/**************************************************************************** ** ** 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 Technology Preview License Agreement accompanying ** this package. ** ** 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 1.1, included in the file LGPL_EXCEPTION.txt in this ** package. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include "q3valuevector.h" #include #include //TESTED_CLASS= //TESTED_FILES= class tst_Q3ValueVector : public QObject { Q_OBJECT public: tst_Q3ValueVector(); virtual ~tst_Q3ValueVector(); public slots: void init(); void cleanup(); private slots: void acc_01(); void operator_equalEqual(); void operator_assign(); // a test for assignment from a std::list has been omitted void size(); void empty(); void capacity_data(); void capacity(); // ommiting test for const iterators (for begin() and end()) void begin(); void end(); // omitting test for const reference void at(); // omitting test for const reference void operator_index(); void front(); void back(); void push_back(); void pop_back(); void insert(); void reserve_data(); void reserve(); void resize(); void clear(); }; static QByteArray toBA( const Q3ValueVector &vv ) { QByteArray ba; QDataStream ds( &ba, IO_ReadWrite ); (void)vv; ds << vv; return ba; } tst_Q3ValueVector::tst_Q3ValueVector() { } tst_Q3ValueVector::~tst_Q3ValueVector() { } void tst_Q3ValueVector::init() { // TODO: Add initialization code here. // This will be executed immediately before each test is run. } void tst_Q3ValueVector::cleanup() { // TODO: Add cleanup code here. // This will be executed immediately after each test is run. } void tst_Q3ValueVector::reserve_data() { capacity_data(); } void tst_Q3ValueVector::capacity_data() { QTest::addColumn("ba"); Q3ValueVector a; QTest::newRow( "data0" ) << toBA( a ); Q3ValueVector b; b.push_back( 1 ); b.push_back( 2 ); QTest::newRow( "data1" ) << toBA( b ); Q3ValueVector c; // let's try one that's rather large for(int i = 0; i < 10000; i++) c.push_back( i ); QTest::newRow( "data2" ) << toBA( c ); } void tst_Q3ValueVector::acc_01() { // vectors Q3ValueVector v1; QVERIFY( v1.empty() ); QVERIFY( v1.size() == 0 ); QVERIFY( v1.capacity() >= v1.size() ); Q3ValueVector v2( v1 ); QVERIFY( v2.empty() ); QVERIFY( v2.size() == 0 ); QVERIFY( v2.capacity() >= v1.size() ); Q3ValueVector v5( 5 ); QVERIFY( !v5.empty() ); QVERIFY( v5.size() == 5 ); QVERIFY( v5.capacity() >= 5 ); //operator= Q3ValueVector v4 = v2; QVERIFY( v4.empty() ); QVERIFY( v4.size() == 0 ); QVERIFY( (int)v4.capacity() >= 0 ); // adding elements v4.push_back( 1 ); v4.push_back( 2 ); v4.push_back( 3 ); QVERIFY( !v4.empty() ); QVERIFY( v2.empty() ); // should have detached QVERIFY( v4.size() == 3 ); QVERIFY( v4.capacity() >= v4.size() ); v4.insert( v4.end(), 4 ); v4.insert( v4.begin(), 0 ); QVERIFY( !v4.empty() ); QVERIFY( v4.size() == 5 ); QVERIFY( v4.capacity() >= v4.size() ); QVERIFY( v4[0] == 0); QVERIFY( v4[1] == 1); QVERIFY( v4[2] == 2); QVERIFY( v4[3] == 3); QVERIFY( v4[4] == 4); // swap Q3ValueVector tmp = v2; v2 = v4; v4 = tmp; // v4.swap( v2 ); QVERIFY( v4.empty() ); QVERIFY( !v2.empty() ); QVERIFY( v2.size() == 5 ); QVERIFY( v2.capacity() >= v2.size() ); QVERIFY( v2[0] == 0); QVERIFY( v2[1] == 1); QVERIFY( v2[2] == 2); QVERIFY( v2[3] == 3); QVERIFY( v2[4] == 4); // v2 Should contain 5 elements: 0,1,2,3,4 QVERIFY(v4.size() == 0); //Should contain no elements // element access Q3ValueVector v3( 5 ); v3[0] = 0; v3[1] = 1; v3[2] = 2; v3[3] = 3; v3[4] = 4; QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); bool ok = FALSE; (void) v3.at( 1000, &ok ); QVERIFY( !ok ); int& j = v3.at( 2, &ok ); QVERIFY( ok ); QVERIFY( j == 2 ); // iterators Q3ValueVector::iterator it = v3.begin(); int k = 0; for ( ; k < 5; ++k, ++it ) QVERIFY( *it == k ); QVERIFY( it == v3.end() ); --it; for ( k = 4; k >= 0; --k, --it ) QVERIFY( *it == k ); QVERIFY( v3.front() == 