start != key)
    {                                           /* Starts as prev key */
      ref_length= (uint) (key-start);
      s_temp->ref_length= ref_length + pack_marker;
      length= (int) (key_length - ref_length);

      length-= length_pack;
      length+= diff_flag;
      length+= ((new_key_length-ref_length) >= 255) ? 3 : 1;/* Rest_of_key */
    }
    else
    {
      s_temp->key_length+=s_temp->store_not_null;       /* If null */
      length= key_length - length_pack+ diff_flag;
    }
  }
  s_temp->totlength=(uint) length;
  s_temp->prev_length=0;

        /* If something after that hasn't length=0, test if we can combine */
  if ((s_temp->next_key_pos=next_key))
  {
    uint32_t packed,n_length;

    packed = *next_key & 128;
    if (diff_flag == 2)
    {
      n_length= mi_uint2korr(next_key) & 32767; /* Length of next key */
      next_key+=2;
    }
    else
      n_length= *next_key++ & 127;
    if (!packed)
      n_length-= s_temp->store_not_null;

    if (n_length || packed)             /* Don't pack 0 length keys */
    {
      uint32_t next_length_pack, new_ref_length=s_temp->ref_length;

      if (packed)
      {
        /* If first key and next key is packed (only on delete) */
        if (!prev_key && org_key)
        {
          get_key_length(org_key_length,org_key);
          key=start;
          if (sort_order)                       /* SerG */
          {
            while (key < end && sort_order[*key] == sort_order[*org_key])
            {
              key++; org_key++;
            }
          }
          else
          {
            while (key < end && *key == *org_key)
            {
              key++; org_key++;
            }
          }
          if ((new_ref_length= (uint) (key - start)))
            new_ref_length+=pack_marker;
        }

        if (!n_length)
        {
          /*
            We put a different key between two identical variable length keys
            Extend next key to have same prefix as this key
          */
          if (new_ref_length)                   /* prefix of previus key */
          {                                     /* make next key longer */
            s_temp->part_of_prev_key= new_ref_length;
            s_temp->prev_length=          org_key_length -
              (new_ref_length-pack_marker);
            s_temp->n_ref_length= s_temp->part_of_prev_key;
            s_temp->n_length= s_temp->prev_length;
            n_length=             get_pack_length(s_temp->prev_length);
            s_temp->prev_key+=    (new_ref_length - pack_marker);
            length+=              s_temp->prev_length + n_length;
          }
          else
          {                                     /* Can't use prev key */
            s_temp->part_of_prev_key=0;
            s_temp->prev_length= org_key_length;
            s_temp->n_ref_length=s_temp->n_length=  org_key_length;
            length+=           org_key_length;
          }
          return (int) length;
        }

        ref_length=n_length;
        /* Get information about not packed key suffix */
        get_key_pack_length(n_length,next_length_pack,next_key);

        /* Test if new keys has fewer characters that match the previous key */
        if (!new_ref_length)
        {                                       /* Can't use prev key */
          s_temp->part_of_prev_key=     0;
          s_temp->prev_length=          ref_length;
          s_temp->n_ref_length= s_temp->n_length= n_length+ref_length;
          return (int) length+ref_length-next_length_pack;
        }
        if (ref_length+pack_marker > new_ref_length)
        {
          uint32_t new_pack_length=new_ref_length-pack_marker;
          /* We must copy characters from the original key to the next key */
          s_temp->part_of_prev_key= new_ref_length;
          s_temp->prev_length=      ref_length - new_pack_length;
          s_temp->n_ref_length=s_temp->n_length=n_length + s_temp->prev_length;
          s_temp->prev_key+=        new_pack_length;
          length-= (next_length_pack - get_pack_length(s_temp->n_length));
          return (int) length + s_temp->prev_length;
        }
      }
      else
      {
        /* Next key wasn't a prefix of previous key */
        ref_length=0;
        next_length_pack=0;
      }

      {
        uint32_t tmp_length;
        key=(start+=ref_length);
        if (key+n_length < key_end)             /* Normalize length based */
          key_end=key+n_length;
        if (sort_order)                         /* SerG */
        {
          while (key < key_end && sort_order[*key] ==
                 sort_order[*next_key])
          {
            key++; next_key++;
          }
        }
        else
        {
          while (key < key_end && *key == *next_key)
          {
            key++; next_key++;
          }
        }
        if (!(tmp_length=(uint) (key-start)))
        {                                       /* Key can't be re-packed */
          s_temp->next_key_pos=0;
          return length;
        }
        ref_length+=tmp_length;
        n_length-=tmp_length;
        length-=tmp_length+next_length_pack;    /* We gained these chars */
      }
      if (n_length == 0 && ref_length == new_key_length)
      {
        s_temp->n_ref_length=pack_marker;       /* Same as prev key */
      }
      else
      {
        s_temp->n_ref_length=ref_length | pack_marker;
        length+= get_pack_length(n_length);
        s_temp->n_length=n_length;
      }
    }
  }
  return length;
}


