/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the either Technology Preview License Agreement or the ** Beta Release License Agreement. ** ** GNU Lesser General Public License Usage ** Alternatively, this file may be used under the terms of the GNU Lesser ** General Public License version 2.1 as published by the Free Software ** Foundation and appearing in the file LICENSE.LGPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU Lesser General Public License version 2.1 requirements ** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html. ** ** In addition, as a special exception, Nokia gives you certain ** additional rights. These rights are described in the Nokia Qt LGPL ** Exception version 1.0, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** If you are unsure which license is appropriate for your use, please ** contact the sales department at http://www.qtsoftware.com/contact. ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include "../qsqldatabase/tst_databases.h" //TESTED_FILES= class tst_QSqlQuery : public QObject { Q_OBJECT public: tst_QSqlQuery(); virtual ~tst_QSqlQuery(); public slots: void initTestCase(); void cleanupTestCase(); void init(); void cleanup(); private slots: void value_data() { generic_data(); } void value(); void isValid_data() { generic_data(); } void isValid(); void isActive_data() { generic_data(); } void isActive(); void isSelect_data() { generic_data(); } void isSelect(); void numRowsAffected_data() { generic_data(); } void numRowsAffected(); void size_data() { generic_data(); } void size(); void isNull_data() { generic_data(); } void isNull(); void query_exec_data() { generic_data(); } void query_exec(); void execErrorRecovery_data() { generic_data(); } void execErrorRecovery(); void first_data() { generic_data(); } void first(); void next_data() { generic_data(); } void next(); void prev_data() { generic_data(); } void prev(); void last_data() { generic_data(); } void last(); void seek_data() { generic_data(); } void seek(); void transaction_data() { generic_data(); } void transaction(); void record_data() { generic_data(); } void record(); void record_sqlite_data() { generic_data("QSQLITE"); } void record_sqlite(); void finish_data() { generic_data(); } void finish(); void sqlite_finish_data() { generic_data(); } void sqlite_finish(); void nextResult_data() { generic_data(); } void nextResult(); // forwardOnly mode need special treatment void forwardOnly_data() { generic_data(); } void forwardOnly(); // bug specific tests void bitField_data() {generic_data("QTDS"); } void bitField(); void nullBlob_data() { generic_data("QOCI"); } void nullBlob(); void blob_data() { generic_data(); } void blob(); void rawField_data() { generic_data("QOCI"); } void rawField(); void precision_data() { generic_data(); } void precision(); void nullResult_data() { generic_data(); } void nullResult(); void joins_data() { generic_data(); } void joins(); void outValues_data() { generic_data(); } void outValues(); void char1Select_data() { generic_data(); } void char1Select(); void char1SelectUnicode_data() { generic_data(); } void char1SelectUnicode(); void synonyms_data() { generic_data(); } void synonyms(); void oraOutValues_data() { generic_data("QOCI"); } void oraOutValues(); void mysqlOutValues_data() { generic_data("QMYSQL"); } void mysqlOutValues(); void oraClob_data() { generic_data("QOCI"); } void oraClob(); void oraLong_data() { generic_data("QOCI"); } void oraLong(); void outValuesDB2_data() { generic_data("QDB2"); } void outValuesDB2(); void storedProceduresIBase_data() {generic_data("QIBASE"); } void storedProceduresIBase(); void oraRowId_data() { generic_data("QOCI"); } void oraRowId(); void prepare_bind_exec_data() { generic_data(); } void prepare_bind_exec(); void prepared_select_data() { generic_data(); } void prepared_select(); void sqlServerLongStrings_data() { generic_data(); } void sqlServerLongStrings(); void invalidQuery_data() { generic_data(); } void invalidQuery(); void batchExec_data() { generic_data(); } void batchExec(); void oraArrayBind_data() { generic_data(); } void oraArrayBind(); void lastInsertId_data() { generic_data(); } void lastInsertId(); void lastQuery_data() { generic_data(); } void lastQuery(); void bindWithDoubleColonCastOperator_data() { generic_data(); } void bindWithDoubleColonCastOperator(); void queryOnInvalidDatabase_data() { generic_data(); } void queryOnInvalidDatabase(); void createQueryOnClosedDatabase_data() { generic_data(); } void createQueryOnClosedDatabase(); void seekForwardOnlyQuery_data() { generic_data(); } void seekForwardOnlyQuery(); void reExecutePreparedForwardOnlyQuery_data() { generic_data(); } void reExecutePreparedForwardOnlyQuery(); void blobsPreparedQuery_data() { generic_data(); } void blobsPreparedQuery(); void emptyTableNavigate_data() { generic_data(); } void emptyTableNavigate(); #ifdef NOT_READY_YET void task_229811(); void task_229811_data() { generic_data(); } void task_234422_data() { generic_data(); } void task_234422(); #endif void task_217003_data() { generic_data(); } void task_217003(); void task_250026_data() { generic_data("QODBC"); } void task_250026(); void task_205701_data() { generic_data("QMYSQL"); } void task_205701(); void task_233829_data() { generic_data("QPSQL"); } void task_233829(); private: // returns all database connections void generic_data(const QString &engine=QString()); void dropTestTables( QSqlDatabase db ); void createTestTables( QSqlDatabase db ); void populateTestTables( QSqlDatabase db ); tst_Databases dbs; }; tst_QSqlQuery::tst_QSqlQuery() { } tst_QSqlQuery::~tst_QSqlQuery() { } void tst_QSqlQuery::initTestCase() { dbs.open(); for ( QStringList::ConstIterator it = dbs.dbNames.begin(); it != dbs.dbNames.end(); ++it ) { QSqlDatabase db = QSqlDatabase::database(( *it ) ); CHECK_DATABASE( db ); dropTestTables( db ); //in case of leftovers createTestTables( db ); populateTestTables( db ); } } void tst_QSqlQuery::cleanupTestCase() { for ( QStringList::ConstIterator it = dbs.dbNames.begin(); it != dbs.dbNames.end(); ++it ) { QSqlDatabase db = QSqlDatabase::database(( *it ) ); CHECK_DATABASE( db ); dropTestTables( db ); } dbs.close(); } void tst_QSqlQuery::init() { } void tst_QSqlQuery::cleanup() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( QTest::currentTestFunction() == QLatin1String( "numRowsAffected" ) || QTest::currentTestFunction() == QLatin1String( "transactions" ) || QTest::currentTestFunction() == QLatin1String( "size" ) || QTest::currentTestFunction() == QLatin1String( "isActive" ) || QTest::currentTestFunction() == QLatin1String( "lastInsertId" ) ) { populateTestTables( db ); } if ( QTest::currentTestFailed() && ( db.driverName().startsWith( "QOCI" ) || db.driverName().startsWith( "QODBC" ) ) ) { //since Oracle ODBC totally craps out on error, we init again db.close(); db.open(); } } void tst_QSqlQuery::generic_data(const QString& engine) { if ( dbs.fillTestTable(engine) == 0 ) { if(engine.isEmpty()) QSKIP( "No database drivers are available in this Qt configuration", SkipAll ); else QSKIP( (QString("No database drivers of type %1 are available in this Qt configuration").arg(engine)).toLocal8Bit(), SkipAll ); } } void tst_QSqlQuery::dropTestTables( QSqlDatabase db ) { QStringList tablenames; // drop all the table in case a testcase failed tablenames << qTableName( "qtest" ) << qTableName( "qtest_null" ) << qTableName( "qtest_blob" ) << qTableName( "qtest_bittest" ) << qTableName( "qtest_nullblob" ) << qTableName( "qtest_rawtest" ) << qTableName( "qtest_precision" ) << qTableName( "qtest_prepare" ) << qTableName( "qtestj1" ) << qTableName( "qtestj2" ) << qTableName( "char1Select" ) << qTableName( "char1SelectUnicode" ) << qTableName( "qxmltest" ) << qTableName( "qtest_exerr" ) << qTableName( "qtest_empty" ) << qTableName( "clobby" ) << qTableName( "bindtest" ) << qTableName( "more_results" ) << qTableName( "blobstest" ) << qTableName( "oraRowId" ) << qTableName( "qtest_batch" ); if ( db.driverName().startsWith("QPSQL") ) tablenames << qTableName("task_233829"); if ( db.driverName().startsWith("QSQLITE") ) tablenames << qTableName( "record_sqlite" ); if ( tst_Databases::isSqlServer( db ) || db.driverName().startsWith( "QOCI" ) ) tablenames << qTableName( "qtest_longstr" ); tablenames << qTableName( "qtest_lockedtable" ); tablenames << qTableName( "Planet" ); tablenames << qTableName( "task_250026" ); tablenames << qTableName( "task_234422" ); tst_Databases::safeDropTables( db, tablenames ); } void tst_QSqlQuery::createTestTables( QSqlDatabase db ) { QSqlQuery q( db ); if ( db.driverName().startsWith( "QMYSQL" ) ) // ### stupid workaround until we find a way to hardcode this // in the MySQL server startup script q.exec( "set table_type=innodb" ); if(tst_Databases::isPostgreSQL(db)) QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest" ) + " (id serial NOT NULL, t_varchar varchar(20), t_char char(20), primary key(id)) WITH OIDS" ) ); else QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest" ) + " (id int "+tst_Databases::autoFieldName(db) +" NOT NULL, t_varchar varchar(20), t_char char(20), primary key(id))" ) ); if ( tst_Databases::isSqlServer( db ) || db.driverName().startsWith( "QTDS" ) ) QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_null" ) + " (id int null, t_varchar varchar(20) null)" ) ); else QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_null" ) + " (id int, t_varchar varchar(20))" ) ); } void tst_QSqlQuery::populateTestTables( QSqlDatabase db ) { QSqlQuery q( db ); q.exec( "delete from " + qTableName( "qtest" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (1, 'VarChar1', 'Char1')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (2, 'VarChar2', 'Char2')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (3, 'VarChar3', 'Char3')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (4, 