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postgres/src/backend/access/nbtree/nbtutils.c
Bruce Momjian 09baa3cc81 This patch... 
1. Removes the unnecessary "#define AbcRegProcedure 123"'s from
pg_proc.h.

2. Changes those #defines to use the names already defined in
fmgr.h.

3. Forces the make of fmgr.h in backend/Makefile instead of having
it
   made as a dependency in access/common/Makefile  *hack*hack*hack*

4. Rearranged the #includes to a less helter-skelter arrangement,
also
    changing <file.h> to "file.h" to signify a non-system header.

5. Removed "pg_proc.h" from files where its only purpose was for
the
   #defines removed in item #1.

6. Added "fmgr.h" to each file changed for completeness sake.

Turns out that #6 was not necessary for some files because fmgr.h
was being included in a roundabout way SIX levels deep by the first
include.

"access/genam.h"
 ->"access/relscan.h"
   ->"utils/rel.h"
     ->"access/strat.h"
       ->"access/skey.h"
	 ->"fmgr.h"

So adding fmgr.h really didn't add anything to the compile, hopefully
just made it clearer to the programmer.

S Darren.
1998-04-27 04:08:07 +00:00

405 lines
8.6 KiB
C
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/*-------------------------------------------------------------------------
*
* btutils.c--
* Utility code for Postgres btree implementation.
*
* Copyright (c) 1994, Regents of the University of California
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/access/nbtree/nbtutils.c,v 1.19 1998/04/27 04:04:21 momjian Exp $
*
*-------------------------------------------------------------------------
*/
#include "postgres.h"
#include "access/genam.h"
#include "access/iqual.h"
#include "access/istrat.h"
#include "access/nbtree.h"
#include "executor/execdebug.h"
#include "fmgr.h"
#include "storage/bufpage.h"
extern int NIndexTupleProcessed;
#ifndef HAVE_MEMMOVE
#include <regex/utils.h>
#else
#include <string.h>
#endif
ScanKey
_bt_mkscankey(Relation rel, IndexTuple itup)
{
ScanKey skey;
TupleDesc itupdesc;
int natts;
int i;
Datum arg;
RegProcedure proc;
bool null;
bits16 flag;
natts = rel->rd_rel->relnatts;
itupdesc = RelationGetTupleDescriptor(rel);
skey = (ScanKey) palloc(natts * sizeof(ScanKeyData));
for (i = 0; i < natts; i++)
{
arg = index_getattr(itup, i + 1, itupdesc, &null);
if (null)
{
proc = F_NULLVALUE;
flag = SK_ISNULL;
}
else
{
proc = index_getprocid(rel, i + 1, BTORDER_PROC);
flag = 0x0;
}
ScanKeyEntryInitialize(&skey[i],
flag, (AttrNumber) (i + 1), proc, arg);
}
return (skey);
}
void
_bt_freeskey(ScanKey skey)
{
pfree(skey);
}
void
_bt_freestack(BTStack stack)
{
BTStack ostack;
while (stack != (BTStack) NULL)
{
ostack = stack;
stack = stack->bts_parent;
pfree(ostack->bts_btitem);
pfree(ostack);
}
}
/*
* _bt_orderkeys() -- Put keys in a sensible order for conjunctive quals.
*
* The order of the keys in the qual match the ordering imposed by
* the index. This routine only needs to be called if there are
* more than one qual clauses using this index.
*/
void
_bt_orderkeys(Relation relation, BTScanOpaque so)
{
ScanKey xform;
