qt5base-lts/tests/auto/qalgorithms/tst_qalgorithms.cpp

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/****************************************************************************
**
** Copyright (C) 2011 Nokia Corporation and/or its subsidiary(-ies).
** All rights reserved.
** Contact: Nokia Corporation (qt-info@nokia.com)
**
** This file is part of the test suite of the Qt Toolkit.
**
** $QT_BEGIN_LICENSE:LGPL$
** GNU Lesser General Public License Usage
** 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.
**
** 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.
**
** Other Usage
** Alternatively, this file may be used in accordance with the terms and
** conditions contained in a signed written agreement between you and Nokia.
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
#include <QtTest/QtTest>
#include <iostream>
#include <iomanip>
#include <sstream>
#include <algorithm>
#include <qalgorithms.h>
#include <QStringList>
#include <QString>
#include <QVector>
#define Q_TEST_PERFORMANCE 0
using namespace std;
//TESTED_FILES=
class tst_QAlgorithms : public QObject
{
Q_OBJECT
public:
tst_QAlgorithms();
~tst_QAlgorithms();
public slots:
void init();
void cleanup();
private slots:
void test_qLowerBound_data();
void test_qLowerBound();
void test_qUpperBound_data();
void test_qUpperBound();
void test_qBinaryFind_data();
void test_qBinaryFind();
void qBinaryFindOneEntry();
void swap();
void swap2();
void sortEmptyList();
void sortedList();
void sortAPItest();
void stableSortTest();
void stableSortCorrectnessTest_data();
void stableSortCorrectnessTest();
void convenienceAPI();
void qCountIterators() const;
void qCountContainer() const;
void binaryFindOnLargeContainer() const;
#if Q_TEST_PERFORMANCE
private:
void performance();
#endif
};
tst_QAlgorithms::tst_QAlgorithms()
{
}
tst_QAlgorithms::~tst_QAlgorithms()
{
}
void tst_QAlgorithms::init()
{
}
void tst_QAlgorithms::cleanup()
{
}
class TestInt
{
public:
TestInt(int number) :m_number(number) {} ;
TestInt() : m_number(0) {};
bool operator<(const TestInt &other) const { ++TestInt::lessThanRefCount; return (m_number < other.m_number); }
int m_number;
static long int lessThanRefCount;
};
long int TestInt::lessThanRefCount;
QStringList dataSetTypes = QStringList() << "Random" << "Ascending"
<< "Descending" << "Equal" << "Duplicates" << "Almost Sorted" ;
template <typename DataType>
QVector<DataType> generateData(QString dataSetType, const int length)
{
QVector<DataType> container;
if (dataSetType == "Random") {
for(int i=0; i < length; ++i)
container.append(rand());
}
else if (dataSetType == "Ascending") {
for (int i=0; i < length; ++i)
container.append(i);
}
else if (dataSetType == "Descending") {
for (int i=0; i < length; ++i)
container.append(length - i);
}
else if (dataSetType == "Equal") {
for (int i=0; i < length; ++i)
container.append(43);
}
else if (dataSetType == "Duplicates") {
for (int i=0; i < length; ++i)
container.append(i % 10);
}
else if (dataSetType == "Almost Sorted") {
for (int i=0; i < length; ++i)
container.append(i);
for(int i = 0; i<= length / 10; ++i) {
const int iswap = i * 9;
DataType tmp = container.at(iswap);
container[iswap] = container.at(iswap + 1);
container[iswap + 1] = tmp;
}
}
return container;
}
struct ResultSet
{
int numSorts;
