# 2001 September 15 # # 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 file is testing the UPDATE statement. # # $Id: update.test,v 1.19 2008/04/10 18:44:36 drh Exp $ set testdir [file dirname $argv0] source $testdir/tester.tcl # Try to update an non-existent table # do_test update-1.1 { set v [catch {execsql {UPDATE test1 SET f2=5 WHERE f1<1}} msg] lappend v $msg } {1 {no such table: test1}} # Try to update a read-only table # do_test update-2.1 { set v [catch \ {execsql {UPDATE sqlite_master SET name='xyz' WHERE name='123'}} msg] lappend v $msg } {1 {table sqlite_master may not be modified}} # Create a table to work with # do_test update-3.1 { execsql {CREATE TABLE test1(f1 int,f2 int)} for {set i 1} {$i<=10} {incr i} { set sql "INSERT INTO test1 VALUES($i,[expr {1<<$i}])" execsql $sql } execsql {SELECT * FROM test1 ORDER BY f1} } {1 2 2 4 3 8 4 16 5 32 6 64 7 128 8 256 9 512 10 1024} # Unknown column name in an expression # do_test update-3.2 { set v [catch {execsql {UPDATE test1 SET f1=f3*2 WHERE f2==32}} msg] lappend v $msg } {1 {no such column: f3}} do_test update-3.3 { set v [catch {execsql {UPDATE test1 SET f1=test2.f1*2 WHERE f2==32}} msg] lappend v $msg } {1 {no such column: test2.f1}} do_test update-3.4 { set v [catch {execsql {UPDATE test1 SET f3=f1*2 WHERE f2==32}} msg] lappend v $msg } {1 {no such column: f3}} # Actually do some updates # do_test update-3.5 { execsql {UPDATE test1 SET f2=f2*3} } {} do_test update-3.5.1 { db changes } {10} # verify that SELECT does not reset the change counter do_test update-3.5.2 { db eval {SELECT count(*) FROM test1} } {10} do_test update-3.5.3 { db changes } {10} do_test update-3.6 { execsql {SELECT * FROM test1 ORDER BY f1} } {1 6 2 12 3 24 4 48 5 96 6 192 7 384 8 768 9 1536 10 3072} do_test update-3.7 { execsql {PRAGMA count_changes=on} execsql {UPDATE test1 SET f2=f2/3 WHERE f1<=5} } {5} do_test update-3.8 { execsql {SELECT * FROM test1 ORDER BY f1} } {1 2 2 4 3 8 4 16 5 32 6 192 7 384 8 768 9 1536 10 3072} do_test update-3.9 { execsql {UPDATE test1 SET f2=f2/3 WHERE f1>5} } {5} do_test update-3.10 { execsql {SELECT * FROM test1 ORDER BY f1} } {1 2 2 4 3 8 4 16 5 32 6 64 7 128 8 256 9 512 10 1024} # Swap the values of f1 and f2 for all elements # do_test update-3.11 { execsql {UPDATE test1 SET F2=f1, F1=f2} } {10} do_test update-3.12 { execsql {SELECT * FROM test1 ORDER BY F1} } {2 1 4 2 8 3 16 4 32 5 64 6 128 7 256 8 512 9 1024 10} do_test update-3.13 { execsql {PRAGMA count_changes=off} execsql {UPDATE test1 SET F2=f1, F1=f2} } {} do_test update-3.14 { execsql {SELECT * FROM test1 ORDER BY F1} } {1 2 2 4 3 8 4 16 5 32 6 64 7 128 8 256 9 512 10 1024} # Create duplicate entries and make sure updating still # works. # do_test update-4.0 { execsql { DELETE FROM test1 WHERE f1<=5; INSERT INTO test1(f1,f2) VALUES(8,88); INSERT INTO test1(f1,f2) VALUES(8,888); INSERT INTO test1(f1,f2) VALUES(77,128); INSERT INTO test1(f1,f2) VALUES(777,128); } execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-4.1 { execsql {UPDATE test1 SET f2=f2+1 WHERE f1==8} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 889 9 512 10 1024 77 128 777 128} do_test update-4.2 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2>800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 888 9 512 10 1024 77 128 777 128} do_test update-4.3 