ScanKeyData *cur;
StrategyMap map;
int nbytes;
long test;
int i,
j;
int init[BTMaxStrategyNumber + 1];
ScanKey key;
uint16 numberOfKeys = so->numberOfKeys;
uint16 new_numberOfKeys = 0;
AttrNumber attno = 1;
if (numberOfKeys < 1)
return;
key = so->keyData;
cur = &key[0];
if (cur->sk_attno != 1)
elog(ERROR, "_bt_orderkeys: key(s) for attribute 1 missed");
if (numberOfKeys == 1)
{
/*
* We don't use indices for 'A is null' and 'A is not null'
* currently and 'A < = > <> NULL' is non-sense' - so qual is not
* Ok. - vadim 03/21/97
*/
if (cur->sk_flags & SK_ISNULL)
so->qual_ok = 0;
so->numberOfFirstKeys = 1;
return;
}
/* get space for the modified array of keys */
nbytes = BTMaxStrategyNumber * sizeof(ScanKeyData);
xform = (ScanKey) palloc(nbytes);
MemSet(xform, 0, nbytes);
map = IndexStrategyGetStrategyMap(RelationGetIndexStrategy(relation),
BTMaxStrategyNumber,
attno);
for (j = 0; j <= BTMaxStrategyNumber; j++)
init[j] = 0;
/* check each key passed in */
for (i = 0;;)
{
if (i < numberOfKeys)
cur = &key[i];
if (cur->sk_flags & SK_ISNULL) /* see comments above */
so->qual_ok = 0;
if (i == numberOfKeys || cur->sk_attno != attno)
{
if (cur->sk_attno != attno + 1 && i < numberOfKeys)
{
elog(ERROR, "_bt_orderkeys: key(s) for attribute %d missed", attno + 1);
}
/*
* If = has been specified, no other key will be used. In case
* of key < 2 && key == 1 and so on we have to set qual_ok to
* 0
*/
if (init[BTEqualStrategyNumber - 1])
{
ScanKeyData *eq,
*chk;
eq = &xform[BTEqualStrategyNumber - 1];
for (j = BTMaxStrategyNumber; --j >= 0;)
{
if (j == (BTEqualStrategyNumber - 1) || init[j] == 0)
continue;
chk = &xform[j];
test = (long) fmgr(chk->sk_procedure, eq->sk_argument, chk->sk_argument);
if (!test)
so->qual_ok = 0;
}
init[BTLessStrategyNumber - 1] = 0;
init[BTLessEqualStrategyNumber - 1] = 0;
init[BTGreaterEqualStrategyNumber - 1] = 0;
init[BTGreaterStrategyNumber - 1] = 0;
}
/* only one of <, <= */
if (init[BTLessStrategyNumber - 1]
&& init[BTLessEqualStrategyNumber - 1])
{
ScanKeyData *lt,
*le;
lt = &xform[BTLessStrategyNumber - 1];
le = &xform[BTLessEqualStrategyNumber - 1];
/*
* DO NOT use the cached function stuff here -- this is
* key ordering, happens only when the user expresses a
* hokey qualification, and gets executed only once,
* anyway. The transform maps are hard-coded, and can't
* be initialized in the correct way.
*/
test = (long) fmgr(le->sk_procedure, lt->sk_argument, le->sk_argument);
if (test)
init[BTLessEqualStrategyNumber - 1] = 0;
else
init[BTLessStrategyNumber - 1] = 0;
}
/* only one of >, >= */
if (init[BTGreaterStrategyNumber - 1]
&& init[BTGreaterEqualStrategyNumber - 1])
{
ScanKeyData *gt,
*ge;
gt = &xform[BTGreaterStrategyNumber - 1];
ge = &xform[BTGreaterEqualStrategyNumber - 1];
/* see note above on function cache */
test = (long) fmgr(ge->sk_procedure, gt->sk_argument, ge->sk_argument);
if (test)
init[BTGreaterEqualStrategyNumber - 1] = 0;
else
init[BTGreaterStrategyNumber - 1] = 0;
}
/* okay, reorder and count */
for (j = BTMaxStrategyNumber; --j >= 0;)
if (init[j])
key[new_numberOfKeys++] = xform[j];
