/*------------------------------------------------------------------------- * * initsplan.c * Target list, qualification, joininfo initialization routines * * Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $Header: /cvsroot/pgsql/src/backend/optimizer/plan/initsplan.c,v 1.28 1999/02/18 00:49:26 momjian Exp $ * *------------------------------------------------------------------------- */ #include #include "postgres.h" #include "nodes/pg_list.h" #include "nodes/plannodes.h" #include "nodes/parsenodes.h" #include "nodes/relation.h" #include "nodes/makefuncs.h" #include "access/htup.h" #include "catalog/pg_type.h" #include "utils/lsyscache.h" #include "utils/palloc.h" #include "optimizer/internal.h" #include "optimizer/planmain.h" #include "optimizer/joininfo.h" #include "optimizer/pathnode.h" #include "optimizer/tlist.h" #include "optimizer/var.h" #include "optimizer/clauses.h" #include "optimizer/cost.h" extern int Quiet; static void add_restrict_and_join_to_rel(Query *root, List *clause); static void add_join_info_to_rels(Query *root, RestrictInfo *restrictinfo, Relids join_relids); static void add_vars_to_targetlist(Query *root, List *vars, Relids join_relids); static MergeOrder *mergejoinop(Expr *clause); static Oid hashjoinop(Expr *clause); /***************************************************************************** * * TARGET LISTS * *****************************************************************************/ /* * make_var_only_tlist * Creates rel nodes for every relation mentioned in the target list * 'tlist' (if a node hasn't already been created) and adds them to * *query_relation_list*. Creates targetlist entries for each member of * 'tlist' and adds them to the tlist field of the appropriate rel node. */ void make_var_only_tlist(Query *root, List *tlist) { List *tlist_vars = NIL; List *l = NIL; List *tvar = NIL; foreach(l, tlist) { TargetEntry *entry = (TargetEntry *) lfirst(l); tlist_vars = append(tlist_vars, pull_var_clause(entry->expr)); } /* now, the target list only contains Var nodes */ foreach(tvar, tlist_vars) { Var *var = (Var *) lfirst(tvar); Index varno; RelOptInfo *result; varno = var->varno; result = get_base_rel(root, varno); add_var_to_tlist(result, var); } } /* * add_missing_vars_to_tlist * If we have range variable(s) in the FROM clause that does not appear * in the target list nor qualifications, we add it to the base relation * list. For instance, "select f.x from foo f, foo f2" is a join of f and * f2. Note that if we have "select foo.x from foo f", it also gets turned * into a join. */ void add_missing_vars_to_tlist(Query *root, List *tlist) { List *l; int varno; varno = 1; foreach(l, root->rtable) { RangeTblEntry *rte = (RangeTblEntry *) lfirst(l); Relids relids; RelOptInfo *result; Var *var; relids = lconsi(varno, NIL); if (rte->inFromCl && !rel_member(relids, root->base_rel_list)) { var = makeVar(varno, ObjectIdAttributeNumber, OIDOID, -1, 0, varno, ObjectIdAttributeNumber); /* add it to base_rel_list */ result = get_base_rel(root, varno); add_var_to_tlist(result, var); } pfree(relids); varno++; } return; } /***************************************************************************** * * QUALIFICATIONS * *****************************************************************************/ /* * add_restrict_and_join_to_rels- * Initializes RestrictInfo and JoinInfo fields of relation entries for all * relations appearing within clauses. Creates new relation entries if * necessary, adding them to *query_relation_list*. * * Returns nothing of interest. */ void add_restrict_and_join_to_rels(Query *root, List *clauses) { List *clause; foreach(clause, clauses) add_restrict_and_join_to_rel(root, lfirst(clause)); return; } /* * add_restrict_and_join_to_rel- * Add clause information to either the 'RestrictInfo' or 'JoinInfo' field * of a relation entry(depending on whether or not the clause is a join) * by creating a new RestrictInfo node and setting appropriate fields * within the nodes. * * Returns nothing of interest. */ static void add_restrict_and_join_to_rel(Query *root, List *clause) { Relids relids; List *vars; RestrictInfo *restrictinfo = makeNode(RestrictInfo); /* * Retrieve all relids and vars contained within the clause. */ clause_get_relids_vars((Node *) clause, &relids, &vars); restrictinfo->clause = (Expr *) clause; restrictinfo->notclause = contains_not((Node *) clause); restrictinfo->selectivity = 0; restrictinfo->indexids = NIL; restrictinfo->mergejoinorder = (MergeOrder *) NULL; restrictinfo->hashjoinoperator = (Oid) 0; if (length(relids) == 1) { /* * There is only one relation participating in 'clause', so * 'clause' must be a restriction clause. */ RelOptInfo *rel = get_base_rel(root, lfirsti(relids)); /* * The selectivity of the clause must be computed regardless of * whether it's a restriction or a join clause */ if (is_funcclause((Node *) clause)) /* * XXX If we have a func clause set selectivity to 1/3, really * need a true selectivity function. */ restrictinfo->selectivity = (Cost) 0.3333333; else restrictinfo->selectivity = compute_clause_selec(root, (Node *) clause, NIL); rel->restrictinfo = lcons(restrictinfo, rel->restrictinfo); } else { /* * 'clause' is a join clause, since