sqlite/test/memdb.test
drh c54357cc2a Simplify the page recycling condition in pcache1. Fix test cases to work
with the latest changes.

FossilOrigin-Name: 5b60df5503f61922326b3e10e94aa197b17afe4b
2015-07-07 14:06:18 +00:00

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# 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 script is in-memory database backend.
#
# $Id: memdb.test,v 1.19 2009/05/18 16:04:38 danielk1977 Exp $
set testdir [file dirname $argv0]
source $testdir/tester.tcl
ifcapable memorydb {
# In the following sequence of tests, compute the MD5 sum of the content
# of a table, make lots of modifications to that table, then do a rollback.
# Verify that after the rollback, the MD5 checksum is unchanged.
#
# These tests were browed from trans.tcl.
#
do_test memdb-1.1 {
db close
sqlite3 db :memory:
# sqlite3 db test.db
execsql {
BEGIN;
CREATE TABLE t3(x TEXT);
INSERT INTO t3 VALUES(randstr(10,400));
INSERT INTO t3 VALUES(randstr(10,400));
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
INSERT INTO t3 SELECT randstr(10,400) FROM t3;
COMMIT;
SELECT count(*) FROM t3;
}
} {1024}
# The following procedure computes a "signature" for table "t3". If
# T3 changes in any way, the signature should change.
#
# This is used to test ROLLBACK. We gather a signature for t3, then
# make lots of changes to t3, then rollback and take another signature.
# The two signatures should be the same.
#
proc signature {{fn {}}} {
set rx [db eval {SELECT x FROM t3}]
# set r1 [md5 $rx\n]
if {$fn!=""} {
# set fd [open $fn w]
# puts $fd $rx
# close $fd
}
# set r [db eval {SELECT count(*), md5sum(x) FROM t3}]
# puts "SIG($fn)=$r1"
return [list [string length $rx] $rx]
}
# Do rollbacks. Make sure the signature does not change.
#
set limit 10
for {set i 2} {$i<=$limit} {incr i} {
set ::sig [signature one]
# puts "sig=$sig"
set cnt [lindex $::sig 0]
if {$i%2==0} {
execsql {PRAGMA synchronous=FULL}
} else {
execsql {PRAGMA synchronous=NORMAL}
}
do_test memdb-1.$i.1-$cnt {
execsql {
BEGIN;
DELETE FROM t3 WHERE random()%10!=0;
INSERT INTO t3 SELECT randstr(10,10)||x FROM t3;
INSERT INTO t3 SELECT randstr(10,10)||x FROM t3;
ROLLBACK;
}
set sig2 [signature two]
} $sig
# puts "sig2=$sig2"
# if {$sig2!=$sig} exit
do_test memdb-1.$i.2-$cnt {
execsql {
BEGIN;
DELETE FROM t3 WHERE random()%10!=0;
INSERT INTO t3 SELECT randstr(10,10)||x FROM t3;
DELETE FROM t3 WHERE random()%10!=0;
INSERT INTO t3 SELECT randstr(10,10)||x FROM t3;
ROLLBACK;
}
signature
} $sig
if {$i<$limit} {
do_test memdb-1.$i.9-$cnt {
execsql {
INSERT INTO t3 SELECT randstr(10,400) FROM t3 WHERE random()%10==0;
}
} {}
}
set ::pager_old_format 0
}
integrity_check memdb-2.1
do_test memdb-3.1 {
execsql {
CREATE TABLE t4(a,b,c,d);
BEGIN;
INSERT INTO t4 VALUES(1,2,3,4);
SELECT * FROM t4;
}
} {1 2 3 4}
do_test memdb-3.2 {
execsql {
SELECT name FROM sqlite_master WHERE type='table';
}
} {t3 t4}
do_test memdb-3.3 {
execsql {
DROP TABLE t4;
SELECT name FROM sqlite_master WHERE type='table';
}
} {t3}
do_test memdb-3.4 {
execsql {
ROLLBACK;
SELECT name FROM sqlite_master WHERE type='table';
