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SqMod/vendor/POCO/Data/testsuite/src/DataTest.cpp

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Major plugin refactor and cleanup. Switched to POCO library for unified platform/library interface. Deprecated the external module API. It was creating more problems than solving. Removed most built-in libraries in favor of system libraries for easier maintenance. Cleaned and secured code with help from static analyzers.
2021-01-30 08:51:39 +02:00
//
// DataTest.cpp
//
// Copyright (c) 2006, Applied Informatics Software Engineering GmbH.
// and Contributors.
//
// SPDX-License-Identifier: BSL-1.0
//
#include "DataTest.h"
#include "CppUnit/TestCaller.h"
#include "CppUnit/TestSuite.h"
#include "Poco/Data/Session.h"
#include "Poco/Data/SessionFactory.h"
#include "Poco/Data/LOB.h"
#include "Poco/Data/LOBStream.h"
#include "Poco/Data/MetaColumn.h"
#include "Poco/Data/Column.h"
#include "Poco/Data/Date.h"
#include "Poco/Data/Time.h"
#include "Poco/Data/SimpleRowFormatter.h"
#include "Poco/Data/DataException.h"
#include "Connector.h"
#include "Poco/BinaryReader.h"
#include "Poco/BinaryWriter.h"
#include "Poco/DateTime.h"
#include "Poco/Types.h"
#include "Poco/Dynamic/Var.h"
#include "Poco/Data/DynamicLOB.h"
#include "Poco/Data/DynamicDateTime.h"
#include "Poco/Exception.h"
#include <cstring>
#include <sstream>
#include <iomanip>
#include <set>
using namespace Poco::Data::Keywords;
using Poco::BinaryReader;
using Poco::BinaryWriter;
using Poco::UInt32;
using Poco::Int64;
using Poco::UInt64;
using Poco::DateTime;
using Poco::Dynamic::Var;
using Poco::InvalidAccessException;
using Poco::IllegalStateException;
using Poco::RangeException;
using Poco::NotFoundException;
using Poco::InvalidArgumentException;
using Poco::NotImplementedException;
using Poco::Data::Session;
using Poco::Data::SessionFactory;
using Poco::Data::Statement;
using Poco::Data::NotSupportedException;
using Poco::Data::CLOB;
using Poco::Data::CLOBInputStream;
using Poco::Data::CLOBOutputStream;
using Poco::Data::MetaColumn;
using Poco::Data::Column;
using Poco::Data::Row;
using Poco::Data::SimpleRowFormatter;
using Poco::Data::Date;
using Poco::Data::Time;
using Poco::Data::AbstractExtraction;
using Poco::Data::AbstractExtractionVec;
using Poco::Data::AbstractExtractionVecVec;
using Poco::Data::AbstractBinding;
using Poco::Data::AbstractBindingVec;
using Poco::Data::NotConnectedException;
DataTest::DataTest(const std::string& name): CppUnit::TestCase(name)
{
Poco::Data::Test::Connector::addToFactory();
}
DataTest::~DataTest()
{
Poco::Data::Test::Connector::removeFromFactory();
}
void DataTest::testSession()
{
Session sess(SessionFactory::instance().create("test", "cs"));
assertTrue ("test" == sess.impl()->connectorName());
assertTrue (sess.connector() == sess.impl()->connectorName());
assertTrue ("cs" == sess.impl()->connectionString());
assertTrue ("test:///cs" == sess.uri());
assertTrue (sess.getLoginTimeout() == Session::LOGIN_TIMEOUT_DEFAULT);
sess.setLoginTimeout(123);
assertTrue (sess.getLoginTimeout() == 123);
Session sess2(SessionFactory::instance().create("TeSt:///Cs"));
assertTrue ("test" == sess2.impl()->connectorName());
assertTrue ("Cs" == sess2.impl()->connectionString());
assertTrue ("test:///Cs" == sess2.uri());
sess << "DROP TABLE IF EXISTS Test", now;
int count;
sess << "SELECT COUNT(*) FROM PERSON", into(count), now;
std::string str;
Statement stmt = (sess << "SELECT * FROM Strings", into(str), limit(50));
stmt.execute();
sess.close();
assertTrue (!sess.getFeature("connected"));
assertTrue (!sess.isConnected());
try
{
stmt.execute();
fail ("must fail");
} catch (NotConnectedException&) { }
try
{
sess << "SELECT * FROM Strings", now;
fail ("must fail");
} catch (NotConnectedException&) { }
sess.open();
assertTrue (sess.getFeature("connected"));
assertTrue (sess.isConnected());
sess << "SELECT * FROM Strings", now;
stmt.execute();
