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Allow binary-compatible indices to be considered when checking for valid 

indices for restriction clauses containing a constant.
Note that if an index does not match directly (usually because the types
 on both side of the clause don't match), and if a binary-compatible index
 is identified, then the operator function will be replaced by a new
 one. Should not be a problem, but be sure that if types are listed as
 being binary compatible (in parse_coerce.h) then the comparison functions
 are also binary-compatible, giving equivalent results.
This commit is contained in:
Thomas G. Lockhart 1998-08-14 16:13:07 +00:00
parent 94f42ed389
commit 6912beea70
1 changed files with 116 additions and 25 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

141
src/backend/optimizer/path/indxpath.c
View File

@ -8,7 +8,7 @@
*
*
* IDENTIFICATION
* $Header: /cvsroot/pgsql/src/backend/optimizer/path/indxpath.c,v 1.28 1998/08/11 19:32:37 momjian Exp $
* $Header: /cvsroot/pgsql/src/backend/optimizer/path/indxpath.c,v 1.29 1998/08/14 16:13:07 thomas Exp $
*
*-------------------------------------------------------------------------
*/
@ -39,6 +39,9 @@
#include "optimizer/pathnode.h"
#include "optimizer/xfunc.h"
#include "parser/parsetree.h" /* for getrelid() */
#include "parser/parse_expr.h" /* for exprType() */
#include "parser/parse_oper.h" /* for oprid() and oper() */
#include "parser/parse_coerce.h" /* for IS_BINARY_COMPATIBLE() */
#include "utils/lsyscache.h"
@ -80,8 +83,7 @@ static List *add_index_paths(List *indexpaths, List *new_indexpaths);
static bool function_index_operand(Expr *funcOpnd, RelOptInfo *rel, RelOptInfo *index);
/*
* find-index-paths--
/* find_index_paths()
* Finds all possible index paths by determining which indices in the
* list 'indices' are usable.
*
@ -120,16 +122,16 @@ find_index_paths(Query *root,
List *joinpaths = NIL;
List *retval = NIL;
List *ilist;
foreach(ilist, indices)
{
index = (RelOptInfo *) lfirst(ilist);
/* If this is a partial index, return if it fails the predicate test */
if (index->indpred != NIL)
if (!pred_test(index->indpred, clauseinfo_list, joininfo_list))
continue;
/*
* 1. Try matching the index against subclauses of an 'or' clause.
* The fields of the clauseinfo nodes are marked with lists of the
@ -143,7 +145,7 @@ find_index_paths(Query *root,
index->indexkeys[0],
index->classlist[0],
clauseinfo_list);
/*
* 2. If the keys of this index match any of the available restriction
* clauses, then create pathnodes corresponding to each group of
@ -154,7 +156,7 @@ find_index_paths(Query *root,
index->indexkeys,
index->classlist,
clauseinfo_list);
scanpaths = NIL;
if (scanclausegroups != NIL)
scanpaths = create_index_paths(root,
@ -162,7 +164,7 @@ find_index_paths(Query *root,
index,
scanclausegroups,
false);
/*
* 3. If this index can be used with any join clause, then create
* pathnodes for each group of usable clauses. An index can be used
@ -172,7 +174,7 @@ find_index_paths(Query *root,
*/
joinclausegroups = indexable_joinclauses(rel, index, joininfo_list, clauseinfo_list);
joinpaths = NIL;
if (joinclausegroups != NIL)
{
List *new_join_paths = create_index_paths(root, rel,
@ -180,11 +182,11 @@ find_index_paths(Query *root,
joinclausegroups,
true);
List *innerjoin_paths = index_innerjoin(root, rel, joinclausegroups, index);
rel->innerjoin = nconc(rel->innerjoin, innerjoin_paths);
joinpaths = new_join_paths;
}
/*
* Some sanity checks to make sure that the indexpath is valid.
*/
@ -193,7 +195,7 @@ find_index_paths(Query *root,
if (scanpaths != NULL)
