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SqMod/vendor/POCO/Data/MySQL/testsuite/src/MySQLTest.cpp

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//
// MySQLTest.cpp
//
// Copyright (c) 2008, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#include "MySQLTest.h"
#include "CppUnit/TestCaller.h"
#include "CppUnit/TestSuite.h"
#include "Poco/String.h"
#include "Poco/Format.h"
#include "Poco/Tuple.h"
#include "Poco/NamedTuple.h"
#include "Poco/Exception.h"
#include "Poco/Data/LOB.h"
#include "Poco/Data/StatementImpl.h"
#include "Poco/Data/MySQL/Connector.h"
#include "Poco/Data/MySQL/Utility.h"
#include "Poco/Data/MySQL/MySQLException.h"
#include "Poco/Nullable.h"
#include "Poco/Data/DataException.h"
#include <iostream>
using namespace Poco::Data;
using namespace Poco::Data::Keywords;
using Poco::Data::MySQL::ConnectionException;
using Poco::Data::MySQL::Utility;
using Poco::Data::MySQL::StatementException;
using Poco::format;
using Poco::NotFoundException;
using Poco::Int32;
using Poco::Nullable;
using Poco::Tuple;
using Poco::NamedTuple;
Poco::SharedPtr<Poco::Data::Session> MySQLTest::_pSession = 0;
Poco::SharedPtr<SQLExecutor> MySQLTest::_pExecutor = 0;
//
// Parameters for barebone-test
#define MYSQL_USER "pocotest"
#define MYSQL_PWD "pocotest"
#define MYSQL_HOST "127.0.0.1"
#define MYSQL_PORT 3306
#define MYSQL_DB "pocotest"
//
// Connection string
std::string MySQLTest::_dbConnString = "host=" MYSQL_HOST
";user=" MYSQL_USER
";password=" MYSQL_PWD
";db=" MYSQL_DB
";compress=true"
";auto-reconnect=true"
";secure-auth=true"
";protocol=tcp";
MySQLTest::MySQLTest(const std::string& name):
CppUnit::TestCase(name)
{
MySQL::Connector::registerConnector();
}
MySQLTest::~MySQLTest()
{
MySQL::Connector::unregisterConnector();
}
void MySQLTest::dbInfo(Session& session)
{
std::cout << "Server Info: " << Utility::serverInfo(session) << std::endl;
std::cout << "Server Version: " << Utility::serverVersion(session) << std::endl;
std::cout << "Host Info: " << Utility::hostInfo(session) << std::endl;
}
void MySQLTest::connectNoDB()
{
std::string dbConnString = "host=" MYSQL_HOST
";user=" MYSQL_USER
";password=" MYSQL_PWD
";compress=true;auto-reconnect=true;protocol=tcp";
try
{
Session session(MySQL::Connector::KEY, dbConnString);
std::cout << "Connected to [" << "MySQL" << "] without database." << std::endl;
dbInfo(session);
session << "CREATE DATABASE IF NOT EXISTS " MYSQL_DB ";", now;
std::cout << "Disconnecting ..." << std::endl;
session.close();
std::cout << "Disconnected." << std::endl;
}
catch (ConnectionFailedException& ex)
{
std::cout << ex.displayText() << std::endl;
}
}
void MySQLTest::testBareboneMySQL()
{
if (!_pSession) fail ("Test not available.");
std::string tableCreateString = "CREATE TABLE Test "
"(First VARCHAR(30),"
"Second VARCHAR(30),"
"Third VARBINARY(30),"
"Fourth INTEGER,"
"Fifth FLOAT)";
_pExecutor->bareboneMySQLTest(MYSQL_HOST, MYSQL_USER, MYSQL_PWD, MYSQL_DB, MYSQL_PORT, tableCreateString.c_str());
}
void MySQLTest::testSimpleAccess()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->simpleAccess();
}
void MySQLTest::testComplexType()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->complexType();
}
void MySQLTest::testSimpleAccessVector()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->simpleAccessVector();
}
void MySQLTest::testComplexTypeVector()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->complexTypeVector();
}
void MySQLTest::testInsertVector()
{
if (!_pSession) fail ("Test not available.");
recreateStringsTable();
_pExecutor->insertVector();
}
void MySQLTest::testInsertEmptyVector()
{
if (!_pSession) fail ("Test not available.");
recreateStringsTable();
_pExecutor->insertEmptyVector();
}
void MySQLTest::testInsertSingleBulk()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->insertSingleBulk();
}
void MySQLTest::testInsertSingleBulkVec()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->insertSingleBulkVec();
}
void MySQLTest::testLimit()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->limits();
}
void MySQLTest::testLimitZero()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->limitZero();