'VarChar4', 'Char4')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (5, 'VarChar5', 'Char5')" ) ); q.exec( "delete from " + qTableName( "qtest_null" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_null" ) + " values (0, NULL)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_null" ) + " values (1, 'n')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_null" ) + " values (2, 'i')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_null" ) + " values (3, NULL)" ) ); } // There were problems with char fields of size 1 void tst_QSqlQuery::char1Select() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); { QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "char1Select" ) + " (id char(1))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "char1Select" ) + " values ('a')" ) ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "char1Select" ) ) ); QVERIFY( q.next() ); if ( db.driverName().startsWith( "QIBASE" ) ) QCOMPARE( q.value( 0 ).toString().left( 1 ), QString( "a" ) ); else QCOMPARE( q.value( 0 ).toString(), QString( "a" ) ); QVERIFY( !q.next() ); } } void tst_QSqlQuery::char1SelectUnicode() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( db.driver()->hasFeature( QSqlDriver::Unicode ) ) { QString uniStr( QChar( 0xfb50 ) ); QSqlQuery q( db ); if ( db.driverName().startsWith( "QMYSQL" ) && tst_Databases::getMySqlVersion( db ).section( QChar('.'), 0, 0 ).toInt()<5 ) QSKIP( "Test requires MySQL >= 5.0", SkipSingle ); QString createQuery; if ( tst_Databases::isSqlServer( db ) ) createQuery = "create table " + qTableName( "char1SelectUnicode" ) + "(id nchar(1))"; else if ( db.driverName().startsWith( "QDB2" ) || db.driverName().startsWith( "QOCI" ) || db.driverName().startsWith( "QPSQL" ) ) createQuery = "create table " + qTableName( "char1SelectUnicode" ) + " (id char(3))"; else if ( db.driverName().startsWith( "QIBASE" ) ) createQuery = "create table " + qTableName( "char1SelectUnicode" ) + " (id char(1) character set unicode_fss)"; else if ( db.driverName().startsWith( "QMYSQL" ) ) createQuery = "create table " + qTableName( "char1SelectUnicode" ) + " (id char(1)) " "default character set 'utf8'"; else createQuery = "create table " + qTableName( "char1SelectUnicode" ) + " (id char(1))"; QVERIFY_SQL( q, exec( createQuery ) ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "char1SelectUnicode" ) + " values(?)" ) ); q.bindValue( 0, uniStr ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "char1SelectUnicode" ) ) ); QVERIFY( q.next() ); if ( !q.value( 0 ).toString().isEmpty() ) QCOMPARE( q.value( 0 ).toString()[ 0 ].unicode(), uniStr[0].unicode() ); QCOMPARE( q.value( 0 ).toString().trimmed(), uniStr ); QVERIFY( !q.next() ); } else QSKIP( "Database not unicode capable", SkipSingle ); } void tst_QSqlQuery::oraRowId() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "select rowid from " + qTableName( "qtest" ) ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).type(), QVariant::String ); QVERIFY( !q.value( 0 ).toString().isEmpty() ); QVERIFY_SQL( q, exec( "create table " + qTableName( "oraRowId" ) + " (id char(1))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "oraRowId" ) + " values('a')" ) ); QVariant v1 = q.lastInsertId(); QVERIFY( v1.isValid() ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "oraRowId" ) + " values('b')" ) ); QVariant v2 = q.lastInsertId(); QVERIFY( v2.isValid() ); QVERIFY_SQL( q, prepare( "select * from " + qTableName( "oraRowId" ) + " where rowid = ?" ) ); q.addBindValue( v1 ); QVERIFY_SQL( q, exec() ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toString(), QString( "a" ) ); q.addBindValue( v2 ); QVERIFY_SQL( q, exec() ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toString(), QString( "b" ) ); } void tst_QSqlQuery::mysqlOutValues() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); if ( db.driverName().startsWith( "QMYSQL" ) && tst_Databases::getMySqlVersion( db ).section( QChar('.'), 0, 0 ).toInt()<5 ) QSKIP( "Test requires MySQL >= 5.0", SkipSingle ); q.exec( "drop function " + qTableName( "hello" ) ); QVERIFY_SQL( q, exec( "create function " + qTableName( "hello" ) + " (s char(20)) returns varchar(50) return concat('Hello ', s)" ) ); QVERIFY_SQL( q, exec( "select " + qTableName( "hello" ) + "('world')" ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString(), QString( "Hello world" ) ); QVERIFY_SQL( q, prepare( "select " + qTableName( "hello" ) + "('harald')" ) ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString(), QString( "Hello harald" ) ); QVERIFY_SQL( q, exec( "drop function " + qTableName( "hello" ) ) ); q.exec( "drop procedure " + qTableName( "qtestproc" ) ); QVERIFY_SQL( q, exec( "create procedure " + qTableName( "qtestproc" ) + " () " "BEGIN select * from " + qTableName( "qtest" ) + " order by id; END" ) ); QVERIFY_SQL( q, exec( "call " + qTableName( "qtestproc" ) + "()" ) ); QEXPECT_FAIL("", "There's a mysql bug that means only selects think they return data when running in prepared mode", Continue); QVERIFY_SQL( q, next() ); QEXPECT_FAIL("", "There's a mysql bug that means only selects think they return data when running in prepared mode", Continue); QCOMPARE( q.value( 1 ).toString(), QString( "VarChar1" ) ); QVERIFY_SQL( q, exec( "drop procedure " + qTableName( "qtestproc" ) ) ); QVERIFY_SQL( q, exec( "create procedure " + qTableName( "qtestproc" ) + " (OUT param1 INT) " "BEGIN set param1 = 42; END" ) ); QVERIFY_SQL( q, exec( "call " + qTableName( "qtestproc" ) + " (@out)" ) ); QVERIFY_SQL( q, exec( "select @out" ) ); QCOMPARE( q.record().fieldName( 0 ), QString( "@out" ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 42 ); QVERIFY_SQL( q, exec( "drop procedure " + qTableName( "qtestproc" ) ) ); } void tst_QSqlQuery::oraOutValues() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) { QSKIP( "Test requires prepared query support", SkipSingle ); return; } QSqlQuery q( db ); q.setForwardOnly( true ); /*** outvalue int ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x out int) is\n" "begin\n" " x := 42;\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); q.addBindValue( 0, QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toInt(), 42 ); // bind a null value, make sure the OCI driver resets the null flag q.addBindValue( QVariant( QVariant::Int ), QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toInt(), 42 ); QVERIFY( !q.boundValue( 0 ).isNull() ); /*** outvalue varchar ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x out varchar) is\n" "begin\n" " x := 'blah';\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); QString s1( "12345" ); s1.reserve( 512 ); q.addBindValue( s1, QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toString(), QString( "blah" ) ); /*** in/outvalue numeric ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x in out numeric) is\n" "begin\n" " x := x + 10;\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); q.addBindValue( 10, QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toInt(), 20 ); /*** in/outvalue varchar ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x in out varchar) is\n" "begin\n" " x := 'homer';\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); q.addBindValue( QString( "maggy" ), QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toString(), QString( "homer" ) ); /*** in/outvalue varchar ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x in out varchar) is\n" "begin\n" " x := NULL;\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); q.addBindValue( QString( "maggy" ), QSql::Out ); QVERIFY_SQL( q, exec() ); QVERIFY( q.boundValue( 0 ).isNull() ); /*** in/outvalue int ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x in out int) is\n" "begin\n" " x := NULL;\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); q.addBindValue( 42, QSql::Out ); QVERIFY_SQL( q, exec() ); QVERIFY( q.boundValue( 0 ).isNull() ); /*** in/outvalue varchar ***/ QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x in varchar, y out varchar) is\n" "begin\n" " y := x||'bubulalakikikokololo';\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?, ?)" ) ); q.addBindValue( QString( "fifi" ), QSql::In ); QString out; out.reserve( 50 ); q.addBindValue( out, QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 1 ).toString(), QString( "fifibubulalakikikokololo" ) ); } void tst_QSqlQuery::oraClob() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); // simple short string QVERIFY_SQL( q, exec( "create table " + qTableName( "clobby" ) + "(id int primary key, cl clob, bl blob)" ) ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "clobby" ) + " (id, cl, bl) values(?, ?, ?)" ) ); q.addBindValue( 1 ); q.addBindValue( "bubu" ); q.addBindValue( QByteArray("bubu") ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select bl, cl from " + qTableName( "clobby" ) + " where id = 1" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toString(), QString( "bubu" ) ); QCOMPARE( q.value( 1 ).toString(), QString( "bubu" ) ); // simple short string with binding QVERIFY_SQL( q, prepare( "insert into " + qTableName( "clobby" ) + " (id, cl, bl) values(?, ?, ?)" ) ); q.addBindValue( 2 ); q.addBindValue( "lala", QSql::Binary ); q.addBindValue( QByteArray("lala"), QSql::Binary ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select bl, cl from " + qTableName( "clobby" ) + " where id = 2" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toString(), QString( "lala" ) ); QCOMPARE( q.value( 1 ).toString(), QString( "lala" ) ); // loooong string QString loong; loong.fill( QLatin1Char( 'A' ), 25000 ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "clobby" ) + " (id, cl, bl) values(?, ?, ?)" ) ); q.addBindValue( 3 ); q.addBindValue( loong, QSql::Binary ); q.addBindValue( loong.toLatin1(), QSql::Binary ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select