if (attno == 1)
so->numberOfFirstKeys = new_numberOfKeys;
if (i == numberOfKeys)
break;
/* initialization for new attno */
attno = cur->sk_attno;
MemSet(xform, 0, nbytes);
map = IndexStrategyGetStrategyMap(RelationGetIndexStrategy(relation),
BTMaxStrategyNumber,
attno);
/* haven't looked at any strategies yet */
for (j = 0; j <= BTMaxStrategyNumber; j++)
init[j] = 0;
}
for (j = BTMaxStrategyNumber; --j >= 0;)
{
if (cur->sk_procedure == map->entry[j].sk_procedure)
break;
}
/* have we seen one of these before? */
if (init[j])
{
/* yup, use the appropriate value */
test =
(long) FMGR_PTR2(&cur->sk_func, cur->sk_argument, xform[j].sk_argument);
if (test)
xform[j].sk_argument = cur->sk_argument;
else if (j == (BTEqualStrategyNumber - 1))
so->qual_ok = 0;/* key == a && key == b, but a != b */
}
else
{
/* nope, use this value */
memmove(&xform[j], cur, sizeof(*cur));
init[j] = 1;
}
i++;
}
so->numberOfKeys = new_numberOfKeys;
pfree(xform);
}
BTItem
_bt_formitem(IndexTuple itup)
{
int nbytes_btitem;
BTItem btitem;
Size tuplen;
extern Oid newoid();
/*
* see comments in btbuild
*
* if (itup->t_info & INDEX_NULL_MASK) elog(ERROR, "btree indices cannot
* include null keys");
*/
/* make a copy of the index tuple with room for the sequence number */
tuplen = IndexTupleSize(itup);
nbytes_btitem = tuplen +
(sizeof(BTItemData) - sizeof(IndexTupleData));
btitem = (BTItem) palloc(nbytes_btitem);
memmove((char *) &(btitem->bti_itup), (char *) itup, tuplen);
#ifndef BTREE_VERSION_1
btitem->bti_oid = newoid();
#endif
return (btitem);
}
#ifdef NOT_USED
bool
_bt_checkqual(IndexScanDesc scan, IndexTuple itup)
{
BTScanOpaque so;
so = (BTScanOpaque) scan->opaque;
if (so->numberOfKeys > 0)
return (index_keytest(itup, RelationGetTupleDescriptor(scan->relation),
so->numberOfKeys, so->keyData));
else
return (true);
}
#endif
#ifdef NOT_USED
bool
_bt_checkforkeys(IndexScanDesc scan, IndexTuple itup, Size keysz)
{
BTScanOpaque so;
so = (BTScanOpaque) scan->opaque;
if (keysz > 0 && so->numberOfKeys >= keysz)
return (index_keytest(itup, RelationGetTupleDescriptor(scan->relation),
keysz, so->keyData));
else
return (true);
}
#endif
bool
_bt_checkkeys(IndexScanDesc scan, IndexTuple tuple, Size *keysok)
{
BTScanOpaque so = (BTScanOpaque) scan->opaque;
Size keysz = so->numberOfKeys;
TupleDesc tupdesc;
ScanKey key;
Datum datum;
bool isNull;
int test;
*keysok = 0;
if (keysz == 0)
return (true);
key = so->keyData;
tupdesc = RelationGetTupleDescriptor(scan->relation);
IncrIndexProcessed();
while (keysz > 0)
{
datum = index_getattr(tuple,
key[0].sk_attno,
tupdesc,
&isNull);
/* btree doesn't support 'A is null' clauses, yet */
if (isNull || key[0].sk_flags & SK_ISNULL)
{
return (false);
}
if (key[0].sk_flags & SK_COMMUTE)
{
test = (int) (*fmgr_faddr(&key[0].sk_func))
(DatumGetPointer(key[0].sk_argument),
datum);
}
else
{
test = (int) (*fmgr_faddr(&key[0].sk_func))
(datum,
DatumGetPointer(key[0].sk_argument));
}
if (!test == !(key[0].sk_flags & SK_NEGATE))
{
return (false);
}
keysz -= 1;
key++;
(*keysok)++;
}
return (true);
}
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