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When the inner side of a nestloop SEMI or ANTI join is an indexscan that uses all the join clauses as indexquals, it can be presumed that both matched and unmatched outer rows will be processed very quickly: for matched rows, we'll stop after fetching one row from the indexscan, while for unmatched rows we'll have an indexscan that finds no matching index entries, which should also be quick. The planner already knew about this, but it was nonetheless charging for at least one full run of the inner indexscan, as a consequence of concerns about the behavior of materialized inner scans --- but those concerns don't apply in the fast case. If the inner side has low cardinality (many matching rows) this could make an indexscan plan look far more expensive than it actually is. To fix, rearrange the work in initial_cost_nestloop/final_cost_nestloop so that we don't add the inner scan cost until we've inspected the indexquals, and then we can add either the full-run cost or just the first tuple's cost as appropriate. Experimentation with this fix uncovered another problem: add_path and friends were coded to disregard cheap startup cost when considering parameterized paths. That's usually okay (and desirable, because it thins the path herd faster); but in this fast case for SEMI/ANTI joins, it could result in throwing away the desired plain indexscan path in favor of a bitmap scan path before we ever get to the join costing logic. In the many-matching-rows cases of interest here, a bitmap scan will do a lot more work than required, so this is a problem. To fix, add a per-relation flag consider_param_startup that works like the existing consider_startup flag, but applies to parameterized paths, and set it for relations that are the inside of a SEMI or ANTI join. To make this patch reasonably safe to back-patch, care has been taken to avoid changing the planner's behavior except in the very narrow case of SEMI/ANTI joins with inner indexscans. There are places in compare_path_costs_fuzzily and add_path_precheck that are not terribly consistent with the new approach, but changing them will affect planner decisions at the margins in other cases, so we'll leave that for a HEAD-only fix. Back-patch to 9.3; before that, the consider_startup flag didn't exist, meaning that the second aspect of the patch would be too invasive. Per a complaint from Peter Holzer and analysis by Tomas Vondra.
PostgreSQL Database Management System ===================================== This directory contains the source code distribution of the PostgreSQL database management system. PostgreSQL is an advanced object-relational database management system that supports an extended subset of the SQL standard, including transactions, foreign keys, subqueries, triggers, user-defined types and functions. This distribution also contains C language bindings. PostgreSQL has many language interfaces, many of which are listed here: http://www.postgresql.org/download See the file INSTALL for instructions on how to build and install PostgreSQL. That file also lists supported operating systems and hardware platforms and contains information regarding any other software packages that are required to build or run the PostgreSQL system. Copyright and license information can be found in the file COPYRIGHT. A comprehensive documentation set is included in this distribution; it can be read as described in the installation instructions. The latest version of this software may be obtained at http://www.postgresql.org/download/. For more information look at our web site located at http://www.postgresql.org/.