| Index: third_party/sqlite/src/test/autoindex1.test
|
| diff --git a/third_party/sqlite/src/test/autoindex1.test b/third_party/sqlite/src/test/autoindex1.test
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..bc628dc256c5b47548432df8d47288a504fe81c6
|
| --- /dev/null
|
| +++ b/third_party/sqlite/src/test/autoindex1.test
|
| @@ -0,0 +1,251 @@
|
| +# 2010 April 07
|
| +#
|
| +# The author disclaims copyright to this source code. In place of
|
| +# a legal notice, here is a blessing:
|
| +#
|
| +# May you do good and not evil.
|
| +# May you find forgiveness for yourself and forgive others.
|
| +# May you share freely, never taking more than you give.
|
| +#
|
| +#*************************************************************************
|
| +# This file implements regression tests for SQLite library. The
|
| +# focus of this script is testing automatic index creation logic.
|
| +#
|
| +
|
| +set testdir [file dirname $argv0]
|
| +source $testdir/tester.tcl
|
| +
|
| +# If the library is not compiled with automatic index support then
|
| +# skip all tests in this file.
|
| +#
|
| +ifcapable {!autoindex} {
|
| + finish_test
|
| + return
|
| +}
|
| +
|
| +# With automatic index turned off, we do a full scan of the T2 table
|
| +do_test autoindex1-100 {
|
| + db eval {
|
| + CREATE TABLE t1(a,b);
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| + INSERT INTO t1 VALUES(1,11);
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| + INSERT INTO t1 VALUES(2,22);
|
| + INSERT INTO t1 SELECT a+2, b+22 FROM t1;
|
| + INSERT INTO t1 SELECT a+4, b+44 FROM t1;
|
| + CREATE TABLE t2(c,d);
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| + INSERT INTO t2 SELECT a, 900+b FROM t1;
|
| + }
|
| + db eval {
|
| + PRAGMA automatic_index=OFF;
|
| + SELECT b, d FROM t1 JOIN t2 ON a=c ORDER BY b;
|
| + }
|
| +} {11 911 22 922 33 933 44 944 55 955 66 966 77 977 88 988}
|
| +do_test autoindex1-101 {
|
| + db status step
|
| +} {63}
|
| +do_test autoindex1-102 {
|
| + db status autoindex
|
| +} {0}
|
| +
|
| +# With autoindex turned on, we build an index once and then use that index
|
| +# to find T2 values.
|
| +do_test autoindex1-110 {
|
| + db eval {
|
| + PRAGMA automatic_index=ON;
|
| + SELECT b, d FROM t1 JOIN t2 ON a=c ORDER BY b;
|
| + }
|
| +} {11 911 22 922 33 933 44 944 55 955 66 966 77 977 88 988}
|
| +do_test autoindex1-111 {
|
| + db status step
|
| +} {7}
|
| +do_test autoindex1-112 {
|
| + db status autoindex
|
| +} {7}
|
| +
|
| +# The same test as above, but this time the T2 query is a subquery rather
|
| +# than a join.
|
| +do_test autoindex1-200 {
|
| + db eval {
|
| + PRAGMA automatic_index=OFF;
|
| + SELECT b, (SELECT d FROM t2 WHERE c=a) FROM t1;
|
| + }
|
| +} {11 911 22 922 33 933 44 944 55 955 66 966 77 977 88 988}
|
| +do_test autoindex1-201 {
|
| + db status step
|
| +} {35}
|
| +do_test autoindex1-202 {
|
| + db status autoindex
|
| +} {0}
|
| +do_test autoindex1-210 {
|
| + db eval {
|
| + PRAGMA automatic_index=ON;
|
| + SELECT b, (SELECT d FROM t2 WHERE c=a) FROM t1;
|
| + }
|
| +} {11 911 22 922 33 933 44 944 55 955 66 966 77 977 88 988}
|
| +do_test autoindex1-211 {
|
| + db status step
|
| +} {7}
|
| +do_test autoindex1-212 {
|
| + db status autoindex
|
| +} {7}
|
| +
|
| +
|
| +# Modify the second table of the join while the join is in progress
|
| +#
|
| +do_test autoindex1-300 {
|
| + set r {}
|
| + db eval {SELECT b, d FROM t1 JOIN t2 ON (c=a)} {
|
| + lappend r $b $d
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| + db eval {UPDATE t2 SET d=d+1}
|
| + }
|
| + set r
|
| +} {11 911 22 922 33 933 44 944 55 955 66 966 77 977 88 988}
|
| +do_test autoindex1-310 {
|
| + db eval {SELECT d FROM t2 ORDER BY d}
|
| +} {919 930 941 952 963 974 985 996}
|
| +
|
| +# The next test does a 10-way join on unindexed tables. Without
|
| +# automatic indices, the join will take a long time to complete.
