qt5base-lts/tests/auto/other/collections/tst_collections.cpp
Thiago Macieira 712ca9d95a Change remaining uses of {to,from}Ascii to {to,from}Latin1 [QtCore]
This operation should be a no-op anyway, since at this point in time,
the fromAscii and toAscii functions simply call their fromLatin1 and
toLatin1 counterparts.

Task-number: QTBUG-21872
Change-Id: I38f97ad379deafebef02c75d611343ca15640c8a
Reviewed-by: Lars Knoll <lars.knoll@nokia.com>
Reviewed-by: Jędrzej Nowacki <jedrzej.nowacki@nokia.com>
2012-05-04 12:45:47 +02:00

3744 lines
99 KiB
C++

/****************************************************************************
**
** Copyright (C) 2012 Nokia Corporation and/or its subsidiary(-ies).
** Contact: http://www.qt-project.org/
**
** 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.
**
**
**
**
**
**
** $QT_END_LICENSE$
**
****************************************************************************/
// test the container forwards
#include <QtContainerFwd>
static QCache<int, int> *cacheX;
static QHash<int, int> *hashX;
static QLinkedList<int> *linkedListX;
static QList<int> *listX;
static QMap<int, int> *mapX;
static QMultiHash<int, int> *multiHashX;
static QMultiMap<int, int> *multiMapX;
static QPair<int, int> *pairX;
static QQueue<int> *queueX;
static QSet<int> *setX;
static QStack<int> *stackX;
static QVarLengthArray<int> *varLengthArrayX;
static QVarLengthArray<int, 512> *varLengthArrayY;
static QVector<int> *vectorX;
void foo()
{
cacheX = 0;
hashX = 0;
linkedListX = 0;
listX = 0;
mapX = 0;
multiHashX = 0;
multiMapX = 0;
pairX = 0;
queueX = 0;
setX = 0;
stackX = 0;
varLengthArrayX = 0;
varLengthArrayY = 0;
vectorX = 0;
}
#include <QtTest/QtTest>
#include <algorithm>
#include "qalgorithms.h"
#include "qbitarray.h"
#include "qbytearray.h"
#include "qcache.h"
#include "qhash.h"
#include "qlinkedlist.h"
#include "qlist.h"
#include "qmap.h"
#include "qpair.h"
#include "qregexp.h"
#include "qset.h"
#include "qstack.h"
#include "qstring.h"
#include "qstringlist.h"
#include "qvarlengtharray.h"
#include "qvector.h"
#include "qqueue.h"
template class QList<int>;
class tst_Collections : public QObject
{
Q_OBJECT
public:
tst_Collections();
~tst_Collections();
public slots:
void init();
void cleanup();
private slots:
void typeinfo();
void qstring();
void list();
void linkedList();
void vector();
void byteArray();
void stack();
void hash();
void map();
void bitArray();
void cache();
void regexp();
void pair();
void sharableQList();
void sharableQLinkedList();
void sharableQVector();
void sharableQMap();
void sharableQHash();
void q_foreach();
void conversions();
void javaStyleIterators();
void constAndNonConstStlIterators();
void vector_stl_data();
void vector_stl();
void list_stl_data();
void list_stl();
void linkedlist_stl_data();
void linkedlist_stl();
void q_init();
void pointersize();
void containerInstantiation();
void qtimerList();
void containerTypedefs();
void forwardDeclared();
void alignment();
void QTBUG13079_collectionInsideCollection();
void foreach_2();
void insert_remove_loop();
};
struct LargeStatic {
static int count;
LargeStatic():c(count) { ++count; }
LargeStatic(const LargeStatic& o):c(o.c) { ++count; }
~LargeStatic() { --count; }
int c;
int data[8];
};
int LargeStatic::count = 0;
struct Movable {
static int count;
Movable():c(count) { ++count; }
Movable(const Movable& o):c(o.c) { ++count; }
~Movable() { --count; }
int c;
};
int Movable::count = 0;
QT_BEGIN_NAMESPACE
Q_DECLARE_TYPEINFO(Movable, Q_MOVABLE_TYPE);
QT_END_NAMESPACE
struct Pod {
int i1, i2;
};
tst_Collections::tst_Collections()
{
}
tst_Collections::~tst_Collections()
{
}
void tst_Collections::init()
{
}
void tst_Collections::cleanup()
{
}
void tst_Collections::typeinfo()
{
QVERIFY(QTypeInfo<int*>::isPointer);
QVERIFY(!QTypeInfo<int>::isPointer);
QVERIFY(QTypeInfo<QString>::isComplex);
QVERIFY(!QTypeInfo<int>::isComplex);
}
void tst_Collections::list()
{
{
QList<int> list;
QVERIFY(list.isEmpty());
list.append(1);
QVERIFY(list.size() == 1);
QVERIFY(*list.begin() == 1);
list.push_back(2);
list += (3);
list << 4 << 5 << 6;
QVERIFY(!list.isEmpty());
QVERIFY(list.size() == 6);
QVERIFY(list.end() - list.begin() == list.size());
#if !defined(Q_CC_MSVC) && !defined(Q_CC_SUN)
QVERIFY(std::binary_search(list.begin(), list.end(), 2) == true);
QVERIFY(std::binary_search(list.begin(), list.end(), 9) == false);
#endif
QVERIFY(qBinaryFind(list.begin(), list.end(), 2) == list.begin() + 1);
QVERIFY(qLowerBound(list.begin(), list.end(), 2) == list.begin() + 1);
QVERIFY(qUpperBound(list.begin(), list.end(), 2) == list.begin() + 2);
QVERIFY(qBinaryFind(list.begin(), list.end(), 9) == list.end());
QVERIFY(qLowerBound(list.begin(), list.end(), 9) == list.end());
QVERIFY(qUpperBound(list.begin(), list.end(), 9) == list.end());
{
int sum = 0;
QListIterator<int> i(list);
while (i.hasNext())
sum += i.next();
QVERIFY(sum == 21);
}
{
QList<int> list1;
list1 << 1 << 2 << 3 << 5 << 7 << 8 << 9;
QList<int> list2 = list1;
QMutableListIterator<int> i1(list1);
while (i1.hasNext()) {
if (i1.next() % 2 != 0)
i1.remove();
}
QMutableListIterator<int> i2(list2);
i2.toBack();
while (i2.hasPrevious()) {
if (i2.previous() % 2 != 0)
i2.remove();
}
QVERIFY(list1.size() == 2);
QVERIFY(list2.size() == 2);
QVERIFY(list1 == list2);
}
{
int sum = 0;
for (int i = 0; i < list.size(); ++i)
sum += list[i];
QVERIFY(sum == 21);
}
{
int sum = 0;
QList<int>::const_iterator i = list.begin();
while (i != list.end())
sum += *i++;
QVERIFY(sum == 21);
}
{
int sum = 0;
QList<int>::ConstIterator i = list.begin();
while (i != list.end())
sum += *i++;
QVERIFY(sum == 21);
}
{
QList<int>::Iterator i = list.begin();
i += 2;
QCOMPARE(*i, 3);
i -= 1;
QCOMPARE(*i, 2);
}
{
QList<int>::ConstIterator i = list.begin();
i += 2;
QCOMPARE(*i, 3);
i -= 1;
QCOMPARE(*i, 2);
}
{
int sum = 0;
int i;
for (i = 0; i < list.size(); ++i)
list[i] = list[i] +1;
for (i = 0; i < list.size(); ++i)
sum += list[i];
QVERIFY(sum == 21 + list.size());
}
{
int sum = 0;
int i;
for (i = 0; i < list.size(); ++i)
--list[i];
for (i = 0; i < list.size(); ++i)
sum += list[i];
QVERIFY(sum == 21);
}
{
QMutableListIterator<int> i(list);
while (i.hasNext())
i.setValue(2*i.next());
}
{
int sum = 0;
QListIterator<int> i(list);
i.toBack();
while (i.hasPrevious())
sum += i.previous();
QVERIFY(sum == 2*21);
}
{
QMutableListIterator<int> i(list);
i.toBack();
while (i.hasPrevious())
i.setValue(2*i.previous());
}
{
int sum = 0;
QListIterator<int> i(list);
i.toBack();
while (i.hasPrevious())
sum += i.previous();
QVERIFY(sum == 2*2*21);
}
{
QMutableListIterator<int> i(list);
while (i.hasNext()) {
int a = i.next();
i.insert(a);
}
}
{
int sum = 0;
QList<int>::iterator i = list.begin();
while (i != list.end())
sum += *i++;
QVERIFY(sum == 2*2*2*21);
}
{
int duplicates = 0;
QListIterator<int> i(list);
while (i.hasNext()) {
int a = i.next();
if (i.hasNext() && a == i.peekNext())
duplicates++;
}
QVERIFY(duplicates == 6);
}
{
int duplicates = 0;
QListIterator<int> i(list);
i.toBack();
while (i.hasPrevious()) {
int a = i.previous();
if (i.hasPrevious() && a == i.peekPrevious())
duplicates++;
}
QVERIFY(duplicates == 6);
}
{
QMutableListIterator<int> i(list);
while (i.hasNext()) {
int a = i.next();
if (i.hasNext() &&
i.peekNext() == a)
i.remove();
}
}
{
int duplicates = 0;
QMutableListIterator<int> i = list;
i.toBack();
while (i.hasPrevious()) {
int a = i.previous();
if (i.hasPrevious() && a == i.peekPrevious())
duplicates++;
}
QVERIFY(duplicates == 0);
}
{
QVERIFY(list.size() == 6);
QMutableListIterator<int> i = list;
while (i.hasNext()) {
int a = i.peekNext();
i.insert(42);
QVERIFY(i.peekPrevious() == 42 && i.peekNext() == a);
i.next();
}
QVERIFY(list.size() == 12);
i.toFront();
while (i.findNext(42))
i.remove();
}
{
QList<int> l;
l << 4 << 8 << 12 << 16 << 20 << 24;
QVERIFY(l == list);
QList<int> copy = list;
list += list;
QVERIFY(l != list && l.size() == list.size()/2 && l == copy);
l += copy;
QVERIFY(l == list);
list = copy;
}
{
QList<int> copy = list;
list << 8;
QVERIFY(list.indexOf(8) == 1);
QVERIFY(list.indexOf(8, list.indexOf(8)+1) == 6);
int a = list.indexOf(8);
QVERIFY(list.count(8) == 2);
int r = list.removeAll(8);
QVERIFY(r == 2);
list.insert(a, 8);
QVERIFY(list == copy);
}
{
QList<QString> list;
list << "one" << "two" << "three" << "four" << "five" << "six";
while (!list.isEmpty())
list.removeAll(list.first());
}
{
QList<QString> list;
list << "one" << "two" << "one" << "two";
QVERIFY(!list.removeOne("three"));
QVERIFY(list.removeOne("two"));
QCOMPARE(list, QList<QString>() << "one" << "one" << "two");;
QVERIFY(list.removeOne("two"));
QCOMPARE(list, QList<QString>() << "one" << "one");
QVERIFY(!list.removeOne("two"));
QCOMPARE(list, QList<QString>() << "one" << "one");
QVERIFY(list.removeOne("one"));
QCOMPARE(list, QList<QString>() << "one");
QVERIFY(list.removeOne("one"));
QVERIFY(list.isEmpty());
QVERIFY(!list.removeOne("one"));
QVERIFY(list.isEmpty());
}
{
QList<int> copy = list;
list << 8;
QVERIFY(list.lastIndexOf(8) == 6);
QVERIFY(list.lastIndexOf(8, list.lastIndexOf(8)-1) == 1);
list = copy;
}
{
QList<int> copy = list;
list.insert(3, 999);
QVERIFY(list[3] == 999);
list.replace(3, 222);
QVERIFY(list[3] == 222);
QVERIFY(list.contains(222) && ! list.contains(999));
list.removeAt(3);
list = copy;
QVERIFY(list == copy);
}
{
list.clear();
QVERIFY(list.isEmpty());
QVERIFY(list.begin() == list.end());
QListIterator<int> i(list);
QVERIFY(!i.hasNext() && !i.hasPrevious());
}
{
QList<int> l1;
QList<int> l2;
l1 << 1 << 2 << 3;
l2 << 4 << 5 << 6;
QList<int> l3 = l1 + l2;
l1 += l2;
QVERIFY(l3 == l1);
}
{
QList<int> list;
QVERIFY(list.isEmpty());
list.append(1);
QList<int> list2;
list2 = list;
list2.clear();
QVERIFY(list2.size() == 0);
QVERIFY(list.size() == 1);
}
{
QList<int> list;
list.append(1);
list = list;
QVERIFY(list.size() == 1);
}
}
{
QList<void*> list;
list.append(0);
list.append((void*)42);
QCOMPARE(list.size(), 2);
QCOMPARE(list.at(0), (void*)0);
QCOMPARE(list.at(1), (void*)42);
}
{
QVector<QString> vector(5);
vector[0] = "99";
vector[4] ="100";
QList<QString> list = vector.toList();
QVERIFY(list.size() == 5);
QVERIFY(list.at(0) == "99");
QVERIFY(list.at(4) == "100");
list[0] = "10";
QVERIFY(list.at(0) == "10");
QVERIFY(vector.at(0) == "99");
}
{
QList<QString> list;
list.append("Hello");
QList<QString>::iterator it = list.begin();
QVERIFY((*it)[0] == QChar('H'));
QVERIFY(it->constData()[0] == QChar('H'));
it->replace(QChar('H'), QChar('X'));
QVERIFY(list.first() == "Xello");
QList<QString>::const_iterator cit = list.constBegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
cit = list.cbegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
}
{
QList<int *> list;
QVERIFY(list.value(0) == 0);
int i;
list.append(&i);
QVERIFY(list.value(0) == &i);
}
{
QList<const int *> list;
QVERIFY(list.value(0) == 0);
int i;
list.append(&i);
QVERIFY(list.value(0) == &i);
}
{
QList<int> list;
QVERIFY(list.value(0) == 0);
list.append(10);
QVERIFY(list.value(0) == 10);
}
{
QList<Pod> list;
QCOMPARE(list.value(0).i1, 0);
QCOMPARE(list.value(0).i2, 0);
}
{
QList<QString> list;
list << "alpha" << "beta";
list += list;
QVERIFY(list.size() == 4);
QVERIFY(list.at(0) == "alpha");
QVERIFY(list.at(1) == "beta");
QVERIFY(list.at(2) == "alpha");
QVERIFY(list.at(3) == "beta");
}
// test endcases for inserting into a qlist
{
QList<QString> list;
list << "foo" << "bar";
QVERIFY(!list.isEmpty());
list.insert(-1, "lessthanzero");
QCOMPARE(list.at(0), QString("lessthanzero"));
list.insert(0, "atzero");
QCOMPARE(list.at(0), QString("atzero"));
int listCount = list.count();
list.insert(listCount, "atcount");
QCOMPARE(list.at(listCount), QString("atcount"));
listCount = list.count();
list.insert(listCount + 1, "beyondcount");
QCOMPARE(list.at(listCount), QString("beyondcount"));
}
{
QList<int> list1;
list1 << 0 << 1 << 2 << 3;
list1.removeFirst();
list1.swap(0, 0);
QVERIFY(list1 == QList<int>() << 1 << 2 << 3);
list1.swap(1, 1);
QVERIFY(list1 == QList<int>() << 1 << 2 << 3);
list1.swap(2, 2);
QVERIFY(list1 == QList<int>() << 1 << 2 << 3);
list1.swap(0, 1);
QVERIFY(list1 == QList<int>() << 2 << 1 << 3);
list1.swap(0, 2);
QVERIFY(list1 == QList<int>() << 3 << 1 << 2);
list1.swap(1, 2);
QVERIFY(list1 == QList<int>() << 3 << 2 << 1);
list1.swap(1, 2);
QVERIFY(list1 == QList<int>() << 3 << 1 << 2);
QList<QString> list2;
list2 << "1" << "2" << "3";
list2.swap(0, 0);
QVERIFY(list2 == QList<QString>() << "1" << "2" << "3");
list2.swap(1, 1);
QVERIFY(list2 == QList<QString>() << "1" << "2" << "3");
list2.swap(2, 2);
QVERIFY(list2 == QList<QString>() << "1" << "2" << "3");
list2.swap(0, 1);
QVERIFY(list2 == QList<QString>() << "2" << "1" << "3");
list2.swap(0, 2);
QVERIFY(list2 == QList<QString>() << "3" << "1" << "2");
list2.swap(1, 2);
QVERIFY(list2 == QList<QString>() << "3" << "2" << "1");
list2.swap(1, 2);
QVERIFY(list2 == QList<QString>() << "3" << "1" << "2");
QList<double> list3;
list3 << 1.0 << 2.0 << 3.0;
list3.swap(0, 0);
QVERIFY(list3 == QList<double>() << 1.0 << 2.0 << 3.0);
list3.swap(1, 1);
QVERIFY(list3 == QList<double>() << 1.0 << 2.0 << 3.0);
list3.swap(2, 2);
QVERIFY(list3 == QList<double>() << 1.0 << 2.0 << 3.0);
list3.swap(0, 1);
QVERIFY(list3 == QList<double>() << 2.0 << 1.0 << 3.0);
list3.swap(0, 2);
QVERIFY(list3 == QList<double>() << 3.0 << 1.0 << 2.0);
list3.swap(1, 2);
QVERIFY(list3 == QList<double>() << 3.0 << 2.0 << 1.0);
list3.swap(1, 2);
QVERIFY(list3 == QList<double>() << 3.0 << 1.0 << 2.0);
}
// Check what happens when using references to own items.