}
void MySQLTest::testLimitOnce()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->limitOnce();
}
void MySQLTest::testLimitPrepare()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->limitPrepare();
}
void MySQLTest::testPrepare()
{
if (!_pSession) fail ("Test not available.");
recreateIntsTable();
_pExecutor->prepare();
}
void MySQLTest::testSetSimple()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->setSimple();
}
void MySQLTest::testSetComplex()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->setComplex();
}
void MySQLTest::testSetComplexUnique()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->setComplexUnique();
}
void MySQLTest::testMultiSetSimple()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->multiSetSimple();
}
void MySQLTest::testMultiSetComplex()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->multiSetComplex();
}
void MySQLTest::testMapComplex()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->mapComplex();
}
void MySQLTest::testMapComplexUnique()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->mapComplexUnique();
}
void MySQLTest::testMultiMapComplex()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->multiMapComplex();
}
void MySQLTest::testSelectIntoSingle()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->selectIntoSingle();
}
void MySQLTest::testSelectIntoSingleStep()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->selectIntoSingleStep();
}
void MySQLTest::testSelectIntoSingleFail()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->selectIntoSingleFail();
}
void MySQLTest::testLowerLimitOk()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->lowerLimitOk();
}
void MySQLTest::testSingleSelect()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->singleSelect();
}
void MySQLTest::testLowerLimitFail()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->lowerLimitFail();
}
void MySQLTest::testCombinedLimits()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->combinedLimits();
}
void MySQLTest::testRange()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->ranges();
}
void MySQLTest::testCombinedIllegalLimits()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->combinedIllegalLimits();
}
void MySQLTest::testIllegalRange()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->illegalRange();
}
void MySQLTest::testEmptyDB()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->emptyDB();
}
void MySQLTest::testDateTime()
{
if (!_pSession) fail ("Test not available.");
recreatePersonDateTimeTable();
_pExecutor->dateTime();
recreatePersonDateTable();
_pExecutor->date();
recreatePersonTimeTable();
_pExecutor->time();
}
void MySQLTest::testBLOB()
{
if (!_pSession) fail ("Test not available.");
recreatePersonBLOBTable();
_pExecutor->blob();
const std::size_t maxFldSize = 65534;
_pSession->setProperty("maxFieldSize", Poco::Any(maxFldSize-1));
recreatePersonBLOBTable();
try
{
_pExecutor->blob(maxFldSize);
fail ("must fail");
}
catch (DataException&)
{
_pSession->setProperty("maxFieldSize", Poco::Any(maxFldSize));
}
recreatePersonBLOBTable();
_pExecutor->blob(maxFldSize);
recreatePersonBLOBTable();
try
{
_pExecutor->blob(maxFldSize+1);
fail ("must fail");
}
catch (DataException&) { }
}
void MySQLTest::testBLOBStmt()
{
if (!_pSession) fail ("Test not available.");
recreatePersonBLOBTable();
_pExecutor->blobStmt();
}
void MySQLTest::testUnsignedInts()
{
if (!_pSession) fail ("Test not available.");
recreateUnsignedIntsTable();
_pExecutor->unsignedInts();
}
void MySQLTest::testFloat()
{
if (!_pSession) fail ("Test not available.");
recreateFloatsTable();
_pExecutor->floats();
}
void MySQLTest::testDouble()
{
if (!_pSession) fail ("Test not available.");
recreateFloatsTable();
_pExecutor->doubles();
}
void MySQLTest::testTuple()
{
if (!_pSession) fail ("Test not available.");
recreateTuplesTable();
_pExecutor->tuples();
}
void MySQLTest::testTupleVector()
{
if (!_pSession) fail ("Test not available.");
recreateTuplesTable();
_pExecutor->tupleVector();
}
void MySQLTest::testInternalExtraction()
{