|
| +# With automatic indices, it should only take about a second.
|
| +#
|
| +do_test autoindex1-400 {
|
| + db eval {
|
| + CREATE TABLE t4(a, b);
|
| + INSERT INTO t4 VALUES(1,2);
|
| + INSERT INTO t4 VALUES(2,3);
|
| + }
|
| + for {set n 2} {$n<4096} {set n [expr {$n+$n}]} {
|
| + db eval {INSERT INTO t4 SELECT a+$n, b+$n FROM t4}
|
| + }
|
| + db eval {
|
| + SELECT count(*) FROM t4;
|
| + }
|
| +} {4096}
|
| +do_test autoindex1-401 {
|
| + db eval {
|
| + SELECT count(*)
|
| + FROM t4 AS x1
|
| + JOIN t4 AS x2 ON x2.a=x1.b
|
| + JOIN t4 AS x3 ON x3.a=x2.b
|
| + JOIN t4 AS x4 ON x4.a=x3.b
|
| + JOIN t4 AS x5 ON x5.a=x4.b
|
| + JOIN t4 AS x6 ON x6.a=x5.b
|
| + JOIN t4 AS x7 ON x7.a=x6.b
|
| + JOIN t4 AS x8 ON x8.a=x7.b
|
| + JOIN t4 AS x9 ON x9.a=x8.b
|
| + JOIN t4 AS x10 ON x10.a=x9.b;
|
| + }
|
| +} {4087}
|
| +
|
| +# Ticket [8011086c85c6c404014c947fcf3eb9f42b184a0d] from 2010-07-08
|
| +# Make sure automatic indices are not created for the RHS of an IN expression
|
| +# that is not a correlated subquery.
|
| +#
|
| +do_execsql_test autoindex1-500 {
|
| + CREATE TABLE t501(a INTEGER PRIMARY KEY, b);
|
| + CREATE TABLE t502(x INTEGER PRIMARY KEY, y);
|
| + EXPLAIN QUERY PLAN
|
| + SELECT b FROM t501
|
| + WHERE t501.a IN (SELECT x FROM t502 WHERE y=?);
|
| +} {
|
| + 0 0 0 {SEARCH TABLE t501 USING INTEGER PRIMARY KEY (rowid=?) (~25 rows)}
|
| + 0 0 0 {EXECUTE LIST SUBQUERY 1}
|
| + 1 0 0 {SCAN TABLE t502 (~100000 rows)}
|
| +}
|
| +do_execsql_test autoindex1-501 {
|
| + EXPLAIN QUERY PLAN
|
| + SELECT b FROM t501
|
| + WHERE t501.a IN (SELECT x FROM t502 WHERE y=t501.b);
|
| +} {
|
| + 0 0 0 {SCAN TABLE t501 (~500000 rows)}
|
| + 0 0 0 {EXECUTE CORRELATED LIST SUBQUERY 1}
|
| + 1 0 0 {SEARCH TABLE t502 USING AUTOMATIC COVERING INDEX (y=?) (~7 rows)}
|
| +}
|
| +do_execsql_test autoindex1-502 {
|
| + EXPLAIN QUERY PLAN
|
| + SELECT b FROM t501
|
| + WHERE t501.a=123
|
| + AND t501.a IN (SELECT x FROM t502 WHERE y=t501.b);
|
| +} {
|
| + 0 0 0 {SEARCH TABLE t501 USING INTEGER PRIMARY KEY (rowid=?) (~1 rows)}
|
| + 0 0 0 {EXECUTE CORRELATED LIST SUBQUERY 1}
|
| + 1 0 0 {SCAN TABLE t502 (~100000 rows)}
|
| +}
|
| +
|
| +
|
| +# The following code checks a performance regression reported on the
|
| +# mailing list on 2010-10-19. The problem is that the nRowEst field
|
| +# of ephermeral tables was not being initialized correctly and so no
|
| +# automatic index was being created for the emphemeral table when it was
|
| +# used as part of a join.