long int lessThanRefCount;
};
template <typename ContainerType, typename Algorithm>
ResultSet testRun(ContainerType &container, Algorithm &algorithm, int millisecs)
{
TestInt::lessThanRefCount = 0;
int count = 0;
QTime t;
t.start();
while(t.elapsed() < millisecs) {
++count;
algorithm(container);
}
ResultSet result;
result.numSorts = count;
result.lessThanRefCount = TestInt::lessThanRefCount;
return result;
}
template <typename ContainerType, typename LessThan>
bool isSorted(ContainerType &container, LessThan lessThan)
{
for (int i=0; i < container.count() - 1; ++i)
if (lessThan(container.at(i+1), container.at(i))) {
return false;
}
return true;
}
template <typename ContainerType>
bool isSorted(ContainerType &container)
{
return isSorted(container, qLess<Q_TYPENAME ContainerType::value_type>());
}
#if Q_TEST_PERFORMANCE
void printHeader(QStringList &headers)
{
cout << setw(10) << setiosflags(ios_base::left) << " ";
for (int h = 0; h < headers.count(); ++h) {
cout << setw(20) << setiosflags(ios_base::left) << headers.at(h).toLatin1().constData();
}
cout << endl;
}
template <typename ContainerType>
void print(ContainerType testContainer)
{
typedef typename ContainerType::value_type T;
foreach(T value, testContainer) {
cout << value << " ";
}
cout << endl;
}
template <typename Algorithm, typename DataType>
QList<ResultSet> testAlgorithm(Algorithm &algorithm, QStringList dataSetTypes, int size, int time)
{
QList<ResultSet> results;
foreach(QString dataSetType, dataSetTypes) {
QVector<DataType> container = generateData<DataType>(dataSetType, size);
results.append(testRun(container, algorithm, time));
if (!isSorted(container))
qWarning("%s: container is not sorted after test", Q_FUNC_INFO);
}
return results;
}
template <typename Algorithm, typename DataType>
void testAlgorithm(Algorithm algorithm, QStringList &dataSetTypes)
{
QList<int> sizes = QList<int>() << 5 << 15 << 35 << 70 << 200 << 1000 << 10000;
printHeader(dataSetTypes);
for (int s = 0; s < sizes.count(); ++s){
cout << setw(10) << setiosflags(ios_base::left)<< sizes.at(s);
QList<ResultSet> results =
testAlgorithm<Algorithm, DataType>(algorithm, dataSetTypes, sizes.at(s), 100);
foreach(ResultSet result, results) {
stringstream numSorts;
numSorts << setiosflags(ios_base::left) << setw(10) << result.numSorts;
stringstream lessThan;
lessThan << setiosflags(ios_base::left) << setw(10) << result.lessThanRefCount / result.numSorts;
cout << numSorts.str() << lessThan.str();
}
cout << endl;
}
}
#endif
void tst_QAlgorithms::swap()
{
{
int a = 1, b = 2;
qSwap(a, b);
QVERIFY(a == 2);
QVERIFY(b == 1);
qSwap(a, a);
QVERIFY(a == 2);
QVERIFY(b == 1);
qSwap(b, b);
QVERIFY(a == 2);
QVERIFY(b == 1);
qSwap(a, b);
QVERIFY(a == 1);
QVERIFY(b == 2);
qSwap(b, a);
QVERIFY(a == 2);
QVERIFY(b == 1);
}
{
double a = 1.0, b = 2.0;
qSwap(a, b);
QVERIFY(a == 2.0);
QVERIFY(b == 1.0);
qSwap(a, a);
QVERIFY(a == 2.0);
QVERIFY(b == 1.0);
qSwap(b, b);
QVERIFY(a == 2.0);
QVERIFY(b == 1.0);
qSwap(a, b);
QVERIFY(a == 1.0);
QVERIFY(b == 2.0);
qSwap(b, a);
QVERIFY(a == 2.0);
QVERIFY(b == 1.0);
}
{
QString a = "1", b = "2";
qSwap(a, b);
QVERIFY(a == "2");
QVERIFY(b == "1");
qSwap(a, a);
QVERIFY(a == "2");
QVERIFY(b == "1");
qSwap(b, b);
QVERIFY(a == "2");
QVERIFY(b == "1");
qSwap(a, b);
QVERIFY(a == "1");
QVERIFY(b == "2");
qSwap(b, a);