bl, cl from " + qTableName( "clobby" ) + " where id = 3" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toString().count(), loong.count() ); QVERIFY( q.value( 0 ).toString() == loong ); QCOMPARE( q.value( 1 ).toByteArray().count(), loong.toLatin1().count() ); QVERIFY( q.value( 1 ).toByteArray() == loong.toLatin1() ); } void tst_QSqlQuery::storedProceduresIBase() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); q.exec( "drop procedure " + qTableName( "TESTPROC" ) ); QVERIFY_SQL( q, exec( "create procedure " + qTableName( "TESTPROC" ) + " RETURNS (x integer, y varchar(20)) " "AS BEGIN " " x = 42; " " y = 'Hello Anders'; " "END" ) ); QVERIFY_SQL( q, prepare( "execute procedure " + qTableName( "TestProc" ) ) ); QVERIFY_SQL( q, exec() ); // check for a valid result set QSqlRecord rec = q.record(); QCOMPARE( rec.count(), 2 ); QCOMPARE( rec.fieldName( 0 ).toUpper(), QString( "X" ) ); QCOMPARE( rec.fieldName( 1 ).toUpper(), QString( "Y" ) ); // the first next shall suceed QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 42 ); QCOMPARE( q.value( 1 ).toString(), QString( "Hello Anders" ) ); // the second next shall fail QVERIFY( !q.next() ); q.exec( "drop procedure " + qTableName( "TestProc" ) ); } void tst_QSqlQuery::outValuesDB2() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) { QSKIP( "Test requires prepared query support", SkipSingle ); return; } QSqlQuery q( db ); q.setForwardOnly( true ); q.exec( "drop procedure " + qTableName( "tst_outValues" ) ); //non-fatal QVERIFY_SQL( q, exec( "CREATE PROCEDURE " + qTableName( "tst_outValues" ) + " (OUT x int, OUT x2 double, OUT x3 char(20))\n" "LANGUAGE SQL\n" "P1: BEGIN\n" " SET x = 42;\n" " SET x2 = 4.2;\n" " SET x3 = 'Homer';\n" "END P1" ) ); QVERIFY_SQL( q, prepare( "call " + qTableName( "tst_outValues" ) + "(?, ?, ?)" ) ); q.addBindValue( 0, QSql::Out ); q.addBindValue( 0.0, QSql::Out ); q.addBindValue( "Simpson", QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toInt(), 42 ); QCOMPARE( q.boundValue( 1 ).toDouble(), 4.2 ); QCOMPARE( q.boundValue( 2 ).toString().trimmed(), QString( "Homer" ) ); } void tst_QSqlQuery::outValues() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) { QSKIP( "Test requires prepared query support", SkipSingle ); return; } QSqlQuery q( db ); q.setForwardOnly( true ); if ( db.driverName().startsWith( "QOCI" ) ) { QVERIFY_SQL( q, exec( "create or replace procedure " + qTableName( "tst_outValues" ) + "(x out int) is\n" "begin\n" " x := 42;\n" "end;\n" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outvalues" ) + "(?)" ) ); } else if ( db.driverName().startsWith( "QDB2" ) ) { q.exec( "drop procedure " + qTableName( "tst_outValues" ) ); //non-fatal QVERIFY_SQL( q, exec( "CREATE PROCEDURE " + qTableName( "tst_outValues" ) + " (OUT x int)\n" "LANGUAGE SQL\n" "P1: BEGIN\n" " SET x = 42;\n" "END P1" ) ); QVERIFY( q.prepare( "call " + qTableName( "tst_outValues" ) + "(?)" ) ); } else if ( tst_Databases::isSqlServer( db ) ) { q.exec( "drop procedure " + qTableName( "tst_outValues" ) ); //non-fatal QVERIFY_SQL( q, exec( "create procedure " + qTableName( "tst_outValues" ) + " (@x int out) as\n" "begin\n" " set @x = 42\n" "end\n" ) ); QVERIFY( q.prepare( "{call " + qTableName( "tst_outvalues" ) + "(?)}" ) ); } else { QSKIP( "Don't know how to create a stored procedure for this database server, please fix this test", SkipSingle ); return; } q.addBindValue( 0, QSql::Out ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.boundValue( 0 ).toInt(), 42 ); } void tst_QSqlQuery::blob() { static const int BLOBSIZE = 1024 * 10; static const int BLOBCOUNT = 2; QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::BLOB ) ) QSKIP( "DBMS not BLOB capable", SkipSingle ); //don' make it too big otherwise sybase and mysql will complain QByteArray ba( BLOBSIZE, 0 ); int i; for ( i = 0; i < ( int )ba.size(); ++i ) ba[i] = i % 256; QSqlQuery q( db ); q.setForwardOnly( true ); QString queryString = QString( "create table " + qTableName( "qtest_blob" ) + " (id int not null primary key, t_blob %1)" ).arg( tst_Databases::blobTypeName( db, BLOBSIZE ) ); QVERIFY_SQL( q, exec( queryString ) ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "qtest_blob" ) + " (id, t_blob) values (?, ?)" ) ); for ( i = 0; i < BLOBCOUNT; ++i ) { q.addBindValue( i ); q.addBindValue( ba ); QVERIFY_SQL( q, exec() ); } QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest_blob" ) ) ); for ( i = 0; i < BLOBCOUNT; ++i ) { QVERIFY( q.next() ); QByteArray res = q.value( 1 ).toByteArray(); QVERIFY2( res.size() >= ba.size(), QString( "array sizes differ, expected %1, got %2" ).arg( ba.size() ).arg( res.size() ).toLatin1() ); for ( int i2 = 0; i2 < ( int )ba.size(); ++i2 ) { if ( res[i2] != ba[i2] ) QFAIL( QString( "ByteArrays differ at position %1, expected %2, got %3" ).arg( i2 ).arg(( int )( unsigned char )ba[i2] ).arg(( int )( unsigned char )res[i2] ).toLatin1() ); } } } void tst_QSqlQuery::value() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "select id, t_varchar, t_char from " + qTableName( "qtest" ) + " order by id" ) ); int i = 1; while ( q.next() ) { QCOMPARE( q.value( 0 ).toInt(), i ); if ( db.driverName().startsWith( "QIBASE" ) ) QVERIFY( q.value( 1 ).toString().startsWith( "VarChar" + QString::number( i ) ) ); else if ( q.value( 1 ).toString().right( 1 ) == " " ) QCOMPARE( q.value( 1 ).toString(), ( "VarChar" + QString::number( i ) + " " ) ); else QCOMPARE( q.value( 1 ).toString(), ( "VarChar" + QString::number( i ) ) ); if ( db.driverName().startsWith( "QIBASE" ) ) QVERIFY( q.value( 2 ).toString().startsWith( "Char" + QString::number( i ) ) ); else if ( q.value( 2 ).toString().right( 1 ) != " " ) QCOMPARE( q.value( 2 ).toString(), ( "Char" + QString::number( i ) ) ); else QCOMPARE( q.value( 2 ).toString(), ( "Char" + QString::number( i ) + " " ) ); i++; } } void tst_QSqlQuery::record() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( q.record().isEmpty() ); QVERIFY_SQL( q, exec( "select id, t_varchar, t_char from " + qTableName( "qtest" ) + " order by id" ) ); QSqlRecord rec = q.record(); QCOMPARE( q.record().fieldName( 0 ).toLower(), QString( "id" ) ); QCOMPARE( q.record().fieldName( 1 ).toLower(), QString( "t_varchar" ) ); QCOMPARE( q.record().fieldName( 2 ).toLower(), QString( "t_char" ) ); QVERIFY( !q.record().value( 0 ).isValid() ); QVERIFY( !q.record().value( 1 ).isValid() ); QVERIFY( !q.record().value( 2 ).isValid() ); QVERIFY( q.next() ); QVERIFY( q.next() ); QCOMPARE( q.record().fieldName( 0 ).toLower(), QString( "id" ) ); QCOMPARE( q.value( 0 ).toInt(), 2 ); } void tst_QSqlQuery::isValid() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( !q.isValid() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.first() ); QVERIFY( q.isValid() ); } void tst_QSqlQuery::isActive() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( !q.isActive() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.isActive() ); QVERIFY( q.last() ); if ( !tst_Databases::isMSAccess( db ) ) // Access is stupid enough to let you scroll over boundaries QVERIFY( !q.next() ); QVERIFY( q.isActive() ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (41, 'VarChar41', 'Char41')" ) ); QVERIFY( q.isActive() ); QVERIFY_SQL( q, exec( "update " + qTableName( "qtest" ) + " set id = 42 where id = 41" ) ); QVERIFY( q.isActive() ); QVERIFY_SQL( q, exec( "delete from " + qTableName( "qtest" ) + " where id = 42" ) ); QVERIFY( q.isActive() ); } void tst_QSqlQuery::numRowsAffected() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QCOMPARE( q.numRowsAffected(), -1 ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); int i = 0; while ( q.next() ) ++i; if ( q.numRowsAffected() == -1 || q.numRowsAffected() == 0 ) QSKIP("Database doesn't support numRowsAffected", SkipSingle); if ( q.numRowsAffected() != -1 && q.numRowsAffected() != 0 && q.numRowsAffected() != i ) { // the value is undefined for SELECT, this check is just here for curiosity qDebug( "Expected numRowsAffected to be -1, 0 or %d, got %d", i, q.numRowsAffected() ); } QVERIFY_SQL( q, exec( "update " + qTableName( "qtest" ) + " set id = 100 where id = 1" ) ); QCOMPARE( q.numRowsAffected(), 1 ); QCOMPARE( q.numRowsAffected(), 1 ); // yes, we check twice QVERIFY_SQL( q, exec( "update " + qTableName( "qtest" ) + " set id = id + 100" ) ); QCOMPARE( q.numRowsAffected(), i ); QCOMPARE( q.numRowsAffected(), i ); // yes, we check twice QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (42000, 'homer', 'marge')" ) ); QCOMPARE( q.numRowsAffected(), 1 ); QCOMPARE( q.numRowsAffected(), 1 ); // yes, we check twice QSqlQuery q2( db ); QVERIFY_SQL( q2, exec( "insert into " + qTableName( "qtest" ) + " values (42001, 'homer', 'marge')" ) ); if ( !db.driverName().startsWith( "QSQLITE2" ) ) { // SQLite 2.x accumulates changed rows in nested queries. See task 33794 QCOMPARE( q2.numRowsAffected(), 1 ); QCOMPARE( q2.numRowsAffected(), 1 ); // yes, we check twice } } void tst_QSqlQuery::size() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QCOMPARE( q.size(), -1 ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); int i = 0; while ( q.next() ) ++i; if ( db.driver()->hasFeature( QSqlDriver::QuerySize ) ) { QCOMPARE( q.size(), i ); QCOMPARE( q.size(), i ); // yes, twice } else { QCOMPARE( q.size(), -1 ); QCOMPARE( q.size(), -1 ); // yes, twice } QSqlQuery q2( "select * from " + qTableName( "qtest" ), db ); if ( db.driver()->hasFeature( QSqlDriver::QuerySize ) ) QCOMPARE( q.size(), i ); else QCOMPARE( q.size(), -1 ); q2.clear(); QVERIFY_SQL( q, exec( "update " + qTableName( "qtest" ) + " set id = 100 where id = 1" ) ); QCOMPARE( q.size(), -1 ); QCOMPARE( q.size(), -1 ); // yes, twice } void tst_QSqlQuery::isSelect() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.isSelect() ); QVERIFY_SQL( q, exec( "update " + qTableName( "qtest" ) + " set id = 1 where id = 