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These rights are described in the Digia 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. ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include //TESTED_CLASS= //TESTED_FILES= class tst_QCache : public QObject { Q_OBJECT public: tst_QCache(); virtual ~tst_QCache(); public slots: void initTestCase(); void cleanupTestCase(); private slots: void maxCost(); void setMaxCost(); void totalCost(); void clear(); void insert(); void contains(); void operator_bracket_bracket(); void remove(); void take(); void axioms_on_key_type(); }; struct Foo { static int count; Foo():c(count) { ++count; } Foo(const Foo& o):c(o.c) { ++count; } ~Foo() { --count; } int c; int data[8]; }; int Foo::count = 0; tst_QCache::tst_QCache() { } tst_QCache::~tst_QCache() { } void tst_QCache::initTestCase() { Foo::count = 0; } void tst_QCache::cleanupTestCase() { // always check for memory leaks QCOMPARE(Foo::count, 0); } void tst_QCache::maxCost() { QCache cache1, cache2(100), cache3(200), cache4(-50); QCOMPARE(cache1.maxCost(), 100); QCOMPARE(cache2.maxCost(), 100); QCOMPARE(cache3.maxCost(), 200); QCOMPARE(cache4.maxCost(), -50); // 0 would also make sense cache1.setMaxCost(101); QCOMPARE(cache1.maxCost(), 101); cache1.insert("one", new int(1), 1); cache1.insert("two", new int(2), 1); QCOMPARE(cache1.totalCost(), 2); QCOMPARE(cache1.size(), 2); QCOMPARE(cache1.maxCost(), 101); cache1.insert("three", new int(3), 98); QCOMPARE(cache1.totalCost(), 100); QCOMPARE(cache1.size(), 3); QCOMPARE(cache1.maxCost(), 101); cache1.insert("four", new int(4), 1); QCOMPARE(cache1.totalCost(), 101); QCOMPARE(cache1.size(), 4); QCOMPARE(cache1.maxCost(), 101); cache1.insert("five", new int(4), 1); QVERIFY(cache1.totalCost() <= 101); QVERIFY(cache1.size() == 4); QCOMPARE(cache1.maxCost(), 101); cache1.setMaxCost(-1); QCOMPARE(cache1.totalCost(), 0); QCOMPARE(cache1.maxCost(), -1); cache2.setMaxCost(202); QCOMPARE(cache2.maxCost(), 202); cache3.setMaxCost(-50); QCOMPARE(cache3.maxCost(), -50); } void tst_QCache::setMaxCost() { QCache cache; cache.setMaxCost(2); cache.insert(1, new Foo); cache.insert(2, new Foo); QCOMPARE(cache.totalCost(), 2); QCOMPARE(Foo::count, 2); cache.insert(3, new Foo); QCOMPARE(cache.totalCost(), 2); QCOMPARE(Foo::count, 2); cache.setMaxCost(3); QCOMPARE(cache.totalCost(), 2); QCOMPARE(Foo::count, 2); cache.setMaxCost(2); QCOMPARE(cache.totalCost(), 2); QCOMPARE(Foo::count, 2); cache.setMaxCost(1); QCOMPARE(cache.totalCost(), 1); QCOMPARE(Foo::count, 1); cache.setMaxCost(0); QCOMPARE(cache.totalCost(), 0); QCOMPARE(Foo::count, 0); cache.setMaxCost(-1); QCOMPARE(cache.totalCost(), 0); QCOMPARE(Foo::count, 0); } void tst_QCache::totalCost() { QCache cache; QCOMPARE(cache.totalCost(), 0); cache.insert("one", new int(1), 0); QCOMPARE(cache.totalCost(), 0); cache.insert("two", new int(2), 1); QCOMPARE(cache.totalCost(), 1); cache.insert("three", new int(3), 2); QCOMPARE(cache.totalCost(), 3); cache.insert("four", new int(4), 10000); QCOMPARE(cache.totalCost(), 3); QVERIFY(!cache.contains("four")); cache.insert("five", new int(5), -5); QCOMPARE(cache.totalCost(), -2); cache.insert("six", new int(6), 101); QCOMPARE(cache.totalCost(), -2); cache.insert("seven", new int(7), 100); QCOMPARE(cache.totalCost(), 98); QCOMPARE(cache.size(), 5); cache.insert("eight", new int(8), 2); QCOMPARE(cache.totalCost(), 100); QCOMPARE(cache.size(), 6); } void tst_QCache::clear() { { QCache cache(200); QCOMPARE(cache.totalCost(), 0); for (int i = -3; i < 9; ++i) cache.insert(QString::number(i), new Foo, i); QCOMPARE(cache.totalCost(), 30); QCOMPARE(cache.size(), 12); QVERIFY(!cache.isEmpty()); cache.setMaxCost(300); for (int j = 0; j < 3; ++j) { cache.clear(); QCOMPARE(cache.totalCost(), 0); QCOMPARE(cache.size(), 