QVERIFY(a == "2");
QVERIFY(b == "1");
}
{
void *a = 0, *b = 0;
qSwap(a, b);
}
{
const void *a = 0, *b = 0;
qSwap(a, b);
}
{
QString *a = 0, *b = 0;
qSwap(a, b);
}
{
const QString *a = 0, *b = 0;
qSwap(a, b);
}
{
QString **a = 0, **b = 0;
qSwap(a, b);
}
{
const QString **a = 0, **b = 0;
qSwap(a, b);
}
{
QString * const *a = 0, * const *b = 0;
qSwap(a, b);
}
{
const QString * const *a = 0, * const *b = 0;
qSwap(a, b);
}
}
namespace SwapTest {
struct ST { int i; int j; };
void swap(ST &a, ST &b) {
a.i = b.j;
b.i = a.j;
}
}
void tst_QAlgorithms::swap2()
{
{
#ifndef QT_NO_SQL
//check the namespace lookup works correctly
SwapTest::ST a = { 45, 65 };
SwapTest::ST b = { 48, 68 };
qSwap(a, b);
QCOMPARE(a.i, 68);
QCOMPARE(b.i, 65);
#endif
}
}
void tst_QAlgorithms::sortEmptyList()
{
// Only test if it crashes
QStringList stringList;
stringList.sort();
QVERIFY(true);
}
void tst_QAlgorithms::sortedList()
{
QList<int> list;
list << 4 << 3 << 6;
::qSort(list.begin(), list.end());
QCOMPARE(list.count(), 3);
QCOMPARE(list.at(0), 3);
QCOMPARE(list.at(1), 4);
QCOMPARE(list.at(2), 6);
list.insert(qUpperBound(list.begin(), list.end(), 5), 5);
list.insert(qUpperBound(list.begin(), list.end(), 1), 1);
list.insert(qUpperBound(list.begin(), list.end(), 8), 8);
QCOMPARE(list.count(), 6);
QCOMPARE(list.at(0), 1);
QCOMPARE(list.at(1), 3);
QCOMPARE(list.at(2), 4);
QCOMPARE(list.at(3), 5);
QCOMPARE(list.at(4), 6);
QCOMPARE(list.at(5), 8);
}
Q_DECLARE_METATYPE(QList<int>)
void tst_QAlgorithms::test_qLowerBound_data()
{
QTest::addColumn<QList<int> >("data");
QTest::addColumn<int>("resultValue");
QTest::addColumn<int>("resultIndex");
QTest::newRow("sorted-duplicate") << (QList<int>() << 1 << 2 << 2 << 3) << 2 << 1;
}
void tst_QAlgorithms::test_qLowerBound()
{
QFETCH(QList<int>, data);
QFETCH(int, resultValue);
QFETCH(int, resultIndex);
QCOMPARE(qLowerBound(data.constBegin(), data.constEnd(), resultValue), data.constBegin() + resultIndex);
QCOMPARE(qLowerBound(data.begin(), data.end(), resultValue), data.begin() + resultIndex);
QCOMPARE(qLowerBound(data, resultValue), data.constBegin() + resultIndex);
QCOMPARE(qLowerBound(data.constBegin(), data.constEnd(), resultValue, qLess<int>()), data.constBegin() + resultIndex);
}
void tst_QAlgorithms::test_qUpperBound_data()
{
QTest::addColumn<QList<int> >("data");
QTest::addColumn<int>("resultValue");
QTest::addColumn<int>("resultIndex");
QTest::newRow("sorted-duplicate") << (QList<int>() << 1 << 2 << 2 << 3) << 2 << 3;
}
void tst_QAlgorithms::test_qUpperBound()
{
QFETCH(QList<int>, data);
QFETCH(int, resultValue);
QFETCH(int, resultIndex);
QCOMPARE(qUpperBound(data.constBegin(), data.constEnd(), resultValue), data.constBegin() + resultIndex);
QCOMPARE(qUpperBound(data.begin(), data.end(), resultValue), data.begin() + resultIndex);
QCOMPARE(qUpperBound(data, resultValue), data.constBegin() + resultIndex);
QCOMPARE(qUpperBound(data.constBegin(), data.constEnd(), resultValue, qLess<int>()), data.constBegin() + resultIndex);
}
void tst_QAlgorithms::test_qBinaryFind_data()
{
QTest::addColumn<QList<int> >("data");
QTest::addColumn<int>("resultValue"); // -42 means not found
QTest::newRow("sorted-duplicate") << (QList<int>() << 1 << 2 << 2 << 3) << 2;
QTest::newRow("sorted-end") << (QList<int>() << -5 << -2 << 0 << 8) << 8;
