/*------------------------------------------------------------------------- * * joininfo.c * joininfo list manipulation routines * * Portions Copyright (c) 1996-2010, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * * IDENTIFICATION * $PostgreSQL: pgsql/src/backend/optimizer/util/joininfo.c,v 1.53 2010/09/14 23:15:29 tgl Exp $ * *------------------------------------------------------------------------- */ #include "postgres.h" #include "optimizer/joininfo.h" #include "optimizer/pathnode.h" #include "optimizer/paths.h" /* * have_relevant_joinclause * Detect whether there is a joinclause that can be used to join * the two given relations. */ bool have_relevant_joinclause(PlannerInfo *root, RelOptInfo *rel1, RelOptInfo *rel2) { bool result = false; Relids join_relids; List *joininfo; ListCell *l; join_relids = bms_union(rel1->relids, rel2->relids); /* * We could scan either relation's joininfo list; may as well use the * shorter one. */ if (list_length(rel1->joininfo) <= list_length(rel2->joininfo)) joininfo = rel1->joininfo; else joininfo = rel2->joininfo; foreach(l, joininfo) { RestrictInfo *rinfo = (RestrictInfo *) lfirst(l); if (bms_is_subset(rinfo->required_relids, join_relids)) { result = true; break; } } /* * We also need to check the EquivalenceClass data structure, which might * contain relationships not emitted into the joininfo lists. */ if (!result && rel1->has_eclass_joins && rel2->has_eclass_joins) result = have_relevant_eclass_joinclause(root, rel1, rel2); bms_free(join_relids); return result; } /* * add_join_clause_to_rels * Add 'restrictinfo' to the joininfo list of each relation it requires. * * Note that the same copy of the restrictinfo node is linked to by all the * lists it is in. This allows us to exploit caching of information about * the restriction clause (but we must be careful that the information does * not depend on context). * * 'restrictinfo' describes the join clause * 'join_relids' is the list of relations participating in the join clause * (there must be more than one) */ void add_join_clause_to_rels(PlannerInfo *root, RestrictInfo *restrictinfo, Relids join_relids) { Relids tmprelids; int cur_relid; tmprelids = bms_copy(join_relids); while ((cur_relid = bms_first_member(tmprelids)) >= 0) { RelOptInfo *rel = find_base_rel(root, cur_relid); rel->joininfo = lappend(rel->joininfo, restrictinfo); } bms_free(tmprelids); } /* * remove_join_clause_from_rels * Delete 'restrictinfo' from all the joininfo lists it is in * * This reverses the effect of add_join_clause_to_rels. It's used when we * discover that a relation need not be joined at all. * * 'restrictinfo' describes the join clause * 'join_relids' is the list of relations participating in the join clause * (there must be more than one) */ void remove_join_clause_from_rels(PlannerInfo *root, RestrictInfo *restrictinfo, Relids join_relids) { Relids tmprelids; int cur_relid; tmprelids = bms_copy(join_relids); while ((cur_relid = bms_first_member(tmprelids)) >= 0) { RelOptInfo *rel = find_base_rel(root, cur_relid); /* * Remove the restrictinfo from the list. Pointer comparison is * sufficient. */ Assert(list_member_ptr(rel->joininfo, restrictinfo)); rel->joininfo = list_delete_ptr(rel->joininfo, restrictinfo); } bms_free(tmprelids); }