0); QVERIFY(cache.isEmpty()); QCOMPARE(Foo::count, 0); QCOMPARE(cache.maxCost(), 300); } cache.insert("10", new Foo, 10); QCOMPARE(cache.size(), 1); cache.setMaxCost(9); QCOMPARE(cache.size(), 0); cache.insert("11", new Foo, 9); QCOMPARE(cache.size(), 1); QCOMPARE(Foo::count, 1); } QCOMPARE(Foo::count, 0); } void tst_QCache::insert() { QCache cache; Foo *f1 = new Foo; cache.insert("one", f1, 1); QVERIFY(cache.contains("one")); Foo *f2 = new Foo; cache.insert("two", f2, 2); QVERIFY(cache.contains("two")); QCOMPARE(cache.size(), 2); Foo *f3 = new Foo; cache.insert("two", f3, 2); QVERIFY(cache.contains("two")); QCOMPARE(cache.size(), 2); QVERIFY(cache["two"] == f3); QCOMPARE(Foo::count, 2); /* If the new item is too big, any item with the same name in the cache must still be removed, otherwise the application might get bad results. */ Foo *f4 = new Foo; cache.insert("two", f4, 10000); QVERIFY(!cache.contains("two")); QCOMPARE(cache.size(), 1); QCOMPARE(Foo::count, 1); } void tst_QCache::contains() { QCache cache; QVERIFY(!cache.contains(0)); QVERIFY(!cache.contains(1)); cache.insert(1, new int(1), 1); QVERIFY(!cache.contains(0)); QVERIFY(cache.contains(1)); cache.remove(0); cache.remove(1); QVERIFY(!cache.contains(0)); QVERIFY(!cache.contains(1)); cache.insert(1, new int(1), 1); QVERIFY(!cache.contains(0)); QVERIFY(cache.contains(1)); cache.clear(); QVERIFY(!cache.contains(0)); QVERIFY(!cache.contains(1)); } void tst_QCache::operator_bracket_bracket() { QCache cache; cache.insert(1, new int(2)); QVERIFY(cache[0] == 0); QVERIFY(cache[1] != 0); QCOMPARE(*cache[1], 2); cache.insert(1, new int(4)); QVERIFY(cache[1] != 0); QCOMPARE(*cache[1], 4); // check that operator[] doesn't remove the item QVERIFY(cache[1] != 0); QCOMPARE(*cache[1], 4); cache.remove(1); QVERIFY(cache[1] == 0); } void tst_QCache::remove() { QCache cache; cache.remove(QString()); cache.remove("alpha"); QVERIFY(cache.isEmpty()); cache.insert("alpha", new Foo, 10); QCOMPARE(cache.size(), 1); cache.insert("beta", new Foo, 20); QCOMPARE(cache.size(), 2); for (int i = 0; i < 10; ++i) { cache.remove("alpha"); QCOMPARE(cache.size(), 1); QCOMPARE(cache.totalCost(), 20); } cache.setMaxCost(1); QCOMPARE(cache.size(), 0); cache.remove("beta"); QCOMPARE(cache.size(), 0); } void tst_QCache::take() { QCache cache; QCOMPARE(cache.take(QString()), (Foo*)0); QCOMPARE(cache.take("alpha"), (Foo*)0); QVERIFY(cache.isEmpty()); Foo *f1 = new Foo; cache.insert("alpha", f1, 10); QCOMPARE(cache.size(), 1); QVERIFY(cache["alpha"] == f1); cache.insert("beta", new Foo, 20); QCOMPARE(cache.size(), 2); QCOMPARE(cache.take("alpha"), f1); QCOMPARE(cache.size(), 1); QCOMPARE(cache.totalCost(), 20); QCOMPARE(Foo::count, 2); delete f1; QCOMPARE(Foo::count, 1); QCOMPARE(cache.take("alpha"), (Foo*)0); QCOMPARE(Foo::count, 1); QCOMPARE(cache.size(), 1); QCOMPARE(cache.totalCost(), 20); cache.setMaxCost(1); QCOMPARE(cache.size(), 0); QCOMPARE(cache.take("beta"), (Foo*)0); QCOMPARE(cache.size(), 0); } struct KeyType { int foo; KeyType(int x) : foo(x) {} private: KeyType &operator=(const KeyType &); }; struct ValueType { int foo; ValueType(int x) : foo(x) {} private: ValueType(const ValueType &); ValueType &operator=(const ValueType &); }; bool operator==(const KeyType &key1, const KeyType &key2) { return key1.foo == key2.foo; } uint qHash(const KeyType &key) { return qHash(key.foo); } void tst_QCache::axioms_on_key_type() { QCache foo; foo.setMaxCost(1); foo.clear(); foo.insert(KeyType(123), new ValueType(123)); foo.object(KeyType(123)); foo.contains(KeyType(456)); foo[KeyType(456)]; foo.remove(KeyType(456)); foo.remove(KeyType(123)); foo.take(KeyType(789)); // If this fails, contact the maintaner QVERIFY(sizeof(QHash) == sizeof(void *)); } QTEST_APPLESS_MAIN(tst_QCache) #include "tst_qcache.moc"