retval = add_index_paths(scanpaths, retval);
}
return retval;
}
@ -252,8 +254,7 @@ match_index_orclauses(RelOptInfo *rel,
}
}
/*
* match_index_operand--
/* match_index_to_operand()
* Generalize test for a match between an existing index's key
* and the operand on the rhs of a restriction clause. Now check
* for functional indices as well.
@ -264,17 +265,22 @@ match_index_to_operand(int indexkey,
RelOptInfo *rel,
RelOptInfo *index)
{
bool result;
/*
* Normal index.
*/
if (index->indproc == InvalidOid)
return match_indexkey_operand(indexkey, (Var *) operand, rel);
{
result = match_indexkey_operand(indexkey, (Var *) operand, rel);
return result;
}
/*
* functional index check
*/
return (function_index_operand(operand, rel, index));
result = function_index_operand(operand, rel, index);
return result;
}
/*
@ -320,7 +326,7 @@ match_index_orclause(RelOptInfo *rel,
else matching_indices = other_matching_indices;
index_list = matching_indices;
foreach(clist, or_clauses)
{
clause = lfirst(clist);
@ -555,8 +561,7 @@ group_clauses_by_ikey_for_joins(RelOptInfo *rel,
* - vadim 01/22/97
*/
/*
* match_clause_to-indexkey--
/* match_clause_to_indexkey()
* Finds the first of a relation's available restriction clauses that
* matches a key of an index.
*
@ -609,11 +614,56 @@ match_clause_to_indexkey(RelOptInfo *rel,
(rightop && IsA(rightop, Param)))
{
restrict_op = ((Oper *) ((Expr *) clause)->oper)->opno;
isIndexable = (op_class(restrict_op, xclass, index->relam) &&
IndexScanableOperand(leftop,
IndexScanableOperand(leftop,
indexkey,
rel,
index));
#ifndef IGNORE_BINARY_COMPATIBLE_INDICES
/* Didn't find an index?
* Then maybe we can find another binary-compatible index instead...
* thomas 1998-08-14
*/
if (! isIndexable)
{
Oid ltype;
Oid rtype;
ltype = exprType((Node *)leftop);
rtype = exprType((Node *)rightop);
/* make sure we have two different binary-compatible types... */
if ((ltype != rtype)
&& IS_BINARY_COMPATIBLE(ltype, rtype))
{
char *opname;
Operator newop;
opname = get_opname(restrict_op);
newop = oper(opname, ltype, ltype, TRUE);
/* actually have a different operator to try? */
if (HeapTupleIsValid(newop) && (oprid(newop) != restrict_op))
{
restrict_op = oprid(newop);
isIndexable =
(op_class(restrict_op, xclass, index->relam) &&
IndexScanableOperand(leftop,
indexkey,
rel,
index));
if (isIndexable)
{
((Oper *) ((Expr *) clause)->oper)->opno = restrict_op;
}
}
}
}
#endif
}
/*
@ -625,13 +675,54 @@ match_clause_to_indexkey(RelOptInfo *rel,
restrict_op =
get_commutator(((Oper *) ((Expr *) clause)->oper)->opno);
if ((restrict_op != InvalidOid) &&
isIndexable = ((restrict_op != InvalidOid) &&
op_class(restrict_op, xclass, index->relam) &&
IndexScanableOperand(rightop,
indexkey, rel, index))
{
isIndexable = true;
indexkey, rel, index));
#ifndef IGNORE_BINARY_COMPATIBLE_INDICES
if (! isIndexable)
{
Oid ltype;
Oid rtype;
ltype = exprType((Node *)leftop);
rtype = exprType((Node *)rightop);
if ((ltype != rtype)
&& IS_BINARY_COMPATIBLE(ltype, rtype))
{
char *opname;
Operator newop;
restrict_op = ((Oper *) ((Expr *) clause)->oper)->opno;
opname = get_opname(restrict_op);
newop = oper(opname, rtype, rtype, TRUE);
if (HeapTupleIsValid(newop) && (oprid(newop) != restrict_op))
{
restrict_op =
get_commutator(oprid(newop));
isIndexable = ((restrict_op != InvalidOid) &&
op_class(restrict_op, xclass, index->relam) &&
IndexScanableOperand(rightop,
indexkey,
rel,
index));
if (isIndexable)
{
((Oper *) ((Expr *) clause)->oper)->opno = oprid(newop);
}
}
}
}
#endif
if (isIndexable)
{
/*
* In place list modification. (op const var/func) -> (op
* var/func const)