QTest::newRow("sorted-beginning") << (QList<int>() << -5 << -2 << 0 << 8) << -5;
QTest::newRow("sorted-duplicate-beginning") << (QList<int>() << -5 << -5 << -2 << 0 << 8) << -5;
QTest::newRow("empty") << (QList<int>()) << -42;
QTest::newRow("not found 1 ") << (QList<int>() << 1 << 5 << 8 << 65) << -42;
QTest::newRow("not found 2 ") << (QList<int>() << -456 << -5 << 8 << 65) << -42;
}
void tst_QAlgorithms::test_qBinaryFind()
{
QFETCH(QList<int>, data);
QFETCH(int, resultValue);
//-42 means not found
if (resultValue == -42) {
QVERIFY(qBinaryFind(data.constBegin(), data.constEnd(), resultValue) == data.constEnd());
QVERIFY(qBinaryFind(data, resultValue) == data.constEnd());
QVERIFY(qBinaryFind(data.begin(), data.end(), resultValue) == data.end());
QVERIFY(qBinaryFind(data.begin(), data.end(), resultValue, qLess<int>()) == data.end());
return;
}
QCOMPARE(*qBinaryFind(data.constBegin(), data.constEnd(), resultValue), resultValue);
QCOMPARE(*qBinaryFind(data.begin(), data.end(), resultValue), resultValue);
QCOMPARE(*qBinaryFind(data, resultValue), resultValue);
QCOMPARE(*qBinaryFind(data.constBegin(), data.constEnd(), resultValue, qLess<int>()), resultValue);
}
void tst_QAlgorithms::qBinaryFindOneEntry()
{
QList<int> list;
list << 2;
QVERIFY(::qBinaryFind(list.constBegin(), list.constEnd(), 2) != list.constEnd());
}
void tst_QAlgorithms::sortAPItest()
{
QVector<int> testVector = generateData<int>("Random", 101);
qSort(testVector);
QVERIFY(isSorted(testVector));
qSort(testVector.begin(), testVector.end());
QVERIFY(isSorted(testVector));
qSort(testVector.begin(), testVector.end(), qLess<int>());
QVERIFY(isSorted(testVector));
testVector = generateData<int>("Random", 71);
qStableSort(testVector);
QVERIFY(isSorted(testVector));
qStableSort(testVector.begin(), testVector.end());
QVERIFY(isSorted(testVector));
qStableSort(testVector.begin(), testVector.end(), qLess<int>());
QVERIFY(isSorted(testVector));
QList<int> testList = generateData<int>("Random", 101).toList();
qSort(testList);
QVERIFY(isSorted(testList));
qSort(testList.begin(), testList.end());
QVERIFY(isSorted(testList));
qSort(testList.begin(), testList.end(), qLess<int>());
QVERIFY(isSorted(testList));
testList = generateData<int>("Random", 71).toList();
qStableSort(testList);
QVERIFY(isSorted(testList));
qStableSort(testList.begin(), testList.end());
QVERIFY(isSorted(testList));
qStableSort(testList.begin(), testList.end(), qLess<int>());
QVERIFY(isSorted(testList));
}
class StableSortTest
{
public:
StableSortTest(){};
StableSortTest(int Major, int Minor) : Major(Major), Minor(Minor) {}
bool operator<(const StableSortTest &other) const {return (Major < other.Major); }
bool testMinor(const StableSortTest &other) const {return Minor < other.Minor; }
int Major;
int Minor;
};
ostream &operator<<(ostream &out, const StableSortTest& obj) { out << obj.Major << "-" << obj.Minor; return out; }
QVector<StableSortTest> createStableTestVector()
{
QVector<StableSortTest> stableTestVector;
for (int i=500; i>=0; --i) {
for (int j=0; j<10; ++j) {
stableTestVector.append(StableSortTest(i, j));
}
}
return stableTestVector;
}
template <typename ContainerType, typename LessThan>
bool isStableSorted(ContainerType &container, LessThan lessThan)
{
for (int i=0; i < container.count() - 1; ++i) {
//not sorted?