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2<800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-4.4 { execsql {UPDATE test1 SET f1=f1+1 WHERE f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 778 128} do_test update-4.5 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1>100 and f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 777 128} do_test update-4.6 { execsql { PRAGMA count_changes=on; UPDATE test1 SET f1=f1-1 WHERE f1<=100 and f2==128; } } {2} do_test update-4.7 { execsql { PRAGMA count_changes=off; SELECT * FROM test1 ORDER BY f1,f2 } } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} # Repeat the previous sequence of tests with an index. # do_test update-5.0 { execsql {CREATE INDEX idx1 ON test1(f1)} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-5.1 { execsql {UPDATE test1 SET f2=f2+1 WHERE f1==8} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 889 9 512 10 1024 77 128 777 128} do_test update-5.2 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2>800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 888 9 512 10 1024 77 128 777 128} do_test update-5.3 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2<800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-5.4 { execsql {UPDATE test1 SET f1=f1+1 WHERE f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 778 128} do_test update-5.4.1 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-5.4.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {778 128} do_test update-5.4.3 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-5.5 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1>100 and f2==128} } {} do_test update-5.5.1 { execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 777 128} do_test update-5.5.2 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-5.5.3 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-5.5.4 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-5.5.5 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-5.6 { execsql { PRAGMA count_changes=on; UPDATE test1 SET f1=f1-1 WHERE f1<=100 and f2==128; } } {2} do_test update-5.6.1 { execsql { PRAGMA count_changes=off; SELECT * FROM test1 ORDER BY f1,f2 } } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-5.6.2 { execsql {SELECT * FROM test1 WHERE f1==77 ORDER BY f1,f2} } {77 128} do_test update-5.6.3 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-5.6.4 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-5.6.5 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 256 8 888} # Repeat the previous sequence of tests with a different index. # execsql {PRAGMA synchronous=FULL} do_test update-6.0 { execsql {DROP INDEX idx1} execsql {CREATE INDEX idx1 ON test1(f2)} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-6.1 { execsql {UPDATE test1 SET f2=f2+1 WHERE f1==8} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 889 9 512 10 1024 77 128 777 128} do_test update-6.1.1 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 89 8 257 8 889} do_test update-6.1.2 { execsql {SELECT * FROM test1 WHERE f2==89 ORDER BY f1,f2} } {8 89} do_test update-6.1.3 { execsql {SELECT * FROM test1 WHERE f1==88 ORDER BY f1,f2} } {} do_test update-6.2 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2>800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 888 9 512 10 1024 77 