subselect.c

/*-------------------------------------------------------------------------
 *
 * subselect.c
 *	  Planning routines for subselects and parameters.
 *
 * Copyright (c) 1994, Regents of the University of California
 *
 * IDENTIFICATION
 *	  $Header: /cvsroot/pgsql/src/backend/optimizer/plan/subselect.c,v 1.26 1999/11/23 20:06:57 momjian Exp $
 *
 *-------------------------------------------------------------------------
 */
#include "postgres.h"

#include "catalog/pg_operator.h"
#include "catalog/pg_type.h"
#include "nodes/makefuncs.h"
#include "nodes/nodeFuncs.h"
#include "optimizer/clauses.h"
#include "optimizer/planner.h"
#include "optimizer/subselect.h"
#include "parser/parse_expr.h"
#include "parser/parse_node.h"
#include "parser/parse_oper.h"
#include "utils/lsyscache.h"


int			PlannerQueryLevel;	/* level of current query */
List	   *PlannerInitPlan;	/* init subplans for current query */
List	   *PlannerParamVar;	/* to get Var from Param->paramid */
int			PlannerPlanId;		/* to assign unique ID to subquery plans */

/*--------------------
 * PlannerParamVar is a list of Var nodes, wherein the n'th entry
 * (n counts from 0) corresponds to Param->paramid = n.  The Var nodes
 * are ordinary except for one thing: their varlevelsup field does NOT
 * have the usual interpretation of "subplan levels out from current".
 * Instead, it contains the absolute plan level, with the outermost
 * plan being level 1 and nested plans having higher level numbers.
 * This nonstandardness is useful because we don't have to run around
 * and update the list elements when we enter or exit a subplan
 * recursion level.  But we must pay attention not to confuse this
 * meaning with the normal meaning of varlevelsup.
 *--------------------
 */


/*
 * Create a new entry in the PlannerParamVar list, and return its index.
 *
 * var contains the data to be copied, except for varlevelsup which
 * is set from the absolute level value given by varlevel.
 */
static int
new_param(Var *var, int varlevel)
{
	Var		   *paramVar = (Var *) copyObject(var);

	paramVar->varlevelsup = varlevel;

	PlannerParamVar = lappend(PlannerParamVar, paramVar);

	return length(PlannerParamVar) - 1;
}

/*
 * Generate a Param node to replace the given Var,
 * which is expected to have varlevelsup > 0 (ie, it is not local).
 */
static Param *
replace_var(Var *var)
{
	List	   *ppv;
	Param	   *retval;
	int			varlevel;
	int			i;

	Assert(var->varlevelsup > 0 && var->varlevelsup < PlannerQueryLevel);
	varlevel = PlannerQueryLevel - var->varlevelsup;

	/*
	 * If there's already a PlannerParamVar entry for this same Var,
	 * just use it.  NOTE: in situations involving UNION or inheritance,
	 * it is possible for the same varno/varlevel to refer to different RTEs
	 * in different parts of the parsetree, so that different fields might
	 * end up sharing the same Param number.  As long as we check the vartype
	 * as well, I believe that this sort of aliasing will cause no trouble.
	 * The correct field should get stored into the Param slot at execution
	 * in each part of the tree.
	 */
	i = 0;
	foreach(ppv, PlannerParamVar)
	{
		Var	   *pvar = lfirst(ppv);

		if (pvar->varno == var->varno &&
			pvar->varattno == var->varattno &&
			pvar->varlevelsup == varlevel &&
			pvar->vartype == var->vartype)
			break;
		i++;
	}

	if (! ppv)
	{
		/* Nope, so make a new one */
		i = new_param(var, varlevel);
	}

	retval = makeNode(Param);
	retval->paramkind = PARAM_EXEC;
	retval->paramid = (AttrNumber) i;
	retval->paramtype = var->vartype;

	return retval;
}

/*
 * Convert a bare SubLink (as created by the parser) into a SubPlan.
 */
static Node *
make_subplan(SubLink *slink)
{
	SubPlan    *node = makeNode(SubPlan);
	Plan	   *plan;
	List	   *lst;
	Node	   *result;
	List	   *saved_ip = PlannerInitPlan;

