int isam_bounds[20];
int isam_occurrences[20];
char tmp[128];
- int isamb_levels[10];
+ int isamb_levels[10][5];
int isamb_sizes[10];
int isamb_blocks[10];
- int isamb_no[10];
+ unsigned long cksum;
};
#define SINGLETON_TYPE 8 /* the type to use for singletons that */
occur = isams_pp_num (pp);
while (isams_pp_read(pp, &key))
{
- //printf ("sysno=%d seqno=%d\n", key.sysno, key.seqno);
+ stat_info->cksum = stat_info->cksum * 65509 +
+ key.sysno + 11 * key.seqno;
occurx++;
}
assert (occurx == occur);
ispt = is_position (stat_info->zh->reg->isam, isam_p);
occur = is_numkeys (ispt);
+ stat_info->no_isam_entries[is_type(isam_p)] += occur;
is_pt_free (ispt);
}
if (stat_info->zh->reg->isamc)
occur = isc_pp_num (pp);
while (isc_pp_read(pp, &key))
{
- //printf ("sysno=%d seqno=%d\n", key.sysno, key.seqno);
+ stat_info->cksum = stat_info->cksum * 65509 +
+ key.sysno + 11 * key.seqno;
occurx++;
}
assert (occurx == occur);
occur = isamd_pp_num (pp);
while (isamd_pp_read(pp, &key))
{
+ stat_info->cksum = stat_info->cksum * 65509 +
+ key.sysno + 11 * key.seqno;
occurx++;
if ( pp->is->method->debug >8 )
logf (LOG_LOG,"sysno=%d seqno=%d (%x/%x) oc=%d/%d ofs=%d ",
int blocks;
pp = isamb_pp_open_x(stat_info->zh->reg->isamb, isam_p, &level);
+
while (isamb_pp_read(pp, &key))
+ {
+ stat_info->cksum = stat_info->cksum * 65509 +
+ key.sysno + 11 * key.seqno;
occur++;
+ }
isamb_pp_close_x (pp, &size, &blocks);
- stat_info->isamb_no[cat]++;
- stat_info->isamb_levels[cat] += level;
stat_info->isamb_blocks[cat] += blocks;
stat_info->isamb_sizes[cat] += size;
+ if (level > 4)
+ level = 4;
+ stat_info->isamb_levels[cat][level] ++;
+ stat_info->no_isam_entries[cat] += occur;
}
while (occur > stat_info->isam_bounds[i] && stat_info->isam_bounds[i])
int count;
int i, prev;
int before = 0;
+ int occur;
int after = 1000000000;
struct inv_stat_info stat_info;
char term_dict[2*IT_MAX_WORD+2];
stat_info.isam_bounds[17] = 1000000;
stat_info.isam_bounds[18] = 0;
+ stat_info.cksum = 0;
+
for (i = 0; i<20; i++)
stat_info.isam_occurrences[i] = 0;
for (i = 0; i<10; i++)
{
- stat_info.isamb_levels[i] = 0;
+ int j;
+ for (j = 0; j<5; j++)
+ stat_info.isamb_levels[i][j] = 0;
stat_info.isamb_sizes[i] = 0;
stat_info.isamb_blocks[i] = 0;
- stat_info.isamb_no[i] = 0;
}
dict_scan (zh->reg->dict, term_dict, &before, &after, &stat_info,
if (zh->reg->isamc)
{
- fprintf (stderr, " Blocks Occur Size KB Bytes/Entry\n");
+ fprintf (stdout, " Blocks Occur Size KB Bytes/Entry\n");
for (i = 0; isc_block_used (zh->reg->isamc, i) >= 0; i++)
{
- fprintf (stderr, " %8d %8d", isc_block_used (zh->reg->isamc, i),
+ fprintf (stdout, " %8d %8d", isc_block_used (zh->reg->isamc, i),
stat_info.no_isam_entries[i]);
if (stat_info.no_isam_entries[i])
- fprintf (stderr, " %8d %f",
+ fprintf (stdout, " %8d %f",
(int) ((1023.0 + (double)
isc_block_used(zh->reg->isamc, i) *
isc_block_size(zh->reg->isamc,i))/1024),
((double) isc_block_used(zh->reg->isamc, i) *
