# 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 sorter (code in vdbesort.c). # set testdir [file dirname $argv0] source $testdir/tester.tcl # Create a bunch of data to sort against # do_test sort-1.0 { execsql { CREATE TABLE t1( n int, v varchar(10), log int, roman varchar(10), flt real ); INSERT INTO t1 VALUES(1,'one',0,'I',3.141592653); INSERT INTO t1 VALUES(2,'two',1,'II',2.15); INSERT INTO t1 VALUES(3,'three',1,'III',4221.0); INSERT INTO t1 VALUES(4,'four',2,'IV',-0.0013442); INSERT INTO t1 VALUES(5,'five',2,'V',-11); INSERT INTO t1 VALUES(6,'six',2,'VI',0.123); INSERT INTO t1 VALUES(7,'seven',2,'VII',123.0); INSERT INTO t1 VALUES(8,'eight',3,'VIII',-1.6); } execsql {SELECT count(*) FROM t1} } {8} do_test sort-1.1 { execsql {SELECT n FROM t1 ORDER BY n} } {1 2 3 4 5 6 7 8} do_test sort-1.1.1 { execsql {SELECT n FROM t1 ORDER BY n ASC} } {1 2 3 4 5 6 7 8} do_test sort-1.1.1 { execsql {SELECT ALL n FROM t1 ORDER BY n ASC} } {1 2 3 4 5 6 7 8} do_test sort-1.2 { execsql {SELECT n FROM t1 ORDER BY n DESC} } {8 7 6 5 4 3 2 1} do_test sort-1.3a { execsql {SELECT v FROM t1 ORDER BY v} } {eight five four one seven six three two} do_test sort-1.3b { execsql {SELECT n FROM t1 ORDER BY v} } {8 5 4 1 7 6 3 2} do_test sort-1.4 { execsql {SELECT n FROM t1 ORDER BY v DESC} } {2 3 6 7 1 4 5 8} do_test sort-1.5 { execsql {SELECT flt FROM t1 ORDER BY flt} } {-11.0 -1.6 -0.0013442 0.123 2.15 3.141592653 123.0 4221.0} do_test sort-1.6 { execsql {SELECT flt FROM t1 ORDER BY flt DESC} } {4221.0 123.0 3.141592653 2.15 0.123 -0.0013442 -1.6 -11.0} do_test sort-1.7 { execsql {SELECT roman FROM t1 ORDER BY roman} } {I II III IV V VI VII VIII} do_test sort-1.8 { execsql {SELECT n FROM t1 ORDER BY log, flt} } {1 2 3 5 4 6 7 8} do_test sort-1.8.1 { execsql {SELECT n FROM t1 ORDER BY log asc, flt} } {1 2 3 5 4 6 7 8} do_test sort-1.8.2 { execsql {SELECT n FROM t1 ORDER BY log, flt ASC} } {1 2 3 5 4 6 7 8} do_test sort-1.8.3 { execsql {SELECT n FROM t1 ORDER BY log ASC, flt asc} } {1 2 3 5 4 6 7 8} do_test sort-1.9 { execsql {SELECT n FROM t1 ORDER BY log, flt DESC} } {1 3 2 7 6 4 5 8} do_test sort-1.9.1 { execsql {SELECT n FROM t1 ORDER BY log ASC, flt DESC} } {1 3 2 7 6 4 5 8} do_test sort-1.10 { execsql {SELECT n FROM t1 ORDER BY log DESC, flt} } {8 5 4 6 7 2 3 1} do_test sort-1.11 { execsql {SELECT n FROM t1 ORDER BY log DESC, flt DESC} } {8 7 6 4 5 3 2 1} # These tests are designed to reach some hard-to-reach places # inside the string comparison routines. # # (Later) The sorting behavior changed in 2.7.0. But we will # keep these tests. You can never have too many test cases! # do_test sort-2.1.1 { execsql { UPDATE t1 SET v='x' || -flt; UPDATE t1 SET v='x-2b' where v=='x-0.123'; SELECT v FROM t1 ORDER BY v; } } {x-123.0 x-2.15 x-2b x-3.141592653 x-4221.0 x0.0013442 x1.6 x11.0} do_test sort-2.1.2 { execsql { SELECT v FROM t1 ORDER BY substr(v,2,999); } } {x-123.0 x-2.15 x-2b x-3.141592653 x-4221.0 x0.0013442 