9588ad95c1
so that if the min()/max() are discarded by the outer query, they still function and cause non-aggregate expression to be evaluated on the minimal or maximal row. FossilOrigin-Name: 0bdf1a086b3946722f4d4b328e25917f61c14713
238 lines
6.4 KiB
Plaintext
238 lines
6.4 KiB
Plaintext
# 2012 August 23
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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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# This file implements regression tests for SQLite library.
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#
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# This file implements tests for processing aggregate queries with
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# subqueries in which the subqueries hold the aggregate functions
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# or in which the subqueries are themselves aggregate queries
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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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do_test aggnested-1.1 {
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db eval {
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CREATE TABLE t1(a1 INTEGER);
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INSERT INTO t1 VALUES(1), (2), (3);
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CREATE TABLE t2(b1 INTEGER);
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INSERT INTO t2 VALUES(4), (5);
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SELECT (SELECT group_concat(a1,'x') FROM t2) FROM t1;
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}
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} {1x2x3}
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do_test aggnested-1.2 {
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db eval {
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SELECT
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(SELECT group_concat(a1,'x') || '-' || group_concat(b1,'y') FROM t2)
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FROM t1;
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}
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} {1x2x3-4y5}
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do_test aggnested-1.3 {
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db eval {
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SELECT (SELECT group_concat(b1,a1) FROM t2) FROM t1;
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}
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} {415 425 435}
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do_test aggnested-1.4 {
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db eval {
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SELECT (SELECT group_concat(a1,b1) FROM t2) FROM t1;
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}
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} {151 252 353}
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# This test case is a copy of the one in
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# http://www.mail-archive.com/sqlite-users@sqlite.org/msg70787.html
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#
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do_test aggnested-2.0 {
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sqlite3 db2 :memory:
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db2 eval {
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CREATE TABLE t1 (A1 INTEGER NOT NULL,A2 INTEGER NOT NULL,A3 INTEGER NOT
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NULL,A4 INTEGER NOT NULL,PRIMARY KEY(A1));
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REPLACE INTO t1 VALUES(1,11,111,1111);
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REPLACE INTO t1 VALUES(2,22,222,2222);
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REPLACE INTO t1 VALUES(3,33,333,3333);
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CREATE TABLE t2 (B1 INTEGER NOT NULL,B2 INTEGER NOT NULL,B3 INTEGER NOT
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NULL,B4 INTEGER NOT NULL,PRIMARY KEY(B1));
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REPLACE INTO t2 VALUES(1,88,888,8888);
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REPLACE INTO t2 VALUES(2,99,999,9999);
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SELECT (SELECT GROUP_CONCAT(CASE WHEN a1=1 THEN'A' ELSE 'B' END) FROM t2),
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t1.*
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FROM t1;
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}
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} {A,B,B 3 33 333 3333}
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db2 close
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##################### Test cases for ticket [bfbf38e5e9956ac69f] ############
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#
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# This first test case is the original problem report:
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do_test aggnested-3.0 {
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db eval {
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CREATE TABLE AAA (
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aaa_id INTEGER PRIMARY KEY AUTOINCREMENT
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);
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CREATE TABLE RRR (
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rrr_id INTEGER PRIMARY KEY AUTOINCREMENT,
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rrr_date INTEGER NOT NULL,
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rrr_aaa INTEGER
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);
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CREATE TABLE TTT (
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ttt_id INTEGER PRIMARY KEY AUTOINCREMENT,
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target_aaa INTEGER NOT NULL,
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source_aaa INTEGER NOT NULL
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);
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insert into AAA (aaa_id) values (2);
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insert into TTT (ttt_id, target_aaa, source_aaa)
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values (4469, 2, 2);
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insert into TTT (ttt_id, target_aaa, source_aaa)
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values (4476, 2, 1);
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insert into RRR (rrr_id, rrr_date, rrr_aaa)
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values (0, 0, NULL);
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insert into RRR (rrr_id, rrr_date, rrr_aaa)
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values (2, 4312, 2);
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SELECT i.aaa_id,
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(SELECT sum(CASE WHEN (t.source_aaa == i.aaa_id) THEN 1 ELSE 0 END)
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FROM TTT t
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) AS segfault
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FROM
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(SELECT curr.rrr_aaa as aaa_id
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FROM RRR curr
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-- you also can comment out the next line
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-- it causes segfault to happen after one row is outputted
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INNER JOIN AAA a ON (curr.rrr_aaa = aaa_id)
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LEFT JOIN RRR r ON (r.rrr_id <> 0 AND r.rrr_date < curr.rrr_date)
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GROUP BY curr.rrr_id
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HAVING r.rrr_date IS NULL
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) i;
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}
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} {2 1}
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# Further variants of the test case, as found in the ticket
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#
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do_test aggnested-3.1 {
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db eval {
