mergeutils.c

/*-------------------------------------------------------------------------
 *
 * mergeutils.c--
 *	  Utilities for finding applicable merge clauses and pathkeys
 *
 * Copyright (c) 1994, Regents of the University of California
 *
 *
 * IDENTIFICATION
 *	  $Header: /cvsroot/pgsql/src/backend/optimizer/path/Attic/mergeutils.c,v 1.5 1998/02/26 04:32:41 momjian Exp $
 *
 *-------------------------------------------------------------------------
 */
#include "postgres.h"

#include "nodes/pg_list.h"
#include "nodes/relation.h"

#include "optimizer/internal.h"
#include "optimizer/paths.h"
#include "optimizer/clauses.h"
#include "optimizer/ordering.h"

/*
 * group-clauses-by-order--
 *	  If a join clause node in 'clauseinfo-list' is mergesortable, store
 *	  it within a mergeinfo node containing other clause nodes with the same
 *	  mergesort ordering.
 *
 * 'clauseinfo-list' is the list of clauseinfo nodes
 * 'inner-relid' is the relid of the inner join relation
 *
 * Returns the new list of mergeinfo nodes.
 *
 */
List *
group_clauses_by_order(List *clauseinfo_list,
					   int inner_relid)
{
	List	   *mergeinfo_list = NIL;
	List	   *xclauseinfo = NIL;

	foreach(xclauseinfo, clauseinfo_list)
	{
		CInfo	   *clauseinfo = (CInfo *) lfirst(xclauseinfo);
		MergeOrder *merge_ordering = clauseinfo->mergesortorder;

		if (merge_ordering)
		{

			/*
			 * Create a new mergeinfo node and add it to 'mergeinfo-list'
			 * if one does not yet exist for this merge ordering.
			 */
			PathOrder	p_ordering;
			MInfo	   *xmergeinfo;
			Expr	   *clause = clauseinfo->clause;
			Var		   *leftop = get_leftop(clause);
			Var		   *rightop = get_rightop(clause);
			JoinKey    *keys;

			p_ordering.ordtype = MERGE_ORDER;
			p_ordering.ord.merge = merge_ordering;
			xmergeinfo =
				match_order_mergeinfo(&p_ordering, mergeinfo_list);
			if (inner_relid == leftop->varno)
			{
				keys = makeNode(JoinKey);
				keys->outer = rightop;
				keys->inner = leftop;
			}
			else
			{
				keys = makeNode(JoinKey);
				keys->outer = leftop;
				keys->inner = rightop;
			}

			if (xmergeinfo == NULL)
			{
				xmergeinfo = makeNode(MInfo);

				xmergeinfo->m_ordering = merge_ordering;
				mergeinfo_list = lcons(xmergeinfo,
									   mergeinfo_list);
			}

			((JoinMethod *) xmergeinfo)->clauses =
				lcons(clause,
					  ((JoinMethod *) xmergeinfo)->clauses);
			((JoinMethod *) xmergeinfo)->jmkeys =
				lcons(keys,
					  ((JoinMethod *) xmergeinfo)->jmkeys);
		}
	}
	return (mergeinfo_list);
}


/*
 * match-order-mergeinfo--
 *	  Searches the list 'mergeinfo-list' for a mergeinfo node whose order
 *	  field equals 'ordering'.
 *
 * Returns the node if it exists.
 *
 */
MInfo *
match_order_mergeinfo(PathOrder *ordering, List *mergeinfo_list)
{
	MergeOrder *xmergeorder;
	List	   *xmergeinfo = NIL;

	foreach(xmergeinfo, mergeinfo_list)
	{
		MInfo	   *mergeinfo = (MInfo *) lfirst(xmergeinfo);

		xmergeorder = mergeinfo->m_ordering;

		if ((ordering->ordtype == MERGE_ORDER &&
		 equal_merge_merge_ordering(ordering->ord.merge, xmergeorder)) ||
			(ordering->ordtype == SORTOP_ORDER &&
		   equal_path_merge_ordering(ordering->ord.sortop, xmergeorder)))
		{

			return (mergeinfo);
		}
	}
	return ((MInfo *) NIL);
}