	PlannerInitPlan = NULL;

	PlannerQueryLevel++;		/* we becomes child */

	node->plan = plan = union_planner((Query *) slink->subselect);

	/*
	 * Assign subPlan, extParam and locParam to plan nodes. At the moment,
	 * SS_finalize_plan doesn't handle initPlan-s and so we assign them
	 * to the topmost plan node and take care about its extParam too.
	 */
	(void) SS_finalize_plan(plan);
	plan->initPlan = PlannerInitPlan;

	/* Create extParam list as union of InitPlan-s' lists */
	foreach(lst, PlannerInitPlan)
	{
		List	   *lp;

		foreach(lp, ((SubPlan *) lfirst(lst))->plan->extParam)
		{
			if (!intMember(lfirsti(lp), plan->extParam))
				plan->extParam = lappendi(plan->extParam, lfirsti(lp));
		}
	}

	/* and now we are parent again */
	PlannerInitPlan = saved_ip;
	PlannerQueryLevel--;

	node->plan_id = PlannerPlanId++;
	node->rtable = ((Query *) slink->subselect)->rtable;
	node->sublink = slink;
	slink->subselect = NULL;	/* cool ?! */

	/* make parParam list of params coming from current query level */
	foreach(lst, plan->extParam)
	{
		Var		   *var = nth(lfirsti(lst), PlannerParamVar);

		/* note varlevelsup is absolute level number */
		if (var->varlevelsup == PlannerQueryLevel)
			node->parParam = lappendi(node->parParam, lfirsti(lst));
	}

	/*
	 * Un-correlated or undirect correlated plans of EXISTS, EXPR, or
	 * MULTIEXPR types can be used as initPlans.  For EXISTS or EXPR,
	 * we just produce a Param referring to the result of evaluating the
	 * initPlan.  For MULTIEXPR, we must build an AND or OR-clause of the
	 * individual comparison operators, using the appropriate lefthand
	 * side expressions and Params for the initPlan's target items.
	 */
	if (node->parParam == NIL && slink->subLinkType == EXISTS_SUBLINK)
	{
		Var		   *var = makeVar(0, 0, BOOLOID, -1, 0);
		Param	   *prm = makeNode(Param);

		prm->paramkind = PARAM_EXEC;
		prm->paramid = (AttrNumber) new_param(var, PlannerQueryLevel);
		prm->paramtype = var->vartype;
		pfree(var);				/* var is only needed for new_param */
		node->setParam = lappendi(node->setParam, prm->paramid);
		PlannerInitPlan = lappend(PlannerInitPlan, node);
		result = (Node *) prm;
	}
	else if (node->parParam == NIL && slink->subLinkType == EXPR_SUBLINK)
	{
		TargetEntry *te = lfirst(plan->targetlist);
		/* need a var node just to pass to new_param()... */
		Var		   *var = makeVar(0, 0, te->resdom->restype,
								  te->resdom->restypmod, 0);
		Param	   *prm = makeNode(Param);

		prm->paramkind = PARAM_EXEC;
		prm->paramid = (AttrNumber) new_param(var, PlannerQueryLevel);
		prm->paramtype = var->vartype;
		pfree(var);				/* var is only needed for new_param */
		node->setParam = lappendi(node->setParam, prm->paramid);
		PlannerInitPlan = lappend(PlannerInitPlan, node);
		result = (Node *) prm;
	}
	else if (node->parParam == NIL && slink->subLinkType == MULTIEXPR_SUBLINK)
	{
		List	   *newoper = NIL;
		int			i = 0;