sess.reconnect();
assertTrue (sess.getFeature("connected"));
assertTrue (sess.isConnected());
sess << "SELECT * FROM Strings", now;
stmt.execute();
}
void DataTest::testStatementFormatting()
{
Session sess(SessionFactory::instance().create("test", "cs"));
Statement stmt = (sess << "SELECT %s%c%s,%d,%u,%f,%s FROM Person WHERE Name LIKE 'Simp%%'",
"'",'a',"'",-1, 1u, 1.5, "42", now);
assertTrue ("SELECT 'a',-1,1,1.500000,42 FROM Person WHERE Name LIKE 'Simp%'" == stmt.toString());
}
void DataTest::testFeatures()
{
Session sess(SessionFactory::instance().create("test", "cs"));
sess.setFeature("f1", true);
assertTrue (sess.getFeature("f1"));
assertTrue (sess.getFeature("f2"));
try
{
sess.setFeature("f2", false);
}
catch (NotImplementedException&)
{
}
sess.setFeature("f3", false);
assertTrue (!sess.getFeature("f2"));
try
{
sess.setFeature("f3", true);
}
catch (NotImplementedException&)
{
}
try
{
sess.setFeature("f4", false);
}
catch (NotSupportedException&)
{
}
}
void DataTest::testProperties()
{
Session sess(SessionFactory::instance().create("test", "cs"));
sess.setProperty("p1", 1);
Poco::Any v1 = sess.getProperty("p1");
assertTrue (Poco::AnyCast<int>(v1) == 1);
Poco::Any v2 = sess.getProperty("p2");
assertTrue (Poco::AnyCast<int>(v2) == 1);
try
{
sess.setProperty("p2", 2);
}
catch (NotImplementedException&)
{
}
sess.setProperty("p3", 2);
v1 = sess.getProperty("p2");
assertTrue (Poco::AnyCast<int>(v1) == 2);
try
{
sess.setProperty("p3", 3);
}
catch (NotImplementedException&)
{
}
try
{
sess.setProperty("p4", 4);
}
catch (NotSupportedException&)
{
}
}
void DataTest::testLOB()
{
std::vector<int> vec;
vec.push_back(0);
vec.push_back(1);
vec.push_back(2);
vec.push_back(3);
vec.push_back(4);
vec.push_back(5);
vec.push_back(6);
vec.push_back(7);
vec.push_back(8);
vec.push_back(9);
Poco::Data::LOB<int> lobNum1(&vec[0], vec.size());
assertTrue (lobNum1.size() == vec.size());
assertTrue (0 == std::memcmp(&vec[0], lobNum1.rawContent(), lobNum1.size() * sizeof(int)));
assertTrue (*lobNum1.begin() == 0);
Poco::Data::LOB<int>::Iterator it1 = lobNum1.end();
assertTrue (*(--it1) == 9);
Poco::Data::LOB<int> lobNum2(lobNum1);
assertTrue (lobNum2.size() == lobNum1.size());
assertTrue (lobNum2 == lobNum1);
lobNum1.swap(lobNum2);
assertTrue (lobNum2 == lobNum1);
}
void DataTest::testCLOB()
{
std::string strDigit = "1234567890";
std::string strAlpha = "abcdefghijklmnopqrstuvwxyz";
std::vector<char> vecAlpha(strAlpha.begin(), strAlpha.end());
std::vector<char> vecDigit(strDigit.begin(), strDigit.end());
CLOB blobNumStr(strDigit.c_str(), strDigit.size());
assertTrue (blobNumStr.size() == strDigit.size());
assertTrue (0 == std::strncmp(strDigit.c_str(), blobNumStr.rawContent(), blobNumStr.size()));
assertTrue (*blobNumStr.begin() == '1');
CLOB::Iterator itNumStr = blobNumStr.end();
assertTrue (*(--itNumStr) == '0');
CLOB blobNumVec(vecDigit);
assertTrue (blobNumVec.size() == vecDigit.size());
assertTrue (blobNumVec == blobNumStr);
blobNumVec.swap(blobNumStr);
assertTrue (blobNumVec.size() == blobNumStr.size());
assertTrue (blobNumVec == blobNumStr);
CLOB blobChrStr(strAlpha.c_str(), strAlpha.size());
CLOB blobChrVec(vecAlpha);
assertTrue (blobChrStr.size() == strAlpha.size());
assertTrue (0 == std::strncmp(strAlpha.c_str(), blobChrStr.rawContent(), blobChrStr.size()));
assertTrue (*blobChrStr.begin() == 'a');
CLOB::Iterator itChrStr = blobChrStr.end();
assertTrue (*(--itChrStr) == 'z');
assertTrue (blobChrStr == blobChrVec);
blobNumStr.swap(blobChrStr);
assertTrue (blobNumStr != blobChrStr);
assertTrue (&blobNumStr != &blobChrStr);
assertTrue (blobNumStr.content() != blobChrStr.content());
assertTrue (&blobNumStr.content() != &blobChrStr.content());
assertTrue (blobNumStr == blobChrVec);
Poco::Data::swap(blobNumStr, blobChrVec);
assertTrue (blobNumStr == blobChrVec);
std::swap(blobNumStr, blobChrVec);
assertTrue (blobNumStr == blobChrVec);
assertTrue (blobChrStr != blobNumStr);