1" ) ); QVERIFY( q.isSelect() == false ); } void tst_QSqlQuery::first() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.last() ); QVERIFY_SQL( q, first() ); QVERIFY( q.at() == 0 ); } void tst_QSqlQuery::next() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.first() ); QVERIFY( q.next() ); QVERIFY( q.at() == 1 ); } void tst_QSqlQuery::prev() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.first() ); QVERIFY( q.next() ); QVERIFY( q.previous() ); QVERIFY( q.at() == 0 ); } void tst_QSqlQuery::last() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QCOMPARE( q.at(), int( QSql::BeforeFirstRow ) ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); int i = 0; while ( q.next() ) i++; QCOMPARE( q.at(), int( QSql::AfterLastRow ) ); QVERIFY( q.last() ); if ( !tst_Databases::isMSAccess( db ) ) // Access doesn't return the correct position QCOMPARE( q.at(), ( i-1 ) ); QSqlQuery q2( "select * from " + qTableName( "qtest" ), db ); QVERIFY( q2.last() ); if ( !tst_Databases::isMSAccess( db ) ) // Access doesn't return the correct position QCOMPARE( q.at(), ( i-1 ) ); } void tst_QSqlQuery::seek() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( QString( "select id from %1 order by id" ).arg( qTableName( "qtest" ) ) ) ); // NB! The order of the calls below are important! QVERIFY( q.last() ); QVERIFY( !q.seek( QSql::BeforeFirstRow ) ); QCOMPARE( q.at(), int( QSql::BeforeFirstRow ) ); QVERIFY( q.seek( 0 ) ); QCOMPARE( q.at(), 0 ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QVERIFY( q.seek( 1 ) ); QCOMPARE( q.at(), 1 ); QCOMPARE( q.value( 0 ).toInt(), 2 ); QVERIFY( q.seek( 3 ) ); QCOMPARE( q.at(), 3 ); QCOMPARE( q.value( 0 ).toInt(), 4 ); QVERIFY( q.seek( -2, true ) ); QCOMPARE( q.at(), 1 ); QVERIFY( q.seek( 0 ) ); QCOMPARE( q.at(), 0 ); QCOMPARE( q.value( 0 ).toInt(), 1 ); } void tst_QSqlQuery::seekForwardOnlyQuery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); q.setForwardOnly( false ); QVERIFY( !q.isForwardOnly() ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( QString( "select id from %1 order by id" ).arg( qTableName( "qtest" ) ) ) ); QSqlRecord rec; // NB! The order of the calls below are important! QVERIFY( q.seek( 0 ) ); QCOMPARE( q.at(), 0 ); rec = q.record(); QCOMPARE( rec.value( 0 ).toInt(), 1 ); QVERIFY( q.seek( 1 ) ); QCOMPARE( q.at(), 1 ); rec = q.record(); QCOMPARE( rec.value( 0 ).toInt(), 2 ); // Make a jump! QVERIFY( q.seek( 3 ) ); QCOMPARE( q.at(), 3 ); rec = q.record(); QCOMPARE( rec.value( 0 ).toInt(), 4 ); // Last record in result set QVERIFY( q.seek( 4 ) ); QCOMPARE( q.at(), 4 ); rec = q.record(); QCOMPARE( rec.value( 0 ).toInt(), 5 ); } // tests the forward only mode; void tst_QSqlQuery::forwardOnly() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); q.setForwardOnly( true ); QVERIFY( q.isForwardOnly() ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) + " order by id" ) ); QVERIFY( q.at() == QSql::BeforeFirstRow ); QVERIFY( q.first() ); QCOMPARE( q.at(), 0 ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QVERIFY( q.next() ); QCOMPARE( q.at(), 1 ); QCOMPARE( q.value( 0 ).toInt(), 2 ); QVERIFY( q.next() ); QCOMPARE( q.at(), 2 ); QCOMPARE( q.value( 0 ).toInt(), 3 ); // lets make some mistakes to see how robust it is QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::seek: cannot seek backwards in a forward only query" ); QVERIFY( q.first() == false ); QCOMPARE( q.at(), 2 ); QCOMPARE( q.value( 0 ).toInt(), 3 ); QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::seek: cannot seek backwards in a forward only query" ); QVERIFY( q.previous() == false ); QCOMPARE( q.at(), 2 ); QCOMPARE( q.value( 0 ).toInt(), 3 ); QVERIFY( q.next() ); QCOMPARE( q.at(), 3 ); QCOMPARE( q.value( 0 ).toInt(), 4 ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); int i = 0; while ( q.next() ) i++; QVERIFY( q.at() == QSql::AfterLastRow ); QSqlQuery q2 = q; QVERIFY( q2.isForwardOnly() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) + " order by id" ) ); QVERIFY( q.isForwardOnly() ); QVERIFY( q2.isForwardOnly() ); QCOMPARE( q.at(), int( QSql::BeforeFirstRow ) ); QVERIFY_SQL( q, seek( 3 ) ); QCOMPARE( q.at(), 3 ); QCOMPARE( q.value( 0 ).toInt(), 4 ); QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::seek: cannot seek backwards in a forward only query" ); QVERIFY( q.seek( 0 ) == false ); QCOMPARE( q.value( 0 ).toInt(), 4 ); QCOMPARE( q.at(), 3 ); QVERIFY( q.last() ); QCOMPARE( q.at(), i-1 ); QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::seek: cannot seek backwards in a forward only query" ); QVERIFY( q.first() == false ); QCOMPARE( q.at(), i-1 ); QVERIFY( q.next() == false ); QCOMPARE( q.at(), int( QSql::AfterLastRow ) ); } void tst_QSqlQuery::query_exec() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( !q.isValid() ); QVERIFY( !q.isActive() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) ) ); QVERIFY( q.isActive() ); QVERIFY( q.next() ); QVERIFY( q.isValid() ); } void tst_QSqlQuery::isNull() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "select id, t_varchar from " + qTableName( "qtest_null" ) + " order by id" ) ); QVERIFY( q.next() ); QVERIFY( !q.isNull( 0 ) ); QVERIFY( q.isNull( 1 ) ); QCOMPARE( q.value( 0 ).toInt(), 0 ); QCOMPARE( q.value( 1 ).toString(), QString() ); QVERIFY( !q.value( 0 ).isNull() ); QVERIFY( q.value( 1 ).isNull() ); QVERIFY( q.next() ); QVERIFY( !q.isNull( 0 ) ); QVERIFY( !q.isNull( 1 ) ); } /*! TDS specific BIT field test */ void tst_QSqlQuery::bitField() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driverName().startsWith( "QTDS" ) ) QSKIP( "TDS specific test", SkipSingle ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_bittest" ) + " (bitty bit)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_bittest" ) + " values (0)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_bittest" ) + " values (1)" ) ); QVERIFY_SQL( q, exec( "select bitty from " + qTableName( "qtest_bittest" ) ) ); QVERIFY( q.next() ); QVERIFY( q.value( 0 ).toInt() == 0 ); QVERIFY( q.next() ); QVERIFY( q.value( 0 ).toInt() == 1 ); } /*! Oracle specific NULL BLOB test */ void tst_QSqlQuery::nullBlob() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_nullblob" ) + " (id int primary key, bb blob)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_nullblob" ) + " values (0, EMPTY_BLOB())" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_nullblob" ) + " values (1, NULL)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_nullblob" ) + " values (2, 'aabbcc00112233445566')" ) ); // necessary otherwise oracle will bombard you with internal errors q.setForwardOnly( true ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest_nullblob" ) + " order by id" ) ); QVERIFY( q.next() ); QCOMPARE(( int )q.value( 1 ).toByteArray().size(), 0 ); QVERIFY( !q.isNull( 1 ) ); QVERIFY( q.next() ); QCOMPARE(( int )q.value( 1 ).toByteArray().size(), 0 ); QVERIFY( q.isNull( 1 ) ); QVERIFY( q.next() ); QCOMPARE(( int )q.value( 1 ).toByteArray().size(), 10 ); QVERIFY( !q.isNull( 1 ) ); } /* Oracle specific RAW field test */ void tst_QSqlQuery::rawField() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); q.setForwardOnly( true ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_rawtest" ) + " (id int, col raw(20))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_rawtest" ) + " values (0, NULL)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_rawtest" ) + " values (1, '00aa1100ddeeff')" ) ); QVERIFY_SQL( q, exec( "select col from " + qTableName( "qtest_rawtest" ) + " order by id" ) ); QVERIFY( q.next() ); QVERIFY( q.isNull( 0 ) ); QCOMPARE(( int )q.value( 0 ).toByteArray().size(), 0 ); QVERIFY( q.next() ); QVERIFY( !q.isNull( 0 ) ); QCOMPARE(( int )q.value( 0 ).toByteArray().size(), 7 ); } // test whether we can fetch values with more than DOUBLE precision // note that MySQL's 3.x highest precision is that of a double, although // you can define field with higher precision void tst_QSqlQuery::precision() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); static const char* precStr = "1.2345678901234567891"; if ( db.driverName().startsWith( "QIBASE" ) ) QSKIP( "DB unable to store high precision", SkipSingle ); { // need a new scope for SQLITE QSqlQuery q( db ); if ( tst_Databases::isMSAccess( db ) ) QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_precision" ) + " (col1 number)" ) ); else QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_precision" ) + " (col1 numeric(21, 20))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest_precision" ) + " (col1) values (1.2345678901234567891)" ) ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest_precision" ) ) ); QVERIFY( q.next() ); QString val = q.value( 0 ).toString(); if ( !val.startsWith( "1.2345678901234567891" ) ) { int i = 0; while ( precStr[i] != 0 && *( precStr + i ) == val[i].toLatin1() ) i++; // MySQL and TDS have crappy precisions by default if ( db.driverName().startsWith( "QMYSQL" ) ) { if ( i < 17 ) QWARN( "MySQL didn't return the right precision" ); } else if ( db.driverName().startsWith( "QTDS" ) ) { if ( i < 18 ) QWARN( "TDS didn't return the right precision" ); } else { QWARN( QString( tst_Databases::dbToString( db ) + " didn't return the right precision (" + QString::number( i ) + " out of 21), " + val ).toLatin1() ); } } } // SQLITE scope } void tst_QSqlQuery::nullResult() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest" ) + " where id > 50000" ) ); if ( q.driver()->hasFeature( QSqlDriver::QuerySize ) ) QCOMPARE( q.size(), 0 ); QVERIFY( q.next() == false ); QVERIFY( q.first() == false ); QVERIFY( q.last() == false ); QVERIFY( q.previous() == false ); QVERIFY( q.seek( 10 ) == false ); QVERIFY( q.seek( 0 ) == false ); } // this test is just an experiment to see whether we can do query-based transactions // the real transaction test is in tst_QSqlDatabase void tst_QSqlQuery::transaction() { // query