x1.6 x11.0} do_test sort-2.1.3 { execsql { SELECT v FROM t1 ORDER BY substr(v,2,999)+0.0; } } {x-4221.0 x-123.0 x-3.141592653 x-2.15 x-2b x0.0013442 x1.6 x11.0} do_test sort-2.1.4 { execsql { SELECT v FROM t1 ORDER BY substr(v,2,999) DESC; } } {x11.0 x1.6 x0.0013442 x-4221.0 x-3.141592653 x-2b x-2.15 x-123.0} do_test sort-2.1.5 { execsql { SELECT v FROM t1 ORDER BY substr(v,2,999)+0.0 DESC; } } {x11.0 x1.6 x0.0013442 x-2b x-2.15 x-3.141592653 x-123.0 x-4221.0} # This is a bug fix for 2.2.4. # Strings are normally mapped to upper-case for a caseless comparison. # But this can cause problems for characters in between 'Z' and 'a'. # do_test sort-3.1 { execsql { CREATE TABLE t2(a,b); INSERT INTO t2 VALUES('AGLIENTU',1); INSERT INTO t2 VALUES('AGLIE`',2); INSERT INTO t2 VALUES('AGNA',3); SELECT a, b FROM t2 ORDER BY a; } } {AGLIENTU 1 AGLIE` 2 AGNA 3} do_test sort-3.2 { execsql { SELECT a, b FROM t2 ORDER BY a DESC; } } {AGNA 3 AGLIE` 2 AGLIENTU 1} do_test sort-3.3 { execsql { DELETE FROM t2; INSERT INTO t2 VALUES('aglientu',1); INSERT INTO t2 VALUES('aglie`',2); INSERT INTO t2 VALUES('agna',3); SELECT a, b FROM t2 ORDER BY a; } } {aglie` 2 aglientu 1 agna 3} do_test sort-3.4 { execsql { SELECT a, b FROM t2 ORDER BY a DESC; } } {agna 3 aglientu 1 aglie` 2} # Version 2.7.0 testing. # do_test sort-4.1 { execsql { INSERT INTO t1 VALUES(9,'x2.7',3,'IX',4.0e5); INSERT INTO t1 VALUES(10,'x5.0e10',3,'X',-4.0e5); INSERT INTO t1 VALUES(11,'x-4.0e9',3,'XI',4.1e4); INSERT INTO t1 VALUES(12,'x01234567890123456789',3,'XII',-4.2e3); SELECT n FROM t1 ORDER BY n; } } {1 2 3 4 5 6 7 8 9 10 11 12} do_test sort-4.2 { execsql { SELECT n||'' FROM t1 ORDER BY 1; } } {1 10 11 12 2 3 4 5 6 7 8 9} do_test sort-4.3 { execsql { SELECT n+0 FROM t1 ORDER BY 1; } } {1 2 3 4 5 6 7 8 9 10 11 12} do_test sort-4.4 { execsql { SELECT n||'' FROM t1 ORDER BY 1 DESC; } } {9 8 7 6 5 4 3 2 12 11 10 1} do_test sort-4.5 { execsql { SELECT n+0 FROM t1 ORDER BY 1 DESC; } } {12 11 10 9 8 7 6 5 4 3 2 1} do_test sort-4.6 { execsql { SELECT v FROM t1 ORDER BY 1; } } {x-123.0 x-2.15 x-2b x-3.141592653 x-4.0e9 x-4221.0 x0.0013442 x01234567890123456789 x1.6 x11.0 x2.7 x5.0e10} do_test sort-4.7 { execsql { SELECT v FROM t1 ORDER BY 1 DESC; } } {x5.0e10 x2.7 x11.0 x1.6 x01234567890123456789 x0.0013442 x-4221.0 x-4.0e9 x-3.141592653 x-2b x-2.15 x-123.0} do_test sort-4.8 { execsql { SELECT substr(v,2,99) FROM t1 ORDER BY 1; } } {-123.0 -2.15 -2b -3.141592653 -4.0e9 -4221.0 0.0013442 01234567890123456789 1.6 11.0 2.7 5.0e10} #do_test sort-4.9 { # execsql { # SELECT substr(v,2,99)+0.0 FROM t1 ORDER BY 1; # } #} {-4000000000 -4221 -123 -3.141592653 -2.15 -2 0.0013442 1.6 2.7 11 50000000000 1.23456789012346e+18} do_test sort-5.1 { execsql { create table t3(a,b); insert into t3 values(5,NULL); insert into t3 values(6,NULL); insert into t3 values(3,NULL); insert into t3 values(4,'cd'); insert into t3 values(1,'ab'); insert into t3 values(2,NULL); select