Var vLOB = blobNumStr;
std::string sss = vLOB.convert<std::string>();
blobChrStr = CLOB(sss);
assertTrue (blobChrStr == blobNumStr);
std::string xyz = "xyz";
vLOB = xyz;
blobChrStr = sss = vLOB.convert<std::string>();
assertTrue (0 == std::strncmp(xyz.c_str(), blobChrStr.rawContent(), blobChrStr.size()));
}
void DataTest::testCLOBStreams()
{
CLOB blob;
assertTrue (0 == blob.size());
CLOBOutputStream bos(blob);
BinaryWriter bw(bos);
assertTrue (0 == blob.size());
writeToCLOB(bw);
assertTrue (blob.size() > 0);
CLOBInputStream bis(blob);
BinaryReader br(bis);
readFromCLOB(br);
}
void DataTest::writeToCLOB(BinaryWriter& writer)
{
writer << true;
writer << false;
writer << 'a';
writer << (short) -100;
writer << (unsigned short) 50000;
writer << -123456;
writer << (unsigned) 123456;
writer << (long) -1234567890;
writer << (unsigned long) 1234567890;
writer << (Int64) -1234567890;
writer << (UInt64) 1234567890;
writer << (float) 1.5;
writer << (double) -1.5;
writer << "foo";
writer << "";
writer << std::string("bar");
writer << std::string();
writer.write7BitEncoded((UInt32) 100);
writer.write7BitEncoded((UInt32) 1000);
writer.write7BitEncoded((UInt32) 10000);
writer.write7BitEncoded((UInt32) 100000);
writer.write7BitEncoded((UInt32) 1000000);
writer.write7BitEncoded((UInt64) 100);
writer.write7BitEncoded((UInt64) 1000);
writer.write7BitEncoded((UInt64) 10000);
writer.write7BitEncoded((UInt64) 100000);
writer.write7BitEncoded((UInt64) 1000000);
writer.writeRaw("RAW");
}
void DataTest::readFromCLOB(BinaryReader& reader)
{
bool b = false;
reader >> b;
assertTrue (b);
reader >> b;
assertTrue (!b);
char c = ' ';
reader >> c;
assertTrue (c == 'a');
short shortv = 0;
reader >> shortv;
assertTrue (shortv == -100);
unsigned short ushortv = 0;
reader >> ushortv;
assertTrue (ushortv == 50000);
int intv = 0;
reader >> intv;
assertTrue (intv == -123456);
unsigned uintv = 0;
reader >> uintv;
assertTrue (uintv == 123456);
long longv = 0;
reader >> longv;
assertTrue (longv == -1234567890);
unsigned long ulongv = 0;
reader >> ulongv;
assertTrue (ulongv == 1234567890);
Int64 int64v = 0;
reader >> int64v;
assertTrue (int64v == -1234567890);
UInt64 uint64v = 0;
reader >> uint64v;
assertTrue (uint64v == 1234567890);
float floatv = 0.0;
reader >> floatv;
assertTrue (floatv == 1.5);
double doublev = 0.0;
reader >> doublev;
assertTrue (doublev == -1.5);
std::string str;
reader >> str;
assertTrue (str == "foo");
reader >> str;
assertTrue (str == "");
reader >> str;
assertTrue (str == "bar");
reader >> str;
assertTrue (str == "");
UInt32 uint32v;
reader.read7BitEncoded(uint32v);
assertTrue (uint32v == 100);
reader.read7BitEncoded(uint32v);
assertTrue (uint32v == 1000);
reader.read7BitEncoded(uint32v);
assertTrue (uint32v == 10000);
reader.read7BitEncoded(uint32v);
assertTrue (uint32v == 100000);
reader.read7BitEncoded(uint32v);
assertTrue (uint32v == 1000000);
reader.read7BitEncoded(uint64v);
assertTrue (uint64v == 100);
reader.read7BitEncoded(uint64v);
assertTrue (uint64v == 1000);
reader.read7BitEncoded(uint64v);
assertTrue (uint64v == 10000);
reader.read7BitEncoded(uint64v);
assertTrue (uint64v == 100000);
reader.read7BitEncoded(uint64v);
assertTrue (uint64v == 1000000);
reader.readRaw(3, str);
assertTrue (str == "RAW");
}
void DataTest::testColumnVector()
{
MetaColumn mc(0, "mc", MetaColumn::FDT_DOUBLE, 2, 3, true);
assertTrue (mc.name() == "mc");
assertTrue (mc.position() == 0);
assertTrue (mc.length() == 2);
assertTrue (mc.precision() == 3);
assertTrue (mc.type() == MetaColumn::FDT_DOUBLE);
assertTrue (mc.isNullable());
std::vector<int>* pData = new std::vector<int>;
pData->push_back(1);
pData->push_back(2);
pData->push_back(3);
pData->push_back(4);
pData->push_back(5);
Column<std::vector<int>> c(mc, pData);
assertTrue (c.rowCount() == 5);
assertTrue (c[0] == 1);
assertTrue (c[1] == 2);
assertTrue (c[2] == 3);
assertTrue (c[3] == 4);
assertTrue (c[4] == 5);
assertTrue (c.name() == "mc");