/* Length of key which is prefix compressed */

int
_mi_calc_bin_pack_key_length(MI_KEYDEF *keyinfo,uint32_t nod_flag,unsigned char *next_key,
                             unsigned char *org_key, unsigned char *prev_key, unsigned char *key,
                             MI_KEY_PARAM *s_temp)
{
  uint32_t length,key_length,ref_length;

  s_temp->totlength=key_length=_mi_keylength(keyinfo,key)+nod_flag;
#ifdef HAVE_purify
  s_temp->n_length= s_temp->n_ref_length=0;	/* For valgrind */
#endif
  s_temp->key=key;
  s_temp->prev_key=org_key;
  if (prev_key)                                 /* If not first key in block */
  {
    /* pack key against previous key */
    /*
      As keys may be identical when running a sort in myisamchk, we
      have to guard against the case where keys may be identical
    */
    unsigned char *end;
    end=key+key_length;
    for ( ; *key == *prev_key && key < end; key++,prev_key++) ;
    s_temp->ref_length= ref_length=(uint) (key-s_temp->key);
    length=key_length - ref_length + get_pack_length(ref_length);
  }
  else
  {
    /* No previous key */
    s_temp->ref_length=ref_length=0;
    length=key_length+1;
  }
  if ((s_temp->next_key_pos=next_key))          /* If another key after */
  {
    /* pack key against next key */
    uint32_t next_length,next_length_pack;
    get_key_pack_length(next_length,next_length_pack,next_key);

    /* If first key and next key is packed (only on delete) */
    if (!prev_key && org_key && next_length)
    {
      unsigned char *end;
      for (key= s_temp->key, end=key+next_length ;
           *key == *org_key && key < end;
           key++,org_key++) ;
      ref_length= (uint) (key - s_temp->key);
    }

    if (next_length > ref_length)
    {
      /* We put a key with different case between two keys with the same prefix
         Extend next key to have same prefix as
         this key */
      s_temp->n_ref_length= ref_length;
      s_temp->prev_length=  next_length-ref_length;
      s_temp->prev_key+=    ref_length;
      return (int) (length+ s_temp->prev_length - next_length_pack +
                    get_pack_length(ref_length));
    }
    /* Check how many characters are identical to next key */
    key= s_temp->key+next_length;
    while (*key++ == *next_key++) ;
    if ((ref_length= (uint) (key - s_temp->key)-1) == next_length)
    {
      s_temp->next_key_pos=0;
      return length;                            /* can't pack next key */
    }
    s_temp->prev_length=0;
    s_temp->n_ref_length=ref_length;
    return (int) (length-(ref_length - next_length) - next_length_pack +
                  get_pack_length(ref_length));
  }
  return (int) length;
}


/*
** store a key packed with _mi_calc_xxx_key_length in page-buffert
*/

/* store key without compression */

void _mi_store_static_key(MI_KEYDEF *keyinfo,
                          register unsigned char *key_pos,
                          register MI_KEY_PARAM *s_temp)
{
  (void)keyinfo;
  memcpy(key_pos, s_temp->key, s_temp->totlength);
}


/* store variable length key with prefix compression */

#define store_pack_length(test,pos,length) { \
  if (test) { *((pos)++) = (unsigned char) (length); } else \
  { *((pos)++) = (unsigned char) ((length) >> 8); *((pos)++) = (unsigned char) (length);  } }


void _mi_store_var_pack_key(MI_KEYDEF *keyinfo,
                            register unsigned char *key_pos,
                            register MI_KEY_PARAM *s_temp)
{
  (void)keyinfo;
  uint32_t length;
  unsigned char *start;

  start=key_pos;

  if (s_temp->ref_length)
  {
    /* Packed against previous key */
    store_pack_length(s_temp->pack_marker == 128,key_pos,s_temp->ref_length);
    /* If not same key after */
    if (s_temp->ref_length != s_temp->pack_marker)
      store_key_length_inc(key_pos,s_temp->key_length);
  }
  else
  {
    /* Not packed against previous key */
    store_pack_length(s_temp->pack_marker == 128,key_pos,s_temp->key_length);
  }
  assert(key_pos >= start);
  length= s_temp->totlength - (key_pos - start);
  memmove(key_pos, s_temp->key, length);

  if (!s_temp->next_key_pos)                    /* No following key */
    return;
  key_pos+=length;

  if (s_temp->prev_length)
  {
    /* Extend next key because new key didn't have same prefix as prev key */
    if (s_temp->part_of_prev_key)
    {
      store_pack_length(s_temp->pack_marker == 128,key_pos,
                        s_temp->part_of_prev_key);
      store_key_length_inc(key_pos,s_temp->n_length);
    }
    else
    {
      s_temp->n_length+= s_temp->store_not_null;
      store_pack_length(s_temp->pack_marker == 128,key_pos,
                        s_temp->n_length);
    }
    memcpy(key_pos, s_temp->prev_key, s_temp->prev_length);
  }
  else if (s_temp->n_ref_length)
  {
    store_pack_length(s_temp->pack_marker == 128,key_pos,s_temp->n_ref_length);
    if (s_temp->n_ref_length == s_temp->pack_marker)
      return;                                   /* Identical key */
    store_key_length(key_pos,s_temp->n_length);
  }
  else
  {
    s_temp->n_length+= s_temp->store_not_null;
    store_pack_length(s_temp->pack_marker == 128,key_pos,s_temp->n_length);
  }
}


/* variable length key with prefix compression */

void _mi_store_bin_pack_key(MI_KEYDEF *keyinfo,
                            register unsigned char *key_pos,
                            register MI_KEY_PARAM *s_temp)
{
  (void)keyinfo;
  assert(s_temp->totlength >= s_temp->ref_length);
  store_key_length_inc(key_pos,s_temp->ref_length);
  memcpy(key_pos,s_temp->key+s_temp->ref_length,
         s_temp->totlength - s_temp->ref_length);

  if (s_temp->next_key_pos)
  {
    key_pos+=(uint) (s_temp->totlength-s_temp->ref_length);
    store_key_length_inc(key_pos,s_temp->n_ref_length);
    if (s_temp->prev_length)                    /* If we must extend key */
    {
      memcpy(key_pos,s_temp->prev_key,s_temp->prev_length);
    }
  }
}