if (!_pSession) fail ("Test not available.");
recreateVectorsTable();
_pExecutor->internalExtraction();
}
void MySQLTest::testNull()
{
if (!_pSession) fail ("Test not available.");
recreateVectorsTable();
_pExecutor->doNull();
}
void MySQLTest::testSessionTransaction()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->sessionTransaction(_dbConnString);
}
void MySQLTest::testTransaction()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->transaction(_dbConnString);
}
void MySQLTest::testReconnect()
{
if (!_pSession) fail ("Test not available.");
recreatePersonTable();
_pExecutor->reconnect();
}
void MySQLTest::testNullableInt()
{
if (!_pSession) fail ("Test not available.");
recreateNullableIntTable();
Nullable<Int32> i1(1);
Nullable<Int32> i2;
int id = 1;
*_pSession << "INSERT INTO NullableIntTest VALUES(?, ?)", use(id), use(i1), now;
id = 2;
*_pSession << "INSERT INTO NullableIntTest VALUES(?, ?)", use(id), use(i2), now;
id = 3;
i2 = 3;
*_pSession << "INSERT INTO NullableIntTest VALUES(?, ?)", use(id), use(i2), now;
int count = 0;
*_pSession << "SELECT COUNT(*) FROM NullableIntTest", into(count), now;
assertTrue (count == 3);
Nullable<Int32> ci1;
Nullable<Int32> ci2;
Nullable<Int32> ci3;
id = 1;
*_pSession << "SELECT Value FROM NullableIntTest WHERE Id = ?", into(ci1), use(id), now;
assertTrue (ci1 == i1);
id = 2;
*_pSession << "SELECT Value FROM NullableIntTest WHERE Id = ?", into(ci2), use(id), now;
assertTrue (ci2.isNull());
assertTrue (!(0 == ci2));
assertTrue (0 != ci2);
assertTrue (!(ci2 == 0));
assertTrue (ci2 != 0);
ci2 = 10;
assertTrue (10 == ci2);
assertTrue (ci2 == 10);
assertTrue (!ci2.isNull());
id = 3;
*_pSession << "SELECT Value FROM NullableIntTest WHERE Id = ?", into(ci3), use(id), now;
assertTrue (!ci3.isNull());
assertTrue (ci3 == 3);
assertTrue (3 == ci3);
}
void MySQLTest::testNullableString()
{
if (!_pSession) fail ("Test not available.");
recreateNullableStringTable();
Int32 id = 0;
Nullable<std::string> address("Address");
Nullable<Int32> age = 10;
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(id), use(address), use(age), now;
id++;
address = null;
age = null;
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(id), use(address), use(age), now;
Nullable<std::string> resAddress;
Nullable<Int32> resAge;
*_pSession << "SELECT Address, Age FROM NullableStringTest WHERE Id = ?", into(resAddress), into(resAge), use(id), now;
assertTrue (resAddress == address);
assertTrue (resAge == age);
assertTrue (resAddress.isNull());
assertTrue (null == resAddress);
assertTrue (resAddress == null);
resAddress = std::string("Test");
assertTrue (!resAddress.isNull());
assertTrue (resAddress == std::string("Test"));
assertTrue (std::string("Test") == resAddress);
assertTrue (null != resAddress);
assertTrue (resAddress != null);
}
void MySQLTest::testTupleWithNullable()
{
if (!_pSession) fail ("Test not available.");
recreateNullableStringTable();
typedef Poco::Tuple<Int32, Nullable<std::string>, Nullable<Int32> > Info;
Info info(0, std::string("Address"), 10);
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(info), now;
info.set<0>(info.get<0>()++);
info.set<1>(null);
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(info), now;
info.set<0>(info.get<0>()++);
info.set<1>(std::string("Address!"));
info.set<2>(null);
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(info), now;
std::vector<Info> infos;
infos.push_back(Info(10, std::string("A"), 0));
infos.push_back(Info(11, null, 12));
infos.push_back(Info(12, std::string("B"), null));
*_pSession << "INSERT INTO NullableStringTest VALUES(?, ?, ?)", use(infos), now;
std::vector<Info> result;
*_pSession << "SELECT Id, Address, Age FROM NullableStringTest", into(result), now;
assertTrue (result[0].get<1>() == std::string("Address"));
assertTrue (result[0].get<2>() == 10);
assertTrue (result[1].get<1>() == null);
assertTrue (result[1].get<2>() == 10);
assertTrue (result[2].get<1>() == std::string("Address!"));
assertTrue (result[2].get<2>() == null);
assertTrue (result[3].get<1>() == std::string("A"));
assertTrue (result[3].get<2>() == 0);
assertTrue (result[4].get<1>() == null);