assertTrue (c.position() == 0);
assertTrue (c.length() == 2);
assertTrue (c.precision() == 3);
assertTrue (c.type() == MetaColumn::FDT_DOUBLE);
try
{
int i; i = c[100]; // to silence gcc
fail ("must fail");
}
catch (RangeException&) { }
Column<std::vector<int>> c1 = c;
assertTrue (c1.rowCount() == 5);
assertTrue (c1[0] == 1);
assertTrue (c1[1] == 2);
assertTrue (c1[2] == 3);
assertTrue (c1[3] == 4);
assertTrue (c1[4] == 5);
Column<std::vector<int>> c2(c1);
assertTrue (c2.rowCount() == 5);
assertTrue (c2[0] == 1);
assertTrue (c2[1] == 2);
assertTrue (c2[2] == 3);
assertTrue (c2[3] == 4);
assertTrue (c2[4] == 5);
std::vector<int> vi;
vi.assign(c.begin(), c.end());
assertTrue (vi.size() == 5);
assertTrue (vi[0] == 1);
assertTrue (vi[1] == 2);
assertTrue (vi[2] == 3);
assertTrue (vi[3] == 4);
assertTrue (vi[4] == 5);
c.reset();
assertTrue (c.rowCount() == 0);
assertTrue (c1.rowCount() == 0);
assertTrue (c2.rowCount() == 0);
std::vector<int>* pV1 = new std::vector<int>;
pV1->push_back(1);
pV1->push_back(2);
pV1->push_back(3);
pV1->push_back(4);
pV1->push_back(5);
std::vector<int>* pV2 = new std::vector<int>;
pV2->push_back(5);
pV2->push_back(4);
pV2->push_back(3);
pV2->push_back(2);
pV2->push_back(1);
Column<std::vector<int>> c3(mc, pV1);
Column<std::vector<int>> c4(mc, pV2);
Poco::Data::swap(c3, c4);
assertTrue (c3[0] == 5);
assertTrue (c3[1] == 4);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 2);
assertTrue (c3[4] == 1);
assertTrue (c4[0] == 1);
assertTrue (c4[1] == 2);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 4);
assertTrue (c4[4] == 5);
std::swap(c3, c4);
assertTrue (c3[0] == 1);
assertTrue (c3[1] == 2);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 4);
assertTrue (c3[4] == 5);
assertTrue (c4[0] == 5);
assertTrue (c4[1] == 4);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 2);
assertTrue (c4[4] == 1);
}
void DataTest::testColumnVectorBool()
{
MetaColumn mc(0, "mc", MetaColumn::FDT_BOOL);
std::vector<bool>* pData = new std::vector<bool>;
pData->push_back(true);
pData->push_back(false);
pData->push_back(true);
pData->push_back(false);
pData->push_back(true);
Column<std::vector<bool>> c(mc, pData);
assertTrue (c.rowCount() == 5);
assertTrue (c[0] == true);
assertTrue (c[1] == false);
assertTrue (c[2] == true);
assertTrue (c[3] == false);
assertTrue (c[4] == true);
assertTrue (c.type() == MetaColumn::FDT_BOOL);
try
{
bool b; b = c[100]; // to silence gcc
fail ("must fail");
}
catch (RangeException&) { }
Column<std::vector<bool>> c1 = c;
assertTrue (c1.rowCount() == 5);
assertTrue (c1[0] == true);
assertTrue (c1[1] == false);
assertTrue (c1[2] == true);
assertTrue (c1[3] == false);
assertTrue (c1[4] == true);
Column<std::vector<bool>> c2(c1);
assertTrue (c2.rowCount() == 5);
assertTrue (c2[0] == true);
assertTrue (c2[1] == false);
assertTrue (c2[2] == true);
assertTrue (c2[3] == false);
assertTrue (c2[4] == true);
std::vector<bool> vi;
vi.assign(c.begin(), c.end());
assertTrue (vi.size() == 5);
assertTrue (vi[0] == true);
assertTrue (vi[1] == false);
assertTrue (vi[2] == true);
assertTrue (vi[3] == false);
assertTrue (vi[4] == true);
c.reset();
assertTrue (c.rowCount() == 0);
assertTrue (c1.rowCount() == 0);
assertTrue (c2.rowCount() == 0);
}
void DataTest::testColumnDeque()
{
using ContainerType = std::deque<int>;
using ColumnType = Column<ContainerType>;
MetaColumn mc(0, "mc", MetaColumn::FDT_DOUBLE, 2, 3, true);
assertTrue (mc.name() == "mc");
assertTrue (mc.position() == 0);
assertTrue (mc.length() == 2);
assertTrue (mc.precision() == 3);
assertTrue (mc.type() == MetaColumn::FDT_DOUBLE);
assertTrue (mc.isNullable());
ContainerType* pData = new ContainerType;
pData->push_back(1);
pData->push_back(2);
pData->push_back(3);
pData->push_back(4);
pData->push_back(5);
ColumnType c(mc, pData);
assertTrue (c.rowCount() == 5);
assertTrue (c[0] == 1);
assertTrue (c[1] == 2);
assertTrue (c[2] == 3);
assertTrue (c[3] == 4);
assertTrue (c[4] == 5);