based transaction is not really possible with Qt QSKIP( "only tested manually by trained staff", SkipAll ); QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::Transactions ) ) QSKIP( "DBMS not transaction capable", SkipSingle ); // this is the standard SQL QString startTransactionStr( "start transaction" ); if ( db.driverName().startsWith( "QMYSQL" ) ) startTransactionStr = "begin work"; QSqlQuery q( db ); QSqlQuery q2( db ); // test a working transaction q.exec( startTransactionStr ); QVERIFY_SQL( q, exec( "insert into" + qTableName( "qtest" ) + " values (40, 'VarChar40', 'Char40')" ) ); QVERIFY_SQL( q, exec( "select * from" + qTableName( "qtest" ) + " where id = 40" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 40 ); QVERIFY_SQL( q, exec( "commit" ) ); QVERIFY_SQL( q, exec( "select * from" + qTableName( "qtest" ) + " where id = 40" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 40 ); // test a rollback q.exec( startTransactionStr ); QVERIFY_SQL( q, exec( "insert into" + qTableName( "qtest" ) + " values (41, 'VarChar41', 'Char41')" ) ); QVERIFY_SQL( q, exec( "select * from" + qTableName( "qtest" ) + " where id = 41" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 41 ); if ( !q.exec( "rollback" ) ) { if ( db.driverName().startsWith( "QMYSQL" ) ) { qDebug( "MySQL: " + tst_Databases::printError( q.lastError() ) ); QSKIP( "MySQL transaction failed ", SkipSingle ); //non-fatal } else QFAIL( "Could not rollback transaction: " + tst_Databases::printError( q.lastError() ) ); } QVERIFY_SQL( q, exec( "select * from" + qTableName( "qtest" ) + " where id = 41" ) ); QVERIFY( q.next() == false ); // test concurrent access q.exec( startTransactionStr ); QVERIFY_SQL( q, exec( "insert into" + qTableName( "qtest" ) + " values (42, 'VarChar42', 'Char42')" ) ); QVERIFY_SQL( q, exec( "select * from" + qTableName( "qtest" ) + " where id = 42" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 42 ); QVERIFY_SQL( q2, exec( "select * from" + qTableName( "qtest" ) + " where id = 42" ) ); if ( q2.next() ) qDebug( QString( "DBMS '%1' doesn't support query based transactions with concurrent access" ).arg( tst_Databases::dbToString( db ) ).toLatin1() ); QVERIFY_SQL( q, exec( "commit" ) ); QVERIFY_SQL( q2, exec( "select * from" + qTableName( "qtest" ) + " where id = 42" ) ); QVERIFY( q2.next() ); QCOMPARE( q2.value( 0 ).toInt(), 42 ); } void tst_QSqlQuery::joins() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( db.driverName().startsWith( "QOCI" ) || db.driverName().startsWith( "QTDS" ) || db.driverName().startsWith( "QODBC" ) || db.driverName().startsWith( "QIBASE" ) ) { // Oracle broken beyond recognition - cannot outer join on more than // one table. QSKIP( "DBMS cannot understand standard SQL", SkipSingle ); return; } QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtestj1" ) + " (id1 int, id2 int)" ) ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtestj2" ) + " (id int, name varchar(20))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtestj1" ) + " values (1, 1)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtestj1" ) + " values (1, 2)" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtestj2" ) + " values(1, 'trenton')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtestj2" ) + " values(2, 'marius')" ) ); QVERIFY_SQL( q, exec( "select qtestj1.id1, qtestj1.id2, qtestj2.id, qtestj2.name, qtestj3.id, qtestj3.name " "from " + qTableName( "qtestj1" ) + " qtestj1 left outer join " + qTableName( "qtestj2" ) + " qtestj2 on (qtestj1.id1 = qtestj2.id) " "left outer join " + qTableName( "qtestj2" ) + " as qtestj3 on (qtestj1.id2 = qtestj3.id)" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toInt(), 1 ); QCOMPARE( q.value( 2 ).toInt(), 1 ); QCOMPARE( q.value( 3 ).toString(), QString( "trenton" ) ); QCOMPARE( q.value( 4 ).toInt(), 1 ); QCOMPARE( q.value( 5 ).toString(), QString( "trenton" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toInt(), 2 ); QCOMPARE( q.value( 2 ).toInt(), 1 ); QCOMPARE( q.value( 3 ).toString(), QString( "trenton" ) ); QCOMPARE( q.value( 4 ).toInt(), 2 ); QCOMPARE( q.value( 5 ).toString(), QString( "marius" ) ); } void tst_QSqlQuery::synonyms() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q(db); QVERIFY_SQL( q, exec("select a.id, a.t_char, a.t_varchar from " + qTableName( "qtest" ) + " a where a.id = 1") ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString().trimmed(), QString( "Char1" ) ); QCOMPARE( q.value( 2 ).toString().trimmed(), QString( "VarChar1" ) ); QSqlRecord rec = q.record(); QCOMPARE(( int )rec.count(), 3 ); QCOMPARE( rec.field( 0 ).name().toLower(), QString( "id" ) ); QCOMPARE( rec.field( 1 ).name().toLower(), QString( "t_char" ) ); QCOMPARE( rec.field( 2 ).name().toLower(), QString( "t_varchar" ) ); } // It doesn't make sense to split this into several tests void tst_QSqlQuery::prepare_bind_exec() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); { // new scope for SQLITE static const unsigned short utf8arr[] = { 0xfb50,0xfb60,0xfb70,0xfb80,0xfbe0,0xfbf0,0x00 }; static const QString utf8str = QString::fromUtf16( utf8arr ); static const QString values[6] = { "Harry", "Trond", "Mark", "Ma?rk", "?", ":id" }; bool useUnicode = db.driver()->hasFeature( QSqlDriver::Unicode ); QSqlQuery q( db ); if ( db.driverName().startsWith( "QMYSQL" ) && tst_Databases::getMySqlVersion( db ).section( QChar('.'), 0, 0 ).toInt()<5 ) useUnicode = false; QString createQuery; if ( tst_Databases::isSqlServer( db ) || db.driverName().startsWith( "QTDS" ) ) createQuery = "create table " + qTableName( "qtest_prepare" ) + " (id int primary key, name nvarchar(20) null)"; else if ( db.driverName().startsWith( "QMYSQL" ) && useUnicode ) createQuery = "create table " + qTableName( "qtest_prepare" ) + " (id int not null primary key, name varchar(20) character set utf8)"; else createQuery = "create table " + qTableName( "qtest_prepare" ) + " (id int not null primary key, name varchar(20))"; QVERIFY_SQL( q, exec( createQuery ) ); QVERIFY( q.prepare( "insert into " + qTableName( "qtest_prepare" ) + " (id, name) values (:id, :name)" ) ); int i; for ( i = 0; i < 6; ++i ) { q.bindValue( ":name", values[i] ); q.bindValue( ":id", i ); QVERIFY_SQL( q, exec() ); QMap m = q.boundValues(); QCOMPARE(( int ) m.count(), 2 ); QCOMPARE( m[":name"].toString(), values[i] ); QCOMPARE( m[":id"].toInt(), i ); } q.bindValue( ":id", 8 ); QVERIFY_SQL( q, exec() ); if ( useUnicode ) { q.bindValue( ":id", 7 ); q.bindValue( ":name", utf8str ); QVERIFY_SQL( q, exec() ); } QVERIFY_SQL( q, exec( "SELECT * FROM " + qTableName( "qtest_prepare" ) + " order by id" ) ); for ( i = 0; i < 6; ++i ) { QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), i ); QCOMPARE( q.value( 1 ).toString().trimmed(), values[ i ] ); } if ( useUnicode ) { QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 7 ); QCOMPARE( q.value( 1 ).toString(), utf8str ); } QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 8 ); QCOMPARE( q.value( 1 ).toString(), values[5] ); QVERIFY( q.prepare( "insert into " + qTableName( "qtest_prepare" ) + " (id, name) values (:id, 'Bart')" ) ); q.bindValue( ":id", 99 ); QVERIFY_SQL( q, exec() ); q.bindValue( ":id", 100 ); QVERIFY_SQL( q, exec() ); QVERIFY( q.exec( "select * from " + qTableName( "qtest_prepare" ) + " where id > 98 order by id" ) ); for ( i = 99; i <= 100; ++i ) { QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), i ); QCOMPARE( q.value( 1 ).toString().trimmed(), QString( "Bart" ) ); } /*** SELECT stuff ***/ QVERIFY( q.prepare( "select * from " + qTableName( "qtest_prepare" ) + " where id = :id" ) ); for ( i = 0; i < 6; ++i ) { q.bindValue( ":id", i ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), i ); QCOMPARE( q.value( 1 ).toString().trimmed(), values[ i ] ); QSqlRecord rInf = q.record(); QCOMPARE(( int )rInf.count(), 2 ); QCOMPARE( rInf.field( 0 ).name().toUpper(), QString( "ID" ) ); QCOMPARE( rInf.field( 1 ).name().toUpper(), QString( "NAME" ) ); QVERIFY( !q.next() ); } QVERIFY_SQL( q, exec( "DELETE FROM " + qTableName( "qtest_prepare" ) ) ); QVERIFY( q.prepare( "insert into " + qTableName( "qtest_prepare" ) + " (id, name) values (?, ?)" ) ); q.bindValue( 0, 0 ); q.bindValue( 1, values[ 0 ] ); QVERIFY_SQL( q, exec() ); q.addBindValue( 1 ); q.addBindValue( values[ 1 ] ); QVERIFY_SQL( q, exec() ); q.addBindValue( 2 ); q.addBindValue( values[ 2 ] ); QVERIFY_SQL( q, exec() ); q.addBindValue( 3 ); q.addBindValue( values[ 3 ] ); QVERIFY_SQL( q, exec() ); q.addBindValue( 4 ); q.addBindValue( values[ 4 ] ); QVERIFY_SQL( q, exec() ); q.bindValue( 1, values[ 5 ] ); q.bindValue( 0, 5 ); QVERIFY_SQL( q, exec() ); q.bindValue( 0, 6 ); q.bindValue( 1, QString() ); QVERIFY_SQL( q, exec() ); if ( db.driver()->hasFeature( QSqlDriver::Unicode ) ) { q.bindValue( 0, 7 ); q.bindValue( 1, utf8str ); QVERIFY_SQL( q, exec() ); } QVERIFY_SQL( q, exec( "SELECT * FROM " + qTableName( "qtest_prepare" ) + " order by id" ) ); for ( i = 0; i < 6; ++i ) { QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), i ); QCOMPARE( q.value( 1 ).toString().trimmed(), values[ i ] ); } QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 6 ); QVERIFY( q.isNull( 1 ) ); if ( useUnicode ) { QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 7 ); QCOMPARE( q.value( 1 ).toString(), utf8str ); } QVERIFY( q.prepare( "insert into " + qTableName( "qtest_prepare" ) + " (id, name) values (?, 'Bart')" ) ); q.bindValue( 0, 99 ); QVERIFY_SQL( q, exec() ); q.addBindValue( 100 ); QVERIFY_SQL( q, exec() ); QVERIFY( q.exec( "select * from " + qTableName( "qtest_prepare" ) + " where id > 98 order by id" ) ); for ( i = 99; i <= 100; ++i ) { QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), i ); QCOMPARE( q.value( 1 ).toString().trimmed(), QString( "Bart" ) ); } /* insert a duplicate id and make sure the db bails out */ QVERIFY( q.prepare( "insert