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104 lines
4.2 KiB
Plaintext
104 lines
4.2 KiB
Plaintext
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# 2024-04-02
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#
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# The author disclaims copyright to this source code. In place of
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# a legal notice, here is a blessing:
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#
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# May you do good and not evil.
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# May you find forgiveness for yourself and forgive others.
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# May you share freely, never taking more than you give.
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#
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#***********************************************************************
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# Tests for the whereInterstageHeuristic() routine in the query planner.
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#
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set testdir [file dirname $argv0]
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source $testdir/tester.tcl
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set testprefix whereN
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# The following is a simplified and "sanitized" version of the original
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# real-world query that brought the problem to light.
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#
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# The issue is a slow query. The answer is correct, but it was taking too
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# much time, because it was doing a full table scan rather than an indexed
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# lookup.
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#
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# The problem was that the query planner was overestimating the number of
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# output rows. The estimated number of output rows is accurate if the
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# DSNAME parameter is "ds-one". In that case, a large fraction of the rows
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# in "violation" end up being output. The query planner correctly deduces
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# that it is faster to do a full table scan of the large "violation" table
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# to avoid the after-query sort that implements the ORDER BY clause. However,
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# if the DSNAME is "ds-two", then only a few rows (about 6) are generated,
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# and it is much much faster to do an indexed lookup of "violation" followed
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# by a sort operation to implement ORDER BY
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#
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# The problem, of course, is that the query planner has no way of knowing
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# in advance how many rows will be generated. The query planner tries to
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# estimate a worst case, which is a large number of output rows, and it picks
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# the best plan for that case. However, the plan choosen is very inefficient
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# when the number of output rows is small.
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#
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# The whereInterstageHeuristic() routine in the query planner attempts to
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# correct this by adjusting the query plan such that it avoids the very bad
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# query plan for a small number of rows, at the expense of a slightly less
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# efficient plan for a large number of rows. The large number of rows case
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# is perhaps 5% slower with the revised plan, but the small number of
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# rows case is around 100 times faster. That seems like a good tradeoff.
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#
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do_execsql_test 1.0 {
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CREATE TABLE datasource(dsid INT, name TEXT);
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INSERT INTO datasource VALUES(1,'ds-one'),(2,'ds-two'),(3,'ds-three');
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CREATE INDEX ds1 ON datasource(name, dsid);
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CREATE TABLE rule(rid INT, team_id INT, dsid INT);
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WITH RECURSIVE c(n) AS (VALUES(1) UNION ALL SELECT n+1 FROM c WHERE n<9)
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INSERT INTO rule(rid,team_id,dsid) SELECT n, 1, 1 FROM c;
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WITH RECURSIVE c(n) AS (VALUES(10) UNION ALL SELECT n+1 FROM c WHERE n<24)
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INSERT INTO rule(rid,team_id,dsid) SELECT n, 2, 2 FROM c;
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CREATE INDEX rule2 ON rule(dsid, rid);
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CREATE TABLE violation(vid INT, rid INT, vx BLOB);
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/*** Uncomment to insert actual data
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WITH src(rid, cnt) AS (VALUES(1,3586),(2,1343),(3,6505),(5,76230),
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(6,740),(7,287794),(8,457),(12,1),
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(14,1),(16,1),(17,1),(18,1),(19,1))
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INSERT INTO violation(vid, rid, vx)
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SELECT rid*1000000+value, rid, randomblob(15)
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FROM src, generate_series(1,cnt);
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***/
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CREATE INDEX v1 ON violation(rid, vid);
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CREATE INDEX v2 ON violation(vid);
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ANALYZE;
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DELETE FROM sqlite_stat1;
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DROP TABLE IF EXISTS sqlite_stat4;
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INSERT INTO sqlite_stat1 VALUES
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('violation','v2','376661 1'),
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('violation','v1','376661 28974 1'),
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('rule','rule2','24 12 1'),
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('datasource','ds1','3 1 1');
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ANALYZE sqlite_schema;
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}
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set DSNAME ds-two ;# Only a few rows. Change to "ds-one" for many rows.
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do_eqp_test 1.1 {
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SELECT count(*), length(group_concat(vx)) FROM (
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SELECT V.*
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FROM datasource DS, rule R, violation V
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WHERE V.rid=R.rid
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AND R.dsid=DS.dsid
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AND DS.name=$DSNAME
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ORDER BY V.vid desc
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);
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} {
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QUERY PLAN
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|--CO-ROUTINE (subquery-xxxxxx)
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| |--SEARCH DS USING COVERING INDEX ds1 (name=?)
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| |--SEARCH R USING COVERING INDEX rule2 (dsid=?)
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| |--SEARCH V USING INDEX v1 (rid=?)
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| `--USE TEMP B-TREE FOR ORDER BY
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`--SCAN (subquery-xxxxxx)
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}
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# ^^^^---- We want to see three SEARCH terms. No SCAN terms.
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# The ORDER BY is implemented by a separate sorter pass.
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finish_test
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