assertTrue (c.name() == "mc");
assertTrue (c.position() == 0);
assertTrue (c.length() == 2);
assertTrue (c.precision() == 3);
assertTrue (c.type() == MetaColumn::FDT_DOUBLE);
try
{
int i; i = c[100]; // to silence gcc
fail ("must fail");
}
catch (RangeException&) { }
ColumnType c1 = c;
assertTrue (c1.rowCount() == 5);
assertTrue (c1[0] == 1);
assertTrue (c1[1] == 2);
assertTrue (c1[2] == 3);
assertTrue (c1[3] == 4);
assertTrue (c1[4] == 5);
ColumnType c2(c1);
assertTrue (c2.rowCount() == 5);
assertTrue (c2[0] == 1);
assertTrue (c2[1] == 2);
assertTrue (c2[2] == 3);
assertTrue (c2[3] == 4);
assertTrue (c2[4] == 5);
ContainerType vi;
vi.assign(c.begin(), c.end());
assertTrue (vi.size() == 5);
assertTrue (vi[0] == 1);
assertTrue (vi[1] == 2);
assertTrue (vi[2] == 3);
assertTrue (vi[3] == 4);
assertTrue (vi[4] == 5);
c.reset();
assertTrue (c.rowCount() == 0);
assertTrue (c1.rowCount() == 0);
assertTrue (c2.rowCount() == 0);
ContainerType* pV1 = new ContainerType;
pV1->push_back(1);
pV1->push_back(2);
pV1->push_back(3);
pV1->push_back(4);
pV1->push_back(5);
ContainerType* pV2 = new ContainerType;
pV2->push_back(5);
pV2->push_back(4);
pV2->push_back(3);
pV2->push_back(2);
pV2->push_back(1);
Column<ContainerType> c3(mc, pV1);
Column<ContainerType> c4(mc, pV2);
Poco::Data::swap(c3, c4);
assertTrue (c3[0] == 5);
assertTrue (c3[1] == 4);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 2);
assertTrue (c3[4] == 1);
assertTrue (c4[0] == 1);
assertTrue (c4[1] == 2);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 4);
assertTrue (c4[4] == 5);
std::swap(c3, c4);
assertTrue (c3[0] == 1);
assertTrue (c3[1] == 2);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 4);
assertTrue (c3[4] == 5);
assertTrue (c4[0] == 5);
assertTrue (c4[1] == 4);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 2);
assertTrue (c4[4] == 1);
}
void DataTest::testColumnList()
{
using ContainerType = std::list<int>;
using ColumnType = Column<ContainerType>;
MetaColumn mc(0, "mc", MetaColumn::FDT_DOUBLE, 2, 3, true);
assertTrue (mc.name() == "mc");
assertTrue (mc.position() == 0);
assertTrue (mc.length() == 2);
assertTrue (mc.precision() == 3);
assertTrue (mc.type() == MetaColumn::FDT_DOUBLE);
assertTrue (mc.isNullable());
ContainerType* pData = new ContainerType;
pData->push_back(1);
pData->push_back(2);
pData->push_back(3);
pData->push_back(4);
pData->push_back(5);
ColumnType c(mc, pData);
assertTrue (c.rowCount() == 5);
assertTrue (c[0] == 1);
assertTrue (c[1] == 2);
assertTrue (c[2] == 3);
assertTrue (c[3] == 4);
assertTrue (c[4] == 5);
assertTrue (c.name() == "mc");
assertTrue (c.position() == 0);
assertTrue (c.length() == 2);
assertTrue (c.precision() == 3);
assertTrue (c.type() == MetaColumn::FDT_DOUBLE);
try
{
int i; i = c[100]; // to silence gcc
fail ("must fail");
}
catch (RangeException&) { }
ColumnType c1 = c;
assertTrue (c1.rowCount() == 5);
assertTrue (c1[0] == 1);
assertTrue (c1[1] == 2);
assertTrue (c1[2] == 3);
assertTrue (c1[3] == 4);
assertTrue (c1[4] == 5);
ColumnType c2(c1);
assertTrue (c2.rowCount() == 5);
assertTrue (c2[0] == 1);
assertTrue (c2[1] == 2);
assertTrue (c2[2] == 3);
assertTrue (c2[3] == 4);
assertTrue (c2[4] == 5);
ContainerType vi;
vi.assign(c.begin(), c.end());
assertTrue (vi.size() == 5);
ContainerType::const_iterator it = vi.begin();
ContainerType::const_iterator end = vi.end();
for (int i = 1; it != end; ++it, ++i)
assertTrue (*it == i);
c.reset();
assertTrue (c.rowCount() == 0);
assertTrue (c1.rowCount() == 0);
assertTrue (c2.rowCount() == 0);
ContainerType* pV1 = new ContainerType;
pV1->push_back(1);
pV1->push_back(2);
pV1->push_back(3);
pV1->push_back(4);
pV1->push_back(5);
ContainerType* pV2 = new ContainerType;
pV2->push_back(5);
pV2->push_back(4);
pV2->push_back(3);
pV2->push_back(2);
pV2->push_back(1);
Column<ContainerType> c3(mc, pV1);
Column<ContainerType> c4(mc, pV2);
Poco::Data::swap(c3, c4);
assertTrue (c3[0] == 5);