// Ideally we should run valgrind on this.
{
int i;
QList<void *> list1;
list1.append(reinterpret_cast<void *>(50));
for (i = 1; i < 100; ++i) {
list1.append(list1.at(i - 1));
list1.prepend(list1.at(i));
list1.insert(i, list1.at(i - 1));
list1.insert(i, list1.at(i));
list1.insert(i, list1.at(i + 1));
list1.replace(i, list1.at(i - 1));
list1.replace(i, list1.at(i));
list1.replace(i, list1.at(i + 1));
}
QCOMPARE(list1.size(), 496);
for (i = 0; i < list1.size(); ++i) {
QCOMPARE(list1.at(i), reinterpret_cast<void *>(50));
}
QList<QString> list2;
list2.append("50");
for (i = 1; i < 100; ++i) {
list2.append(list2.at(i - 1));
list2.prepend(list2.at(i));
list2.insert(i, list2.at(i - 1));
list2.insert(i, list2.at(i));
list2.insert(i, list2.at(i + 1));
list2.replace(i, list2.at(i - 1));
list2.replace(i, list2.at(i));
list2.replace(i, list2.at(i + 1));
}
QCOMPARE(list2.size(), 496);
for (i = 0; i < list2.size(); ++i) {
QCOMPARE(list2.at(i), QString::fromLatin1("50"));
}
QList<double> list3;
list3.append(50.0);
for (i = 1; i < 100; ++i) {
list3.append(list3.at(i - 1));
list3.prepend(list3.at(i));
list3.insert(i, list3.at(i - 1));
list3.insert(i, list3.at(i));
list3.insert(i, list3.at(i + 1));
list3.replace(i, list3.at(i - 1));
list3.replace(i, list3.at(i));
list3.replace(i, list3.at(i + 1));
}
QCOMPARE(list3.size(), 496);
for (i = 0; i < list3.size(); ++i) {
QCOMPARE(list3.at(i), 50.0);
}
QList<QTime> list4;
list4.append(QTime(12, 34, 56));
for (i = 1; i < 100; ++i) {
list4.append(list4.at(i - 1));
list4.prepend(list4.at(i));
list4.insert(i, list4.at(i - 1));
list4.insert(i, list4.at(i));
list4.insert(i, list4.at(i + 1));
list4.replace(i, list4.at(i - 1));
list4.replace(i, list4.at(i));
list4.replace(i, list4.at(i + 1));
}
QCOMPARE(list4.size(), 496);
for (i = 0; i < list4.size(); ++i) {
QVERIFY(list4.at(i) == QTime(12, 34, 56));
}
}
{
QList<int> a;
QCOMPARE(a.startsWith(1), false);
QCOMPARE(a.endsWith(1), false);
a.append(1);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), true);
QCOMPARE(a.endsWith(2), false);
a.append(2);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), false);
QCOMPARE(a.endsWith(2), true);
}
}
void tst_Collections::linkedList()
{
{
QLinkedList<int> list;
QVERIFY(list.isEmpty());
list.append(1);
list.push_back(2);
list += (3);
list << 4 << 5 << 6;
QVERIFY(!list.isEmpty());
QVERIFY(list.size() == 6);
{
int sum = 0;
QLinkedListIterator<int> i = list;
while (i.hasNext()) {
sum += i.next();
}
QVERIFY(sum == 21);
}
{
int sum = 0;
QLinkedList<int>::const_iterator i = list.begin();
while (i != list.end())
sum += *i++;
QVERIFY(sum == 21);
}
{
QMutableLinkedListIterator<int> i = list;
while (i.hasNext())
i.setValue(2*i.next());
}
{
int sum = 0;
QLinkedListIterator<int> i = list;
i.toBack();
while (i.hasPrevious())
sum += i.previous();
QVERIFY(sum == 2*21);
}
{
QMutableLinkedListIterator<int> i = list;
i.toBack();
while (i.hasPrevious())
i.setValue(2*i.previous());
}
{
int sum = 0;
QLinkedListIterator<int> i = list;
i.toBack();
while (i.hasPrevious())
sum += i.previous();
QVERIFY(sum == 2*2*21);
}
{
QMutableLinkedListIterator<int> i = list;
while (i.hasNext()) {
int a = i.next();
i.insert(a);
}
}
{
int sum = 0;
QLinkedList<int>::iterator i = list.begin();
while (i != list.end())
sum += *i++;
QVERIFY(sum == 2*2*2*21);
}
{
int duplicates = 0;
QLinkedListIterator<int> i = list;
while (i.hasNext()) {
int a = i.next();
if (i.hasNext() && a == i.peekNext())
duplicates++;
}
QVERIFY(duplicates == 6);
}
{
int duplicates = 0;
QLinkedListIterator<int> i = list;
i.toBack();
while (i.hasPrevious()) {
int a = i.previous();
if (i.hasPrevious() && a == i.peekPrevious())
duplicates++;
}
QVERIFY(duplicates == 6);
}
{
QMutableLinkedListIterator<int> i = list;
while (i.hasNext()) {
int a = i.next();
if (i.hasNext() &&
i.peekNext() == a)
i.remove();
}
}
{
int duplicates = 0;
QMutableLinkedListIterator<int> i = list;
i.toBack();
while (i.hasPrevious()) {
int a = i.previous();
if (i.hasPrevious() && a == i.peekPrevious())
duplicates++;
}
QVERIFY(duplicates == 0);
}
{
QVERIFY(list.size() == 6);
QMutableLinkedListIterator<int> i = list;
while (i.hasNext()) {
int a = i.peekNext();
i.insert(42);
QVERIFY(i.peekPrevious() == 42 && i.peekNext() == a);
i.next();
}
QVERIFY(list.size() == 12);
i.toFront();
while (i.findNext(42))
i.remove();
}
{
QLinkedList<int> l;
l << 4 << 8 << 12 << 16 << 20 << 24;
QVERIFY(l == list);
QLinkedList<int> copy = list;
list += list;
QVERIFY(l != list && l.size() == list.size()/2 && l == copy);
l += copy;
QVERIFY(l == list);
list = copy;
}
{
QLinkedList<int> copy = list;
list.prepend(999);
list.append(999);
QVERIFY(list.contains(999));
QVERIFY(list.count(999) == 2);
list.removeAll(999);
QVERIFY(list == copy);
}
{
QLinkedList<QString> list;
list << "one" << "two" << "three" << "four" << "five" << "six";
while (!list.isEmpty())
list.removeAll(list.first());
}
{
QLinkedList<QString> list;
list << "one" << "two" << "one" << "two";
QVERIFY(!list.removeOne("three"));
QVERIFY(list.removeOne("two"));
QCOMPARE(list, QLinkedList<QString>() << "one" << "one" << "two");;
QVERIFY(list.removeOne("two"));
QCOMPARE(list, QLinkedList<QString>() << "one" << "one");
QVERIFY(!list.removeOne("two"));
QCOMPARE(list, QLinkedList<QString>() << "one" << "one");
QVERIFY(list.removeOne("one"));
QCOMPARE(list, QLinkedList<QString>() << "one");
QVERIFY(list.removeOne("one"));
QVERIFY(list.isEmpty());
QVERIFY(!list.removeOne("one"));
QVERIFY(list.isEmpty());
}
{
list.clear();
QVERIFY(list.isEmpty());
QVERIFY(list.begin() == list.end());
QLinkedListIterator<int> i(list);
QVERIFY(!i.hasNext() && !i.hasPrevious());
}
}
{
QLinkedList<QString> list;
list.append("Hello");
QLinkedList<QString>::iterator it = list.begin();
QVERIFY((*it)[0] == QChar('H'));
QVERIFY(it->constData()[0] == QChar('H'));
it->replace(QChar('H'), QChar('X'));
QVERIFY(list.first() == "Xello");
QLinkedList<QString>::const_iterator cit = list.constBegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
cit = list.cbegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
}
{
QLinkedList<QString> list;
list << "alpha" << "beta";
list += list;
QVERIFY(list.size() == 4);
QVERIFY(*list.begin() == "alpha");
QVERIFY(*(list.begin() + 1) == "beta");
QVERIFY(*(list.begin() + 2) == "alpha");
QVERIFY(*(list.begin() + 3) == "beta");
}
{
QLinkedList<int> a;
QCOMPARE(a.startsWith(1), false);
QCOMPARE(a.endsWith(1), false);
a.append(1);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), true);
QCOMPARE(a.endsWith(2), false);
a.append(2);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), false);
QCOMPARE(a.endsWith(2), true);
}
};
void tst_Collections::vector()
{
QVector<int> v1;
v1 << 1 << 2 << 3;
QVector<int> v2;
v2 << 4 << 5;
QVector<int> v3;
v3 << 1 << 2 << 3 << 4 << 5;
QVERIFY(v1 + v2 == v3);
QVector<int> emptyVector;
QCOMPARE(emptyVector.size(), 0);
#if 0
// this should trigger an assert
emptyVector.remove(3, -3);
QCOMPARE(emptyVector.size(), 0);
#endif
emptyVector.remove(0, 0);
QCOMPARE(emptyVector.size(), 0);
QVector<int> v4;
v4 << 1 << 2 << 3;
QCOMPARE(v4.size(), 3);
v4.remove(1, 0);
QCOMPARE(v4.size(), 3);
QVector<int> v;
v.append(2);
QVERIFY(*v.begin() == 2);
v.prepend(1);
v << 3 << 4 << 5 << 6;
QVERIFY(std::binary_search(v.begin(), v.end(), 2) == true);
QVERIFY(std::binary_search(v.begin(), v.end(), 9) == false);
QVERIFY(qBinaryFind(v.begin(), v.end(), 2) == v.begin() + 1);
QVERIFY(qLowerBound(v.begin(), v.end(), 2) == v.begin() + 1);
QVERIFY(qUpperBound(v.begin(), v.end(), 2) == v.begin() + 2);
QVERIFY(qBinaryFind(v.begin(), v.end(), 9) == v.end());
QVERIFY(qLowerBound(v.begin(), v.end(), 9) == v.end());
QVERIFY(qUpperBound(v.begin(), v.end(), 9) == v.end());
v.clear();
v << 1 << 2 << 3;
v.insert(v.begin(), 0);
v.insert(v.end(), 4);
v.insert(v.begin()+2, 9);
QVector<int> result;
result << 0 << 1 << 9 << 2 << 3 << 4;
QVERIFY( v == result );
v.clear();
v << 1 << 2 << 3;
v.insert(0, 0);
v.insert(4, 4);
v.insert(2, 9);
QVERIFY( v == result );
QVector<QString> vec;
vec << "foo" << "bar";
vec.reserve( 512 );
QVERIFY(vec[0] == "foo");
QVERIFY(vec[1] == "bar");
int initialLargeStaticCount = LargeStatic::count;
{
QVector<LargeStatic> vector;
vector.append(LargeStatic());
vector.resize(0);
}
QCOMPARE(LargeStatic::count, initialLargeStaticCount);
{
QVector<QString> vector;
vector << "alpha" << "beta";
vector += vector;
QVERIFY(vector.size() == 4);
QVERIFY(vector.at(0) == "alpha");
QVERIFY(vector.at(1) == "beta");
QVERIFY(vector.at(2) == "alpha");
QVERIFY(vector.at(3) == "beta");
}
int originalLargeStaticCount = LargeStatic::count;
{
QVector<LargeStatic> vector(5);
}
QVERIFY(LargeStatic::count == originalLargeStaticCount);
{
QVector<LargeStatic> vector(5);
QList<LargeStatic> list = vector.toList();
}
QVERIFY(LargeStatic::count == originalLargeStaticCount);
{
QVector<LargeStatic> vector;
LargeStatic *dummy = 0;
for (int i = 0; i < 10000; ++i) {
delete dummy;
dummy = new LargeStatic;
vector.append(LargeStatic());
}
delete dummy;
}
QVERIFY(LargeStatic::count == originalLargeStaticCount);
int originalMovableCount = Movable::count;
{
QVector<Movable> vector(5);
}
QVERIFY(Movable::count == originalMovableCount);
{
QVector<Movable> vector(5);
QList<Movable> list = vector.toList();
}
QVERIFY(Movable::count == originalMovableCount);
{
QVector<Movable> vector;
Movable *dummy = 0;
for (int i = 0; i < 10000; ++i) {
delete dummy;
dummy = new Movable;
vector.append(Movable());
}
delete dummy;
}
QVERIFY(Movable::count == originalMovableCount);
// Check what happens when using references to own items.