128 777 128} do_test update-6.3 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2<800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-6.3.1 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 256 8 888} do_test update-6.3.2 { execsql {SELECT * FROM test1 WHERE f2==89 ORDER BY f1,f2} } {} do_test update-6.3.3 { execsql {SELECT * FROM test1 WHERE f2==88 ORDER BY f1,f2} } {8 88} do_test update-6.4 { execsql {UPDATE test1 SET f1=f1+1 WHERE f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 778 128} do_test update-6.4.1 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-6.4.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {778 128} do_test update-6.4.3 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-6.5 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1>100 and f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 777 128} do_test update-6.5.1 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-6.5.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-6.5.3 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-6.5.4 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-6.6 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1<=100 and f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-6.6.1 { execsql {SELECT * FROM test1 WHERE f1==77 ORDER BY f1,f2} } {77 128} do_test update-6.6.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-6.6.3 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-6.6.4 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 256 8 888} # Repeat the previous sequence of tests with multiple # indices # do_test update-7.0 { execsql {CREATE INDEX idx2 ON test1(f2)} execsql {CREATE INDEX idx3 ON test1(f1,f2)} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-7.1 { execsql {UPDATE test1 SET f2=f2+1 WHERE f1==8} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 889 9 512 10 1024 77 128 777 128} do_test update-7.1.1 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 89 8 257 8 889} do_test update-7.1.2 { execsql {SELECT * FROM test1 WHERE f2==89 ORDER BY f1,f2} } {8 89} do_test update-7.1.3 { execsql {SELECT * FROM test1 WHERE f1==88 ORDER BY f1,f2} } {} do_test update-7.2 { execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2>800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 89 8 257 8 888 9 512 10 1024 77 128 777 128} do_test update-7.3 { # explain {UPDATE test1 SET f2=f2-1 WHERE f1==8 and F2<300} execsql {UPDATE test1 SET f2=f2-1 WHERE f1==8 and f2<800} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-7.3.1 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 256 8 888} do_test update-7.3.2 { execsql {SELECT * FROM test1 WHERE f2==89 ORDER BY f1,f2} } {} do_test update-7.3.3 { execsql {SELECT * FROM test1 WHERE f2==88 ORDER BY f1,f2} } {8 88} do_test update-7.4 { execsql {UPDATE test1 SET f1=f1+1 WHERE f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 778 128} do_test update-7.4.1 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-7.4.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {778 128} do_test update-7.4.3 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-7.5 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1>100 and f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 8 88 8 128 8 256 8 888 9 512 10 1024 78 128 777 128} do_test update-7.5.1 { execsql {SELECT * FROM test1 WHERE f1==78 ORDER BY f1,f2} } {78 128} do_test update-7.5.