assertTrue (c3[1] == 4);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 2);
assertTrue (c3[4] == 1);
assertTrue (c4[0] == 1);
assertTrue (c4[1] == 2);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 4);
assertTrue (c4[4] == 5);
std::swap(c3, c4);
assertTrue (c3[0] == 1);
assertTrue (c3[1] == 2);
assertTrue (c3[2] == 3);
assertTrue (c3[3] == 4);
assertTrue (c3[4] == 5);
assertTrue (c4[0] == 5);
assertTrue (c4[1] == 4);
assertTrue (c4[2] == 3);
assertTrue (c4[3] == 2);
assertTrue (c4[4] == 1);
}
void DataTest::testRow()
{
Row row;
row.append("field0", 0);
row.append("field1", 1);
row.append("field2", 2);
row.append("field3", 3);
row.append("field4", 4);
assertTrue (row["field0"] == 0);
assertTrue (row["field1"] == 1);
assertTrue (row["field2"] == 2);
assertTrue (row["field3"] == 3);
assertTrue (row["field4"] == 4);
assertTrue (row["FIELD0"] == 0);
assertTrue (row["FIELD1"] == 1);
assertTrue (row["FIELD2"] == 2);
assertTrue (row["FIELD3"] == 3);
assertTrue (row["FIELD4"] == 4);
assertTrue (row[0] == 0);
assertTrue (row[1] == 1);
assertTrue (row[2] == 2);
assertTrue (row[3] == 3);
assertTrue (row[4] == 4);
try
{
int i; i = row[5].convert<int>(); // to silence gcc
fail ("must fail");
}catch (RangeException&) {}
try
{
int i; i = row["a bad name"].convert<int>(); // to silence gcc
fail ("must fail");
}catch (NotFoundException&) {}
assertTrue (5 == row.fieldCount());
assertTrue (row[0] == 0);
assertTrue (row["field0"] == 0);
assertTrue (row[1] == 1);
assertTrue (row["field1"] == 1);
assertTrue (row[2] == 2);
assertTrue (row["field2"] == 2);
assertTrue (row[3] == 3);
assertTrue (row["field3"] == 3);
assertTrue (row[4] == 4);
assertTrue (row["field4"] == 4);
Row row2;
row2.append("field0", 5);
row2.append("field1", 4);
row2.append("field2", 3);
row2.append("field3", 2);
row2.append("field4", 1);
assertTrue (row != row2);
Row row3;
row3.append("field0", 0);
row3.append("field1", 1);
row3.append("field2", 2);
row3.append("field3", 3);
row3.append("field4", 4);
assertTrue (row3 == row);
assertTrue (!(row < row3 || row3 < row));
Row row4(row3.names());
try
{
row4.set("badfieldname", 0);
fail ("must fail");
}catch (NotFoundException&) {}
row4.set("field0", 0);
row4.set("field1", 1);
row4.set("field2", 2);
row4.set("field3", 3);
row4.set("field4", 4);
assertTrue (row3 == row4);
try
{
row4.set(5, 0);
fail ("must fail");
}catch (RangeException&) {}
row4.set("field0", 1);
assertTrue (row3 != row4);
assertTrue (row3 < row4);
}
void DataTest::testRowSort()
{
Row row1;
row1.append("0", 0);
row1.append("1", 1);
row1.append("2", 2);
row1.append("3", 3);
row1.append("4", 4);
Row row2;
row2.append("0", 0);
row2.append("1", 1);
row2.append("2", 2);
row2.append("3", 3);
row2.append("4", 4);
std::multiset<Row> rowSet1;
rowSet1.insert(row1);
rowSet1.insert(row2);
std::multiset<Row>::iterator it1 = rowSet1.begin();
assertTrue (row1 == *it1);
++it1;
assertTrue (row2 == *it1);
Row row3;
row3.append("0", 1);
row3.append("1", 1);
row3.append("2", 2);
row3.append("3", 3);
row3.append("4", 4);
Row row4;
row4.append("0", 0);
row4.append("1", 1);
row4.append("2", 2);
row4.append("3", 3);
row4.append("4", 4);
std::set<Row> rowSet2;
rowSet2.insert(row4);
rowSet2.insert(row3);
std::set<Row>::iterator it2 = rowSet2.begin();
assertTrue (row4 == *it2);
++it2;
assertTrue (row3 == *it2);
Row row5;
row5.append("0", 2);
row5.append("1", 2);
row5.append("2", 0);
row5.append("3", 3);
row5.append("4", 4);
row5.addSortField("1");
Row row6;
row6.append("0", 1);
row6.append("1", 0);
row6.append("2", 1);
row6.append("3", 3);
row6.append("4", 4);
row6.addSortField("1");
Row row7;
row7.append("0", 0);
row7.append("1", 1);
row7.append("2", 2);
row7.append("3", 3);
row7.append("4", 4);
std::set<Row> rowSet3;
rowSet3.insert(row5);
rowSet3.insert(row6);
try
{
rowSet3.insert(row7);//has no same sort criteria
fail ("must fail");
} catch (InvalidAccessException&) {}
row7.addSortField("1");
testRowStrictWeak(row7, row6, row5);