assertTrue (result[4].get<2>() == 12);
assertTrue (result[5].get<1>() == std::string("B"));
assertTrue (result[5].get<2>() == null);
}
void MySQLTest::dropTable(const std::string& tableName)
{
try { *_pSession << format("DROP TABLE IF EXISTS %s", tableName), now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("dropTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("dropTable()"); }
}
void MySQLTest::recreatePersonTable()
{
dropTable("Person");
try { *_pSession << "CREATE TABLE Person (LastName VARCHAR(30), FirstName VARCHAR(30), Address VARCHAR(30), Age INTEGER)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreatePersonTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreatePersonTable()"); }
}
void MySQLTest::recreatePersonBLOBTable()
{
dropTable("Person");
try { *_pSession << "CREATE TABLE Person (LastName VARCHAR(30), FirstName VARCHAR(30), Address VARCHAR(30), Image BLOB)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreatePersonBLOBTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreatePersonBLOBTable()"); }
}
void MySQLTest::recreatePersonDateTimeTable()
{
dropTable("Person");
try { *_pSession << "CREATE TABLE Person (LastName VARCHAR(30), FirstName VARCHAR(30), Address VARCHAR(30), Birthday DATETIME(6))", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreatePersonDateTimeTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreatePersonDateTimeTable()"); }
}
void MySQLTest::recreatePersonDateTable()
{
dropTable("Person");
try { *_pSession << "CREATE TABLE Person (LastName VARCHAR(30), FirstName VARCHAR(30), Address VARCHAR(30), Birthday DATE)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreatePersonDateTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreatePersonDateTable()"); }
}
void MySQLTest::recreatePersonTimeTable()
{
dropTable("Person");
try { *_pSession << "CREATE TABLE Person (LastName VARCHAR(30), FirstName VARCHAR(30), Address VARCHAR(30), Birthday TIME)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreatePersonTimeTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreatePersonTimeTable()"); }
}
void MySQLTest::recreateIntsTable()
{
dropTable("Strings");
try { *_pSession << "CREATE TABLE Strings (str INTEGER)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateIntsTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateIntsTable()"); }
}
void MySQLTest::recreateStringsTable()
{
dropTable("Strings");
try { *_pSession << "CREATE TABLE Strings (str VARCHAR(30))", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateStringsTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateStringsTable()"); }
}
void MySQLTest::recreateUnsignedIntsTable()
{
dropTable("Strings");
try { *_pSession << "CREATE TABLE Strings (str INTEGER UNSIGNED)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateUnsignedIntegersTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateUnsignedIntegersTable()"); }
}
void MySQLTest::recreateFloatsTable()
{
dropTable("Strings");
try { *_pSession << "CREATE TABLE Strings (str FLOAT)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateFloatsTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateFloatsTable()"); }
}
void MySQLTest::recreateTuplesTable()
{
dropTable("Tuples");
try { *_pSession << "CREATE TABLE Tuples "
"(i0 INTEGER, i1 INTEGER, i2 INTEGER, i3 INTEGER, i4 INTEGER, i5 INTEGER, i6 INTEGER, "
"i7 INTEGER, i8 INTEGER, i9 INTEGER, i10 INTEGER, i11 INTEGER, i12 INTEGER, i13 INTEGER,"
"i14 INTEGER, i15 INTEGER, i16 INTEGER, i17 INTEGER, i18 INTEGER, i19 INTEGER)", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateTuplesTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateTuplesTable()"); }
}
void MySQLTest::recreateNullableIntTable()
{
dropTable("NullableIntTest");
try {
*_pSession << "CREATE TABLE NullableIntTest (Id INTEGER(10), Value INTEGER(10))", now;
}
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateNullableIntTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateNullableIntTable()"); }
}
void MySQLTest::recreateNullableStringTable()
{
dropTable("NullableStringTest");
try {