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DROP TABLE IF EXISTS t1;
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DROP TABLE IF EXISTS t2;
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CREATE TABLE t1 (
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id1 INTEGER PRIMARY KEY AUTOINCREMENT,
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value1 INTEGER
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);
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INSERT INTO t1 VALUES(4469,2),(4476,1);
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CREATE TABLE t2 (
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id2 INTEGER PRIMARY KEY AUTOINCREMENT,
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value2 INTEGER
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);
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INSERT INTO t2 VALUES(0,1),(2,2);
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SELECT
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(SELECT sum(value2==xyz) FROM t2)
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FROM
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(SELECT curr.value1 as xyz
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FROM t1 AS curr LEFT JOIN t1 AS other
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GROUP BY curr.id1);
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}
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} {1 1}
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do_test aggnested-3.2 {
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db eval {
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DROP TABLE IF EXISTS t1;
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DROP TABLE IF EXISTS t2;
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CREATE TABLE t1 (
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id1 INTEGER,
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value1 INTEGER,
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x1 INTEGER
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);
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INSERT INTO t1 VALUES(4469,2,98),(4469,1,99),(4469,3,97);
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CREATE TABLE t2 (
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value2 INTEGER
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);
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INSERT INTO t2 VALUES(1);
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SELECT
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(SELECT sum(value2==xyz) FROM t2)
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FROM
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(SELECT value1 as xyz, max(x1) AS pqr
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FROM t1
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GROUP BY id1);
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SELECT
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(SELECT sum(value2<>xyz) FROM t2)
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FROM
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(SELECT value1 as xyz, max(x1) AS pqr
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FROM t1
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GROUP BY id1);
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}
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} {1 0}
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do_test aggnested-3.3 {
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db eval {
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DROP TABLE IF EXISTS t1;
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DROP TABLE IF EXISTS t2;
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CREATE TABLE t1(id1, value1);
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INSERT INTO t1 VALUES(4469,2),(4469,1);
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CREATE TABLE t2 (value2);
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INSERT INTO t2 VALUES(1);
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SELECT (SELECT sum(value2=value1) FROM t2), max(value1)
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FROM t1
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GROUP BY id1;
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}
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} {0 2}
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# A batch of queries all doing approximately the same operation involving
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# two nested aggregate queries.
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#
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do_test aggnested-3.11 {
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db eval {
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DROP TABLE IF EXISTS t1;
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DROP TABLE IF EXISTS t2;
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CREATE TABLE t1(id1, value1);
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INSERT INTO t1 VALUES(4469,12),(4469,11),(4470,34);
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CREATE INDEX t1id1 ON t1(id1);
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CREATE TABLE t2 (value2);
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INSERT INTO t2 VALUES(12),(34),(34);
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INSERT INTO t2 SELECT value2 FROM t2;
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SELECT max(value1), (SELECT count(*) FROM t2 WHERE value2=max(value1))
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FROM t1
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GROUP BY id1;
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}
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} {12 2 34 4}
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do_test aggnested-3.12 {
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db eval {
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SELECT max(value1), (SELECT count(*) FROM t2 WHERE value2=value1)
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FROM t1
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GROUP BY id1;
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}
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} {12 2 34 4}
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do_test aggnested-3.13 {
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db eval {
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SELECT value1, (SELECT sum(value2=value1) FROM t2)
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FROM t1;
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}
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} {12 2 11 0 34 4}
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do_test aggnested-3.14 {
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db eval {
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SELECT value1, (SELECT sum(value2=value1) FROM t2)
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FROM t1
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WHERE value1 IN (SELECT max(value1) FROM t1 GROUP BY id1);
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}
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} {12 2 34 4}
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do_test aggnested-3.15 {
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# FIXME: If case 3.16 works, then this case really ought to work too...
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catchsql {
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SELECT max(value1), (SELECT sum(value2=max(value1)) FROM t2)
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FROM t1
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GROUP BY id1;
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}
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} {1 {misuse of aggregate function max()}}
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do_test aggnested-3.16 {
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db eval {
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SELECT max(value1), (SELECT sum(value2=value1) FROM t2)
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FROM t1
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GROUP BY id1;
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}
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} {12 2 34 4}
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finish_test
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