0 ); QVERIFY( v3.back() == 4 ); // capacity stuff v3.resize( 5 ); // Should contain 5 elements: 0,1,2,3,4 QVERIFY( v3.size() == 5 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); v3.resize( 6 ); // Should now contain 6 elements: 0,1,2,3,4,0 QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); QVERIFY( v3[5] == 0 ); v3.reserve( 1000 ); QVERIFY( v3.size() == 6 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); QVERIFY( v3.capacity() >= 1000 ); v3.back() = 5; // Should contain 5 elements: 0,1,2,3,4 QVERIFY( v3.back() == 5 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); v3.resize( 5 ); // Should contain 5 elements: 0,1,2,3,4 QVERIFY( v3.size() == 5 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3[4] == 4 ); QVERIFY( v3.capacity() >= 1000 ); it = v3.end(); v3.erase( --it ); // Should contain 4 elements: 0,1,2,3 QVERIFY( v3.size() == 4 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 1 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 3 ); QVERIFY( v3.capacity() >= 1000 ); it = v3.begin(); Q3ValueVector::iterator it2 = v3.end(); v3.erase( ++it, --it2 ); // Should contain 2 elements: 0,3 QVERIFY( v3.size() == 2 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 3 ); QVERIFY( v3.capacity() >= 1000 ); it = v3.begin(); v3.insert( ++it, 9 ); // Should contain 3 elements: 0,9,3 QVERIFY( v3.size() == 3 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 9 ); QVERIFY( v3[2] == 3 ); QVERIFY( v3.capacity() >= 1000 ); it = v3.begin(); v3.insert( ++it, 4, 4 ); // Should contain 7 elements: 0,4,4,4,4,9,3 QVERIFY( v3.size() == 7 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 4 ); QVERIFY( v3[2] == 4 ); QVERIFY( v3[3] == 4 ); QVERIFY( v3[4] == 4 ); QVERIFY( v3[5] == 9 ); QVERIFY( v3[6] == 3 ); QVERIFY( v3.capacity() >= 1000 ); it = v3.begin(); v3.insert( ++it, 2000, 2 ); // Should contain 2007 elements: 0,2,2,...2,4,4,4,4,9,3 QVERIFY( v3.size() == 2007 ); it = qFind( v3.begin(), v3.end(), 3 ); it2 = v3.end(); QVERIFY( it == --it2 ); v3.resize( 4 ); // Should contain 4 elements: 0,2,2,2 QVERIFY( v3.size() == 4 ); QVERIFY( v3[0] == 0 ); QVERIFY( v3[1] == 2 ); QVERIFY( v3[2] == 2 ); QVERIFY( v3[3] == 2 ); QVERIFY( v3.capacity() >= 2007 ); it = v3.begin(); v3.insert( ++it, 2000, 2 ); v3.push_back( 9 ); v3.push_back( 3 ); it = v3.begin(); it2 = v3.end(); v3.erase( ++it, ----it2 ); // Should contain 3 elements: 0,9,3 QVERIFY( v3.size() == 3 ); v3.pop_back(); // Should contain 2 elements: 0,9 QVERIFY( v3.size() == 2 ); /* // instantiate other member functions Q3ValueVector::const_iterator cit = v3.begin(); cit = v3.end(); Q3ValueVector::size_type max_size = v3.max_size(); std::cout << "max size of vector:" << max_size << std::endl; const int& ci = v3.at( 1 ); const int& ci2 = v3[1]; const int& ci3 = v3.front(); const int& ci4 = v3.back(); v3.clear(); QStringList l1, l2; l1 << "Weis" << "Ettrich" << "Arnt" << "Sue"; l2 << "Torben" << "Matthias"; qCopy( l2.begin(), l2.end(), l1.begin() ); Q3ValueVector v( l1.size(), "Dave" ); qCopy( l2.begin(), l2.end(), v.begin() ); std::for_each( v.begin(), v.end(), qDebug ); std::vector stdvec( 5, 100 ); Q3ValueVector cvec( stdvec ); std::cout << "Should contain 5 elements: 100,100,100,100,100" << std::endl; print( cvec ); Q3ValueVector cvec2 = stdvec; std::cout << "Should contain 5 elements: 100,100,100,100,100" << std::endl; print( cvec2 ); QFile f( "file.dta" ); f.open( QIODevice::WriteOnly ); QDataStream s( &f ); s << cvec2; f.close(); f.open( QIODevice::ReadOnly ); Q3ValueVector in; s >> in; std::cout << "Should contain 5 elements: 100,100,100,100,100" << std::endl; print( in ); */ } void tst_Q3ValueVector::operator_equalEqual() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 10 ); a.push_back( 100 ); Q3ValueVector b; b.push_back( 1 ); b.push_back( 10 ); b.push_back( 100 ); QVERIFY( a == b ); QVERIFY( b == a ); a.push_back( 1000 ); QVERIFY( !(a == b) ); QVERIFY( !