isc_block_size(zh->reg->isamc,i))/
stat_info.no_isam_entries[i]);
- fprintf (stderr, "\n");
+ fprintf (stdout, "\n");
}
}
if (zh->reg->isamd)
{
- fprintf (stderr, " Blocks Occur KB Bytes/Entry\n");
+ fprintf (stdout, " Blocks Occur KB Bytes/Entry\n");
if (zh->reg->isamd->method->debug >0)
logf(LOG_LOG," Blocks Occur KB Bytes/Entry");
for (i = 0; i<=SINGLETON_TYPE; i++)
blocks=size=0;
if (stat_info.no_isam_entries[i])
{
- fprintf (stderr, "%c %7d %7d %7d %5.2f\n",
+ fprintf (stdout, "%c %7d %7d %7d %5.2f\n",
(i==SINGLETON_TYPE)?('z'):('A'+i),
blocks,
count,
} /* for */
} /* isamd */
if ( (zh->reg->isamd) && (zh->reg->isamd->method->debug>0))
- fprintf (stderr, "\n%d words using %d bytes\n",
+ fprintf (stdout, "\n%d words using %d bytes\n",
stat_info.no_dict_entries, stat_info.no_dict_bytes);
if (zh->reg->isamb)
{
for (i = 0; i<4; i++)
{
+ int j;
int bsize = isamb_block_info(zh->reg->isamb, i);
if (bsize < 0)
break;
- fprintf (stderr, "Category %d\n", i);
- fprintf (stderr, "Block size %d\n", bsize);
- fprintf (stderr, "Lists: %d\n", stat_info.isamb_no[i]);
- fprintf (stderr, "Blocks: %d\n", stat_info.isamb_blocks[i]);
- fprintf (stderr, "Size: %d\n", stat_info.isamb_sizes[i]);
- fprintf (stderr, "Total %d\n", stat_info.isamb_blocks[i]*
+ fprintf (stdout, "Category %d\n", i);
+ fprintf (stdout, "Block size %d\n", bsize);
+ fprintf (stdout, "Blocks: %d\n", stat_info.isamb_blocks[i]);
+ fprintf (stdout, "Size: %d\n", stat_info.isamb_sizes[i]);
+ fprintf (stdout, "Entries: %d\n", stat_info.no_isam_entries[i]);
+ fprintf (stdout, "Total %d\n", stat_info.isamb_blocks[i]*
bsize);
+ for (j = 0; j<5; j++)
+ if (stat_info.isamb_levels[i][j])
+ fprintf (stdout, "Level%d %d\n", j,
+ stat_info.isamb_levels[i][j]);
+ fprintf (stdout, "\n");
}
}
+ fprintf (stdout, "Checksum %08lX\n", stat_info.cksum);
- fprintf (stderr, " Occurrences Words\n");
+ fprintf (stdout, "Distinct words %d\n", stat_info.no_dict_entries);
+ occur = 0;
+ for (i = 0; i<9; i++)
+ occur += stat_info.no_isam_entries[i];
+ fprintf (stdout, "Word pos %d\n", occur);
+ fprintf (stdout, " Occurrences Words\n");
prev = 1;
for (i = 0; stat_info.isam_bounds[i]; i++)
{
int here = stat_info.isam_bounds[i];
- fprintf (stderr, "%7d-%-7d %7d\n",
+ fprintf (stdout, "%7d-%-7d %7d\n",
prev, here, stat_info.isam_occurrences[i]);
prev = here+1;
}
- fprintf (stderr, "%7d- %7d\n",
+ fprintf (stdout, "%7d- %7d\n",
prev, stat_info.isam_occurrences[i]);
xmalloc_trav("unfreed"); /*! while hunting memory leaks */
zebra_end_read (zh);
/*
*
* $Log: invstat.c,v $
- * Revision 1.26 2002-04-29 18:03:46 adam
+ * Revision 1.29 2002-06-19 10:29:17 adam
+ * align block sizes for isam sys. Better plot for test
+ *
+ * Revision 1.28 2002/04/30 19:31:09 adam
+ * isamb delete; more statistics
+ *
+ * Revision 1.27 2002/04/30 08:28:37 adam
+ * isamb fixes for pp_read. Statistics
+ *
+ * Revision 1.26 2002/04/29 18:03:46 adam
* More isamb statistics
*
* Revision 1.25 2002/04/26 08:44:47 adam