a from t3 order by b, a; } } {2 3 5 6 1 4} do_test sort-5.2 { execsql { select a from t3 order by b, a desc; } } {6 5 3 2 1 4} do_test sort-5.3 { execsql { select a from t3 order by b desc, a; } } {4 1 2 3 5 6} do_test sort-5.4 { execsql { select a from t3 order by b desc, a desc; } } {4 1 6 5 3 2} do_test sort-6.1 { execsql { create index i3 on t3(b,a); select a from t3 order by b, a; } } {2 3 5 6 1 4} do_test sort-6.2 { execsql { select a from t3 order by b, a desc; } } {6 5 3 2 1 4} do_test sort-6.3 { execsql { select a from t3 order by b desc, a; } } {4 1 2 3 5 6} do_test sort-6.4 { execsql { select a from t3 order by b desc, a desc; } } {4 1 6 5 3 2} do_test sort-7.1 { execsql { CREATE TABLE t4( a INTEGER, b VARCHAR(30) ); INSERT INTO t4 VALUES(1,1); INSERT INTO t4 VALUES(2,2); INSERT INTO t4 VALUES(11,11); INSERT INTO t4 VALUES(12,12); SELECT a FROM t4 ORDER BY 1; } } {1 2 11 12} do_test sort-7.2 { execsql { SELECT b FROM t4 ORDER BY 1 } } {1 11 12 2} # Omit tests sort-7.3 to sort-7.8 if view support was disabled at # compilatation time. ifcapable view { do_test sort-7.3 { execsql { CREATE VIEW v4 AS SELECT * FROM t4; SELECT a FROM v4 ORDER BY 1; } } {1 2 11 12} do_test sort-7.4 { execsql { SELECT b FROM v4 ORDER BY 1; } } {1 11 12 2} ifcapable compound { do_test sort-7.5 { execsql { SELECT a FROM t4 UNION SELECT a FROM v4 ORDER BY 1; } } {1 2 11 12} do_test sort-7.6 { execsql { SELECT b FROM t4 UNION SELECT a FROM v4 ORDER BY 1; } } {1 2 11 12 1 11 12 2} ;# text from t4.b and numeric from v4.a do_test sort-7.7 { execsql { SELECT a FROM t4 UNION SELECT b FROM v4 ORDER BY 1; } } {1 2 11 12 1 11 12 2} ;# numeric from t4.a and text from v4.b do_test sort-7.8 { execsql { SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1; } } {1 11 12 2} } ;# ifcapable compound } ;# ifcapable view #### Version 3 works differently here: #do_test sort-7.9 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE numeric; # } #} {1 2 11 12} #do_test sort-7.10 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE integer; # } #} {1 2 11 12} #do_test sort-7.11 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE text; # } #} {1 11 12 2} #do_test sort-7.12 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE blob; # } #} {1 11 12 2} #do_test sort-7.13 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE clob; # } #} {1 11 12 2} #do_test sort-7.14 { # execsql { # SELECT b FROM t4 UNION SELECT b FROM v4 ORDER BY 1 COLLATE varchar; # } #} {1 11 12 2} # Ticket #297 # do_test sort-8.1 { execsql { CREATE TABLE t5(a real, b text); INSERT INTO t5 VALUES(100,'A1'); INSERT INTO t5 VALUES(100.0,'A2'); SELECT * FROM t5 ORDER BY a, b; } } {100.0 A1 100.0 A2} ifcapable {bloblit} { # BLOBs should sort after TEXT # do_test sort-9.1 { execsql { CREATE TABLE t6(x, y); INSERT INTO t6 VALUES(1,1); INSERT INTO t6 VALUES(2,'1'); INSERT INTO t6 VALUES(3,x'31'); INSERT INTO t6 VALUES(4,NULL); SELECT x FROM t6 ORDER BY y; } } {4 