(b == a) ); } void tst_Q3ValueVector::operator_assign() { // test assignment using an int Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); Q3ValueVector b = a; QVERIFY( (a == b) ); } void tst_Q3ValueVector::size() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); QCOMPARE( (int)a.size(), 2 ); } void tst_Q3ValueVector::empty() { Q3ValueVector a; QVERIFY( a.empty() ); } void tst_Q3ValueVector::capacity() { QFETCH( QByteArray, ba ); Q3ValueVector vector; QDataStream ds( &ba, IO_ReadWrite ); ds >> vector; QVERIFY( vector.capacity() >= vector.size() ); } void tst_Q3ValueVector::begin() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); Q3ValueVector::iterator it_a = a.begin(); QCOMPARE( (*it_a), 1 ); // now try it for an empty vector; per the documentation begin() should equal end() Q3ValueVector b; Q3ValueVector::iterator it_b = b.begin(); QVERIFY( it_b == b.end() ); } void tst_Q3ValueVector::end() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); Q3ValueVector::iterator it_a = a.end(); QCOMPARE( (*(--it_a)), 2 ); Q3ValueVector b; Q3ValueVector::iterator it_b = b.end(); QVERIFY( it_b == b.begin() ); } void tst_Q3ValueVector::at() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); bool ok; QVERIFY( a.at( 0, &ok ) == 1 && ok == true ); QVERIFY( a.at( 1, &ok ) == 2 && ok == true ); (void)a.at( 3, &ok ); QCOMPARE( ok, false ); } void tst_Q3ValueVector::operator_index() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); QCOMPARE( a[0], 1 ); QCOMPARE( a[1], 2 ); } void tst_Q3ValueVector::front() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); QCOMPARE(a.front(), 1 ); } void tst_Q3ValueVector::back() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); QCOMPARE(a.back(), 2 ); } void tst_Q3ValueVector::push_back() { Q3ValueVector a; a.push_back( 1 ); QVERIFY( a.back() == 1 && a.size() == 1 ); a.push_back( 2 ); QVERIFY( a.back() == 2 && a.size() == 2 ); } void tst_Q3ValueVector::pop_back() { Q3ValueVector a; a.push_back( 1 ); a.push_back( 2 ); a.pop_back(); QVERIFY( a.back() == 1 && a.size() == 1 ); a.pop_back(); QVERIFY( a.empty() ); } void tst_Q3ValueVector::insert() { // insert at the beginning Q3ValueVector a; a.insert( a.begin(), 1 ); QCOMPARE( a[0], 1 ); // insert at the end a.insert( a.end(), 2 ); QCOMPARE( a[1], 2 ); // insert in the middle Q3ValueVector::iterator it_a = a.begin(); a.insert( ++it_a, 3 ); QCOMPARE( a[1], 3 ); // now testing the overloaded insert() which takes an // argument for the number of items to insert // we'll insert two of each value Q3ValueVector b; b.insert( b.begin(), 2, 1 ); QCOMPARE( b[0], 1 ); QCOMPARE( b[1], 1 ); // insert at the end b.insert( b.end(), 2, 2 ); QCOMPARE( b[2], 2 ); QCOMPARE( b[3], 2 ); // insert in the middle Q3ValueVector::iterator it_b = b.begin(); b.insert( ++++it_b, 2, 3 ); QCOMPARE( b[2], 3 ); QCOMPARE( b[3], 3 ); } void tst_Q3ValueVector::reserve() { QFETCH( QByteArray, ba ); Q3ValueVector vector; QDataStream ds( &ba, IO_ReadWrite ); ds >> vector; Q3ValueVector::size_type cap = vector.capacity(); // should do nothing if( cap > 5 ) vector.reserve( vector.capacity() - 5 ); else vector.reserve( 0 ); QVERIFY( vector.capacity() == cap ); // should make capacity() grow vector.reserve( vector.capacity() + 5 ); QVERIFY( cap < vector.capacity() ); } void tst_Q3ValueVector::resize() { Q3ValueVector a; a.resize( 2 ); QVERIFY( a.size() == 2 ); Q3ValueVector b; b.resize( 2, 42 ); QVERIFY( b.size() == 2 ); QCOMPARE( b[0], 42 ); QCOMPARE( b[1], 42 ); b.resize( 1 ); QVERIFY( b.size() == 1 ); b.resize( 4, 21 ); QCOMPARE( b[0], 42 ); QCOMPARE( b[1], 21 ); QCOMPARE( b[2], 21 ); QCOMPARE( b[3], 21 ); b.resize( 0 ); QVERIFY( b.empty() ); } void tst_Q3ValueVector::clear() { Q3ValueVector a; a.clear(); QVERIFY( a.empty() ); a.push_back( 1 ); a.push_back( 2 ); a.clear(); QVERIFY( a.empty() ); } QTEST_APPLESS_MAIN(tst_Q3ValueVector) #include "tst_q3valuevector.moc"