rowSet3.insert(row7);
std::set<Row>::iterator it3 = rowSet3.begin();
assertTrue (row7 == *it3);
++it3;
assertTrue (row6 == *it3);
++it3;
assertTrue (row5 == *it3);
row5.replaceSortField("0", "2");
row6.replaceSortField("0", "2");
row7.replaceSortField("0", "2");
rowSet3.clear();
rowSet3.insert(row7);
rowSet3.insert(row6);
rowSet3.insert(row5);
it3 = rowSet3.begin();
assertTrue (row5 == *it3);
++it3;
assertTrue (row6 == *it3);
++it3;
assertTrue (row7 == *it3);
row5.resetSort();
row6.resetSort();
row7.resetSort();
rowSet3.clear();
rowSet3.insert(row5);
rowSet3.insert(row6);
rowSet3.insert(row7);
it3 = rowSet3.begin();
assertTrue (row7 == *it3);
++it3;
assertTrue (row6 == *it3);
++it3;
assertTrue (row5 == *it3);
Row row8;
row8.append("0", "2");
row8.append("1", "2");
row8.append("2", "0");
row8.append("3", "3");
row8.append("4", "4");
row8.addSortField("1");
Row row9;
row9.append("0", "1");
row9.append("1", "0");
row9.append("2", "1");
row9.append("3", "3");
row9.append("4", "4");
row9.addSortField("1");
Row row10;
row10.append("0", "0");
row10.append("1", "1");
row10.append("2", "2");
row10.append("3", "3");
row10.append("4", "4");
row10.addSortField("1");
testRowStrictWeak(row10, row9, row8);
Row row11;
row11.append("0", 2.5);
row11.append("1", 2.5);
row11.append("2", 0.5);
row11.append("3", 3.5);
row11.append("4", 4.5);
row11.addSortField("1");
Row row12;
row12.append("0", 1.5);
row12.append("1", 0.5);
row12.append("2", 1.5);
row12.append("3", 3.5);
row12.append("4", 4.5);
row12.addSortField("1");
Row row13;
row13.append("0", 0.5);
row13.append("1", 1.5);
row13.append("2", 2.5);
row13.append("3", 3.5);
row13.append("4", 4.5);
row13.addSortField("1");
testRowStrictWeak(row13, row12, row11);
}
void DataTest::testRowStrictWeak(const Row& row1, const Row& row2, const Row& row3)
{
assertTrue (row1 < row2 && !(row2 < row1)); // antisymmetric
assertTrue (row1 < row2 && row2 < row3 && row1 < row3); // transitive
assertTrue (!(row1 < row1)); // irreflexive
}
void DataTest::testRowFormat()
{
Row row1;
row1.append("field0", 0);
row1.append("field1", 1);
row1.append("field2", 2);
row1.append("field3", 3);
row1.append("field4", 4);
SimpleRowFormatter rf;
std::streamsize sz = rf.getColumnWidth();
std::streamsize sp = rf.getSpacing();
std::string line(std::string::size_type(sz * 5 + sp * 4), '-');
std::string spacer(sp, ' ');
std::ostringstream os;
os << std::left
<< std::setw(sz) << "field0"
<< spacer
<< std::setw(sz) << "field1"
<< spacer
<< std::setw(sz) << "field2"
<< spacer
<< std::setw(sz) << "field3"
<< spacer
<< std::setw(sz) << "field4" << std::endl
<< line << std::endl;
assertTrue (row1.namesToString() == os.str());
os.str("");
os << std::right
<< std::setw(sz) << "0"
<< spacer
<< std::setw(sz) << "1"
<< spacer
<< std::setw(sz) << "2"
<< spacer
<< std::setw(sz) << "3"
<< spacer
<< std::setw(sz) << "4" << std::endl;
assertTrue (row1.valuesToString() == os.str());
}
void DataTest::testDateAndTime()
{
DateTime dt;
Date d(dt);
Time t(dt);
assertTrue (dt.year() == d.year());
assertTrue (dt.month() == d.month());
assertTrue (dt.day() == d.day());
assertTrue (dt.hour() == t.hour());
assertTrue (dt.minute() == t.minute());
assertTrue (dt.second() == t.second());
Date d1(2007, 6, 15);
d1.assign(d.year() - 1, d.month(), (d.month() == 2 && d.day() == 29) ? 28 : d.day());
assertTrue (d1 < d); assertTrue (d1 != d);
d1.assign(d.year() - 1, 12, d.day());
assertTrue (d1 < d); assertTrue (d1 != d);
if (d.day() > 1)
{
d1.assign(d.year(), d.month(), d.day() - 1);
assertTrue (d1 < d); assertTrue (d1 != d);
}
d1.assign(d.year() + 1, d.month(), (d.month() == 2 && d.day() == 29) ? 28 : d.day());
assertTrue (d1 > d); assertTrue (d1 != d);
d1.assign(d.year() + 1, 1, d.day());
assertTrue (d1 > d); assertTrue (d1 != d);
if (d.day() < dt.daysOfMonth(dt.year(), dt.month()))
{
d1.assign(d.year(), d.month(), d.day() + 1);
assertTrue (d1 > d); assertTrue (d1 != d);
}
d1.assign(d.year(), d.month(), d.day());
