qt-everywhere-src-5.15.1/qtbase/tests/auto/corelib/tools/qcache/tst_qcache.cpp - orbit - Git at Google

 /****************************************************************************
 **
 ** Copyright (C) 2016 The Qt Company Ltd.
 ** Contact: https://www.qt.io/licensing/
 **
 ** This file is part of the test suite of the Qt Toolkit.
 **
 ** $QT_BEGIN_LICENSE:GPL-EXCEPT$
 ** Commercial License Usage
 ** Licensees holding valid commercial Qt licenses may use this file in
 ** accordance with the commercial license agreement provided with the
 ** Software or, alternatively, in accordance with the terms contained in
 ** a written agreement between you and The Qt Company. For licensing terms
 ** and conditions see https://www.qt.io/terms-conditions. For further
 ** information use the contact form at https://www.qt.io/contact-us.
 **
 ** GNU General Public License Usage
 ** Alternatively, this file may be used under the terms of the GNU
 ** General Public License version 3 as published by the Free Software
 ** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
 ** included in the packaging of this file. Please review the following
 ** information to ensure the GNU General Public License requirements will
 ** be met: https://www.gnu.org/licenses/gpl-3.0.html.
 **
 ** $QT_END_LICENSE$
 **
 ****************************************************************************/

 #include <QtTest/QtTest>

 #include <qcache.h>

 class tst_QCache : public QObject
 {
     Q_OBJECT
 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;

 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<QString, int> 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<int, Foo> 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<QString, int> 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<QString, Foo> 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<QString, Foo> 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<int, int> 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<int, int> 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<QString, Foo> 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<QString, Foo> 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<KeyType, ValueType> 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<int, int>) == sizeof(void *));
 }

 QTEST_APPLESS_MAIN(tst_QCache)
 #include "tst_qcache.moc"
	/****************************************************************************
	**
	** Copyright (C) 2016 The Qt Company Ltd.
	** Contact: https://www.qt.io/licensing/
	**
	** This file is part of the test suite of the Qt Toolkit.
	**
	** $QT_BEGIN_LICENSE:GPL-EXCEPT$
	** Commercial License Usage
	** Licensees holding valid commercial Qt licenses may use this file in
	** accordance with the commercial license agreement provided with the
	** Software or, alternatively, in accordance with the terms contained in
	** a written agreement between you and The Qt Company. For licensing terms
	** and conditions see https://www.qt.io/terms-conditions. For further
	** information use the contact form at https://www.qt.io/contact-us.
	**
	** GNU General Public License Usage
	** Alternatively, this file may be used under the terms of the GNU
	** General Public License version 3 as published by the Free Software
	** Foundation with exceptions as appearing in the file LICENSE.GPL3-EXCEPT
	** included in the packaging of this file. Please review the following
	** information to ensure the GNU General Public License requirements will
	** be met: https://www.gnu.org/licenses/gpl-3.0.html.
	**
	** $QT_END_LICENSE$
	**
	****************************************************************************/

	#include <QtTest/QtTest>

	#include <qcache.h>

	class tst_QCache : public QObject
	{
	Q_OBJECT
	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;

	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<QString, int> 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<int, Foo> 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<QString, int> 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<QString, Foo> 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<QString, Foo> 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<int, int> 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<int, int> 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<QString, Foo> 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<QString, Foo> 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<KeyType, ValueType> 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<int, int>) == sizeof(void *));
	}

	QTEST_APPLESS_MAIN(tst_QCache)
	#include "tst_qcache.moc"