*_pSession << "CREATE TABLE NullableStringTest (Id INTEGER(10), Address VARCHAR(30), Age INTEGER(10))", now;
}
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateNullableStringTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateNullableStringTable()"); }
}
void MySQLTest::recreateVectorsTable()
{
dropTable("Vectors");
try { *_pSession << "CREATE TABLE Vectors (i0 INTEGER, flt0 FLOAT, str0 VARCHAR(30))", now; }
catch(ConnectionException& ce){ std::cout << ce.displayText() << std::endl; fail ("recreateVectorsTable()"); }
catch(StatementException& se){ std::cout << se.displayText() << std::endl; fail ("recreateVectorsTable()"); }
}
void MySQLTest::setUp()
{
}
void MySQLTest::tearDown()
{
dropTable("Person");
dropTable("Strings");
}
CppUnit::Test* MySQLTest::suite()
{
MySQL::Connector::registerConnector();
try
{
_pSession = new Session(MySQL::Connector::KEY, _dbConnString);
}
catch (ConnectionFailedException& ex)
{
std::cout << ex.displayText() << std::endl;
std::cout << "Trying to connect without DB and create one ..." << std::endl;
connectNoDB();
try
{
_pSession = new Session(MySQL::Connector::KEY, _dbConnString);
}
catch (ConnectionFailedException& ex)
{
std::cout << ex.displayText() << std::endl;
return 0;
}
}
std::cout << "*** Connected to [" << "MySQL" << "] test database." << std::endl;
dbInfo(*_pSession);
_pExecutor = new SQLExecutor("MySQL SQL Executor", _pSession);
CppUnit::TestSuite* pSuite = new CppUnit::TestSuite("MySQLTest");
CppUnit_addTest(pSuite, MySQLTest, testBareboneMySQL);
CppUnit_addTest(pSuite, MySQLTest, testSimpleAccess);
CppUnit_addTest(pSuite, MySQLTest, testComplexType);
CppUnit_addTest(pSuite, MySQLTest, testSimpleAccessVector);
CppUnit_addTest(pSuite, MySQLTest, testComplexTypeVector);
CppUnit_addTest(pSuite, MySQLTest, testInsertVector);
CppUnit_addTest(pSuite, MySQLTest, testInsertEmptyVector);
CppUnit_addTest(pSuite, MySQLTest, testInsertSingleBulk);
CppUnit_addTest(pSuite, MySQLTest, testInsertSingleBulkVec);
CppUnit_addTest(pSuite, MySQLTest, testLimit);
CppUnit_addTest(pSuite, MySQLTest, testLimitOnce);
CppUnit_addTest(pSuite, MySQLTest, testLimitPrepare);
CppUnit_addTest(pSuite, MySQLTest, testLimitZero);
CppUnit_addTest(pSuite, MySQLTest, testPrepare);
CppUnit_addTest(pSuite, MySQLTest, testSetSimple);
CppUnit_addTest(pSuite, MySQLTest, testSetComplex);
CppUnit_addTest(pSuite, MySQLTest, testSetComplexUnique);
CppUnit_addTest(pSuite, MySQLTest, testMultiSetSimple);
CppUnit_addTest(pSuite, MySQLTest, testMultiSetComplex);
CppUnit_addTest(pSuite, MySQLTest, testMapComplex);
CppUnit_addTest(pSuite, MySQLTest, testMapComplexUnique);
CppUnit_addTest(pSuite, MySQLTest, testMultiMapComplex);
CppUnit_addTest(pSuite, MySQLTest, testSelectIntoSingle);
CppUnit_addTest(pSuite, MySQLTest, testSelectIntoSingleStep);
CppUnit_addTest(pSuite, MySQLTest, testSelectIntoSingleFail);
CppUnit_addTest(pSuite, MySQLTest, testLowerLimitOk);
CppUnit_addTest(pSuite, MySQLTest, testLowerLimitFail);
CppUnit_addTest(pSuite, MySQLTest, testCombinedLimits);
CppUnit_addTest(pSuite, MySQLTest, testCombinedIllegalLimits);
CppUnit_addTest(pSuite, MySQLTest, testRange);
CppUnit_addTest(pSuite, MySQLTest, testIllegalRange);
CppUnit_addTest(pSuite, MySQLTest, testSingleSelect);
CppUnit_addTest(pSuite, MySQLTest, testEmptyDB);
CppUnit_addTest(pSuite, MySQLTest, testDateTime);
//CppUnit_addTest(pSuite, MySQLTest, testBLOB);
CppUnit_addTest(pSuite, MySQLTest, testBLOBStmt);
CppUnit_addTest(pSuite, MySQLTest, testUnsignedInts);
CppUnit_addTest(pSuite, MySQLTest, testFloat);
CppUnit_addTest(pSuite, MySQLTest, testDouble);
CppUnit_addTest(pSuite, MySQLTest, testTuple);
CppUnit_addTest(pSuite, MySQLTest, testTupleVector);
CppUnit_addTest(pSuite, MySQLTest, testInternalExtraction);
CppUnit_addTest(pSuite, MySQLTest, testNull);
CppUnit_addTest(pSuite, MySQLTest, testNullableInt);
CppUnit_addTest(pSuite, MySQLTest, testNullableString);
CppUnit_addTest(pSuite, MySQLTest, testTupleWithNullable);
CppUnit_addTest(pSuite, MySQLTest, testSessionTransaction);
CppUnit_addTest(pSuite, MySQLTest, testTransaction);
CppUnit_addTest(pSuite, MySQLTest, testReconnect);
return pSuite;
}