assertTrue (d1 == d);
try { d1.assign(-1, 1, 1); fail ("must fail"); }
catch (InvalidArgumentException&) { }
try { d1.assign(1, 0, 1); fail ("must fail"); }
catch (InvalidArgumentException&) { }
try { d1.assign(1, 1, 0); fail ("must fail"); }
catch (InvalidArgumentException&) { }
Time t1(12, 30, 15);
if (t.hour() > 1)
{
t1.assign(t.hour() - 1, t.minute(), t.second());
assertTrue (t1 < t); assertTrue (t1 != t);
}
if (t.minute() > 1)
{
t1.assign(t.hour(), t.minute() - 1, t.second());
assertTrue (t1 < t); assertTrue (t1 != t);
}
if (t.second() > 1)
{
t1.assign(t.hour(), t.minute(), t.second() - 1);
assertTrue (t1 < t); assertTrue (t1 != t);
}
if (t.hour() < 23)
{
t1.assign(t.hour() + 1, t.minute(), t.second());
assertTrue (t1 > t); assertTrue (t1 != t);
}
if (t.minute() < 59)
{
t1.assign(t.hour(), t.minute() + 1, t.second());
assertTrue (t1 > t); assertTrue (t1 != t);
}
if (t.second() < 59)
{
t1.assign(t.hour(), t.minute(), t.second() + 1);
assertTrue (t1 > t); assertTrue (t1 != t);
}
t1.assign(t.hour(), t.minute(), t.second());
assertTrue (t1 == t);
try { t1.assign(-1, 0, 0); fail ("must fail"); }
catch (InvalidArgumentException&) { }
try { t1.assign(0, -1, 0); fail ("must fail"); }
catch (InvalidArgumentException&) { }
try { t1.assign(0, 0, -1); fail ("must fail"); }
catch (InvalidArgumentException&) { }
d1 = dt;
assertTrue (d1 == dt);
t1 = dt;
assertTrue (t1 == dt);
d.assign(2007, 6, 15);
d1.assign(2007, 6, 16);
assertTrue (d != d1);
Var vDate = d;
d1 = vDate;
assertTrue (d == d1);
t.assign(12, 30, 15);
t1.assign(12, 30, 16);
assertTrue (t != t1);
Var vTime = t;
t1 = vTime;
assertTrue (t == t1);
}
void DataTest::testExternalBindingAndExtraction()
{
Session tmp (Poco::Data::Test::Connector::KEY, "dummy.db");
int i;
AbstractExtraction::Ptr pExt1 = into(i);
AbstractExtraction::Ptr pExt2 = into(i);
assertTrue (1 == pExt1.referenceCount());
assertTrue (1 == pExt2.referenceCount());
{
Statement stmt(tmp);
stmt.addExtract(pExt1);
assertTrue (2 == pExt1.referenceCount());
}
assertTrue (1 == pExt1.referenceCount());
assertTrue (1 == pExt2.referenceCount());
AbstractBinding::Ptr pBind1 = use(i, "mybind1");
AbstractBinding::Ptr pBind2 = use(i, "mybind2");
AbstractBinding::Ptr pBind3 = use(i, "mybind3");
assertTrue (1 == pBind1.referenceCount());
assertTrue (1 == pBind2.referenceCount());
assertTrue (1 == pBind3.referenceCount());
{
Statement stmt(tmp);
stmt.addBind(pBind1);
assertTrue (2 == pBind1.referenceCount());
stmt.removeBind(pBind1->name());
assertTrue (1 == pBind1.referenceCount());
stmt.addBind(pBind2);
assertTrue (2 == pBind2.referenceCount());
stmt.addBind(pBind3);
assertTrue (2 == pBind3.referenceCount());
try { stmt.removeBind("a bad name"); fail("must fail"); }
catch (NotFoundException&) { }
}
assertTrue (1 == pBind1.referenceCount());
assertTrue (1 == pBind2.referenceCount());
assertTrue (1 == pBind3.referenceCount());
}
void DataTest::setUp()
{
}
void DataTest::tearDown()
{
}
CppUnit::Test* DataTest::suite()
{
CppUnit::TestSuite* pSuite = new CppUnit::TestSuite("DataTest");
CppUnit_addTest(pSuite, DataTest, testSession);
CppUnit_addTest(pSuite, DataTest, testStatementFormatting);
CppUnit_addTest(pSuite, DataTest, testFeatures);
CppUnit_addTest(pSuite, DataTest, testProperties);
CppUnit_addTest(pSuite, DataTest, testLOB);
CppUnit_addTest(pSuite, DataTest, testCLOB);
CppUnit_addTest(pSuite, DataTest, testCLOBStreams);
CppUnit_addTest(pSuite, DataTest, testColumnVector);
CppUnit_addTest(pSuite, DataTest, testColumnVectorBool);
CppUnit_addTest(pSuite, DataTest, testColumnDeque);
CppUnit_addTest(pSuite, DataTest, testColumnList);
CppUnit_addTest(pSuite, DataTest, testRow);
CppUnit_addTest(pSuite, DataTest, testRowSort);
CppUnit_addTest(pSuite, DataTest, testRowFormat);
CppUnit_addTest(pSuite, DataTest, testDateAndTime);
CppUnit_addTest(pSuite, DataTest, testExternalBindingAndExtraction);
return pSuite;
}
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