into " + qTableName( "qtest_prepare" ) + " (id, name) values (?, ?)" ) ); q.addBindValue( 99 ); q.addBindValue( "something silly" ); QVERIFY( !q.exec() ); QVERIFY( q.lastError().isValid() ); QVERIFY( !q.isActive() ); } // end of SQLite scope } void tst_QSqlQuery::prepared_select() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, prepare( "select a.id, a.t_char, a.t_varchar from " + qTableName( "qtest" ) + " a where a.id = ?" ) ); q.bindValue( 0, 1 ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.at(), ( int )QSql::BeforeFirstRow ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); q.bindValue( 0, 2 ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.at(), ( int )QSql::BeforeFirstRow ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 2 ); q.bindValue( 0, 3 ); QVERIFY_SQL( q, exec() ); QCOMPARE( q.at(), ( int )QSql::BeforeFirstRow ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 3 ); QVERIFY_SQL( q, prepare( "select a.id, a.t_char, a.t_varchar from " + qTableName( "qtest" ) + " a where a.id = ?" ) ); QCOMPARE( q.at(), ( int )QSql::BeforeFirstRow ); QVERIFY( !q.first() ); } void tst_QSqlQuery::sqlServerLongStrings() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !tst_Databases::isSqlServer( db ) ) QSKIP( "SQL Server specific test", SkipSingle ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "CREATE TABLE " + qTableName( "qtest_longstr" ) + " (id int primary key, longstring ntext)" ) ); QVERIFY_SQL( q, prepare( "INSERT INTO " + qTableName( "qtest_longstr" ) + " VALUES (?, ?)" ) ); q.addBindValue( 0 ); q.addBindValue( QString::fromLatin1( "bubu" ) ); QVERIFY_SQL( q, exec() ); QString testStr; testStr.fill( QLatin1Char( 'a' ), 85000 ); q.addBindValue( 1 ); q.addBindValue( testStr ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select * from " + qTableName( "qtest_longstr" ) ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 0 ); QCOMPARE( q.value( 1 ).toString(), QString::fromLatin1( "bubu" ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString(), testStr ); } void tst_QSqlQuery::invalidQuery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY( !q.exec() ); QVERIFY( !q.exec( "blahfasel" ) ); QVERIFY( q.lastError().type() != QSqlError::NoError ); QVERIFY( !q.next() ); QVERIFY( !q.isActive() ); if ( !db.driverName().startsWith( "QOCI" ) && !db.driverName().startsWith( "QDB2" ) && !db.driverName().startsWith( "QODBC" ) ) { // oracle and db2 just prepares everything without complaining if ( db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) QVERIFY( !q.prepare( "blahfasel" ) ); } QVERIFY( !q.exec() ); QVERIFY( !q.isActive() ); QVERIFY( !q.next() ); } class ResultHelper: public QSqlResult { public: ResultHelper(): QSqlResult( 0 ) {} // don't call, it's only for stupid compilers bool execBatch( bool bindArray = false ) { return QSqlResult::execBatch( bindArray ); } }; void tst_QSqlQuery::batchExec() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::BatchOperations ) ) QSKIP( "Database can't do BatchOperations", SkipSingle ); QSqlQuery q( db ); QString tableName = qTableName( "qtest_batch" ); QVERIFY_SQL( q, exec( "create table " + tableName + " (id int, name varchar(20), dt date, num numeric(8, 4))" ) ); QVERIFY_SQL( q, prepare( "insert into " + tableName + " (id, name, dt, num) values (?, ?, ?, ?)" ) ); QVariantList intCol; intCol << 1 << 2 << QVariant( QVariant::Int ); QVariantList charCol; charCol << QLatin1String( "harald" ) << QLatin1String( "boris" ) << QVariant( QVariant::String ); QVariantList dateCol; QDateTime dt = QDateTime( QDate::currentDate(), QTime( 1, 2, 3 ) ); dateCol << dt << dt.addDays( -1 ) << QVariant( QVariant::DateTime ); QVariantList numCol; numCol << 2.3 << 3.4 << QVariant( QVariant::Double ); q.addBindValue( intCol ); q.addBindValue( charCol ); q.addBindValue( dateCol ); q.addBindValue( numCol ); QVERIFY_SQL( q, execBatch() ); QVERIFY_SQL( q, exec( "select id, name, dt, num from " + tableName + " order by id" ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString(), QString( "harald" ) ); QCOMPARE( q.value( 2 ).toDateTime(), dt ); QCOMPARE( q.value( 3 ).toDouble(), 2.3 ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 2 ); QCOMPARE( q.value( 1 ).toString(), QString( "boris" ) ); QCOMPARE( q.value( 2 ).toDateTime(), dt.addDays( -1 ) ); QCOMPARE( q.value( 3 ).toDouble(), 3.4 ); QVERIFY( q.next() ); QVERIFY( q.value( 0 ).isNull() ); QVERIFY( q.value( 1 ).isNull() ); QVERIFY( q.value( 2 ).isNull() ); QVERIFY( q.value( 3 ).isNull() ); } void tst_QSqlQuery::oraArrayBind() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::BatchOperations ) ) QSKIP( "Database can't do BatchOperations", SkipSingle ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "CREATE OR REPLACE PACKAGE ora_array_test " "IS " "TYPE names_type IS TABLE OF VARCHAR(64) NOT NULL INDEX BY BINARY_INTEGER; " "names_tab names_type; " "PROCEDURE set_name(name_in IN VARCHAR2, row_in in INTEGER); " "PROCEDURE get_name(row_in IN INTEGER, str_out OUT VARCHAR2); " "PROCEDURE get_table(tbl OUT names_type); " "PROCEDURE set_table(tbl IN names_type); " "END ora_array_test; " ) ); QVERIFY_SQL( q, exec( "CREATE OR REPLACE PACKAGE BODY ora_array_test " "IS " "PROCEDURE set_name(name_in IN VARCHAR2, row_in in INTEGER) " "IS " "BEGIN " "names_tab(row_in) := name_in; " "END set_name; " "PROCEDURE get_name(row_in IN INTEGER, str_out OUT VARCHAR2) " "IS " "BEGIN " "str_out := names_tab(row_in); " "END get_name; " "PROCEDURE get_table(tbl OUT names_type) " "IS " "BEGIN " "tbl:=names_tab; " "END get_table; " "PROCEDURE set_table(tbl IN names_type) " "IS " "BEGIN " "names_tab := tbl; " "END set_table; " "END ora_array_test; " ) ); QVariantList list; list << QString( "lorem" ) << QString( "ipsum" ) << QString( "dolor" ) << QString( "sit" ) << QString( "amet" ); QVERIFY_SQL( q, prepare( "BEGIN " "ora_array_test.set_table(?); " "END;" ) ); q.bindValue( 0, list, QSql::In ); QVERIFY_SQL( q, execBatch( QSqlQuery::ValuesAsColumns ) ); QVERIFY_SQL( q, prepare( "BEGIN " "ora_array_test.get_table(?); " "END;" ) ); list.clear(); list << QString( 64,' ' ) << QString( 64,' ' ) << QString( 64,' ' ) << QString( 64,' ' ) << QString( 64,' ' ); q.bindValue( 0, list, QSql::Out ); QVERIFY_SQL( q, execBatch( QSqlQuery::ValuesAsColumns ) ); QVariantList out_list = q.boundValue( 0 ).toList(); QCOMPARE( out_list.at( 0 ).toString(), QString( "lorem" ) ); QCOMPARE( out_list.at( 1 ).toString(), QString( "ipsum" ) ); QCOMPARE( out_list.at( 2 ).toString(), QString( "dolor" ) ); QCOMPARE( out_list.at( 3 ).toString(), QString( "sit" ) ); QCOMPARE( out_list.at( 4 ).toString(), QString( "amet" ) ); QVERIFY_SQL( q, exec( "DROP PACKAGE ora_array_test" ) ); } /* Tests that QSqlDatabase::record and QSqlQuery::record returns the same thing otherwise our models get confused. */ void tst_QSqlQuery::record_sqlite() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table "+qTableName( "record_sqlite" )+"(id integer primary key, name varchar, title int)" ) ); QSqlRecord rec = db.record( qTableName( "record_sqlite" ) ); QCOMPARE( rec.count(), 3 ); QCOMPARE( rec.field( 0 ).type(), QVariant::Int ); QCOMPARE( rec.field( 1 ).type(), QVariant::String ); QCOMPARE( rec.field( 2 ).type(), QVariant::Int ); /* important - select from an empty table */ QVERIFY_SQL( q, exec( "select id, name, title from "+qTableName( "record_sqlite" ) ) ); rec = q.record(); QCOMPARE( rec.count(), 3 ); QCOMPARE( rec.field( 0 ).type(), QVariant::Int ); QCOMPARE( rec.field( 1 ).type(), QVariant::String ); QCOMPARE( rec.field( 2 ).type(), QVariant::Int ); } void tst_QSqlQuery::oraLong() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QString aLotOfText( 127000, QLatin1Char( 'H' ) ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_longstr" ) + " (id int primary key, astr long)" ) ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "qtest_longstr" ) + " (id, astr) values (?, ?)" ) ); q.addBindValue( 1 ); q.addBindValue( aLotOfText ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select id,astr from " + qTableName( "qtest_longstr" ) ) ); QVERIFY( q.next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString(), aLotOfText ); } void tst_QSqlQuery::execErrorRecovery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_exerr" ) + " (id int not null primary key)" ) ); QVERIFY_SQL( q, prepare( "insert into " + qTableName( "qtest_exerr" ) + " values (?)" ) ); q.addBindValue( 1 ); QVERIFY_SQL( q, exec() ); q.addBindValue( 1 ); // binding the same pkey - should fail QVERIFY( !q.exec() ); q.addBindValue( 2 ); // this should work again QVERIFY_SQL( q, exec() ); } void tst_QSqlQuery::lastInsertId() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::LastInsertId ) ) QSKIP( "Database doesn't support lastInsertId", SkipSingle ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "qtest" ) + " values (41, 'VarChar41', 'Char41')" ) ); QVariant v = q.lastInsertId(); QVERIFY( v.isValid() ); } void tst_QSqlQuery::lastQuery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QString sql = "select * from " + qTableName( "qtest" ); QVERIFY_SQL( q, exec( sql ) ); QCOMPARE( q.lastQuery(), sql ); QCOMPARE( q.executedQuery(), sql ); } void tst_QSqlQuery::bindWithDoubleColonCastOperator() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); // Only PostgreSQL support the double-colon cast operator if ( !db.driverName().startsWith( "QPSQL" ) ) { QSKIP( "Test requires PostgreSQL", SkipSingle ); return; } QString tablename = qTableName( "bindtest" ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + tablename + " (id1 int, id2 int, id3 int, fld1 int, fld2 int)" ) ); QVERIFY_SQL( q, exec( "insert into " + tablename + " values (1, 2, 3, 10, 5)" ) ); QVERIFY_SQL( q, prepare( "select sum((fld1 - fld2)::int) from " + tablename + " where id1 = :myid1 and id2 =:myid2 and id3=:myid3" ) ); q.bindValue( ":myid1", 1 ); q.bindValue( ":myid2", 