// Ideally we should run valgrind on this.
{
int i;
QVector<void *> vect1;
vect1.append(reinterpret_cast<void *>(50));
for (i = 1; i < 100; ++i) {
vect1.append(vect1.at(i - 1));
vect1.prepend(vect1.at(i));
vect1.insert(i, vect1.at(i - 1));
vect1.insert(i, vect1.at(i));
vect1.insert(i, vect1.at(i + 1));
vect1.replace(i, vect1.at(i - 1));
vect1.replace(i, vect1.at(i));
vect1.replace(i, vect1.at(i + 1));
}
QCOMPARE(vect1.size(), 496);
for (i = 0; i < vect1.size(); ++i) {
QCOMPARE(vect1.at(i), reinterpret_cast<void *>(50));
}
QVector<QString> vect2;
vect2.append("50");
for (i = 1; i < 100; ++i) {
vect2.append(vect2.at(i - 1));
vect2.prepend(vect2.at(i));
vect2.insert(i, vect2.at(i - 1));
vect2.insert(i, vect2.at(i));
vect2.insert(i, vect2.at(i + 1));
vect2.replace(i, vect2.at(i - 1));
vect2.replace(i, vect2.at(i));
vect2.replace(i, vect2.at(i + 1));
}
QCOMPARE(vect2.size(), 496);
for (i = 0; i < vect2.size(); ++i) {
QCOMPARE(vect2.at(i), QString::fromLatin1("50"));
}
QVector<double> vect3;
vect3.append(50.0);
for (i = 1; i < 100; ++i) {
vect3.append(vect3.at(i - 1));
vect3.prepend(vect3.at(i));
vect3.insert(i, vect3.at(i - 1));
vect3.insert(i, vect3.at(i));
vect3.insert(i, vect3.at(i + 1));
vect3.replace(i, vect3.at(i - 1));
vect3.replace(i, vect3.at(i));
vect3.replace(i, vect3.at(i + 1));
}
QCOMPARE(vect3.size(), 496);
for (i = 0; i < vect3.size(); ++i) {
QCOMPARE(vect3.at(i), 50.0);
}
QVector<QTime> vect4;
vect4.append(QTime(12, 34, 56));
for (i = 1; i < 100; ++i) {
vect4.append(vect4.at(i - 1));
vect4.prepend(vect4.at(i));
vect4.insert(i, vect4.at(i - 1));
vect4.insert(i, vect4.at(i));
vect4.insert(i, vect4.at(i + 1));
vect4.replace(i, vect4.at(i - 1));
vect4.replace(i, vect4.at(i));
vect4.replace(i, vect4.at(i + 1));
}
QCOMPARE(vect4.size(), 496);
for (i = 0; i < vect4.size(); ++i) {
QVERIFY(vect4.at(i) == QTime(12, 34, 56));
}
}
// this used to trigger an uninitialized read in valgrind
QVector<char> foo;
foo.resize(144);
{
QVector<int> a;
QCOMPARE(a.startsWith(1), false);
QCOMPARE(a.endsWith(1), false);
a.append(1);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), true);
QCOMPARE(a.endsWith(2), false);
a.append(2);
QCOMPARE(a.startsWith(1), true);
QCOMPARE(a.startsWith(2), false);
QCOMPARE(a.endsWith(1), false);
QCOMPARE(a.endsWith(2), true);
}
}
void tst_Collections::byteArray()
{
QByteArray hello = "hello";
QByteArray ello = "ello";
QByteArray World = "World";
QByteArray Wor = "Wor";
QByteArray helloWorld = "helloWorld";
QVERIFY(hello + World == helloWorld);
QVERIFY(hello + "World" == helloWorld);
QVERIFY("hello" + World == helloWorld);
QByteArray l;
QVERIFY('h' + ello == hello);
QVERIFY(Wor + 'l' + 'd' == "World");
QVERIFY(hello + World == "helloWorld");
QVERIFY(hello + "World" == "helloWorld");
QVERIFY("hello" + World == "helloWorld");
QVERIFY('h' + ello == "hello");
QVERIFY(Wor + 'l' + 'd' == "World");
QVERIFY("helloWorld" == hello + World);
QVERIFY("helloWorld" == hello + "World");
QVERIFY("helloWorld" == "hello" + World);
QVERIFY("hello" == 'h' + ello);
QVERIFY("World" == Wor + 'l' + 'd');
QVERIFY(hello.contains('e'));
QVERIFY (true == hello.contains('e'));
QVERIFY (hello.contains('e') != false);
QVERIFY(hello.indexOf('e') == 1);
QVERIFY(hello.indexOf('e', -10) == 1);
QVERIFY(hello.indexOf('l') == 2);
QVERIFY(hello.indexOf('l',2) == 2);
QVERIFY(hello.indexOf('l',3) == 3);
QByteArray large = "000 100 200 300 400 500 600 700 800 900";
QVERIFY(large.indexOf("700") == 28);
QVERIFY(large.indexOf("700", 28) == 28);
QVERIFY(large.indexOf("700", 29) == -1);
QVERIFY(large.lastIndexOf("700") == 28);
QVERIFY(large.lastIndexOf("700", 28) == 28);
QVERIFY(large.lastIndexOf("700", 27) == -1);
QVERIFY(large.contains("200"));
QVERIFY(!large.contains("201"));
QVERIFY(large.contains('3'));
QVERIFY(!large.contains('a'));
QVERIFY(large.count("00") == 11);
QVERIFY(large.count('3') == 1);
QVERIFY(large.count('0') == 21);
QVERIFY(large.count("0") == 21);
QVERIFY(large.count("200") == 1);
QVERIFY(large.count("201") == 0);
QVERIFY(hello.left(0) == "");
QVERIFY(!hello.left(0).isNull());
QVERIFY(hello.left(1) == "h");
QVERIFY(hello.left(2) == "he");
QVERIFY(hello.left(200) == "hello");
QVERIFY(hello.left(hello.size()) == hello);
QVERIFY(hello.left(hello.size()+1) == hello);
QVERIFY(hello.right(0) == "");
QVERIFY(!hello.right(0).isNull());
QVERIFY(hello.right(1) == "o");
QVERIFY(hello.right(2) == "lo");
QVERIFY(hello.right(200) == "hello");
QVERIFY(hello.right(hello.size()) == hello);
QVERIFY(hello.right(hello.size()+1) == hello);
QVERIFY(!hello.mid(0, 0).isNull());
QVERIFY(hello.mid(0, 1) == "h");
QVERIFY(hello.mid(0, 2) == "he");
QVERIFY(hello.mid(0, 200) == "hello");
QVERIFY(hello.mid(0) == "hello");
QVERIFY(hello.mid(0, hello.size()) == hello);
QVERIFY(hello.mid(0, hello.size()+1) == hello);
QVERIFY(hello.mid(hello.size()-0) == "");
QVERIFY(hello.mid(hello.size()-0).isEmpty());
QVERIFY(!hello.mid(hello.size()-0).isNull());
QVERIFY(hello.mid(hello.size()-1) == "o");
QVERIFY(hello.mid(hello.size()-2) == "lo");
QVERIFY(hello.mid(hello.size()-200) == "hello");
QByteArray null;
QByteArray nonNull = "";
QVERIFY(null.left(10).isNull());
QVERIFY(null.mid(0).isNull());
#if 0
QVERIFY(null == QByteArray::null);
QVERIFY(QByteArray::null == null);
QVERIFY(nonNull != QByteArray::null);
QVERIFY(QByteArray::null != nonNull);
QVERIFY(null == nonNull);
QVERIFY(QByteArray::null == QByteArray::null);
#endif
QByteArray str = "Hello";
QByteArray cstr(str.data(), str.size());
QVERIFY(str == "Hello");
QVERIFY(cstr == "Hello");
cstr.clear();
QVERIFY(str == "Hello");
QVERIFY(cstr.isEmpty());
{
QByteArray ba1("Foo");
ba1.prepend(ba1);
QCOMPARE(ba1, QByteArray("FooFoo"));
ba1.append(ba1);
QCOMPARE(ba1, QByteArray("FooFooFooFoo"));
ba1.insert(2, ba1);
QCOMPARE(ba1, QByteArray("FoFooFooFooFoooFooFooFoo"));
ba1.replace(3, 3, ba1);
QCOMPARE(ba1, QByteArray("FoFFoFooFooFooFoooFooFooFooooFooFoooFooFooFoo"));
ba1 = "FooFoo";
ba1.replace(char('F'), ba1);
QCOMPARE(ba1, QByteArray("FooFooooFooFoooo"));
ba1 = "FooFoo";
ba1.replace(char('o'), ba1);
QCOMPARE(ba1, QByteArray("FFooFooFooFooFFooFooFooFoo"));
ba1.replace(ba1, "xxx");
QCOMPARE(ba1, QByteArray("xxx"));
ba1.replace(ba1, QByteArray("yyy"));
QCOMPARE(ba1, QByteArray("yyy"));
ba1 += ba1;
QCOMPARE(ba1, QByteArray("yyyyyy"));
ba1.remove(1, -1); // do nothing
QCOMPARE(ba1, QByteArray("yyyyyy"));
ba1.replace(0, -1, "ZZZ");
QCOMPARE(ba1, QByteArray("ZZZyyyyyy"));
}
};
void tst_Collections::stack()
{
QStack<int> stack;
stack.push(1);
stack.push(2);
stack.push(3);
QVectorIterator<int> i = stack;
i.toBack();
int sum = 0;
while (i.hasPrevious())
sum += i.previous();
QVERIFY(sum == 6);
sum = 0;
for (QStack<int>::iterator i = stack.begin(); i != stack.end(); ++i)
sum += *i;
QVERIFY(sum == 6);
while (!stack.isEmpty())
sum -= stack.pop();
QVERIFY(sum == 0);
}
void tst_Collections::hash()
{
const char *hello = "hello";
const char *world = "world";
const char *allo = "allo";
const char *monde = "monde";
{
typedef QHash<QString, QString> Hash;
Hash hash;
QString key;
for (int i = 0; i < 10; ++i) {
key[0] = i + '0';
for (int j = 0; j < 10; ++j) {
key[1] = j + '0';
hash.insert(key, "V" + key);
}
}
for (int i = 0; i < 10; ++i) {
key[0] = i + '0';
for (int j = 0; j < 10; ++j) {
key[1] = j + '0';
hash.remove(key);
}
}
}
{
typedef QHash<int, const char *> Hash;
Hash hash;
hash.insert(1, hello);
hash.insert(2, world);
QVERIFY(hash.size() == 2);
QVERIFY(!hash.isEmpty());
{
Hash hash2 = hash;
hash2 = hash;
hash = hash2;
hash2 = hash2;
hash = hash;
hash2.clear();
hash2 = hash2;
QVERIFY(hash2.size() == 0);
QVERIFY(hash2.isEmpty());
}
QVERIFY(hash.size() == 2);
{
Hash hash2 = hash;
hash2[1] = allo;
hash2[2] = monde;
QVERIFY(hash2[1] == allo);
QVERIFY(hash2[2] == monde);
QVERIFY(hash[1] == hello);
QVERIFY(hash[2] == world);
hash2[1] = hash[1];
hash2[2] = hash[2];
QVERIFY(hash2[1] == hello);
QVERIFY(hash2[2] == world);
hash[1] = hash[1];
QVERIFY(hash[1] == hello);
}
{
Hash hash2 = hash;
hash2.detach();
hash2.remove(1);
QVERIFY(hash2.size() == 1);
hash2.remove(1);
QVERIFY(hash2.size() == 1);
hash2.remove(0);
QVERIFY(hash2.size() == 1);
hash2.remove(2);
QVERIFY(hash2.size() == 0);
QVERIFY(hash.size() == 2);
}
hash.detach();
{
Hash::iterator it1 = hash.find(1);
QVERIFY(it1 != hash.end());
Hash::iterator it2 = hash.find(0);
QVERIFY(it2 != hash.begin());
QVERIFY(it2 == hash.end());
*it1 = monde;
QVERIFY(*it1 == monde);
QVERIFY(hash[1] == monde);
*it1 = hello;
QVERIFY(*it1 == hello);
QVERIFY(hash[1] == hello);
hash[1] = monde;
QVERIFY(it1.key() == 1);
QVERIFY(it1.value() == monde);
QVERIFY(*it1 == monde);
QVERIFY(hash[1] == monde);
hash[1] = hello;
QVERIFY(*it1 == hello);
QVERIFY(hash[1] == hello);
}
{
const Hash hash2 = hash;
Hash::const_iterator it1 = hash2.find(1);
QVERIFY(it1 != hash2.end());
QVERIFY(it1.key() == 1);
QVERIFY(it1.value() == hello);
QVERIFY(*it1 == hello);
Hash::const_iterator it2 = hash2.find(2);
QVERIFY(it1 != it2);
QVERIFY(it1 != hash2.end());
QVERIFY(it2 != hash2.end());
int count = 0;
it1 = hash2.begin();
while (it1 != hash2.end()) {
count++;
++it1;
}
QVERIFY(count == 2);
count = 0;
it1 = hash.begin();
while (it1 != hash.end()) {
count++;
++it1;
}
QVERIFY(count == 2);
}
{
QVERIFY(hash.contains(1));
QVERIFY(hash.contains(2));
QVERIFY(!hash.contains(0));
QVERIFY(!hash.contains(3));
}
{
QVERIFY(hash.value(1) == hello);
QVERIFY(hash.value(2) == world);
QVERIFY(hash.value(3) == 0);
QVERIFY(hash.value(1, allo) == hello);
QVERIFY(hash.value(2, allo) == world);
QVERIFY(hash.value(3, allo) == allo);
QVERIFY(hash.value(0, monde) == monde);
}
{
QHash<int,LargeStatic> hash;
for (int i = 0; i < 10; i++)
hash.insert(i, LargeStatic());
QVERIFY(LargeStatic::count == 10);
hash.remove(7);
QVERIFY(LargeStatic::count == 9);
}
QVERIFY(LargeStatic::count == 0);
{
QHash<int, int*> hash;
QVERIFY(((const QHash<int,int*>*) &hash)->operator[](7) == 0);
}
{
/*
This test relies on a certain implementation of
QHash. If you change the way QHash works internally,
change this test as well.