1 2 3} do_test sort-9.2 { execsql { SELECT x FROM t6 ORDER BY y DESC; } } {3 2 1 4} do_test sort-9.3 { execsql { SELECT x FROM t6 WHERE y<1 } } {} do_test sort-9.4 { execsql { SELECT x FROM t6 WHERE y<'1' } } {1} do_test sort-9.5 { execsql { SELECT x FROM t6 WHERE y1 } } {2 3} do_test sort-9.7 { execsql { SELECT x FROM t6 WHERE y>'1' } } {3} } ;# endif bloblit # Ticket #1092 - ORDER BY on rowid fields. do_test sort-10.1 { execsql { CREATE TABLE t7(c INTEGER PRIMARY KEY); INSERT INTO t7 VALUES(1); INSERT INTO t7 VALUES(2); INSERT INTO t7 VALUES(3); INSERT INTO t7 VALUES(4); } } {} do_test sort-10.2 { execsql { SELECT c FROM t7 WHERE c<=3 ORDER BY c DESC; } } {3 2 1} do_test sort-10.3 { execsql { SELECT c FROM t7 WHERE c<3 ORDER BY c DESC; } } {2 1} # ticket #1358. Just because one table in a join gives a unique # result does not mean they all do. We cannot disable sorting unless # all tables in the join give unique results. # do_test sort-11.1 { execsql { create table t8(a unique, b, c); insert into t8 values(1,2,3); insert into t8 values(2,3,4); create table t9(x,y); insert into t9 values(2,4); insert into t9 values(2,3); select y from t8, t9 where a=1 order by a, y; } } {3 4} # Trouble reported on the mailing list. Check for overly aggressive # (which is to say, incorrect) optimization of order-by with a rowid # in a join. # do_test sort-12.1 { execsql { create table a (id integer primary key); create table b (id integer primary key, aId integer, text); insert into a values (1); insert into b values (2, 1, 'xxx'); insert into b values (1, 1, 'zzz'); insert into b values (3, 1, 'yyy'); select a.id, b.id, b.text from a join b on (a.id = b.aId) order by a.id, b.text; } } {1 2 xxx 1 3 yyy 1 1 zzz} #------------------------------------------------------------------------- # Check that the sorter in vdbesort.c sorts in a stable fashion. # do_execsql_test sort-13.0 { CREATE TABLE t10(a, b); } do_test sort-13.1 { db transaction { for {set i 0} {$i < 100000} {incr i} { execsql { INSERT INTO t10 VALUES( $i/10, $i%10 ) } } } } {} do_execsql_test sort-13.2 { SELECT a, b FROM t10 ORDER BY a; } [db eval {SELECT a, b FROM t10 ORDER BY a, b}] do_execsql_test sort-13.3 { PRAGMA cache_size = 5; SELECT a, b FROM t10 ORDER BY a; } [db eval {SELECT a, b FROM t10 ORDER BY a, b}] #------------------------------------------------------------------------- # Sort some large ( > 4KiB) records. # proc cksum {x} { set i1 1 set i2 2 binary scan $x c* L foreach {a b} $L { set i1 [expr (($i2<<3) + $a) & 0x7FFFFFFF] set i2 [expr (($i1<<3) + $b) & 0x7FFFFFFF] } list $i1 $i2 } db func cksum cksum do_execsql_test sort-14.0 { PRAGMA cache_size = 5; CREATE TABLE t11(a, b); INSERT INTO t11 VALUES(randomblob(5000), NULL); INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --2 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --3 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --4 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --5 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --6 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --7 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --8 INSERT INTO t11 SELECT randomblob(5000), NULL FROM t11; --9 UPDATE t11 SET b = cksum(a); } foreach {tn mmap_limit} { 1 0 2 1000000 } { do_test sort-14.