2 ); q.bindValue( ":myid3", 3 ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); if ( db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) QCOMPARE( q.executedQuery(), QString( "select sum((fld1 - fld2)::int) from " + tablename + " where id1 = ? and id2 =? and id3=?" ) ); else QCOMPARE( q.executedQuery(), QString( "select sum((fld1 - fld2)::int) from " + tablename + " where id1 = 1 and id2 =2 and id3=3" ) ); } /* For task 157397: Using QSqlQuery with an invalid QSqlDatabase does not set the last error of the query. This test function will output some warnings, that's ok. */ void tst_QSqlQuery::queryOnInvalidDatabase() { { QTest::ignoreMessage( QtWarningMsg, "QSqlDatabase: INVALID driver not loaded" ); QSqlDatabase db = QSqlDatabase::addDatabase( "INVALID", "invalidConnection" ); QVERIFY2( db.lastError().isValid(), qPrintable( QString( "db.lastError().isValid() should be true!" ) ) ); QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::exec: database not open" ); QSqlQuery query( "SELECT 1 AS ID", db ); QVERIFY2( query.lastError().isValid(), qPrintable( QString( "query.lastError().isValid() should be true!" ) ) ); } QSqlDatabase::removeDatabase( "invalidConnection" ); { QSqlDatabase db = QSqlDatabase::database( "this connection does not exist" ); QTest::ignoreMessage( QtWarningMsg, "QSqlQuery::exec: database not open" ); QSqlQuery query( "SELECT 1 AS ID", db ); QVERIFY2( query.lastError().isValid(), qPrintable( QString( "query.lastError().isValid() should be true!" ) ) ); } } /* For task 159138: Error on instantiating a sql-query before explicitly opening the database. This is something we don't support, so this isn't really a bug. However some of the drivers are nice enough to support it. */ void tst_QSqlQuery::createQueryOnClosedDatabase() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); // Only supported by these drivers if ( !db.driverName().startsWith( "QPSQL" ) && !db.driverName().startsWith( "QOCI" ) && !db.driverName().startsWith( "QMYSQL" ) && !db.driverName().startsWith( "QDB2" ) ) { QSKIP( "Test is specific for PostgreSQL, Oracle, MySql and DB2", SkipSingle ); return; } db.close(); QSqlQuery q( db ); db.open(); QVERIFY_SQL( q, exec( QString( "select * from %1 where id = 1" ).arg( qTableName( "qtest" ) ) ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString().trimmed(), QLatin1String( "VarChar1" ) ); QCOMPARE( q.value( 2 ).toString().trimmed(), QLatin1String( "Char1" ) ); db.close(); QVERIFY2( !q.exec( QString( "select * from %1 where id = 1" ).arg( qTableName( "qtest" ) ) ), qPrintable( QString( "This can't happen! The query should not have been executed!" ) ) ); } void tst_QSqlQuery::reExecutePreparedForwardOnlyQuery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); q.setForwardOnly( true ); QVERIFY_SQL( q, prepare( QString( "SELECT id, t_varchar, t_char FROM %1 WHERE id = :id" ).arg( qTableName( "qtest" ) ) ) ); q.bindValue( ":id", 1 ); QVERIFY_SQL( q, exec() ); // Do something, like iterate over the result, or skip to the end QVERIFY_SQL( q, last() ); QVERIFY_SQL( q, exec() ); /* This was broken with SQLite because the cache size was set to 0 in the 2nd execute. When forwardOnly is set we don't cahce the entire result, but we do cache the current row but this requires the cache size to be equal to the column count. */ QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.value( 1 ).toString().trimmed(), QString( "VarChar1" ) ); QCOMPARE( q.value( 2 ).toString().trimmed(), QString( "Char1" ) ); } void tst_QSqlQuery::finish() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, prepare( "SELECT id FROM " + qTableName( "qtest" ) + " WHERE id = ?" ) ); int id = 4; q.bindValue( 0, id ); QVERIFY_SQL( q, exec() ); QVERIFY( q.isActive() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), id ); q.finish(); QVERIFY( !q.isActive() ); // query is now inactive QCOMPARE( q.boundValue( 0 ).toInt(), id ); // bound values are retained QVERIFY_SQL( q, exec() ); // no prepare necessary QVERIFY( q.isActive() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), id ); q.finish(); QVERIFY( !q.isActive() ); QVERIFY_SQL( q, exec( "SELECT id FROM " + qTableName( "qtest" ) + " WHERE id = 1" ) ); QVERIFY( q.isActive() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1 ); QCOMPARE( q.record().count(), 1 ); } void tst_QSqlQuery::sqlite_finish() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if (db.driverName() != QLatin1String("QSQLITE")) { QSKIP("Sqlite3 specific test", SkipSingle); return; } if ( db.databaseName().startsWith( ':' ) ) QSKIP( "This test requires a database on the filesystem, not in-memory", SkipAll ); { QSqlDatabase db2 = QSqlDatabase::addDatabase( "QSQLITE", "sqlite_finish_sqlite" ); db2.setDatabaseName( db.databaseName() ); QVERIFY_SQL( db2, open() ); QString tableName = qTableName( "qtest_lockedtable" ); QSqlQuery q( db ); tst_Databases::safeDropTable( db2, tableName ); q.exec( "CREATE TABLE " + tableName + " (pk_id INTEGER PRIMARY KEY, whatever TEXT)" ); q.exec( "INSERT INTO " + tableName + " values(1, 'whatever')" ); q.exec( "INSERT INTO " + tableName + " values(2, 'whatever more')" ); // This creates a read-lock in the database QVERIFY_SQL( q, exec( "SELECT * FROM " + tableName + " WHERE pk_id = 1 or pk_id = 2" ) ); QVERIFY_SQL( q, next() ); // The DELETE will fail because of the read-lock QSqlQuery q2( db2 ); QVERIFY( !q2.exec( "DELETE FROM " + tableName + " WHERE pk_id=2" ) ); QCOMPARE( q2.numRowsAffected(), -1 ); // The DELETE will succeed now because finish() removes the lock q.finish(); QVERIFY_SQL( q2, exec( "DELETE FROM " + tableName + " WHERE pk_id=2" ) ); QCOMPARE( q2.numRowsAffected(), 1 ); tst_Databases::safeDropTable( db2, tableName ); } QSqlDatabase::removeDatabase( "sqlite_finish_sqlite" ); } void tst_QSqlQuery::nextResult() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::MultipleResultSets ) || !db.driver()->hasFeature( QSqlDriver::BatchOperations ) ) QSKIP( "DBMS does not support multiple result sets or batch operations", SkipSingle ); QSqlQuery q( db ); if ( db.driverName().startsWith( "QMYSQL" ) && tst_Databases::getMySqlVersion( db ).section( QChar('.'), 0, 0 ).toInt()<5 ) QSKIP( "Test requires MySQL >= 5.0", SkipSingle ); enum DriverType { ODBC, MYSQL, DB2 }; DriverType driverType = ODBC; if ( db.driverName().startsWith( "QMYSQL" ) ) driverType = MYSQL; else if ( db.driverName().startsWith( "QDB2" ) ) driverType = DB2; QString tableName = qTableName( "more_results" ); QVERIFY_SQL( q, exec( "CREATE TABLE " + tableName + " (id integer, text varchar(20), num numeric(6, 3), empty varchar(10));" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " VALUES(1, 'one', 1.1, '');" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " VALUES(2, 'two', 2.2, '');" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " VALUES(3, 'three', 3.3, '');" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " VALUES(4, 'four', 4.4, '');" ) ); QStringList tstStrings; tstStrings << "one" << "two" << "three" << "four"; // Query that returns only one result set, nothing special about this QVERIFY_SQL( q, exec( QString( "SELECT * FROM %1;" ).arg( tableName ) ) ); QVERIFY( q.next() ); // Move to first row of the result set QVERIFY( !q.nextResult() ); // No more result sets are available QVERIFY( !q.isActive() ); // So the query is no longer active QVERIFY( !q.next() ); // ... and no data is available as the call // to nextResult() discarded the result set // Query that returns two result sets (batch sql) // When working with multiple result sets SQL Server insists on non-scrollable cursors if ( driverType == ODBC ) q.setForwardOnly( true ); QVERIFY_SQL( q, exec( "SELECT id FROM " + tableName + "; SELECT text, num FROM " + tableName + ';' ) ); QCOMPARE( q.record().count(), 1 ); // Check that the meta data is as expected QCOMPARE( q.record().field( 0 ).name().toUpper(), QString( "ID" ) ); QCOMPARE( q.record().field( 0 ).type(), QVariant::Int ); QVERIFY( q.nextResult() ); // Discards first result set and move to the next QCOMPARE( q.record().count(), 2 ); // New meta data should be available QCOMPARE( q.record().field( 0 ).name().toUpper(), QString( "TEXT" ) ); QCOMPARE( q.record().field( 0 ).type(), QVariant::String ); QCOMPARE( q.record().field( 1 ).name().toUpper(), QString( "NUM" ) ); if ( driverType == MYSQL ) QCOMPARE( q.record().field( 1 ).type(), QVariant::String ); else QCOMPARE( q.record().field( 1 ).type(), QVariant::Double ); QVERIFY( q.next() ); // Move to first row of the second result set QFAIL_SQL(q, nextResult()); // No more result sets after this QVERIFY( !q.isActive() ); // So the query is no longer active QVERIFY( !q.next() ); // ... and no data is available as the call to // nextResult() discarded the result set // Query that returns one result set, a count of affected rows and then another result set QString query1 = QString( "SELECT id, text, num, empty FROM %1 WHERE id <= 3" ).arg( tableName ); QString query2 = QString( "UPDATE %1 SET empty = 'Yatta!'" ).arg( tableName ); QString query3 = QString( "SELECT id, empty FROM %1 WHERE id <=2" ).arg( tableName ); QVERIFY_SQL( q, exec( QString( "%1; %2; %3;" ).arg( query1 ).arg( query2 ).arg( query3 ) ) ); // Check result set returned by first statement QVERIFY( q.isSelect() ); // The first statement is a select for ( int i = 0; i < 3; i++ ) { QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1+i ); QCOMPARE( q.value( 1 ).toString(), tstStrings.at( i ) ); QCOMPARE( q.value( 2 ).toDouble(), 1.1*( i+1 ) ); QVERIFY( q.value( 3 ).toString().isEmpty() ); } QVERIFY_SQL( q, nextResult() ); QVERIFY( !q.isSelect() ); // The second statement isn't a SELECT QVERIFY( !q.next() ); // ... so no result set is available QCOMPARE( q.numRowsAffected(), 4 ); // 4 rows was affected by the UPDATE // Check result set returned by third statement