*/
QHash<int, int> hash;
for (int i = 0; i < 1000; ++i)
hash.insert(i, i);
QVERIFY(hash.capacity() == 1031);
hash.squeeze();
QVERIFY(hash.capacity() == 521);
hash.insert(12345, 12345);
QVERIFY(hash.capacity() == 1031);
for (int j = 0; j < 900; ++j)
hash.remove(j);
QVERIFY(hash.capacity() == 257);
hash.squeeze();
QVERIFY(hash.capacity() == 67);
hash.reserve(0);
}
}
{
QHash<int, QString> hash;
hash.insert(0, "Hello");
QHash<int, QString>::iterator it = hash.begin();
QVERIFY((*it)[0] == QChar('H'));
QVERIFY(it->constData()[0] == QChar('H'));
it->replace(QChar('H'), QChar('X'));
QVERIFY(*hash.begin() == "Xello");
QHash<int, QString>::const_iterator cit = hash.constBegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
cit = hash.cbegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
}
{
QHash<int, QString> hash1, hash2;
hash1.insertMulti(1, "Alpha");
hash1.insertMulti(1, "Gamma");
hash2.insertMulti(1, "Beta");
hash2.insertMulti(1, "Gamma");
hash2.insertMulti(1, "Gamma");
hash1.unite(hash2);
QCOMPARE(hash1.size(), 5);
QCOMPARE(hash1.values(),
(QList<QString>() << "Gamma" << "Gamma" << "Beta" << "Gamma" << "Alpha"));
hash2 = hash1;
hash2.unite(hash2);
QCOMPARE(hash2.size(), 10);
QCOMPARE(hash2.values(), hash1.values() + hash1.values());
}
}
void tst_Collections::map()
{
const char *hello = "hello";
const char *world = "world";
const char *allo = "allo";
const char *monde = "monde";
{
typedef QMap<int, const char *> Map;
Map map;
map.insert(1, hello);
map.insert(2, world);
QVERIFY(*map.begin() == hello);
QVERIFY(map.size() == 2);
QVERIFY(!map.isEmpty());
{
Map map2 = map;
map2 = map;
map = map2;
map2 = map2;
map = map;
map2.clear();
map2 = map2;
QVERIFY(map2.size() == 0);
QVERIFY(map2.isEmpty());
}
QVERIFY(map.size() == 2);
{
Map map2 = map;
map2[1] = allo;
map2[2] = monde;
QVERIFY(map2[1] == allo);
QVERIFY(map2[2] == monde);
QVERIFY(map[1] == hello);
QVERIFY(map[2] == world);
map2[1] = map[1];
map2[2] = map[2];
QVERIFY(map2[1] == hello);
QVERIFY(map2[2] == world);
map[1] = map[1];
QVERIFY(map[1] == hello);
}
{
Map map2 = map;
map2.detach();
map2.remove(1);
QVERIFY(map2.size() == 1);
map2.remove(1);
QVERIFY(map2.size() == 1);
map2.remove(0);
QVERIFY(map2.size() == 1);
map2.remove(2);
QVERIFY(map2.size() == 0);
QVERIFY(map.size() == 2);
}
map.detach();
{
Map::iterator it1 = map.find(1);
QVERIFY(it1 == map.begin());
QVERIFY(it1 != map.end());
Map::iterator it2 = map.find(0);
QVERIFY(it2 != map.begin());
QVERIFY(it2 == map.end());
*it1 = monde;
QVERIFY(*it1 == monde);
QVERIFY(map[1] == monde);
*it1 = hello;
QVERIFY(*it1 == hello);
QVERIFY(map[1] == hello);
map[1] = monde;
QVERIFY(it1.key() == 1);
QVERIFY(it1.value() == monde);
QVERIFY(*it1 == monde);
QVERIFY(map[1] == monde);
map[1] = hello;
QVERIFY(*it1 == hello);
QVERIFY(map[1] == hello);
*++it1 = allo;
QVERIFY(*it1 == allo);
QVERIFY(map[2] == allo);
*it1 = world;
++it1;
QVERIFY(it1 == map.end());
int count = 0;
it1 = map.begin();
while (it1 != map.end()) {
count++;
++it1;
}
QVERIFY(count == 2);
}
{
const Map map2 = map;
Map::const_iterator it1 = map2.find(1);
QVERIFY(it1 != map2.end());
QVERIFY(it1.key() == 1);
QVERIFY(it1.value() == hello);
QVERIFY(*it1 == hello);
++it1;
Map::const_iterator it2 = map2.find(2);
QVERIFY(it1 == it2);
++it1;
QVERIFY(it1 == map2.end());
QVERIFY(it2 != map2.end());
QVERIFY(it1 != it2);
int count = 0;
it1 = map2.begin();
while (it1 != map2.end()) {
count++;
++it1;
}
QVERIFY(count == 2);
count = 0;
it1 = map.begin();
while (it1 != map.end()) {
count++;
++it1;
}
QVERIFY(count == 2);
}
{
QVERIFY(map.contains(1));
QVERIFY(map.contains(2));
QVERIFY(!map.contains(0));
QVERIFY(!map.contains(3));
}
{
QVERIFY(map.value(1) == hello);
QVERIFY(map.value(2) == world);
QVERIFY(map.value(3) == 0);
QVERIFY(map.value(1, allo) == hello);
QVERIFY(map.value(2, allo) == world);
QVERIFY(map.value(3, allo) == allo);
QVERIFY(map.value(0, monde) == monde);
}
int originalLargeStaticCount = LargeStatic::count;
{
QMap<int,LargeStatic> map;
for (int i = 0; i < 10; i++)
map.insert(i, LargeStatic());
QVERIFY(LargeStatic::count == (originalLargeStaticCount + 10));
map.remove(7);
QVERIFY(LargeStatic::count == (originalLargeStaticCount + 9));
}
QVERIFY(LargeStatic::count == originalLargeStaticCount);
{
QMap<int, int*> map;
QVERIFY(((const QMap<int,int*>*) &map)->operator[](7) == 0);
}
{
QMap<int, int> map;
map[0] = 1;
map[1] = 2;
map[2] = 4;
map[3] = 8;
int sum = 0;
int sumkey = 0;
QMapIterator<int,int> i = map;
while (i.hasNext()) {
sum += i.next().value();
sumkey += i.key();
}
QVERIFY(sum == 15);
QVERIFY(sumkey == 6);
}
{
QMap<int, int> map;
map[0] = 1;
map[1] = 2;
map[2] = 4;
map[3] = 8;
int sum = 0;
QMutableMapIterator<int,int> i = map;
while(i.hasNext())
if (i.next().key() == 2)
i.remove();
i.toFront();
while(i.hasNext()) {
sum += i.next().value();
i.setValue(10);
i.value() += 22;
QVERIFY(i.value() == 32);
}
QVERIFY(sum == 11);
}
{
QMap<int, int> map;
map[0] = 1;
QMutableMapIterator<int,int> i(map);
i.toBack();
while (i.hasPrevious()) {
i.previous();
QCOMPARE(i.key(), 0);
QCOMPARE(i.value(), 1);
}
}
}
{
QMultiMap<QString, int> map1;
map1.insert("1", 2);
map1.insert("1", 1);
map1.insert("a", 3);
map1.insert("a", 2);
map1.insert("a", 1);
map1.insert("b", 2);
map1.insert("b", 1);
QMultiMap<QString, int>::iterator j1, k1;
j1 = map1.lowerBound("0"); k1 = map1.upperBound("0");
QVERIFY(j1 == map1.begin() && k1 == j1);
j1 = map1.lowerBound("00"); k1 = map1.upperBound("00");
QVERIFY(j1 == map1.find("1") && k1 == j1);
j1 = map1.lowerBound("1"); k1 = map1.upperBound("1");
QVERIFY(j1 == map1.find("1") && --(--k1) == j1);
j1 = map1.lowerBound("11"); k1 = map1.upperBound("11");
QVERIFY(j1 == map1.find("a") && k1 == j1);
j1 = map1.lowerBound("a"); k1 = map1.upperBound("a");
QVERIFY(j1 == map1.find("a") && k1 == map1.find("b"));
QVERIFY(j1.value() == 1 && j1.value() == 1);
j1 = map1.lowerBound("aa"); k1 = map1.upperBound("aa");
QVERIFY(j1 == map1.find("b") && k1 == j1);
QVERIFY(j1.value() == 1);
j1 = map1.lowerBound("b"); k1 = map1.upperBound("b");
QVERIFY(j1 == map1.find("b") && k1 == map1.end());
QVERIFY(j1.value() == 1);
j1 = map1.lowerBound("bb"); k1 = map1.upperBound("bb");
QVERIFY(j1 == map1.end() && k1 == j1);
const QMultiMap<QString, int> map2 = map1;
QMultiMap<QString, int>::const_iterator j2, k2;
j2 = map2.lowerBound("0"); k2 = map2.upperBound("0");
QVERIFY(j2 == map2.begin() && k2 == j2);
j2 = map2.lowerBound("00"); k2 = map2.upperBound("00");
QVERIFY(j2 == map2.find("1") && k2 == j2);
j2 = map2.lowerBound("1"); k2 = map2.upperBound("1");
QVERIFY(j2 == map2.find("1") && --(--k2) == j2);
j2 = map2.lowerBound("11"); k2 = map2.upperBound("11");
QVERIFY(j2 == map2.find("a") && k2 == j2);
j2 = map2.lowerBound("a"); k2 = map2.upperBound("a");
QVERIFY(j2 == map2.find("a") && k2 == map2.find("b"));
QVERIFY(j2.value() == 1 && j2.value() == 1);
j2 = map2.lowerBound("aa"); k2 = map2.upperBound("aa");
QVERIFY(j2 == map2.find("b") && k2 == j2);
QVERIFY(j2.value() == 1);
j2 = map2.lowerBound("b"); k2 = map2.upperBound("b");
QVERIFY(j2 == map2.find("b") && k2 == map2.end());
QVERIFY(j2.value() == 1);
j2 = map2.lowerBound("bb"); k2 = map2.upperBound("bb");
QVERIFY(j2 == map2.end() && k2 == j2);
}
{
QMap<int, QString> map;
map.insert(0, "Hello");
QMap<int, QString>::iterator it = map.begin();
QVERIFY((*it)[0] == QChar('H'));
QVERIFY(it->constData()[0] == QChar('H'));
it->replace(QChar('H'), QChar('X'));
QVERIFY(*map.begin() == "Xello");
QMap<int, QString>::const_iterator cit = map.constBegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
cit = map.cbegin();
QVERIFY((*cit).toLower() == "xello");
QVERIFY(cit->toUpper() == "XELLO");
}
{
QMap<int, QString> map1, map2;
map1.insertMulti(1, "Alpha");
map1.insertMulti(1, "Gamma");
map2.insertMulti(1, "Beta");
map2.insertMulti(1, "Gamma");
map2.insertMulti(1, "Gamma");
map1.unite(map2);
QCOMPARE(map1.size(), 5);
QCOMPARE(static_cast<QStringList>(map1.values()),
(QStringList() << "Gamma" << "Gamma" << "Beta" << "Gamma" << "Alpha"));
map2 = map1;
map2.unite(map2);
QCOMPARE(map2.size(), 10);
QCOMPARE(map2.values(), map1.values() + map1.values());
}
}
void tst_Collections::qstring()
{
QString hello = "hello";
QString ello = "ello";
QString World = "World";
QString Wor = "Wor";
QString helloWorld = "helloWorld";
QString s = hello + "World";
QVERIFY(hello + World == helloWorld);
QVERIFY(hello + "World" == helloWorld);
QVERIFY("hello" + World == helloWorld);
QString l;
QVERIFY('h' + ello == hello);
QVERIFY(Wor + 'l' + 'd' == "World");
QVERIFY(hello + World == "helloWorld");
QVERIFY(hello + "World" == "helloWorld");
QVERIFY("hello" + World == "helloWorld");
QVERIFY('h' + ello == "hello");
QVERIFY(Wor + 'l' + 'd' == "World");
QVERIFY("helloWorld" == hello + World);
QVERIFY("helloWorld" == hello + "World");
QVERIFY("helloWorld" == "hello" + World);
QVERIFY("hello" == 'h' + ello);
QVERIFY("World" == Wor + 'l' + 'd');
QVERIFY(hello.contains('e'));
QVERIFY (true == hello.contains('e'));