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-7.5.3 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-7.5.4 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 128 8 256 8 888} do_test update-7.6 { execsql {UPDATE test1 SET f1=f1-1 WHERE f1<=100 and f2==128} execsql {SELECT * FROM test1 ORDER BY f1,f2} } {6 64 7 128 8 88 8 256 8 888 9 512 10 1024 77 128 777 128} do_test update-7.6.1 { execsql {SELECT * FROM test1 WHERE f1==77 ORDER BY f1,f2} } {77 128} do_test update-7.6.2 { execsql {SELECT * FROM test1 WHERE f1==778 ORDER BY f1,f2} } {} do_test update-7.6.3 { execsql {SELECT * FROM test1 WHERE f1==777 ORDER BY f1,f2} } {777 128} do_test update-7.6.4 { execsql {SELECT * FROM test1 WHERE f1==8 ORDER BY f1,f2} } {8 88 8 256 8 888} # Error messages # do_test update-9.1 { set v [catch {execsql { UPDATE test1 SET x=11 WHERE f1=1025 }} msg] lappend v $msg } {1 {no such column: x}} do_test update-9.2 { set v [catch {execsql { UPDATE test1 SET f1=x(11) WHERE f1=1025 }} msg] lappend v $msg } {1 {no such function: x}} do_test update-9.3 { set v [catch {execsql { UPDATE test1 SET f1=11 WHERE x=1025 }} msg] lappend v $msg } {1 {no such column: x}} do_test update-9.4 { set v [catch {execsql { UPDATE test1 SET f1=11 WHERE x(f1)=1025 }} msg] lappend v $msg } {1 {no such function: x}} # Try doing updates on a unique column where the value does not # really change. # do_test update-10.1 { execsql { DROP TABLE test1; CREATE TABLE t1( a integer primary key, b UNIQUE, c, d, e, f, UNIQUE(c,d) ); INSERT INTO t1 VALUES(1,2,3,4,5,6); INSERT INTO t1 VALUES(2,3,4,4,6,7); SELECT * FROM t1 } } {1 2 3 4 5 6 2 3 4 4 6 7} do_test update-10.2 { catchsql { UPDATE t1 SET a=1, e=9 WHERE f=6; SELECT * FROM t1; } } {0 {1 2 3 4 9 6 2 3 4 4 6 7}} do_test update-10.3 { catchsql { UPDATE t1 SET a=1, e=10 WHERE f=7; SELECT * FROM t1; } } {1 {UNIQUE constraint failed: t1.a}} do_test update-10.4 { catchsql { SELECT * FROM t1; } } {0 {1 2 3 4 9 6 2 3 4 4 6 7}} do_test update-10.5 { catchsql { UPDATE t1 SET b=2, e=11 WHERE f=6; SELECT * FROM t1; } } {0 {1 2 3 4 11 6 2 3 4 4 6 7}} do_test update-10.6 { catchsql { UPDATE t1 SET b=2, e=12 WHERE f=7; SELECT * FROM t1; } } {1 {UNIQUE constraint failed: t1.b}} do_test update-10.7 { catchsql { SELECT * FROM t1; } } {0 {1 2 3 4 11 6 2 3 4 4 6 7}} do_test update-10.8 { catchsql { UPDATE t1 SET c=3, d=4, e=13 WHERE f=6; SELECT * FROM t1; } } {0 {1 2 3 4 13 6 2 3 4 4 6 7}} do_test update-10.9 { catchsql { UPDATE t1 SET c=3, d=4, e=14 WHERE f=7; SELECT * FROM t1; } } {1 {UNIQUE constraint failed: t1.c, t1.d}} do_test update-10.10 { catchsql { SELECT * FROM t1; } } {0 {1 2 3 4 13 6 2 3 4 4 6 7}} # Make sure we can handle a subquery in the where clause. # ifcapable subquery { do_test update-11.1 { execsql { UPDATE t1 SET e=e+1 WHERE b IN (SELECT b FROM t1); SELECT b,e FROM t1; } } {2 14 3 7} do_test update-11.2 { execsql { UPDATE t1 SET e=e+1 WHERE a IN (SELECT a FROM t1); SELECT a,e FROM t1; } } {1 15 2 8} do_test update-11.3 { execsql { UPDATE t1 AS xyz SET e=e+1 WHERE xyz.a IN (SELECT a FROM t1); SELECT a,e FROM t1; } } {1 16 2 9} do_test update-11.4 { execsql { UPDATE t1 AS xyz SET e=e+1 WHERE EXISTS(SELECT 1 FROM t1 WHERE t1.a<xyz.a); SELECT a,e FROM t1; } } {1 16 2 10} } integrity_check update-12.1 # Ticket 602. Updates should occur in the same order as the records # were discovered in the WHERE clause. # do_test update-13.1 { execsql { BEGIN; CREATE TABLE t2(a); INSERT INTO t2 VALUES(1); INSERT INTO t2 VALUES(2); INSERT INTO t2 SELECT a+2 FROM t2; INSERT INTO t2 SELECT a+4 FROM t2; INSERT INTO t2 SELECT a+8 FROM t2; INSERT INTO t2 SELECT a+16 FROM t2; INSERT INTO t2 SELECT a+32 FROM t2; INSERT INTO t2 SELECT a+64 FROM t2; INSERT INTO t2 SELECT a+128 FROM t2; INSERT INTO t2 SELECT a+256 FROM t2; INSERT INTO t2 SELECT a+512 FROM t2; INSERT INTO t2 SELECT a+1024 FROM t2; COMMIT; SELECT count(*) FROM t2; } } {2048} do_test update-13.2 { execsql { SELECT count(*) FROM t2 WHERE a=rowid; } } {2048} do_test update-13.3 { execsql { UPDATE t2 SET rowid=rowid-1; SELECT count(*) FROM t2 WHERE a=rowid+1; } } {2048} do_test update-13.3 { execsql { UPDATE t2 SET rowid=rowid+10000; UPDATE t2 SET rowid=rowid-9999; SELECT count(*) FROM t2 WHERE a=rowid; } } {2048} do_test update-13.4 { execsql { BEGIN; INSERT INTO t2 SELECT a+2048 FROM t2; INSERT INTO t2 SELECT a+4096 FROM t2; INSERT INTO t2 SELECT a+8192 FROM t2; SELECT count(*) FROM t2 WHERE a=rowid; COMMIT; } } 16384 do_test update-13.5 { execsql { UPDATE t2 SET rowid=rowid-1; SELECT count(*) FROM t2 WHERE a=rowid+1; } } 16384 integrity_check update-13.6 ifcapable {trigger} { # Test for proper detection of malformed WHEN clauses on UPDATE triggers. # do_test update-14.1 { execsql { CREATE TABLE t3(a,b,c); CREATE TRIGGER t3r1 BEFORE UPDATE on t3 WHEN nosuchcol BEGIN SELECT 'illegal WHEN clause'; END; } } {} do_test update-14.2 { catchsql { UPDATE t3 SET a=1; } } {1 {no such column: nosuchcol}} do_test update-14.3 { execsql { CREATE TABLE t4(a,b,c); CREATE TRIGGER t4r1 AFTER UPDATE on t4 WHEN nosuchcol BEGIN SELECT 'illegal WHEN clause'; END; } } {} do_test update-14.4 { catchsql { UPDATE t4 SET a=1; } } {1 {no such column: nosuchcol}} } ;# ifcapable {trigger} # Ticket [https://www.sqlite.org/src/tktview/43107840f1c02] on 2014-10-29 # An assertion fault on UPDATE # ifcapable altertable { do_execsql_test update-15.1 { CREATE TABLE t15(a INTEGER PRIMARY KEY, b); INSERT INTO t15(a,b) VALUES(10,'abc'),(20,'def'),(30,'ghi'); ALTER TABLE t15 ADD COLUMN c; CREATE INDEX t15c ON t15(c); INSERT INTO t15(a,b) VALUES(5,'zyx'),(15,'wvu'),(25,'tsr'),(35,'qpo'); UPDATE t15 SET c=printf('y%d',a) WHERE c IS NULL; SELECT a,b,c,'|' FROM t15 ORDER BY a; } {5 zyx y5 | 10 abc y10 | 15 wvu y15 | 20 def y20 | 25 tsr y25 | 30 ghi y30 | 35 qpo y35 |} } # Unreleased bug in UPDATE caused by the UPSERT changes. # Found by OSSFuzz as soon as the UPSERT changes landed on trunk. # Never released into the wild. 2018-04-19. # do_execsql_test update-16.1 { CREATE TABLE t16(a INTEGER PRIMARY KEY ON CONFLICT REPLACE, b UNIQUE); INSERT INTO t16(a,b) VALUES(1,2),(3,4),(5,6); UPDATE t16 SET a=a; SELECT * FROM t16 ORDER BY +a; } {1 2 3 4 5 6} # 2019-12-09 gramfuzz find # If a partial index that does not reference any column of its table (which is you # must admit is a very strange index, but one that is allowed) is used by an UPDATE # statement, void the use of OP_DeferredSeek on the main loop, as the seek will not # be resolved prior to the OP_Delete. # do_execsql_test update-17.10 { DROP TABLE IF EXISTS t1; CREATE TABLE t1(x,y); INSERT INTO t1(x) VALUES(1); CREATE