if (lessThan(container.at(i + 1), container.at(i)))
return false;
// equal?
if (lessThan(container.at(i), container.at(i + 1)))
continue;
// minor version?
if(container.at(i + 1).testMinor(container.at(i)))
return false;
}
return true;
}
void tst_QAlgorithms::stableSortTest()
{
// Selftests:
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
qSort(stableTestVector.begin(), stableTestVector.end(), qLess<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qLess<StableSortTest>()));
QVERIFY(!isStableSorted(stableTestVector, qLess<StableSortTest>()));
}
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
qSort(stableTestVector.begin(), stableTestVector.end(), qGreater<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qGreater<StableSortTest>()));
QVERIFY(!isStableSorted(stableTestVector, qGreater<StableSortTest>()));
}
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
qSort(stableTestVector.begin(), stableTestVector.end(), qGreater<StableSortTest>());
QVERIFY(!isSorted(stableTestVector, qLess<StableSortTest>()));
QVERIFY(!isStableSorted(stableTestVector, qGreater<StableSortTest>()));
}
// Stable sort with qLess
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
std::stable_sort(stableTestVector.begin(), stableTestVector.end(), qLess<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qLess<StableSortTest>()));
QVERIFY(isStableSorted(stableTestVector, qLess<StableSortTest>()));
}
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
qStableSort(stableTestVector.begin(), stableTestVector.end(), qLess<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qLess<StableSortTest>()));
QVERIFY(isStableSorted(stableTestVector, qLess<StableSortTest>()));
}
// Stable sort with qGreater
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
std::stable_sort(stableTestVector.begin(), stableTestVector.end(), qGreater<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qGreater<StableSortTest>()));
QVERIFY(isStableSorted(stableTestVector, qGreater<StableSortTest>()));
}
{
QVector<StableSortTest> stableTestVector = createStableTestVector();
qStableSort(stableTestVector.begin(), stableTestVector.end(), qGreater<StableSortTest>());
QVERIFY(isSorted(stableTestVector, qGreater<StableSortTest>()));
QVERIFY(isStableSorted(stableTestVector, qGreater<StableSortTest>()));
}
}
Q_DECLARE_METATYPE(QVector<int>)
void tst_QAlgorithms::stableSortCorrectnessTest_data()
{
const int dataSize = 1000;
QTest::addColumn<QVector<int> >("unsorted");
QTest::newRow("From documentation") << (QVector<int>() << 33 << 12 << 68 << 6 << 12);
QTest::newRow("Equal") << (generateData<int>("Equal", dataSize));
QTest::newRow("Ascending") << (generateData<int>("Ascending", dataSize));
QTest::newRow("Descending") << (generateData<int>("Descending", dataSize));
QTest::newRow("Duplicates") << (generateData<int>("Duplicates", dataSize));
QTest::newRow("Almost Sorted") << (generateData<int>("Almost Sorted", dataSize));
QTest::newRow("Random") << (generateData<int>("Random", dataSize));
}
void tst_QAlgorithms::stableSortCorrectnessTest()
{
QFETCH(QVector<int>, unsorted);
QVector<int> sorted = unsorted;
qStableSort(sorted.begin(), sorted.end());
// Verify that sorted contains the same numbers as unsorted.
foreach(int value, unsorted) {
QVERIFY(sorted.contains(value));
int unsortedCount = 0;
qCount(unsorted.begin(), unsorted.end(), value, unsortedCount);
int sortedCount = 0;
qCount(sorted.begin(), sorted.end(), value, sortedCount);
QCOMPARE(sortedCount, unsortedCount);
}
QVERIFY(isSorted(sorted));
}
void tst_QAlgorithms::convenienceAPI()
{
// Compile-test for QAlgorithm convenience functions.