there is more than one atom in * the relid list. */ if (is_funcclause((Node *) clause)) /* * XXX If we have a func clause set selectivity to 1/3, really * need a true selectivity function. */ restrictinfo->selectivity = (Cost) 0.3333333; else restrictinfo->selectivity = compute_clause_selec(root, (Node *) clause, NIL); add_join_info_to_rels(root, restrictinfo, relids); /* we are going to be doing a join, so add var to targetlist */ add_vars_to_targetlist(root, vars, relids); } } /* * add_join_info_to_rels * For every relation participating in a join clause, add 'restrictinfo' to * the appropriate joininfo node(creating a new one and adding it to the * appropriate rel node if necessary). * * 'restrictinfo' describes the join clause * 'join_relids' is the list of relations participating in the join clause * */ static void add_join_info_to_rels(Query *root, RestrictInfo *restrictinfo, Relids join_relids) { List *join_relid; /* For every relid, find the rel, and add the proper join entries */ foreach(join_relid, join_relids) { JoinInfo *joininfo; Relids unjoined_relids = NIL; List *rel; /* Get the relids not equal to the current relid */ foreach(rel, join_relids) { if (lfirsti(rel) != lfirsti(join_relid)) unjoined_relids = lappendi(unjoined_relids, lfirsti(rel)); } joininfo = find_joininfo_node(get_base_rel(root, lfirsti(join_relid)), unjoined_relids); joininfo->jinfo_restrictinfo = lcons(copyObject((void *) restrictinfo), joininfo->jinfo_restrictinfo); } } /* * add_vars_to_targetlist * For each variable appearing in a clause, * (1) If a targetlist entry for the variable is not already present in * the appropriate relation's target list, add one. * (2) If a targetlist entry is already present, but the var is part of a * join clause, add the relids of the join relations to the JoinList * entry of the targetlist entry. * * 'vars' is the list of var nodes * 'join_relids' is the list of relids appearing in the join clause * (if this is a join clause) * * Returns nothing. */ static void add_vars_to_targetlist(Query *root, List *vars, Relids join_relids) { Var *var; List *temp = NIL; RelOptInfo *rel = (RelOptInfo *) NULL; TargetEntry *tlistentry; foreach(temp, vars) { var = (Var *) lfirst(temp); rel = get_base_rel(root, var->varno); tlistentry = tlistentry_member(var, rel->targetlist); if (tlistentry == NULL) /* add a new entry */ add_var_to_tlist(rel, var); } } /***************************************************************************** * * JOININFO * *****************************************************************************/ /* * set_joininfo_mergeable_hashable * Set the MergeJoinable or HashJoinable field for every joininfo node * (within a rel node) and the mergejoinorder or hashjoinop field for * each restrictinfo node(within a joininfo node) for all relations in a * query. * * Returns nothing. */ void set_joininfo_mergeable_hashable(List *rel_list) { List *x, *y, *z; RelOptInfo *rel; JoinInfo *joininfo; RestrictInfo *restrictinfo; Expr *clause; foreach(x, rel_list) { rel = (RelOptInfo *) lfirst(x); foreach(y, rel->joininfo) { joininfo = (JoinInfo *) lfirst(y); foreach(z, joininfo->jinfo_restrictinfo) { restrictinfo = (RestrictInfo *) lfirst(z); clause = restrictinfo->clause; if (is_joinable((Node *) clause)) { MergeOrder *sortop = (MergeOrder *) NULL; Oid hashop = (Oid) NULL; if (_enable_mergejoin_) sortop = mergejoinop(clause); if (sortop) { restrictinfo->mergejoinorder = sortop; joininfo->mergejoinable = true; } if (_enable_hashjoin_) hashop = hashjoinop(clause); if (hashop) { restrictinfo->hashjoinoperator = hashop; joininfo->hashjoinable = true; } } } } } } /* * mergejoinop * Returns the mergejoin operator of an operator iff 'clause' is * mergejoinable, i.e., both operands are single vars and the operator is * a mergejoinable operator. */ static MergeOrder * mergejoinop(Expr *clause) { Var *left, *right; Oid opno, leftOp, rightOp; bool sortable; if (!is_opclause((Node*) clause)) return NULL; left = get_leftop(clause); right = get_rightop(clause); /* caution: is_opclause accepts more than I do, so check it */ if (!right) return NULL; /* unary opclauses need not apply */ if (!IsA(left, Var) || !IsA(right, Var)) return NULL; opno = ((Oper *) clause->oper)->opno; sortable = op_mergejoinable(opno, left->vartype, right->vartype, &leftOp, &rightOp); if (sortable) { MergeOrder *morder = makeNode(MergeOrder); morder->join_operator = opno; morder->left_operator = leftOp; morder->right_operator = rightOp; morder->left_type = left->vartype; morder->right_type = right->vartype; return morder; } else return NULL; } /* * hashjoinop * Returns the hashjoin operator of an operator iff 'clause' is * hashjoinable, i.e., both operands are single vars and the operator is * a hashjoinable operator. */ static Oid hashjoinop(Expr *clause) { Var *left, *right; if (!is_opclause((Node*) clause)) return InvalidOid; left = get_leftop(clause); right = get_rightop(clause); /* caution: is_opclause accepts more than I do, so check it */ if (!right) return InvalidOid; /* unary opclauses need not apply */ if (!IsA(left, Var) || !IsA(right, Var)) return InvalidOid; return op_hashjoinable(((Oper *) clause->oper)->opno, left->vartype, right->vartype); }