|
| +#
|
| +do_execsql_test autoindex1-600 {
|
| + CREATE TABLE flock_owner(
|
| + owner_rec_id INTEGER CONSTRAINT flock_owner_key PRIMARY KEY,
|
| + flock_no VARCHAR(6) NOT NULL REFERENCES flock (flock_no),
|
| + owner_person_id INTEGER NOT NULL REFERENCES person (person_id),
|
| + owner_change_date TEXT, last_changed TEXT NOT NULL,
|
| + CONSTRAINT fo_owner_date UNIQUE (flock_no, owner_change_date)
|
| + );
|
| + CREATE TABLE sheep (
|
| + Sheep_No char(7) NOT NULL,
|
| + Date_of_Birth char(8),
|
| + Sort_DoB text,
|
| + Flock_Book_Vol char(2),
|
| + Breeder_No char(6),
|
| + Breeder_Person integer,
|
| + Originating_Flock char(6),
|
| + Registering_Flock char(6),
|
| + Tag_Prefix char(9),
|
| + Tag_No char(15),
|
| + Sort_Tag_No integer,
|
| + Breeders_Temp_Tag char(15),
|
| + Sex char(1),
|
| + Sheep_Name char(32),
|
| + Sire_No char(7),
|
| + Dam_No char(7),
|
| + Register_Code char(1),
|
| + Colour char(48),
|
| + Colour_Code char(2),
|
| + Pattern_Code char(8),
|
| + Horns char(1),
|
| + Litter_Size char(1),
|
| + Coeff_of_Inbreeding real,
|
| + Date_of_Registration text,
|
| + Date_Last_Changed text,
|
| + UNIQUE(Sheep_No));
|
| + CREATE INDEX fo_flock_no_index
|
| + ON flock_owner (flock_no);
|
| + CREATE INDEX fo_owner_change_date_index
|
| + ON flock_owner (owner_change_date);
|
| + CREATE INDEX fo_owner_person_id_index
|
| + ON flock_owner (owner_person_id);
|
| + CREATE INDEX sheep_org_flock_index
|
| + ON sheep (originating_flock);
|
| + CREATE INDEX sheep_reg_flock_index
|
| + ON sheep (registering_flock);
|
| + EXPLAIN QUERY PLAN
|
| + SELECT x.sheep_no, x.registering_flock, x.date_of_registration
|
| + FROM sheep x LEFT JOIN
|
| + (SELECT s.sheep_no, prev.flock_no, prev.owner_person_id,
|
| + s.date_of_registration, prev.owner_change_date
|
| + FROM sheep s JOIN flock_owner prev ON s.registering_flock =
|
| + prev.flock_no
|
| + AND (prev.owner_change_date <= s.date_of_registration || ' 00:00:00')
|
| + WHERE NOT EXISTS
|
| + (SELECT 'x' FROM flock_owner later
|
| + WHERE prev.flock_no = later.flock_no
|
| + AND later.owner_change_date > prev.owner_change_date
|
| + AND later.owner_change_date <= s.date_of_registration||' 00:00:00')
|
| + ) y ON x.sheep_no = y.sheep_no
|
| + WHERE y.sheep_no IS NULL
|
| + ORDER BY x.registering_flock;
|
| +} {
|
| + 1 0 0 {SCAN TABLE sheep AS s (~1000000 rows)}
|
| + 1 1 1 {SEARCH TABLE flock_owner AS prev USING INDEX sqlite_autoindex_flock_owner_1 (flock_no=? AND owner_change_date<?) (~2 rows)}
|
| + 1 0 0 {EXECUTE CORRELATED SCALAR SUBQUERY 2}
|
| + 2 0 0 {SEARCH TABLE flock_owner AS later USING COVERING INDEX sqlite_autoindex_flock_owner_1 (flock_no=? AND owner_change_date>? AND owner_change_date<?) (~1 rows)}
|
| + 0 0 0 {SCAN TABLE sheep AS x USING INDEX sheep_reg_flock_index (~1000000 rows)}
|
| + 0 1 1 {SEARCH SUBQUERY 1 AS y USING AUTOMATIC COVERING INDEX (sheep_no=?) (~8 rows)}
|
| +}
|
| +
|
| +finish_test
|
|
|
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