		/*
		 * Convert oper list of Opers into a list of Exprs, using
		 * lefthand arguments and Params representing inside results.
		 */
		foreach(lst, slink->oper)
		{
			Oper	   *oper = (Oper *) lfirst(lst);
			Node	   *lefthand = nth(i, slink->lefthand);
			TargetEntry *te = nth(i, plan->targetlist);
			/* need a var node just to pass to new_param()... */
			Var		   *var = makeVar(0, 0, te->resdom->restype,
									  te->resdom->restypmod, 0);
			Param	   *prm = makeNode(Param);
			Operator	tup;
			Form_pg_operator opform;
			Node	   *left,
					   *right;

			prm->paramkind = PARAM_EXEC;
			prm->paramid = (AttrNumber) new_param(var, PlannerQueryLevel);
			prm->paramtype = var->vartype;
			pfree(var);			/* var is only needed for new_param */

			Assert(IsA(oper, Oper));
			tup = get_operator_tuple(oper->opno);
			Assert(HeapTupleIsValid(tup));
			opform = (Form_pg_operator) GETSTRUCT(tup);
			/* Note: we use make_operand in case runtime type conversion
			 * function calls must be inserted for this operator!
			 */
			left = make_operand("", lefthand,
								exprType(lefthand), opform->oprleft);
			right = make_operand("", (Node *) prm,
								 prm->paramtype, opform->oprright);
			newoper = lappend(newoper,
							  make_opclause(oper,
											(Var *) left,
											(Var *) right));
			node->setParam = lappendi(node->setParam, prm->paramid);
			i++;
		}
		slink->oper = newoper;
		slink->lefthand = NIL;
		PlannerInitPlan = lappend(PlannerInitPlan, node);
		if (i > 1)
			result = (Node *) ((slink->useor) ? make_orclause(newoper) :
							   make_andclause(newoper));
		else
			result = (Node *) lfirst(newoper);
	}
	else
	{
		/* make expression of SUBPLAN type */
		Expr	   *expr = makeNode(Expr);
		List	   *args = NIL;
		List	   *newoper = NIL;
		int			i = 0;

		expr->typeOid = BOOLOID; /* bogus, but we don't really care */
		expr->opType = SUBPLAN_EXPR;
		expr->oper = (Node *) node;

		/*
		 * Make expr->args from parParam.
		 */
		foreach(lst, node->parParam)
		{
			Var		   *var = nth(lfirsti(lst), PlannerParamVar);

			var = (Var *) copyObject(var);
			/* Must fix absolute-level varlevelsup from the
			 * PlannerParamVar entry.  But since var is at current
			 * subplan level, this is easy:
			 */
			var->varlevelsup = 0;
			args = lappend(args, var);
		}
		expr->args = args;
		/*
		 * Convert oper list of Opers into a list of Exprs, using
		 * lefthand arguments and Consts representing inside results.
		 */
		foreach(lst, slink->oper)
		{
			Oper	   *oper = (Oper *) lfirst(lst);
			Node	   *lefthand = nth(i, slink->lefthand);
			TargetEntry *te = nth(i, plan->targetlist);
			Const	   *con;
			Operator	tup;
			Form_pg_operator opform;
			Node	   *left,
					   *right;

			/*
			 * XXX really ought to fill in constlen and constbyval correctly,
			 * but right now ExecEvalExpr won't look at them...
			 */
			con = makeConst(te->resdom->restype, 0, 0, true, 0, 0, 0);

			Assert(IsA(oper, Oper));
			tup = get_operator_tuple(oper->opno);
			Assert(HeapTupleIsValid(tup));
			opform = (Form_pg_operator) GETSTRUCT(tup);
			/* Note: we use make_operand in case runtime type conversion
			 * function calls must be inserted for this operator!
			 */
			left = make_operand("", lefthand,
								exprType(lefthand), opform->oprleft);
			right = make_operand("", (Node *) con,
								 con->consttype, opform->oprright);
			newoper = lappend(newoper,
							  make_opclause(oper,
											(Var *) left,
											(Var *) right));
			i++;
		}
		slink->oper = newoper;
		slink->lefthand = NIL;
		result = (Node *) expr;
	}