INDEX t1x1 ON t1(1) WHERE 3; UPDATE t1 SET x=2, y=3 WHERE 3; SELECT * FROM t1; } {2 3} # 2019-12-22 ticket 5ad2aa6921faa1ee # Make a hard-copy of values that need to be run through OP_RealAffinity # rather than a soft-copy. This is not strictly necessary, but it avoids # a memory-accounting assert(). # reset_db do_execsql_test update-18.10 { PRAGMA encoding = 'UTF16'; CREATE TABLE t0(c0 REAL, c1); INSERT INTO t0(c0,c1) VALUES('xyz',11),('uvw',22); CREATE INDEX i0 ON t0(c1) WHERE c0 GLOB 3; CREATE INDEX i1 ON t0(c0,c1) WHERE typeof(c0)='text' AND typeof(c1)='integer'; UPDATE t0 SET c1=345; SELECT * FROM t0; } {xyz 345 uvw 345} # 2019-12-22 ticket c62c5e58524b204d # This is really the same underlying problem as 5ad2aa6921faa1ee # reset_db do_execsql_test update-18.20 { PRAGMA encoding = 'utf16'; CREATE TABLE t0(c0 TEXT); CREATE INDEX i0 ON t0(0 LIKE COALESCE(c0, 0)); INSERT INTO t0(c0) VALUES (0), (0); SELECT * FROM t0; } {0 0} # 2019-12-28 assertion fault reported by Yongheng # Similar to ticket ec8abb025e78f40c # An UPDATE was reaching the OP_Delete after running OP_DeferredSeek # without ever hitting an OP_Column. The enhanced solution is to # fix OP_Delete so that it can do the seek itself. # reset_db do_execsql_test update-19.10 { CREATE TABLE t1( a TEXT, b INTEGER PRIMARY KEY UNIQUE ); INSERT INTO t1 VALUES(1,2); UPDATE t1 SET a = quote(b) WHERE b>=2; SELECT * FROM t1; } {2 2} # 2019-12-29 ticket https://www.sqlite.org/src/info/314cc133e5ada126 # REPLACE conflict resolution during an UPDATE causes a DELETE trigger # to fire. If that DELETE trigger subsequently modifies the row # being updated, bad things can happen. Prevent this by prohibiting # triggers from making changes to the table being updated while doing # REPLACE conflict resolution on the UPDATE. # # See also tickets: # https://www.sqlite.org/src/info/c1e19e12046d23fe 2019-10-25 # https://www.sqlite.org/src/info/a8a4847a2d96f5de 2019-10-16 # reset_db do_execsql_test update-20.10 { PRAGMA recursive_triggers = true; CREATE TABLE t1(a UNIQUE ON CONFLICT REPLACE, b); INSERT INTO t1(a,b) VALUES(4,12),(9,13); CREATE INDEX i0 ON t1(b); CREATE TRIGGER tr0 DELETE ON t1 BEGIN UPDATE t1 SET b = a; END; PRAGMA integrity_check; } {ok} do_catchsql_test update-20.20 { UPDATE t1 SET a=0; } {1 {constraint failed}} do_execsql_test update-20.30 { PRAGMA integrity_check; } {ok} # 2023-03-16 https://sqlite.org/forum/forumpost/0007d1fdb1 # A subquery in the WHERE clause of an UPDATE and behind a # short-circuit evaluation caused problems because multi-row # single-pass was selected. # # Similar problem for DELETE tested by delete-12.0. # https://sqlite.org/src/info/73f0036f045bf371 # reset_db do_execsql_test update-21.1 { CREATE TABLE t1 (vkey INTEGER, c5 INTEGER); INSERT INTO t1 VALUES(3,NULL),(6,-54); } db null NULL do_execsql_test update-21.2 { BEGIN; UPDATE t1 SET vkey = 100 WHERE c5 is null; SELECT * FROM t1 ORDER BY vkey, c5; ROLLBACK; } {6 -54 100 NULL} do_execsql_test update-21.3 { BEGIN; UPDATE t1 SET vkey = 100 WHERE NOT (-10*(select min(vkey) from t1) >= c5); SELECT * FROM t1 ORDER BY vkey, c5; ROLLBACK; } {3 NULL 6 -54} do_execsql_test update-21.4 { BEGIN; UPDATE t1 SET vkey = 100 WHERE c5 is null OR NOT (-10*(select min(vkey) from t1) >= c5); SELECT * FROM t1 ORDER BY vkey, c5; ROLLBACK; } {6 -54 100 NULL} finish_test