QVERIFY_SQL( q, nextResult() ); QVERIFY( q.isSelect() ); // The third statement is a SELECT for ( int i = 0; i < 2; i++ ) { QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), 1+i ); QCOMPARE( q.value( 1 ).toString(), QString( "Yatta!" ) ); } // Stored procedure with multiple result sets QString procName = qTableName( "proc_more_res" ); q.exec( QString( "DROP PROCEDURE %1;" ).arg( procName ) ); if ( driverType == MYSQL ) QVERIFY_SQL( q, exec( QString( "CREATE PROCEDURE %1()" "\nBEGIN" "\nSELECT id, text FROM %2;" "\nSELECT empty, num, text, id FROM %3;" "\nEND" ).arg( procName ).arg( tableName ).arg( tableName ) ) ); else if ( driverType == DB2 ) QVERIFY_SQL( q, exec( QString( "CREATE PROCEDURE %1()" "\nRESULT SETS 2" "\nLANGUAGE SQL" "\np1:BEGIN" "\nDECLARE cursor1 CURSOR WITH RETURN FOR SELECT id, text FROM %2;" "\nDECLARE cursor2 CURSOR WITH RETURN FOR SELECT empty, num, text, id FROM %3;" "\nOPEN cursor1;" "\nOPEN cursor2;" "\nEND p1" ).arg( procName ).arg( tableName ).arg( tableName ) ) ); else QVERIFY_SQL( q, exec( QString( "CREATE PROCEDURE %1" "\nAS" "\nSELECT id, text FROM %2" "\nSELECT empty, num, text, id FROM %3" ).arg( procName ).arg( tableName ).arg( tableName ) ) ); if ( driverType == MYSQL || driverType == DB2 ) { q.setForwardOnly( true ); QVERIFY_SQL( q, exec( QString( "CALL %1()" ).arg( procName ) ) ); } else { QVERIFY_SQL( q, exec( QString( "EXEC %1" ).arg( procName ) ) ); } for ( int i = 0; i < 4; i++ ) { QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toInt(), i+1 ); QCOMPARE( q.value( 1 ).toString(), tstStrings.at( i ) ); } QVERIFY_SQL( q, nextResult() ); QVERIFY_SQL( q, isActive() ); for ( int i = 0; i < 4; i++ ) { QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString(), QString( "Yatta!" ) ); QCOMPARE( q.value( 1 ).toDouble(), 1.1*( 1+i ) ); QCOMPARE( q.value( 2 ).toString(), tstStrings.at( i ) ); QCOMPARE( q.value( 3 ).toInt(), 1+i ); } // MySQL also counts the CALL itself as a result if ( driverType == MYSQL ) { QVERIFY( q.nextResult() ); QVERIFY( !q.isSelect() ); // ... but it's not a select QCOMPARE( q.numRowsAffected(), 0 ); // ... and no rows are affected (at least not with this procedure) } QVERIFY( !q.nextResult() ); QVERIFY( !q.isActive() ); q.exec( QString( "DROP PROCEDURE %1;" ).arg( procName ) ); } // For task 190311. Problem: Truncation happens on the 2nd execution if that BLOB is larger // than the BLOB on the 1st execution. This was only for MySQL, but the test is general // enough to be run with all backends. void tst_QSqlQuery::blobsPreparedQuery() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if ( !db.driver()->hasFeature( QSqlDriver::BLOB ) || !db.driver()->hasFeature( QSqlDriver::PreparedQueries ) ) QSKIP( "DBMS does not support BLOBs or prepared queries", SkipSingle ); QString tableName = qTableName( "blobstest" ); QSqlQuery q( db ); q.setForwardOnly( true ); // This is needed to make the test work with DB2. QString shortBLOB( "abc" ); QString longerBLOB( "abcdefghijklmnopqrstuvxyz¿äëïöü¡ " ); // In PostgreSQL a BLOB is not called a BLOB, but a BYTEA! :-) // ... and in SQL Server it can be called a lot, but IMAGE will do. QString typeName( "BLOB" ); if ( db.driverName().startsWith( "QPSQL" ) ) typeName = "BYTEA"; else if ( db.driverName().startsWith( "QODBC" ) && tst_Databases::isSqlServer( db )) typeName = "IMAGE"; QVERIFY_SQL( q, exec( QString( "CREATE TABLE %1(id INTEGER, data %2)" ).arg( tableName ).arg( typeName ) ) ); q.prepare( QString( "INSERT INTO %1(id, data) VALUES(:id, :data)" ).arg( tableName ) ); q.bindValue( ":id", 1 ); q.bindValue( ":data", shortBLOB.toAscii() ); QVERIFY_SQL( q, exec() ); q.bindValue( ":id", 2 ); q.bindValue( ":data", longerBLOB.toAscii() ); QVERIFY_SQL( q, exec() ); // Two executions and result sets q.prepare( QString( "SELECT data FROM %1 WHERE id = ?" ).arg( tableName ) ); q.bindValue( 0, QVariant( 1 ) ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString(), shortBLOB ); q.bindValue( 0, QVariant( 2 ) ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString(), longerBLOB ); // Only one execution and result set q.prepare( QString( "SELECT id, data FROM %1 ORDER BY id" ).arg( tableName ) ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 1 ).toString(), shortBLOB ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 1 ).toString(), longerBLOB ); } // There were problems with navigating past the end of a table returning an error on mysql void tst_QSqlQuery::emptyTableNavigate() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); { QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "qtest_empty" ) + " (id char(10))" ) ); QVERIFY_SQL( q, prepare( "select * from " + qTableName( "qtest_empty" ) ) ); QVERIFY_SQL( q, exec() ); QVERIFY( !q.next() ); QCOMPARE( q.lastError().isValid(), false ); } } void tst_QSqlQuery::task_217003() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QVERIFY_SQL( q, exec( "create table " + qTableName( "Planet" ) + " (Name varchar(20))" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "Planet" ) + " VALUES ('Mercury')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "Planet" ) + " VALUES ('Venus')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "Planet" ) + " VALUES ('Earth')" ) ); QVERIFY_SQL( q, exec( "insert into " + qTableName( "Planet" ) + " VALUES ('Mars')" ) ); QVERIFY_SQL( q, exec( "SELECT Name FROM "+qTableName( "Planet" ) ) ); QVERIFY_SQL( q, seek( 3 ) ); QCOMPARE( q.value( 0 ).toString(), QString( "Mars" ) ); QVERIFY_SQL( q, seek( 1 ) ); QCOMPARE( q.value( 0 ).toString(), QString( "Venus" ) ); QVERIFY_SQL( q, exec( "SELECT Name FROM "+qTableName( "Planet" ) ) ); QVERIFY_SQL( q, seek( 3 ) ); QCOMPARE( q.value( 0 ).toString(), QString( "Mars" ) ); QVERIFY_SQL( q, seek( 0 ) ); QCOMPARE( q.value( 0 ).toString(), QString( "Mercury" ) ); QVERIFY_SQL( q, seek( 1 ) ); QCOMPARE( q.value( 0 ).toString(), QString( "Venus" ) ); } void tst_QSqlQuery::task_250026() { QString data258, data1026; QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QString tableName = qTableName( "task_250026" ); if ( !q.exec( "create table " + tableName + " (longfield varchar(1100))" ) ) { qDebug() << "Error" << q.lastError(); QSKIP( "Db doesn't support \"1100\" as a size for fields", SkipSingle ); } data258.fill( 'A', 258 ); data1026.fill( 'A', 1026 ); QVERIFY_SQL( q, prepare( "insert into " + tableName + "(longfield) VALUES (:longfield)" ) ); q.bindValue( "longfield", data258 ); QVERIFY_SQL( q, exec() ); q.bindValue( "longfield", data1026 ); QVERIFY_SQL( q, exec() ); QVERIFY_SQL( q, exec( "select * from " + tableName ) ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString().length(), data258.length() ); QVERIFY_SQL( q, next() ); QCOMPARE( q.value( 0 ).toString().length(), data1026.length() ); } void tst_QSqlQuery::task_205701() { QSqlDatabase qsdb = QSqlDatabase::addDatabase("QMYSQL", "atest"); qsdb.setHostName("test"); qsdb.setDatabaseName("test"); qsdb.setUserName("test"); qsdb.setPassword("test"); qsdb.open(); // { QSqlQuery query(qsdb); // } QSqlDatabase::removeDatabase("atest"); } #ifdef NOT_READY_YET // For task: 229811 void tst_QSqlQuery::task_229811() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); if (!db.driverName().startsWith( "QODBC" )) return; QSqlQuery q( db ); QString tableName = qTableName( "task_229811" ); if ( !q.exec( "CREATE TABLE " + tableName + " (Word varchar(20))" ) ) { qDebug() << "Warning" << q.lastError(); } QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " values ('Albert')" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " values ('Beehive')" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " values ('Alimony')" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " values ('Bohemian')" ) ); QVERIFY_SQL( q, exec( "INSERT INTO " + tableName + " values ('AllStars')" ) ); QString stmt = "SELECT * FROM " + tableName + " WHERE Word LIKE :name"; QVERIFY_SQL(q,prepare(stmt)); q.bindValue(":name", "A%"); QVERIFY_SQL(q,exec()); QVERIFY(q.isActive()); QVERIFY(q.isSelect()); QVERIFY(q.first()); QSqlRecord rec = q.record(); QCOMPARE(rec.field(0).value().toString(), QString("Albert")); QVERIFY(q.next()); rec = q.record(); QCOMPARE(rec.field(0).value().toString(), QString("Alimony")); QVERIFY(q.next()); rec = q.record(); QCOMPARE(rec.field(0).value().toString(),QString("AllStars")); q.exec("DROP TABLE " + tableName ); } void tst_QSqlQuery::task_234422() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery query(db); QStringList m_airlines; QStringList m_countries; m_airlines << "Lufthansa" << "SAS" << "United" << "KLM" << "Aeroflot"; m_countries << "DE" << "SE" << "US" << "NL" << "RU"; QString tableName = qTableName( "task_234422" ); QVERIFY_SQL(query,exec("CREATE TABLE " + tableName + " (id int primary key, " "name varchar(20), homecountry varchar(2))")); for (int i = 0; i < m_airlines.count(); ++i) { QVERIFY(query.exec(QString("INSERT INTO " + tableName + " values(%1, '%2', '%3')") .arg(i).arg(m_airlines[i], m_countries[i]))); } QVERIFY_SQL(query, exec("SELECT name FROM " + tableName)); QVERIFY(query.isSelect()); QVERIFY(query.first()); QVERIFY(query.next()); QCOMPARE(query.at(), 1); QSqlQuery query2(query); QVERIFY_SQL(query2,exec()); QVERIFY(query2.first()); QCOMPARE(query2.at(), 0); QCOMPARE(query.at(), 1); } #endif void tst_QSqlQuery::task_233829() { QFETCH( QString, dbName ); QSqlDatabase db = QSqlDatabase::database( dbName ); CHECK_DATABASE( db ); QSqlQuery q( db ); QString tableName = qTableName("task_233829"); QVERIFY_SQL(q,exec("CREATE TABLE " + tableName + "(dbl1 double precision,dbl2 double precision) without oids;")); QString queryString("INSERT INTO " + tableName +"(dbl1, dbl2) VALUES(?,?)"); double k = 0.0; QVERIFY_SQL(q,prepare(queryString)); q.bindValue(0,0.0 / k); // nan q.bindValue(1,0.0 / k); // nan QVERIFY_SQL(q,exec()); } QTEST_MAIN( tst_QSqlQuery ) #include "tst_qsqlquery.moc"