QList<int> list, list2;
qCopy(list.begin(), list.end(), list2.begin());
qCopyBackward(list.begin(), list.end(), list2.begin());
qEqual(list.begin(), list.end(), list2.begin());
qFill(list, 1);
qFill(list.begin(), list.end(), 1);
qFind(list, 1);
qFind(list.begin(), list.end(), 1);
int count1 = 0 , count2 = 0, count3 = 0;
qCount(list, 1, count1);
qCount(list.begin(), list.end(), 1, count2);
QCOMPARE(count1, count2);
QCOMPARE(count2, count3);
qSort(list);
qSort(list.begin(), list.end());
qSort(list.begin(), list.end(), qLess<int>());
qStableSort(list);
qStableSort(list.begin(), list.end());
qStableSort(list.begin(), list.end(), qLess<int>());
qLowerBound(list, 1);;
qLowerBound(list.begin(), list.end(), 1);
qLowerBound(list.begin(), list.end(), 1, qLess<int>());
qUpperBound(list, 1);
qUpperBound(list.begin(), list.end(), 1);
qUpperBound(list.begin(), list.end(), 1, qLess<int>());
qBinaryFind(list, 1);
qBinaryFind(list.begin(), list.end(), 1);
qBinaryFind(list.begin(), list.end(), 1, qLess<int>());
QList<int *> pointerList;
qDeleteAll(pointerList);
qDeleteAll(pointerList.begin(), pointerList.end());
}
template <typename DataType>
class QuickSortHelper
{
public:
void operator()(QVector<DataType> list)
{
::qSort(list);
}
};
template <typename DataType>
class StableSortHelper
{
public:
void operator()(QVector<DataType> list)
{
::qStableSort(list);
}
};
template <typename DataType>
class StlSortHelper
{
public:
void operator()(QVector<DataType> list)
{
std::sort(list.begin(), list.end());
}
};
template <typename DataType>
class StlStableSortHelper
{
public:
void operator()(QVector<DataType> list)
{
std::stable_sort(list.begin(), list.end());
}
};
#if Q_TEST_PERFORMANCE
void tst_QAlgorithms::performance()
{
cout << endl << "Quick sort" << endl;
testAlgorithm<QuickSortHelper<TestInt>, TestInt>(QuickSortHelper<TestInt>(), dataSetTypes);
cout << endl << "stable sort" << endl;
testAlgorithm<StableSortHelper<TestInt>, TestInt>(StableSortHelper<TestInt>(), dataSetTypes);
cout << endl << "std::sort" << endl;
testAlgorithm<StlSortHelper<TestInt>, TestInt>(StlSortHelper<TestInt>(), dataSetTypes);
cout << endl << "std::stable_sort" << endl;
testAlgorithm<StlStableSortHelper<TestInt>, TestInt>(StlStableSortHelper<TestInt>(), dataSetTypes);
/*
cout << endl << "Sorting lists of ints" << endl;
cout << endl << "Quick sort" << endl;
testAlgorithm<QuickSortHelper<int>, int>(QuickSortHelper<int>(), dataSetTypes);
cout << endl << "std::sort" << endl;
testAlgorithm<StlSortHelper<int>, int>(StlSortHelper<int>(), dataSetTypes);
cout << endl << "std::stable_sort" << endl;
testAlgorithm<StlStableSortHelper<int>, int>(StlStableSortHelper<int>(), dataSetTypes);
*/
}
#endif
void tst_QAlgorithms::qCountIterators() const
{
QList<int> list;
list << 3 << 3 << 6 << 6 << 6 << 8;
{
int countOf7 = 0;
::qCount(list.begin(), list.end(), 7, countOf7);
QCOMPARE(countOf7, 0);
}
{
int countOf3 = 0;
::qCount(list.begin(), list.end(), 3, countOf3);
QCOMPARE(countOf3, 2);
}
{
int countOf6 = 0;