	return result;
}

/* this oughta be merged with LispUnioni */

static List *
set_unioni(List *l1, List *l2)
{
	if (l1 == NULL)
		return l2;
	if (l2 == NULL)
		return l1;

	return nconc(l1, set_differencei(l2, l1));
}

/*
 * finalize_primnode: build lists of subplans and params appearing
 * in the given expression tree.  NOTE: items are added to lists passed in,
 * so caller must initialize lists to NIL before first call!
 */

typedef struct finalize_primnode_results {
	List	*subplans;			/* List of subplans found in expr */
	List	*paramids;			/* List of PARAM_EXEC paramids found */
} finalize_primnode_results;

static bool
finalize_primnode(Node *node, finalize_primnode_results *results)
{
	if (node == NULL)
		return false;
	if (IsA(node, Param))
	{
		if (((Param *) node)->paramkind == PARAM_EXEC)
		{
			int		paramid = (int) ((Param *) node)->paramid;

			if (! intMember(paramid, results->paramids))
				results->paramids = lconsi(paramid, results->paramids);
		}
		return false;			/* no more to do here */
	}
	if (is_subplan(node))
	{
		SubPlan	   *subplan = (SubPlan *) ((Expr *) node)->oper;
		List	   *lst;

		/* Add subplan to subplans list */
		results->subplans = lappend(results->subplans, subplan);
		/* Check extParam list for params to add to paramids */
		foreach(lst, subplan->plan->extParam)
		{
			int			paramid = lfirsti(lst);
			Var		   *var = nth(paramid, PlannerParamVar);

			/* note varlevelsup is absolute level number */
			if (var->varlevelsup < PlannerQueryLevel &&
				! intMember(paramid, results->paramids))
				results->paramids = lconsi(paramid, results->paramids);
		}
		/* fall through to recurse into subplan args */
	}
	return expression_tree_walker(node, finalize_primnode,
								  (void *) results);
}

/*
 * Replace correlation vars (uplevel vars) with Params.
 */

static Node *replace_correlation_vars_mutator(Node *node, void *context);

Node *
SS_replace_correlation_vars(Node *expr)
{
	/* No setup needed for tree walk, so away we go */
	return replace_correlation_vars_mutator(expr, NULL);
}

static Node *
replace_correlation_vars_mutator(Node *node, void *context)
{
	if (node == NULL)
		return NULL;
	if (IsA(node, Var))
	{
		if (((Var *) node)->varlevelsup > 0)
			return (Node *) replace_var((Var *) node);
	}
	return expression_tree_mutator(node,
								   replace_correlation_vars_mutator,
								   context);
}

/*
 * Expand SubLinks to SubPlans in the given expression.
 */

static Node *process_sublinks_mutator(Node *node, void *context);

Node *
SS_process_sublinks(Node *expr)
{
	/* No setup needed for tree walk, so away we go */
    return process_sublinks_mutator(expr, NULL);
}

static Node *
process_sublinks_mutator(Node *node, void *context)
{
	if (node == NULL)
		return NULL;
	if (IsA(node, SubLink))
	{
		SubLink	   *sublink = (SubLink *) node;

		/* First, scan the lefthand-side expressions, if any.
		 * This is a tad klugy since we modify the input SubLink node,
		 * but that should be OK (make_subplan does it too!)
		 */
		sublink->lefthand = (List *)
			process_sublinks_mutator((Node *) sublink->lefthand, context);
		/* Now build the SubPlan node and make the expr to return */
		return make_subplan(sublink);
	}
	/*
	 * Note that we will never see a SubPlan expression in the input
	 * (since this is the very routine that creates 'em to begin with).
	 * So the code in expression_tree_mutator() that might do
	 * inappropriate things with SubPlans or SubLinks will not be
	 * exercised.
	 */
	Assert(! is_subplan(node));

	return expression_tree_mutator(node,
								   process_sublinks_mutator,
								   context);
}