QVERIFY (hello.contains('e') != false);
QVERIFY(hello.indexOf('e') == 1);
QVERIFY(hello.indexOf('e', -10) == 1);
QVERIFY(hello.indexOf('l') == 2);
QVERIFY(hello.indexOf('l',2) == 2);
QVERIFY(hello.indexOf('l',3) == 3);
QString large = "000 100 200 300 400 500 600 700 800 900";
QVERIFY(large.indexOf("700") == 28);
QVERIFY(large.indexOf("700", 28) == 28);
QVERIFY(large.indexOf("700", 29) == -1);
QVERIFY(large.lastIndexOf("700") == 28);
QVERIFY(large.lastIndexOf("700", 28) == 28);
QVERIFY(large.lastIndexOf("700", 27) == -1);
QVERIFY(large.contains("200"));
QVERIFY(!large.contains("201"));
QVERIFY(large.contains('3'));
QVERIFY(!large.contains('a'));
QVERIFY(large.count("00") == 11);
QVERIFY(large.count('3') == 1);
QVERIFY(large.count('0') == 21);
QVERIFY(large.count("0") == 21);
QVERIFY(large.count("200") == 1);
QVERIFY(large.count("201") == 0);
QVERIFY(hello.left(0) == "");
QVERIFY(!hello.left(0).isNull());
QVERIFY(hello.left(1) == "h");
QVERIFY(hello.left(2) == "he");
QVERIFY(hello.left(200) == "hello");
QVERIFY(hello.left(hello.size()) == hello);
QVERIFY(hello.left(hello.size()+1) == hello);
QVERIFY(hello.right(0) == "");
QVERIFY(!hello.right(0).isNull());
QVERIFY(hello.right(1) == "o");
QVERIFY(hello.right(2) == "lo");
QVERIFY(hello.right(200) == "hello");
QVERIFY(hello.right(hello.size()) == hello);
QVERIFY(hello.right(hello.size()+1) == hello);
QVERIFY(!hello.mid(0, 0).isNull());
QVERIFY(hello.mid(0, 1) == "h");
QVERIFY(hello.mid(0, 2) == "he");
QVERIFY(hello.mid(0, 200) == "hello");
QVERIFY(hello.mid(0) == "hello");
QVERIFY(hello.mid(0, hello.size()) == hello);
QVERIFY(hello.mid(0, hello.size()+1) == hello);
QVERIFY(hello.mid(hello.size()-0) == "");
QVERIFY(hello.mid(hello.size()-0).isEmpty());
QVERIFY(!hello.mid(hello.size()-0).isNull());
QVERIFY(hello.mid(hello.size()-1) == "o");
QVERIFY(hello.mid(hello.size()-2) == "lo");
QVERIFY(hello.mid(hello.size()-200) == "hello");
QString null;
QString nonNull = "";
QVERIFY(null.left(10).isNull());
QVERIFY(null.mid(0).isNull());
QVERIFY(null == QString::null);
QVERIFY(QString::null == null);
QVERIFY(nonNull != QString::null);
QVERIFY(QString::null != nonNull);
QVERIFY(null == nonNull);
QVERIFY(QString::null == QString::null);
QString fill = "123";
fill.fill('a');
QVERIFY(fill == "aaa");
s.clear();
s = hello;
s.append(World);
QVERIFY(s == helloWorld);
s.clear();
s = World;
s.insert(0,hello);
QVERIFY(s == helloWorld);
s = "012345";
s.insert(3, 'E');
QVERIFY(s == "012E345");
s.insert(3, "INSID");
QVERIFY(s == "012INSIDE345");
s = "short";
s.insert(7, 'E');
QVERIFY(s == "short E");
s = "short";
s.insert(7, "END");
QVERIFY(s == "short END");
QVERIFY(QString::fromLatin1("hello") == "hello");
s = "first";
QVERIFY(s.toLatin1() == "first");
s = "second";
QVERIFY(s.toLatin1() == "second");
s.clear();
QVERIFY(s.isNull());
QVERIFY(s.toLatin1().size() == 0);
QVERIFY(s.toLatin1().isEmpty());
QVERIFY(s.toLatin1().isNull());
s = "first-utf8";
QVERIFY(s.toUtf8() == "first-utf8");
s = "second-utf8";
QVERIFY(s.toUtf8() == "second-utf8");
s.clear();
QVERIFY(s.isNull());
QVERIFY(s.toUtf8().size() == 0);
QVERIFY(s.toUtf8().isEmpty());
QVERIFY(s.toUtf8().isNull());
s = "first-utf8";
QVERIFY(s.toUtf8() == "first-utf8");
s = "second-utf8";
QVERIFY(s.toUtf8() == "second-utf8");
s.clear();
QVERIFY(s.isNull());
QVERIFY(s.toUtf8().size() == 0);
QVERIFY(s.toUtf8().isEmpty());
QVERIFY(s.toUtf8().isNull());
s = "first-local8Bit";
QVERIFY(s.toLocal8Bit() == "first-local8Bit");
s = "second-local8Bit";
QVERIFY(s.toLocal8Bit() == "second-local8Bit");
s.clear();
QVERIFY(s.isNull());
QVERIFY(s.toLocal8Bit().size() == 0);
QVERIFY(s.toLocal8Bit().isEmpty());
s = "first-ascii";
QVERIFY(s.toLatin1() == "first-ascii");
s = "second-ascii";
QVERIFY(s.toLatin1() == "second-ascii");
s.clear();
QVERIFY(s.isNull());
QVERIFY(s.toLatin1().size() == 0);
QVERIFY(s.toLatin1().isEmpty());
QVERIFY(s.toLatin1().isNull());
s = "ascii";
s += QChar((uchar) 0xb0);
QVERIFY(s.toUtf8() != s.toLatin1());
QCOMPARE(s[s.length()-1].unicode(), (ushort)0xb0);
QVERIFY(s.left(s.length()-1) == "ascii");
QVERIFY(s == QString::fromUtf8(s.toUtf8().constData()));
s = "12";
s.append('3');
s += '4';
QVERIFY(s == "1234");
s = "repend";
s.prepend('p');
QVERIFY(s == "prepend");
s.prepend("abc ");
QVERIFY(s == "abc prepend");
s = " whitespace ";
QVERIFY(s.trimmed() == "whitespace");
s = " lots of stuff ";
QVERIFY(s.simplified() == "lots of stuff");
s = "a hat, a stick, a ski";
QVERIFY(s[2] == 'h');
QVERIFY(s[1] < 'b');
s = "12223";
s.remove(1, 2);
QVERIFY(s == "123");
s = "(%1)(%2)";
s = s.arg("foo").arg(7);
QVERIFY(s == "(foo)(7)");
#if 0
s = "stl rocks";
std::string stl_string = s;
s = stl_string;
QVERIFY(s == "stl rocks");
#endif
{
QString str("Bananas");
QVERIFY(str.startsWith("Ban"));
QVERIFY(false == str.startsWith("Car"));
}
{
QString str("Bananas");
QVERIFY(str.endsWith("anas"));
QVERIFY(false == str.endsWith("pple"));
}
QString str = "Hello";
QString cstr = QString::fromRawData(str.unicode(), str.length());
QVERIFY(str == "Hello");
QVERIFY(cstr == "Hello");
cstr.clear();
QVERIFY(str == "Hello");
QVERIFY(cstr.isEmpty());
{
QString str1("Foo");
str1.prepend(str1);
QCOMPARE(str1, QString("FooFoo"));
str1.append(str1);
QCOMPARE(str1, QString("FooFooFooFoo"));
str1.insert(2, str1);
QCOMPARE(str1, QString("FoFooFooFooFoooFooFooFoo"));
str1.replace(3, 3, str1);
QCOMPARE(str1, QString("FoFFoFooFooFooFoooFooFooFooooFooFoooFooFooFoo"));
str1 = "FooFoo";
str1.replace(char('F'), str1);
QCOMPARE(str1, QString("FooFooooFooFoooo"));
str1 = "FooFoo";
str1.replace(char('o'), str1);
QCOMPARE(str1, QString("FFooFooFooFooFFooFooFooFoo"));
str1 = "Foo";
str1.replace("Foo", str1);
QCOMPARE(str1, QString("Foo"));
str1.replace(str1, str1);
QCOMPARE(str1, QString("Foo"));
str1 = "Foo";
str1.replace("Foo", str1, Qt::CaseInsensitive);
QCOMPARE(str1, QString("Foo"));
str1.replace(str1, str1);
QCOMPARE(str1, QString("Foo"));
str1 = "FooFoo";
str1.reserve(100);
str1.replace("oo", str1);
QCOMPARE(str1, QString("FFooFooFFooFoo"));
str1 = "Bar";
str1.replace("FooFoo", str1);
QCOMPARE(str1, QString("Bar"));
str1.replace(str1, "xxx");
QCOMPARE(str1, QString("xxx"));
str1.replace(str1, QString("yyy"));
QCOMPARE(str1, QString("yyy"));
str1 += str1;
QCOMPARE(str1, QString("yyyyyy"));
}
}
void tst_Collections::bitArray()
{
QBitArray ba(20);
QVERIFY(ba.testBit(17) == false);
ba.setBit(17);
QVERIFY(ba.size() == 20);
QVERIFY(ba.testBit(17)==true);
QVERIFY(!ba.testBit(16));
ba[4] = true;
QVERIFY(ba.testBit(4));
QVERIFY(ba[4]);
int sum = 0;
for(int i = 0; i < 20; i++)
sum += ba.testBit(i) ? 1 : 0;
QVERIFY(sum == 2);
ba = QBitArray(7, true);
QVERIFY(ba.size() == 7);
QVERIFY(ba[5]);
ba = QBitArray(3);
ba[0] = ba[2] = true;
QBitArray nba(3);
nba[1] = true;
QVERIFY(~ba == nba);
};
struct CacheFoo
{
CacheFoo(int v):val(v) { counter++; }
~CacheFoo() { counter--; }
int val;
static int counter;
bool isDetached() const { return val != 2; }
};
int CacheFoo::counter = 0;
void tst_Collections::cache()
{
{
QCache<int, CacheFoo> cache(120);
int i;
for (i = 0; i < 30; i++) {
cache.object(10);
cache.insert(i, new CacheFoo(i), i);
}
QVERIFY(cache.contains(10));
QVERIFY(!cache.contains(1));
QVERIFY(!cache.contains(2));
delete cache.take(10);
}
{
QCache<int, QString> cache(120);
int i;
QString two;
for (i = 0; i < 30; i++) {
QString s = QString::number(i);
cache.insert(i, new QString(s), i);
if (i == 2)
two = s;
}
QVERIFY(!cache.contains(3));
QVERIFY(!cache.contains(2));
}
{
QCache<int, int> cache(100);
cache.insert(2, new int(2));
*cache[2] = 3;
QVERIFY(*cache.object(2) == 3);
}
QVERIFY(CacheFoo::counter == 0);
}
void tst_Collections::regexp()
{
QRegExp rx("^\\d\\d?$");
QVERIFY(rx.indexIn("123") == -1);
QVERIFY(rx.indexIn("-6") == -1);
QVERIFY(rx.indexIn("6") == 0) ;
}
void tst_Collections::pair()
{
QPair<double, int> p;
QVERIFY(p.first == 0.0);
QVERIFY(p.second == 0);
QPair<int, QString> a(1, "Zebra"), b(2, "Ying"), c(3, "Yang"), d(3, "Ying"), e(5, "Alabama");
QVERIFY(a.first == 1);
QVERIFY(a.second == "Zebra");
QVERIFY(a == qMakePair(1, QString("Zebra")));
QVERIFY(a == a && b == b && c == c && d == d && e == e);
QVERIFY(a != b && a != c && a != d && a != e && b != c && b != d && b != e && c != d && c != e
&& d != e);
QVERIFY(a < b && b < c && c < d && d < e);
QVERIFY(a <= b && b <= c && c <= d && d <= e);
QVERIFY(e > d && d > c && c > b && b > a);
QVERIFY(e >= d && d >= c && c >= b && b >= a);
QVERIFY(!(a > b || b > c || c > d || d > e));
QVERIFY(!(a >= b || b >= c || c >= d || d >= e));
QVERIFY(!(e < d || d < c || c < b || b < a));
QVERIFY(!(e <= d || d <= c || c <= b || b <= a));
QVERIFY(a <= a && b <= b && c <= c && d <= d && e <= e);
QVERIFY(!(a < a || b < b || c < c || d < d || e < e));
QVERIFY(a >= a && b >= b && c >= c && d >= d && e >= e);
QVERIFY(!(a > a || b > b || c > c || d > d || e > e));
}
/*
These test that Java-style mutable iterators don't trash shared
copy (the setSharable() mechanism).