::qCount(list.begin(), list.end(), 6, countOf6);
QCOMPARE(countOf6, 3);
}
{
int countOf8 = 0;
::qCount(list.begin(), list.end(), 8, countOf8);
QCOMPARE(countOf8, 1);
}
/* Check that we add to the count, not set it. */
{
int countOf8 = 5;
::qCount(list.begin(), list.end(), 8, countOf8);
QCOMPARE(countOf8, 6);
}
}
void tst_QAlgorithms::qCountContainer() const
{
QList<int> list;
list << 3 << 3 << 6 << 6 << 6 << 8;
{
int countOf7 = 0;
::qCount(list, 7, countOf7);
QCOMPARE(countOf7, 0);
}
{
int countOf3 = 0;
::qCount(list, 3, countOf3);
QCOMPARE(countOf3, 2);
}
{
int countOf6 = 0;
::qCount(list, 6, countOf6);
QCOMPARE(countOf6, 3);
}
{
int countOf8 = 0;
::qCount(list, 8, countOf8);
QCOMPARE(countOf8, 1);
}
/* Check that we add to the count, not set it. */
{
int countOf8 = 5;
::qCount(list, 8, countOf8);
QCOMPARE(countOf8, 6);
}
}
class RAI
{
public:
RAI(int searched = 5, int hidePos = 4, int len = 10)
: curPos_(0)
, length_(len)
, searchedVal_(searched)
, searchedValPos_(hidePos)
{
}
int at(int pos) const
{
if (pos == searchedValPos_) {
return searchedVal_;
}
else if (pos < searchedValPos_) {
return searchedVal_ - 1;
}
return searchedVal_ + 1;
}
RAI begin() const
{
RAI rai = *this;
rai.setCurPos(0);
return rai;
}
RAI end() const
{
RAI rai = *this;
rai.setCurPos(length_);
return rai;
}
int pos() const
{
return curPos();
}
int size() const
{
return length_;
}
RAI operator+(int i) const
{
RAI rai = *this;
rai.setCurPos( rai.curPos() + i );
if (rai.curPos() > length_) {
rai.setCurPos(length_);
}
return rai;
}
RAI operator-(int i) const
{
RAI rai = *this;
rai.setCurPos( rai.curPos() - i );
if (rai.curPos() < 0) {
rai.setCurPos(0);
}
return rai;
}
int operator-(const RAI& it) const
{
return curPos() - it.curPos();
}
RAI& operator+=(int i)
{
setCurPos( curPos() + i );
if (curPos() > length_) {
setCurPos(length_);
}
return *this;
}
RAI& operator-=(int i)
{
setCurPos( curPos() - i);
if (curPos() < 0) {
setCurPos(0);
}
return *this;
}
RAI& operator++()
{
if (curPos() < length_) {
setCurPos( curPos() + 1 );
}
return *this;
}
RAI operator++(int)
{
RAI rai = *this;
if (curPos() < length_) {
setCurPos( curPos() + 1 );
}
return rai;
}
RAI& operator--()
{
if (curPos() > 0) {
setCurPos( curPos() - 1 );
}
return *this;
}
RAI operator--(int)
{
RAI rai = *this;
if (curPos() > 0) {
setCurPos( curPos() - 1 );
}
return rai;
}
bool operator==(const RAI& rai) const
{
return rai.curPos() == curPos();
}
bool operator!=(const RAI& rai) const
{
return !operator==(rai);
}
int operator*() const
{
return at(curPos());
}
int operator[](int i) const
{
return at(i);
}
private:
int curPos() const
{
return curPos_;
}
void setCurPos(int pos)
{
curPos_ = pos;
}
int curPos_;
int length_;
int searchedVal_;
int searchedValPos_;
};
void tst_QAlgorithms::binaryFindOnLargeContainer() const
{
const int len = 2 * 1000 * 1000 * 537;
const int pos = len - 12345;
RAI rai(5, pos, len);
RAI foundIt = qBinaryFind(rai.begin(), rai.end(), 5);
QCOMPARE(foundIt.pos(), 1073987655);
}
QTEST_APPLESS_MAIN(tst_QAlgorithms)
#include "tst_qalgorithms.moc"