List *
SS_finalize_plan(Plan *plan)
{
	List	   *extParam = NIL;
	List	   *locParam = NIL;
	finalize_primnode_results results;
	List	   *lst;

	if (plan == NULL)
		return NIL;

	results.subplans = NIL;		/* initialize lists to NIL */
	results.paramids = NIL;
	/*
	 * When we call finalize_primnode, results.paramids lists are
	 * automatically merged together.  But when recursing to self,
	 * we have to do it the hard way.  We want the paramids list
	 * to include params in subplans as well as at this level.
	 * (We don't care about finding subplans of subplans, though.)
	 */

	/* Find params and subplans in targetlist and qual */
	finalize_primnode((Node *) plan->targetlist, &results);
	finalize_primnode((Node *) plan->qual, &results);

	/* Check additional node-type-specific fields */
	switch (nodeTag(plan))
	{
		case T_Result:
			finalize_primnode(((Result *) plan)->resconstantqual,
							  &results);
			break;

		case T_Append:
			foreach(lst, ((Append *) plan)->appendplans)
				results.paramids = set_unioni(results.paramids,
								SS_finalize_plan((Plan *) lfirst(lst)));
			break;

		case T_IndexScan:
			finalize_primnode((Node *) ((IndexScan *) plan)->indxqual,
							  &results);
			break;

		case T_MergeJoin:
			finalize_primnode((Node *) ((MergeJoin *) plan)->mergeclauses,
							  &results);
			break;

		case T_HashJoin:
			finalize_primnode((Node *) ((HashJoin *) plan)->hashclauses,
							  &results);
			break;

		case T_Hash:
			finalize_primnode((Node *) ((Hash *) plan)->hashkey,
							  &results);
			break;

		case T_TidScan:
			finalize_primnode((Node *) ((TidScan *) plan)->tideval,
							&results);
			break;

		case T_Agg:
		case T_SeqScan:
		case T_NestLoop:
		case T_Material:
		case T_Sort:
		case T_Unique:
		case T_Group:
			break;

		default:
			elog(ERROR, "SS_finalize_plan: node %d unsupported",
				 nodeTag(plan));
	}

	/* Process left and right subplans, if any */
	results.paramids = set_unioni(results.paramids,
								  SS_finalize_plan(plan->lefttree));
	results.paramids = set_unioni(results.paramids,
								  SS_finalize_plan(plan->righttree));

	/* Now we have all the paramids and subplans */

	foreach(lst, results.paramids)
	{
		Var		   *var = nth(lfirsti(lst), PlannerParamVar);

		/* note varlevelsup is absolute level number */
		if (var->varlevelsup < PlannerQueryLevel)
			extParam = lappendi(extParam, lfirsti(lst));
		else if (var->varlevelsup > PlannerQueryLevel)
			elog(ERROR, "SS_finalize_plan: plan shouldn't reference subplan's variable");
		else
		{
			Assert(var->varno == 0 && var->varattno == 0);
			locParam = lappendi(locParam, lfirsti(lst));
		}
	}

	plan->extParam = extParam;
	plan->locParam = locParam;
	plan->subPlan = results.subplans;

	return results.paramids;
}

/*
 * Construct a list of all subplans found within the given node tree.
 */

static bool SS_pull_subplan_walker(Node *node, List **listptr);

List *
SS_pull_subplan(Node *expr)
{
	List	   *result = NIL;

	SS_pull_subplan_walker(expr, &result);
	return result;
}

static bool
SS_pull_subplan_walker(Node *node, List **listptr)
{
	if (node == NULL)
		return false;
	if (is_subplan(node))
	{
		*listptr = lappend(*listptr, ((Expr *) node)->oper);
		/* fall through to check args to subplan */
	}
	return expression_tree_walker(node, SS_pull_subplan_walker,
								  (void *) listptr);
}