}
} {t3 t4}
# Create tables for the first group of tests.
#
do_test memdb-4.0 {
execsql {
CREATE TABLE t1(a, b, c, UNIQUE(a,b));
CREATE TABLE t2(x);
SELECT c FROM t1 ORDER BY c;
}
} {}
# Six columns of configuration data as follows:
#
# i The reference number of the test
# conf The conflict resolution algorithm on the BEGIN statement
# cmd An INSERT or REPLACE command to execute against table t1
# t0 True if there is an error from $cmd
# t1 Content of "c" column of t1 assuming no error in $cmd
# t2 Content of "x" column of t2
#
foreach {i conf cmd t0 t1 t2} {
1 {} INSERT 1 {} 1
2 {} {INSERT OR IGNORE} 0 3 1
3 {} {INSERT OR REPLACE} 0 4 1
4 {} REPLACE 0 4 1
5 {} {INSERT OR FAIL} 1 {} 1
6 {} {INSERT OR ABORT} 1 {} 1
7 {} {INSERT OR ROLLBACK} 1 {} {}
} {
# All tests after test 1 depend on conflict resolution. So end the
# loop if that is not available in this build.
ifcapable !conflict {if {$i>1} break}
do_test memdb-4.$i {
if {$conf!=""} {set conf "ON CONFLICT $conf"}
set r0 [catch {execsql [subst {
DELETE FROM t1;
DELETE FROM t2;
INSERT INTO t1 VALUES(1,2,3);
BEGIN $conf;
INSERT INTO t2 VALUES(1);
$cmd INTO t1 VALUES(1,2,4);
}]} r1]
catch {execsql {COMMIT}}
if {$r0} {set r1 {}} {set r1 [execsql {SELECT c FROM t1}]}
set r2 [execsql {SELECT x FROM t2}]
list $r0 $r1 $r2
} [list $t0 $t1 $t2]
}
do_test memdb-5.0 {
execsql {
DROP TABLE t2;
DROP TABLE t3;
CREATE TABLE t2(a,b,c);
INSERT INTO t2 VALUES(1,2,1);
INSERT INTO t2 VALUES(2,3,2);
INSERT INTO t2 VALUES(3,4,1);
INSERT INTO t2 VALUES(4,5,4);
SELECT c FROM t2 ORDER BY b;
CREATE TABLE t3(x);
INSERT INTO t3 VALUES(1);