$tn { sqlite3_test_control SQLITE_TESTCTRL_SORTER_MMAP db $mmap_limit set prev "" db eval { SELECT * FROM t11 ORDER BY b } { if {$b != [cksum $a]} {error "checksum failed"} if {[string compare $b $prev] < 0} {error "sort failed"} set prev $b } set {} {} } {} } #------------------------------------------------------------------------- # foreach {tn mmap_limit nWorker tmpstore coremutex fakeheap softheaplimit} { 1 0 3 file true false 0 2 0 3 file true true 0 3 0 0 file true false 0 4 1000000 3 file true false 0 5 0 0 memory false true 0 6 0 0 file false true 1000000 7 0 0 file false true 10000 } { db close sqlite3_shutdown if {$coremutex} { sqlite3_config multithread } else { sqlite3_config singlethread } sqlite3_initialize sorter_test_fakeheap $fakeheap sqlite3_soft_heap_limit $softheaplimit reset_db sqlite3_test_control SQLITE_TESTCTRL_SORTER_MMAP db $mmap_limit execsql "PRAGMA temp_store = $tmpstore; PRAGMA threads = $nWorker" set ten [string repeat X 10300] set one [string repeat y 200] if {$softheaplimit} { execsql { PRAGMA cache_size = 20 }; } else { execsql { PRAGMA cache_size = 5 }; } do_execsql_test 15.$tn.1 { WITH rr AS ( SELECT 4, $ten UNION ALL SELECT 2, $one UNION ALL SELECT 1, $ten UNION ALL SELECT 3, $one ) SELECT * FROM rr ORDER BY 1; } [list 1 $ten 2 $one 3 $one 4 $ten] do_execsql_test 15.$tn.2 { CREATE TABLE t1(a); INSERT INTO t1 VALUES(4); INSERT INTO t1 VALUES(5); INSERT INTO t1 VALUES(3); INSERT INTO t1 VALUES(2); INSERT INTO t1 VALUES(6); INSERT INTO t1 VALUES(1); CREATE INDEX i1 ON t1(a); SELECT * FROM t1 ORDER BY a; } {1 2 3 4 5 6} do_execsql_test 15.$tn.3 { WITH rr AS ( SELECT 4, $ten UNION ALL SELECT 2, $one ) SELECT * FROM rr ORDER BY 1; } [list 2 $one 4 $ten] sorter_test_fakeheap 0 } db close sqlite3_shutdown set t(0) singlethread set t(1) multithread set t(2) serialized sqlite3_config $t($sqlite_options(threadsafe)) sqlite3_initialize sqlite3_soft_heap_limit 0 reset_db do_catchsql_test 16.1 { CREATE TABLE t1(a, b, c); INSERT INTO t1 VALUES(1, 2, 3); INSERT INTO t1 VALUES(1, NULL, 3); INSERT INTO t1 VALUES(NULL, 2, 3); INSERT INTO t1 VALUES(1, 2, NULL); INSERT INTO t1 VALUES(4, 5, 6); CREATE UNIQUE INDEX i1 ON t1(b, a, c); } {0 {}} reset_db do_catchsql_test 16.2 { CREATE TABLE t1(a, b, c); INSERT INTO t1 VALUES(1, 2, 3); INSERT INTO t1 VALUES(1, NULL, 3); INSERT INTO t1 VALUES(1, 2, 3); INSERT INTO t1 VALUES(1, 2, NULL); INSERT INTO t1 VALUES(4, 5, 6); CREATE UNIQUE INDEX i1 ON t1(b, a, c); } {1 {UNIQUE constraint failed: t1.b, t1.a, t1.c}} reset_db do_execsql_test 17.1 { SELECT * FROM sqlite_master ORDER BY sql; } {} finish_test