*/
template <class Container>
void populate(Container &);
template <>
void populate(QList<int> &container)
{
container << 1 << 2 << 4 << 8;
}
template <>
void populate(QLinkedList<int> &container)
{
container << 1 << 2 << 4 << 8;
}
template <>
void populate(QVector<int> &container)
{
container << 1 << 2 << 4 << 8;
}
template <>
void populate(QMap<int, int> &container)
{
container.insert(1, 1);
container.insert(2, 2);
container.insert(4, 4);
container.insert(8, 8);
}
template <>
void populate(QHash<int, int> &container)
{
container.insert(1, 1);
container.insert(2, 2);
container.insert(4, 4);
container.insert(8, 8);
}
template <class Container>
bool isSharable(const Container &container)
{
Container copy = container;
return !container.isDetached();
}
template <class Container, class ContainerMutableIterator>
void testContainer()
{
/*
Verify that shared_null's 'sharable' flag is set to true.
*/
{
Container c1;
QVERIFY(!c1.isDetached());
Container c2 = c1;
QVERIFY(!c1.isDetached());
QVERIFY(!c2.isDetached());
}
/*
Verify that the 'sharable' flag is true while no mutable
iterator is active.
*/
{
Container c1;
populate(c1);
QVERIFY(c1.size() == 4);
QVERIFY(c1.isDetached());
Container c2 = c1;
QVERIFY(c1.size() == 4);
QVERIFY(c2.size() == 4);
QVERIFY(!c1.isDetached());
QVERIFY(!c2.isDetached());
}
/*
Verify that the 'sharable' flag is set to false by the
mutable iterator.
*/
{
Container c1;
populate(c1);
QVERIFY(c1.size() == 4);
QVERIFY(c1.isDetached());
ContainerMutableIterator i(c1);
i.next();
Container c2 = c1;
QVERIFY(c1.size() == 4);
QVERIFY(c2.size() == 4);
QVERIFY(c1.isDetached());
QVERIFY(c2.isDetached());
i.remove();
QVERIFY(c1.size() == 3);
QVERIFY(c2.size() == 4);
}
/*
Verify that the 'sharable' flag is reset to true by the
mutable iterator's destructor.
*/
{
Container c1;
populate(c1);
QVERIFY(c1.size() == 4);
QVERIFY(c1.isDetached());
{
ContainerMutableIterator i(c1);
i.next();
}
Container c2 = c1;
QVERIFY(c1.size() == 4);
QVERIFY(c2.size() == 4);
QVERIFY(!c1.isDetached());
QVERIFY(!c2.isDetached());
}
/*
Verify that the 'sharable' flag only affects the original
object, not the copies.
*/
{
Container c1;
populate(c1);
QVERIFY(c1.size() == 4);
QVERIFY(c1.isDetached());
Container c2 = c1;
QVERIFY(isSharable(c2));
ContainerMutableIterator i(c1);
QVERIFY(!isSharable(c1));
QVERIFY(isSharable(c2));
Container c3 = c1;
QVERIFY(!isSharable(c1));
QVERIFY(isSharable(c2));
QVERIFY(isSharable(c3));
QVERIFY(c1.isDetached());
QVERIFY(c2.isDetached());
QVERIFY(c3.isDetached());
Container c4;
c4 = c1;
QVERIFY(!isSharable(c1));
QVERIFY(isSharable(c2));
QVERIFY(isSharable(c4));
QVERIFY(c1.isDetached());
QVERIFY(c2.isDetached());
QVERIFY(c4.isDetached());
c3 = c2;
QVERIFY(!isSharable(c1));
QVERIFY(isSharable(c2));
QVERIFY(isSharable(c3));
QVERIFY(c1.isDetached());
QVERIFY(!c2.isDetached());
QVERIFY(!c3.isDetached());
}
}
#define TEST_SEQUENTIAL_CONTAINER(Container) \
testContainer<Q##Container<int>, QMutable##Container##Iterator<int> >()
#define TEST_ASSOCIATIVE_CONTAINER(Container) \
testContainer<Q##Container<int, int>, QMutable##Container##Iterator<int, int> >()
void tst_Collections::sharableQList()
{
TEST_SEQUENTIAL_CONTAINER(List);
}
void tst_Collections::sharableQLinkedList()
{
TEST_SEQUENTIAL_CONTAINER(LinkedList);
}
void tst_Collections::sharableQVector()
{
TEST_SEQUENTIAL_CONTAINER(Vector);
}
void tst_Collections::sharableQMap()
{
TEST_ASSOCIATIVE_CONTAINER(Map);
}
void tst_Collections::sharableQHash()
{
TEST_ASSOCIATIVE_CONTAINER(Hash);
}
static int getList_calls = 0;
QList<int> getList()
{
++getList_calls;
QList<int> list;
list << 1 << 2 << 3 << 4 << 5 << 6;
return list;
}
void tst_Collections::q_foreach()
{
QList<int> list;
list << -2 << -1 << 0 << 1 << 2;
int sum = 0;
int j = 0;
foreach(int i, list) {
QCOMPARE(i, list.at(j));
sum += i;
++j;
}
QCOMPARE(sum, 0);
// again, but without scope
foreach(int i, list)
sum += i;
QCOMPARE(sum, 0);
foreach(int i, list) {
sum += i;
if (i == 0)
break;
}
QCOMPARE(sum, -3);
sum = 0;
foreach(int i, list) {
if (i < 0)
continue;
sum += i;
}
QCOMPARE(sum, 3);
sum = 0;
getList_calls = 0;
foreach(int i, getList())
sum += i;
QCOMPARE(sum, 21);
QCOMPARE(getList_calls, 1);
}
void tst_Collections::conversions()
{
#define STUFF "A" << "C" << "B" << "A"
{
QList<QString> list1;
list1 << STUFF;
QVector<QString> vect1 = list1.toVector();
QCOMPARE(list1.size(), 4);
QVERIFY(vect1 == (QVector<QString>() << STUFF));
QList<QString> list2 = vect1.toList();
QCOMPARE(list2.size(), 4);
QVERIFY(list2 == (QList<QString>() << STUFF));
QSet<QString> set1 = list1.toSet();
QCOMPARE(set1.size(), 3);
QVERIFY(set1.contains("A"));
QVERIFY(set1.contains("B"));
QVERIFY(set1.contains("C"));
QVERIFY(!set1.contains("D"));
QList<QString> list3 = set1.toList();
QCOMPARE(list3.size(), 3);
QVERIFY(list3.contains("A"));
QVERIFY(list3.contains("B"));
QVERIFY(list3.contains("C"));
QVERIFY(!list3.contains("D"));
QVERIFY(QList<int>().toVector().isEmpty());
QVERIFY(QList<int>().toSet().isEmpty());
QVERIFY(QVector<int>().toList().isEmpty());
QVERIFY(QSet<int>().toList().isEmpty());
}
{
QList<QString> list1;
list1 << STUFF;
QVector<QString> vect1 = QVector<QString>::fromList(list1);
QCOMPARE(list1.size(), 4);
QVERIFY(vect1 == (QVector<QString>() << STUFF));
QList<QString> list2 = QList<QString>::fromVector(vect1);
QCOMPARE(list2.size(), 4);
QVERIFY(list2 == (QList<QString>() << STUFF));
QSet<QString> set1 = QSet<QString>::fromList(list1);
QCOMPARE(set1.size(), 3);
QVERIFY(set1.contains("A"));
QVERIFY(set1.contains("B"));
QVERIFY(set1.contains("C"));
QVERIFY(!set1.contains("D"));
QList<QString> list3 = QList<QString>::fromSet(set1);
QCOMPARE(list3.size(), 3);
QVERIFY(list3.contains("A"));
QVERIFY(list3.contains("B"));
QVERIFY(list3.contains("C"));
QVERIFY(!list3.contains("D"));
QVERIFY(QVector<int>::fromList(QList<int>()).isEmpty());
QVERIFY(QSet<int>::fromList(QList<int>()).isEmpty());
QVERIFY(QList<int>::fromVector(QVector<int>()).isEmpty());
QVERIFY(QList<int>::fromSet(QSet<int>()).isEmpty());
}
#undef STUFF
}
void tst_Collections::javaStyleIterators()
{
QStringList list;
list << "a" << "b" << "c";
QMutableStringListIterator i(list);
while (i.hasNext()) {
i.next();
i.setValue("");
}
while (i.hasPrevious()) {
i.previous();
QVERIFY(i.value().isEmpty());
i.value() = "x";
QCOMPARE(i.value(), QString("x"));
}
}
template <class Container>
void testLinkedListLikeStlIterators()
{
Container fake;
typename Container::value_type t;
fake << t;
typename Container::iterator i1 = fake.begin(), i2 = i1 + 1;
typename Container::const_iterator c1 = i1, c2 = c1 + 1;
QVERIFY(i1 == i1);
QVERIFY(i1 == c1);
QVERIFY(c1 == i1);
QVERIFY(c1 == c1);
QVERIFY(i2 == i2);
QVERIFY(i2 == c2);
QVERIFY(c2 == i2);
QVERIFY(c2 == c2);
QVERIFY(i1 != i2);
QVERIFY(i1 != c2);
QVERIFY(c1 != i2);
QVERIFY(c1 != c2);
QVERIFY(i2 != i1);
QVERIFY(i2 != c1);
QVERIFY(c2 != i1);
QVERIFY(c2 != c1);
}
template <class Container>
void testListLikeStlIterators()
{
testLinkedListLikeStlIterators<Container>();
Container fake;
typename Container::value_type t;
fake << t;
typename Container::iterator i1 = fake.begin(), i2 = i1 + 1;
typename Container::const_iterator c1 = i1, c2 = c1 + 1;
QVERIFY(i1 < i2);
QVERIFY(i1 < c2);
QVERIFY(c1 < i2);
QVERIFY(c1 < c2);
QVERIFY(!(i2 < i1));
QVERIFY(!(i2 < c1));
QVERIFY(!(c2 < i1));
QVERIFY(!(c2 < c1));
QVERIFY(!(i1 < i1));
QVERIFY(!(i1 < c1));
QVERIFY(!(c1 < i1));
QVERIFY(!(c1 < c1));
QVERIFY(!(i2 < i2));
QVERIFY(!(i2 < c2));
QVERIFY(!(c2 < i2));
QVERIFY(!(c2 < c2));
QVERIFY(i2 > i1);
QVERIFY(i2 > c1);
QVERIFY(c2 > i1);
QVERIFY(c2 > c1);
QVERIFY(!(i1 > i2));
QVERIFY(!(i1 > c2));
QVERIFY(!(c1 > i2));
QVERIFY(!(c1 > c2));
QVERIFY(!(i1 > i1));
QVERIFY(!(i1 > c1));
QVERIFY(!(c1 > i1));
QVERIFY(!(c1 > c1));
QVERIFY(!(i2 > i2));
QVERIFY(!(i2 > c2));
QVERIFY(!(c2 > i2));
QVERIFY(!(c2 > c2));
QVERIFY(!(i1 >= i2));
QVERIFY(!(i1 >= c2));
QVERIFY(!(c1 >= i2));
QVERIFY(!(c1 >= c2));
QVERIFY(i2 >= i1);
QVERIFY(i2 >= c1);
QVERIFY(c2 >= i1);
QVERIFY(c2 >= c1);
QVERIFY(i1 >= i1);
QVERIFY(i1 >= c1);
QVERIFY(c1 >= i1);
QVERIFY(c1 >= c1);
QVERIFY(i2 >= i2);
QVERIFY(i2 >= c2);
QVERIFY(c2 >= i2);
QVERIFY(c2 >= c2);
QVERIFY(!(i2 <= i1));
QVERIFY(!(i2 <= c1));
QVERIFY(!(c2 <= i1));
QVERIFY(!(c2 <= c1));
QVERIFY(i1 <= i2);
QVERIFY(i1 <= c2);
QVERIFY(c1 <= i2);
QVERIFY(c1 <= c2);
QVERIFY(i1 <= i1);
QVERIFY(i1 <= c1);
QVERIFY(c1 <= i1);
QVERIFY(c1 <= c1);
QVERIFY(i2 <= i2);
QVERIFY(i2 <= c2);
QVERIFY(c2 <= i2);
QVERIFY(c2 <= c2);
}
template <class Container>
void testMapLikeStlIterators()
{
Container fake;
QString k;
QString t;
fake.insert(k, t);
typename Container::iterator i1 = fake.begin(), i2 = i1 + 1;
typename Container::const_iterator c1 = i1, c2 = c1 + 1;
QVERIFY(i1 == i1);
QVERIFY(i1 == c1);
QVERIFY(c1 == i1);
QVERIFY(c1 == c1);
QVERIFY(i2 == i2);
QVERIFY(i2 == c2);
QVERIFY(c2 == i2);
QVERIFY(c2 == c2);
QVERIFY(i1 != i2);
QVERIFY(i1 != c2);
QVERIFY(c1 != i2);
QVERIFY(c1 != c2);
QVERIFY(i2 != i1);
QVERIFY(i2 != c1);
QVERIFY(c2 != i1);
QVERIFY(c2 != c1);
}
void tst_Collections::constAndNonConstStlIterators()
{
testListLikeStlIterators<QList<int> >();
testListLikeStlIterators<QStringList >();
testLinkedListLikeStlIterators<QLinkedList<int> >();
testListLikeStlIterators<QVector<int> >();
testMapLikeStlIterators<QMap<QString, QString> >();
testMapLikeStlIterators<QMultiMap<QString, QString> >();
testMapLikeStlIterators<QHash<QString, QString> >();
testMapLikeStlIterators<QMultiHash<QString, QString> >();
}
void tst_Collections::vector_stl_data()
{
QTest::addColumn<QStringList>("elements");
QTest::newRow("empty") << QStringList();
QTest::newRow("one") << (QStringList() << "Hei");
QTest::newRow("two") << (QStringList() << "Hei" << "Hopp");
QTest::newRow("three") << (QStringList() << "Hei" << "Hopp" << "Sann");
}
void tst_Collections::vector_stl()
{
QFETCH(QStringList, elements);
QVector<QString> vector;
for (int i = 0; i < elements.count(); ++i)
vector << elements.at(i);
std::vector<QString> stdVector = vector.toStdVector();
QCOMPARE(int(stdVector.size()), elements.size());
std::vector<QString>::const_iterator it = stdVector.begin();
for (uint j = 0; j < stdVector.size() && it != stdVector.end(); ++j, ++it)
QCOMPARE(*it, vector[j]);
QCOMPARE(QVector<QString>::fromStdVector(stdVector), vector);
}
void tst_Collections::linkedlist_stl_data()
{
list_stl_data();
}
void tst_Collections::linkedlist_stl()
{
QFETCH(QStringList, elements);
QLinkedList<QString> list;
for (int i = 0; i < elements.count(); ++i)
list << elements.at(i);
std::list<QString> stdList = list.toStdList();
QCOMPARE(int(stdList.size()), elements.size());
std::list<QString>::const_iterator it = stdList.begin();
QLinkedList<QString>::const_iterator it2 = list.cbegin();
for (uint j = 0; j < stdList.size(); ++j, ++it, ++it2)
QCOMPARE(*it, *it2);
QCOMPARE(QLinkedList<QString>::fromStdList(stdList), list);
}
void tst_Collections::list_stl_data()
{
QTest::addColumn<QStringList>("elements");
QTest::newRow("empty") << QStringList();
QTest::newRow("one") << (QStringList() << "Hei");
QTest::newRow("two") << (QStringList() << "Hei" << "Hopp");
QTest::newRow("three") << (QStringList() << "Hei" << "Hopp" << "Sann");
}
void tst_Collections::list_stl()
{
QFETCH(QStringList, elements);
QList<QString> list;
for (int i = 0; i < elements.count(); ++i)
list << elements.at(i);
std::list<QString> stdList = list.toStdList();
QCOMPARE(int(stdList.size()), elements.size());
std::list<QString>::const_iterator it = stdList.begin();
for (uint j = 0; j < stdList.size() && it != stdList.end(); ++j, ++it)
QCOMPARE(*it, list[j]);
QCOMPARE(QList<QString>::fromStdList(stdList), list);
}
template <typename T>
T qtInit(T * = 0)
{
return T();
}
void tst_Collections::q_init()
{
QCOMPARE(qtInit<int>(), 0);
QCOMPARE(qtInit<double>(), 0.0);
QCOMPARE(qtInit<QString>(), QString());
QCOMPARE(qtInit<int *>(), static_cast<int *>(0));
QCOMPARE(qtInit<double *>(), static_cast<double *>(0));
QCOMPARE(qtInit<QString *>(), static_cast<QString *>(0));
QCOMPARE(qtInit<Pod>().i1, 0);
QCOMPARE(qtInit<Pod>().i2, 0);
}
void tst_Collections::pointersize()
{
QCOMPARE(int(sizeof(void *)), QT_POINTER_SIZE);
}
class LessThanComparable
{
public:
bool operator<(const LessThanComparable &) const { return true; }
};
class EqualsComparable
{
public:
bool operator==(const EqualsComparable &) const { return true; }
};
uint qHash(const EqualsComparable &)
{
return 0;
}
/*
The following functions instatiates every member functions in the
Qt containers that requires either operator== or operator<.