}
} {1 2 1 4}
# Six columns of configuration data as follows:
#
# i The reference number of the test
# conf1 The conflict resolution algorithm on the UNIQUE constraint
# conf2 The conflict resolution algorithm on the BEGIN statement
# cmd An UPDATE command to execute against table t1
# t0 True if there is an error from $cmd
# t1 Content of "b" column of t1 assuming no error in $cmd
# t2 Content of "x" column of t3
#
foreach {i conf1 conf2 cmd t0 t1 t2} {
1 {} {} UPDATE 1 {6 7 8 9} 1
2 REPLACE {} UPDATE 0 {7 6 9} 1
3 IGNORE {} UPDATE 0 {6 7 3 9} 1
4 FAIL {} UPDATE 1 {6 7 3 4} 1
5 ABORT {} UPDATE 1 {1 2 3 4} 1
6 ROLLBACK {} UPDATE 1 {1 2 3 4} 0
7 REPLACE {} {UPDATE OR IGNORE} 0 {6 7 3 9} 1
8 IGNORE {} {UPDATE OR REPLACE} 0 {7 6 9} 1
9 FAIL {} {UPDATE OR IGNORE} 0 {6 7 3 9} 1
10 ABORT {} {UPDATE OR REPLACE} 0 {7 6 9} 1
11 ROLLBACK {} {UPDATE OR IGNORE} 0 {6 7 3 9} 1
12 {} {} {UPDATE OR IGNORE} 0 {6 7 3 9} 1
13 {} {} {UPDATE OR REPLACE} 0 {7 6 9} 1
14 {} {} {UPDATE OR FAIL} 1 {6 7 3 4} 1
15 {} {} {UPDATE OR ABORT} 1 {1 2 3 4} 1
16 {} {} {UPDATE OR ROLLBACK} 1 {1 2 3 4} 0
} {
# All tests after test 1 depend on conflict resolution. So end the
# loop if that is not available in this build.
ifcapable !conflict {
if {$i>1} break
}
if {$t0} {set t1 {UNIQUE constraint failed: t1.a}}
do_test memdb-5.$i {
if {$conf1!=""} {set conf1 "ON CONFLICT $conf1"}
if {$conf2!=""} {set conf2 "ON CONFLICT $conf2"}
set r0 [catch {execsql "
DROP TABLE t1;
CREATE TABLE t1(a,b,c, UNIQUE(a) $conf1);
INSERT INTO t1 SELECT * FROM t2;
UPDATE t3 SET x=0;
BEGIN $conf2;
$cmd t3 SET x=1;
$cmd t1 SET b=b*2;
$cmd t1 SET a=c+5;
"} r1]
catch {execsql {COMMIT}}
if {!$r0} {set r1 [execsql {SELECT a FROM t1 ORDER BY b}]}
set r2 [execsql {SELECT x FROM t3}]
list $r0 $r1 $r2
} [list $t0 $t1 $t2]
}
do_test memdb-6.1 {
execsql {
SELECT * FROM t2;
}
} {1 2 1 2 3 2 3 4 1 4 5 4}
do_test memdb-6.2 {
execsql {
BEGIN;
DROP TABLE t2;
SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1;
}
} {t1 t3 t4}
do_test memdb-6.3 {
execsql {
ROLLBACK;
SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1;
}
} {t1 t2 t3 t4}
do_test memdb-6.4 {
execsql {
SELECT * FROM t2;
}
} {1 2 1 2 3 2 3 4 1 4 5 4}
ifcapable compound {
do_test memdb-6.5 {
execsql {
SELECT a FROM t2 UNION SELECT b FROM t2 ORDER BY 1;
}
} {1 2 3 4 5}
} ;# ifcapable compound
do_test memdb-6.6 {
execsql {
CREATE INDEX i2 ON t2(c);
SELECT a FROM t2 ORDER BY c;
}
} {1 3 2 4}
do_test memdb-6.6 {
execsql {
SELECT a FROM t2 ORDER BY c DESC;
}
} {4 2 3 1}
do_test memdb-6.7 {
execsql {
BEGIN;
CREATE TABLE t5(x,y);
INSERT INTO t5 VALUES(1,2);
SELECT * FROM t5;
}
} {1 2}
do_test memdb-6.8 {
execsql {
SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1;
}
} {t1 t2 t3 t4 t5}
do_test memdb-6.9 {
execsql {
ROLLBACK;
SELECT name FROM sqlite_master WHERE type='table' ORDER BY 1;
}
} {t1 t2 t3 t4}
do_test memdb-6.10 {
execsql {
CREATE TABLE t5(x PRIMARY KEY, y UNIQUE);
SELECT * FROM t5;
}
} {}
do_test memdb-6.11 {
execsql {
SELECT * FROM t5 ORDER BY y DESC;
}
} {}
ifcapable conflict {
do_test memdb-6.12 {
execsql {
INSERT INTO t5 VALUES(1,2);
INSERT INTO t5 VALUES(3,4);
REPLACE INTO t5 VALUES(1,4);
SELECT rowid,* FROM t5;
}
} {3 1 4}
do_test memdb-6.13 {
execsql {
DELETE FROM t5 WHERE x>5;
SELECT * FROM t5;
}
} {1 4}
do_test memdb-6.14 {
execsql {
DELETE FROM t5 WHERE y<3;
SELECT * FROM t5;
}
} {1 4}
}
do_test memdb-6.15 {
execsql {
DELETE FROM t5 WHERE x>0;
SELECT * FROM t5;
}
} {}
ifcapable subquery&&vtab {
do_test memdb-7.1 {
load_static_extension db wholenumber
execsql {
CREATE TABLE t6(x);
CREATE VIRTUAL TABLE nums USING wholenumber;
INSERT INTO t6 SELECT value FROM nums WHERE value BETWEEN 1 AND 256;
SELECT count(*) FROM (SELECT DISTINCT x FROM t6);
}
} {256}
for {set i 1} {$i<=256} {incr i} {
do_test memdb-7.2.$i {
execsql "DELETE FROM t6 WHERE x=\
(SELECT x FROM t6 ORDER BY random() LIMIT 1)"
execsql {SELECT count(*) FROM t6}
} [expr {256-$i}]
}
}
# Ticket #1524
#
do_test memdb-8.1 {
db close
sqlite3 db {:memory:}
execsql {
PRAGMA auto_vacuum=TRUE;
CREATE TABLE t1(a);
INSERT INTO t1 VALUES(randstr(5000,6000));
INSERT INTO t1 VALUES(randstr(5000,6000));
INSERT INTO t1 VALUES(randstr(5000,6000));
INSERT INTO t1 VALUES(randstr(5000,6000));
INSERT INTO t1 VALUES(randstr(5000,6000));
SELECT count(*) FROM t1;
}
} 5
do_test memdb-8.2 {
execsql {
DELETE FROM t1;
SELECT count(*) FROM t1;
}
} 0
# Test that auto-vacuum works with in-memory databases.
#
ifcapable autovacuum {
do_test memdb-9.1 {
db close
sqlite3 db test.db
db cache size 0
execsql {
PRAGMA auto_vacuum = full;
CREATE TABLE t1(a);
INSERT INTO t1 VALUES(randstr(1000,1000));
INSERT INTO t1 VALUES(randstr(1000,1000));
INSERT INTO t1 VALUES(randstr(1000,1000));
}
set before [db one {PRAGMA page_count}]
execsql { DELETE FROM t1 }
set after [db one {PRAGMA page_count}]
expr {$before>$after}
} {1}
}
} ;# ifcapable memorydb
finish_test