They are ordered in a concept inheritance tree:
Container
MutableIterationContainer
Sequence (QLinkedList)
Random Access (QVector, QList, QQueue, QStack)
Pair Associative (QHash, QMap)
Associative (QSet)
*/
template <typename ContainerType, typename ValueType>
void instantiateContainer()
{
const ValueType value = ValueType();
ContainerType container;
const ContainerType constContainer(container);
typename ContainerType::const_iterator constIt;
constIt = constContainer.begin();
constIt = container.cbegin();
container.constBegin();
constIt = constContainer.end();
constIt = constContainer.cend();
container.constEnd();
Q_UNUSED(constIt)
container.clear();
container.contains(value);
container.count();
container.empty();
container.isEmpty();
container.size();
Q_UNUSED((container != constContainer));
Q_UNUSED((container == constContainer));
container = constContainer;
}
template <typename ContainerType, typename ValueType>
void instantiateMutableIterationContainer()
{
instantiateContainer<ContainerType, ValueType>();
ContainerType container;
typename ContainerType::iterator it;
it = container.begin();
it = container.end();
Q_UNUSED(it)
// QSet lacks count(T).
const ValueType value = ValueType();
container.count(value);
}
template <typename ContainerType, typename ValueType>
void instantiateSequence()
{
instantiateMutableIterationContainer<ContainerType, ValueType>();
// QVector lacks removeAll(T)
// ValueType value = ValueType();
// ContainerType container;
// container.removeAll(value);
}
template <typename ContainerType, typename ValueType>
void instantiateRandomAccess()
{
instantiateSequence<ContainerType, ValueType>();
ValueType value = ValueType();
ContainerType container;
container.indexOf(value);
container.lastIndexOf(value);
}
template <typename ContainerType, typename ValueType>
void instantiateAssociative()
{
instantiateContainer<ContainerType, ValueType>();
const ValueType value = ValueType();
ContainerType container;
const ContainerType constContainer(container);
container.reserve(1);
container.capacity();
container.squeeze();
container.remove(value);
container.values();
container.unite(constContainer);
container.intersect(constContainer);
container.subtract(constContainer);
Q_UNUSED((container != constContainer));
Q_UNUSED((container == constContainer));
container & constContainer;
container &= constContainer;
container &= value;
container + constContainer;
container += constContainer;
container += value;
container - constContainer;
container -= constContainer;
container -= value;
container | constContainer;
container |= constContainer;
container |= value;
}
template <typename ContainerType, typename KeyType, typename ValueType>
void instantiatePairAssociative()
{
instantiateMutableIterationContainer<ContainerType, KeyType>();
typename ContainerType::iterator it;
typename ContainerType::const_iterator constIt;
const KeyType key = KeyType();
const ValueType value = ValueType();
ContainerType container;
const ContainerType constContainer(container);
it = container.insert(key, value);
container.erase(it);
container.find(key);
container.constFind(key);
constContainer.find(key);
container.key(value);
container.keys();
constContainer.keys();
container.remove(key);
container.take(key);
container.unite(constContainer);
container.value(key);
container.value(key, value);
container.values();
container.values(key);
container[key];
const int foo = constContainer[key];
Q_UNUSED(foo);
}
/*
Instantiate all Qt containers using a datatype that
defines the minimum amount of operators.
*/
void tst_Collections::containerInstantiation()
{
// Instantiate QHash member functions.
typedef QHash<EqualsComparable, int> Hash;
instantiatePairAssociative<Hash, EqualsComparable, int>();
Hash hash;
hash.reserve(1);
hash.capacity();
hash.squeeze();
// Instantiate QMap member functions.
typedef QMap<LessThanComparable, int> Map;
instantiatePairAssociative<Map, LessThanComparable, int>();
// Instantiate QSet member functions.
typedef QSet<EqualsComparable> Set;
instantiateAssociative<Set, EqualsComparable>();
//Instantiate QLinkedList member functions.
typedef QLinkedList<EqualsComparable> LinkedList;
instantiateSequence<LinkedList, EqualsComparable> ();
{
EqualsComparable value;
LinkedList list;
list.removeAll(value);
}
//Instantiate QList member functions.
typedef QList<EqualsComparable> List;
instantiateRandomAccess<List, EqualsComparable>();
{
EqualsComparable value;
List list;
list.removeAll(value);
}
//Instantiate QVector member functions.
typedef QVector<EqualsComparable> Vector;
instantiateRandomAccess<Vector, EqualsComparable>();
//Instantiate QQueue member functions.
typedef QQueue<EqualsComparable> Queue;
instantiateRandomAccess<Queue, EqualsComparable>();
//Instantiate QStack member functions.
typedef QStack<EqualsComparable> Stack;
instantiateRandomAccess<Stack, EqualsComparable>();
}
void tst_Collections::qtimerList()
{
QList<double> foo;
const int N = 10000;
foo.append(99.9);
foo.append(99.9);
foo.append(99.9);
for(int i = 0; i < N; i++) {
foo.removeFirst();
foo.insert(1, 99.9);
}
QList<double>::Iterator end = foo.end();
for (int i = 0; i < (N / 2) - 10; ++i) {
foo.prepend(99.9);
if (foo.end() != end)
return;
}
QFAIL("QList preallocates too much memory");
}
template <typename Container>
void testContainerTypedefs(Container container)
{
Q_UNUSED(container)
{ typedef typename Container::value_type Foo; }
{ typedef typename Container::iterator Foo; }
{ typedef typename Container::const_iterator Foo; }
{ typedef typename Container::reference Foo; }
{ typedef typename Container::const_reference Foo; }
{ typedef typename Container::pointer Foo; }
{ typedef typename Container::difference_type Foo; }
{ typedef typename Container::size_type Foo; }
}
template <typename Container>
void testPairAssociativeContainerTypedefs(Container container)
{
Q_UNUSED(container)
// TODO: Not sure how to define value_type for our associative containers
// { typedef typename Container::value_type Foo; }
// { typedef typename Container::const_iterator Foo; }
// { typedef typename Container::reference Foo; }
// { typedef typename Container::const_reference Foo; }
// { typedef typename Container::pointer Foo; }
{ typedef typename Container::difference_type Foo; }
{ typedef typename Container::size_type Foo; }
{ typedef typename Container::iterator Foo; }
{ typedef typename Container::key_type Foo; }
{ typedef typename Container::mapped_type Foo; }
// TODO
// { typedef typename Container::key_compare Foo; }
// { typedef typename Container::value_comare Foo; }
}
template <typename Container>
void testSetContainerTypedefs(Container container)
{
Q_UNUSED(container)
{ typedef typename Container::iterator Foo; }
{ typedef typename Container::const_iterator Foo; }
{ typedef typename Container::reference Foo; }
{ typedef typename Container::const_reference Foo; }
{ typedef typename Container::pointer Foo; }
{ typedef typename Container::difference_type Foo; }
{ typedef typename Container::size_type Foo; }
{ typedef typename Container::key_type Foo; }
}
/*
Compile-time test that verifies that the Qt containers
have STL-compatable typedefs.
*/
void tst_Collections::containerTypedefs()
{
testContainerTypedefs(QVector<int>());
testContainerTypedefs(QStack<int>());
testContainerTypedefs(QList<int>());
testContainerTypedefs(QLinkedList<int>());
testContainerTypedefs(QQueue<int>());
testPairAssociativeContainerTypedefs(QMap<int, int>());
testPairAssociativeContainerTypedefs(QMultiMap<int, int>());
testPairAssociativeContainerTypedefs(QHash<int, int>());
testSetContainerTypedefs(QSet<int>());
}
class Key1;
class T1;
class T2;
void tst_Collections::forwardDeclared()
{
{ typedef QHash<Key1, T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QMultiHash<Key1, T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QMap<Key1, T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QMultiMap<Key1, T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QPair<T1, T2> C; C *x = 0; Q_UNUSED(x) }
{ typedef QList<T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QLinkedList<T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QVector<T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) Q_UNUSED(i) Q_UNUSED(j) }
{ typedef QStack<T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) Q_UNUSED(i) Q_UNUSED(j) }
{ typedef QQueue<T1> C; C *x = 0; C::iterator i; C::const_iterator j; Q_UNUSED(x) }
{ typedef QSet<T1> C; C *x = 0; /* C::iterator i; */ C::const_iterator j; Q_UNUSED(x) }
}
#if defined(Q_ALIGNOF) && defined(Q_DECL_ALIGN)
class Q_DECL_ALIGN(4) Aligned4
{
char i;
public:
Aligned4(int i = 0) : i(i) {}
enum { PreferredAlignment = 4 };
inline bool operator==(const Aligned4 &other) const { return i == other.i; }
inline bool operator<(const Aligned4 &other) const { return i < other.i; }
friend inline int qHash(const Aligned4 &a) { return qHash(a.i); }
};
Q_STATIC_ASSERT(Q_ALIGNOF(Aligned4) % 4 == 0);
class Q_DECL_ALIGN(128) Aligned128
{
char i;
public:
Aligned128(int i = 0) : i(i) {}
enum { PreferredAlignment = 128 };
inline bool operator==(const Aligned128 &other) const { return i == other.i; }
inline bool operator<(const Aligned128 &other) const { return i < other.i; }
friend inline int qHash(const Aligned128 &a) { return qHash(a.i); }
};
Q_STATIC_ASSERT(Q_ALIGNOF(Aligned128) % 128 == 0);
template<typename C>
void testVectorAlignment()
{
typedef typename C::value_type Aligned;
C container;
container.append(Aligned());
QCOMPARE(quintptr(&container[0]) % Aligned::PreferredAlignment, quintptr(0));
for (int i = 0; i < 200; ++i)
container.append(Aligned());
for (int i = 0; i < container.size(); ++i)
QCOMPARE(quintptr(&container.at(i)) % Aligned::PreferredAlignment, quintptr(0));
}
template<typename C>
void testContiguousCacheAlignment()
{
typedef typename C::value_type Aligned;
C container(150);
container.append(Aligned());
QCOMPARE(quintptr(&container[container.firstIndex()]) % Aligned::PreferredAlignment, quintptr(0));
for (int i = 0; i < 200; ++i)
container.append(Aligned());
for (int i = container.firstIndex(); i < container.lastIndex(); ++i)
QCOMPARE(quintptr(&container.at(i)) % Aligned::PreferredAlignment, quintptr(0));
}
template<typename C>
void testAssociativeContainerAlignment()
{
typedef typename C::key_type Key;
typedef typename C::mapped_type Value;
C container;
container.insert(Key(), Value());
typename C::const_iterator it = container.constBegin();
QCOMPARE(quintptr(&it.key()) % Key::PreferredAlignment, quintptr(0));
QCOMPARE(quintptr(&it.value()) % Value::PreferredAlignment, quintptr(0));
// add some more elements
for (int i = 0; i < 200; ++i)
container.insert(Key(i), Value(i));
it = container.constBegin();
for ( ; it != container.constEnd(); ++it) {
QCOMPARE(quintptr(&it.key()) % Key::PreferredAlignment, quintptr(0));
QCOMPARE(quintptr(&it.value()) % Value::PreferredAlignment, quintptr(0));
}
}
void tst_Collections::alignment()
{
testVectorAlignment<QVector<Aligned4> >();
testVectorAlignment<QVector<Aligned128> >();
testContiguousCacheAlignment<QContiguousCache<Aligned4> >();
testContiguousCacheAlignment<QContiguousCache<Aligned128> >();
testAssociativeContainerAlignment<QMap<Aligned4, Aligned4> >();
testAssociativeContainerAlignment<QMap<Aligned4, Aligned128> >();
testAssociativeContainerAlignment<QMap<Aligned128, Aligned4> >();
testAssociativeContainerAlignment<QMap<Aligned128, Aligned128> >();
testAssociativeContainerAlignment<QHash<Aligned4, Aligned4> >();
testAssociativeContainerAlignment<QHash<Aligned4, Aligned128> >();
testAssociativeContainerAlignment<QHash<Aligned128, Aligned4> >();
testAssociativeContainerAlignment<QHash<Aligned128, Aligned128> >();
}
#else
void tst_Collections::alignment()
{
QSKIP("Compiler doesn't support necessary extension keywords");
}
#endif
#ifndef QT_NO_TEMPLATE_TEMPLATE_PARAMETERS
template<template<class> class C>
struct QTBUG13079_Node {
C<QTBUG13079_Node> children;
QString s;
~QTBUG13079_Node() {
children.begin(); //play with memory
}
};
template<template<class> class C> void QTBUG13079_collectionInsideCollectionImpl()
{
C<QTBUG13079_Node<C> > nodeList;
nodeList << QTBUG13079_Node<C>();
nodeList.first().s = "parent";
nodeList.first().children << QTBUG13079_Node<C>();
nodeList.first().children.first().s = "child";
nodeList = nodeList.first().children;
QCOMPARE(nodeList.first().s, QString::fromLatin1("child"));
nodeList = nodeList.first().children;
QCOMPARE(nodeList.count(), 0);
nodeList << QTBUG13079_Node<C>();
}
template<template<class, class> class C>
struct QTBUG13079_NodeAssoc {
C<int, QTBUG13079_NodeAssoc> children;
QString s;
~QTBUG13079_NodeAssoc() {
children.begin(); //play with memory
}
};
template<template<class, class> class C> void QTBUG13079_collectionInsideCollectionAssocImpl()
{
C<int, QTBUG13079_NodeAssoc<C> > nodeMap;
nodeMap[18] = QTBUG13079_NodeAssoc<C>();
nodeMap[18].s = "parent";
nodeMap[18].children[12] = QTBUG13079_NodeAssoc<C>();
nodeMap[18].children[12].s = "child";
nodeMap = nodeMap[18].children;
QCOMPARE(nodeMap[12].s, QString::fromLatin1("child"));
nodeMap = nodeMap[12].children;
QCOMPARE(nodeMap.count(), 0);
nodeMap[42] = QTBUG13079_NodeAssoc<C>();
}
quint32 qHash(const QTBUG13079_Node<QSet> &)
{
return 0;
}
bool operator==(const QTBUG13079_Node<QSet> &a, const QTBUG13079_Node<QSet> &b)
{
return a.s == b.s && a.children == b.children;
}
template<template<class> class C>
struct QTBUG13079_NodePtr : QSharedData {
C<QTBUG13079_NodePtr> child;
QTBUG13079_NodePtr *next;
QString s;
QTBUG13079_NodePtr() : next(0) {}
~QTBUG13079_NodePtr() {
next = child.data(); //play with memory
}
};
template<template<class> class C> void QTBUG13079_collectionInsidePtrImpl()
{
typedef C<QTBUG13079_NodePtr<C> > Ptr;
{
Ptr nodePtr;
nodePtr = Ptr(new QTBUG13079_NodePtr<C>());
nodePtr->s = "parent";
nodePtr->child = Ptr(new QTBUG13079_NodePtr<C>());
nodePtr->child->s = "child";
nodePtr = nodePtr->child;
QCOMPARE(nodePtr->s, QString::fromLatin1("child"));
nodePtr = nodePtr->child;
QVERIFY(!nodePtr);
}
{
Ptr nodePtr;
nodePtr = Ptr(new QTBUG13079_NodePtr<C>());
nodePtr->s = "parent";
nodePtr->next = new QTBUG13079_NodePtr<C>();
nodePtr->next->s = "next";
nodePtr = Ptr(nodePtr->next);
QCOMPARE(nodePtr->s, QString::fromLatin1("next"));
nodePtr = Ptr(nodePtr->next);
QVERIFY(!nodePtr);
}
}
#endif
void tst_Collections::QTBUG13079_collectionInsideCollection()
{
#ifndef QT_NO_TEMPLATE_TEMPLATE_PARAMETERS
QTBUG13079_collectionInsideCollectionImpl<QVector>();
QTBUG13079_collectionInsideCollectionImpl<QStack>();
QTBUG13079_collectionInsideCollectionImpl<QList>();
QTBUG13079_collectionInsideCollectionImpl<QLinkedList>();
QTBUG13079_collectionInsideCollectionImpl<QQueue>();
{
QSet<QTBUG13079_Node<QSet> > nodeSet;
nodeSet << QTBUG13079_Node<QSet>();
nodeSet = nodeSet.begin()->children;
QCOMPARE(nodeSet.count(), 0);
}
QTBUG13079_collectionInsideCollectionAssocImpl<QMap>();
QTBUG13079_collectionInsideCollectionAssocImpl<QHash>();
QTBUG13079_collectionInsidePtrImpl<QSharedPointer>();
QTBUG13079_collectionInsidePtrImpl<QExplicitlySharedDataPointer>();
QTBUG13079_collectionInsidePtrImpl<QSharedDataPointer>();
#endif
}
template<class Container> void foreach_test_arrays(const Container &container)
{
typedef typename Container::value_type T;
int i = 0;
QSet <T> set;
foreach(const T & val, container) {
QVERIFY( val == container[i] );
set << val;
i++;
}
QCOMPARE(set.count(), container.count());
//modify the container while iterating.
Container c2 = container;
Container c3;
i = 0;
foreach (T val, c2) {
c3 << val;
c2.insert((i * 89) % c2.size(), T() );
QVERIFY( val == container.at(i) );
val = T();
i++;
}
QVERIFY(c3 == container);
}
void tst_Collections::foreach_2()
{
QStringList strlist = QString::fromLatin1("a,b,c,d,e,f,g,h,ih,kl,mn,op,qr,st,uvw,xyz").split(",");
foreach_test_arrays(strlist);
foreach_test_arrays(QList<QString>(strlist));
foreach_test_arrays(strlist.toVector());
QList<int> intlist;
intlist << 1 << 2 << 3 << 4 <<5 << 6 << 7 << 8 << 9;
foreach_test_arrays(intlist);
foreach_test_arrays(intlist.toVector());
QVarLengthArray<int> varl1;
QVarLengthArray<int, 3> varl2;
QVarLengthArray<int, 10> varl3;
foreach(int i, intlist) {
varl1 << i;
varl2 << i;
varl3 << i;
}
QCOMPARE(varl1.count(), intlist.count());
QCOMPARE(varl2.count(), intlist.count());
QCOMPARE(varl3.count(), intlist.count());
foreach_test_arrays(varl1);
foreach_test_arrays(varl2);
foreach_test_arrays(varl3);
QVarLengthArray<QString> varl4;
QVarLengthArray<QString, 3> varl5;
QVarLengthArray<QString, 18> varl6;
foreach(const QString &str, strlist) {
varl4 << str;
varl5 << str;
varl6 << str;
}
QCOMPARE(varl4.count(), strlist.count());
QCOMPARE(varl5.count(), strlist.count());
QCOMPARE(varl6.count(), strlist.count());
foreach_test_arrays(varl4);
foreach_test_arrays(varl5);
foreach_test_arrays(varl6);
}
struct IntOrString
{
int val;
IntOrString(int v) : val(v) { }
IntOrString(const QString &v) : val(v.toInt()) { }
operator int() { return val; }
operator QString() { return QString::number(val); }
operator std::string() { return QString::number(val).toStdString(); }
IntOrString(const std::string &v) : val(QString::fromStdString(v).toInt()) { }
};
template<class Container> void insert_remove_loop_impl()
{
typedef typename Container::value_type T;
Container t;
t.append(T(IntOrString(1)));
t << (T(IntOrString(2)));
t += (T(IntOrString(3)));
t.prepend(T(IntOrString(4)));
t.insert(2, 3 , T(IntOrString(5)));
t.insert(4, T(IntOrString(6)));
t.insert(t.begin() + 2, T(IntOrString(7)));
t.insert(t.begin() + 5, 3, T(IntOrString(8)));
int expect1[] = { 4 , 1 , 7, 5 , 5 , 8, 8, 8, 6, 5, 2 , 3 };
QCOMPARE(size_t(t.count()), sizeof(expect1)/sizeof(int));
for (int i = 0; i < t.count(); i++) {
QCOMPARE(t[i], T(IntOrString(expect1[i])));
}
Container compare_test1 = t;
t.replace(5, T(IntOrString(9)));
Container compare_test2 = t;
QVERIFY(!(compare_test1 == t));
QVERIFY( (compare_test1 != t));
QVERIFY( (compare_test2 == t));
QVERIFY(!(compare_test2 != t));
t.remove(7);
t.remove(2, 3);
int expect2[] = { 4 , 1 , 9, 8, 6, 5, 2 , 3 };
QCOMPARE(size_t(t.count()), sizeof(expect2)/sizeof(int));
for (int i = 0; i < t.count(); i++) {
QCOMPARE(t[i], T(IntOrString(expect2[i])));
}
for (typename Container::iterator it = t.begin(); it != t.end(); ) {
if ( int(IntOrString(*it)) % 2 )
++it;
else
it = t.erase(it);
}
int expect3[] = { 1 , 9, 5, 3 };
QCOMPARE(size_t(t.count()), sizeof(expect3)/sizeof(int));
for (int i = 0; i < t.count(); i++) {
QCOMPARE(t[i], T(IntOrString(expect3[i])));
}
t.erase(t.begin() + 1, t.end() - 1);
int expect4[] = { 1 , 3 };
QCOMPARE(size_t(t.count()), sizeof(expect4)/sizeof(int));
for (int i = 0; i < t.count(); i++) {
QCOMPARE(t[i], T(IntOrString(expect4[i])));
}
t << T(IntOrString(10)) << T(IntOrString(11)) << T(IntOrString(12)) << T(IntOrString(13));
t << T(IntOrString(14)) << T(IntOrString(15)) << T(IntOrString(16)) << T(IntOrString(17));
t << T(IntOrString(18)) << T(IntOrString(19)) << T(IntOrString(20)) << T(IntOrString(21));
for (typename Container::iterator it = t.begin(); it != t.end(); ++it) {
int iv = int(IntOrString(*it));
if ( iv % 2 ) {
it = t.insert(it, T(IntOrString(iv * iv)));
it = t.insert(it + 2, T(IntOrString(iv * iv + 1)));
}
}
int expect5[] = { 1, 1, 2, 3*3, 3, 3*3+1, 10, 11*11, 11, 11*11+1, 12 , 13*13, 13, 13*13+1, 14,
15*15, 15, 15*15+1, 16 , 17*17, 17, 17*17+1 ,18 , 19*19, 19, 19*19+1, 20, 21*21, 21, 21*21+1 };
QCOMPARE(size_t(t.count()), sizeof(expect5)/sizeof(int));
for (int i = 0; i < t.count(); i++) {
QCOMPARE(t[i], T(IntOrString(expect5[i])));
}
}
//Add insert(int, int, T) so it has the same interface as QVector and QVarLengthArray for the test.
template<typename T>
struct ExtList : QList<T> {
using QList<T>::insert;
void insert(int before, int n, const T&x) {
while (n--) {
this->insert(before, x );
}
}
void insert(typename QList<T>::iterator before, int n, const T&x) {
while (n--) {
before = this->insert(before, x);
}
}
void remove(int i) {
this->removeAt(i);
}
void remove(int i, int n) {
while (n--) {
this->removeAt(i);
}
}
};
void tst_Collections::insert_remove_loop()
{
insert_remove_loop_impl<ExtList<int> >();
insert_remove_loop_impl<ExtList<QString> >();
insert_remove_loop_impl<QVector<int> >();
insert_remove_loop_impl<QVector<QString> >();
insert_remove_loop_impl<QVarLengthArray<int> >();
insert_remove_loop_impl<QVarLengthArray<QString> >();
insert_remove_loop_impl<QVarLengthArray<int, 10> >();
insert_remove_loop_impl<QVarLengthArray<QString, 10> >();
insert_remove_loop_impl<QVarLengthArray<int, 3> >();
insert_remove_loop_impl<QVarLengthArray<QString, 3> >();
insert_remove_loop_impl<QVarLengthArray<int, 15> >();
insert_remove_loop_impl<QVarLengthArray<QString, 15> >();
insert_remove_loop_impl<ExtList<std::string> >();
insert_remove_loop_impl<QVector<std::string> >();
insert_remove_loop_impl<QVarLengthArray<std::string> >();
insert_remove_loop_impl<QVarLengthArray<std::string, 10> >();
insert_remove_loop_impl<QVarLengthArray<std::string, 3> >();
insert_remove_loop_impl<QVarLengthArray<std::string, 15> >();
}
QTEST_APPLESS_MAIN(tst_Collections)
#include "tst_collections.moc"