// Copyright (C) 2016 The Qt Company Ltd. // SPDX-License-Identifier: LicenseRef-Qt-Commercial OR GPL-3.0-only WITH Qt-GPL-exception-1.0 #include #include #include "private/qpixmapcache_p.h" QT_BEGIN_NAMESPACE // The test requires QT_BUILD_INTERNAL Q_AUTOTEST_EXPORT void qt_qpixmapcache_flush_detached_pixmaps(); Q_AUTOTEST_EXPORT int qt_qpixmapcache_qpixmapcache_total_used(); Q_AUTOTEST_EXPORT int q_QPixmapCache_keyHashSize(); QT_END_NAMESPACE class tst_QPixmapCache : public QObject { Q_OBJECT public: tst_QPixmapCache(); virtual ~tst_QPixmapCache(); public slots: void init(); private slots: void cacheLimit(); void setCacheLimit(); void find(); void insert(); void replace(); void remove(); void clear(); void pixmapKey(); void noLeak(); void strictCacheLimit(); void noCrashOnLargeInsert(); }; static QPixmapCache::KeyData* getPrivate(QPixmapCache::Key &key) { return (*reinterpret_cast(&key)); } static QPixmapCache::KeyData** getPrivateRef(QPixmapCache::Key &key) { return (reinterpret_cast(&key)); } static int originalCacheLimit; tst_QPixmapCache::tst_QPixmapCache() { originalCacheLimit = QPixmapCache::cacheLimit(); } tst_QPixmapCache::~tst_QPixmapCache() { } void tst_QPixmapCache::init() { QPixmapCache::setCacheLimit(originalCacheLimit); QPixmapCache::clear(); } void tst_QPixmapCache::cacheLimit() { // make sure the default is reasonable; // it was between 2048 and 10240 last time I looked at it QVERIFY(originalCacheLimit >= 1024 && originalCacheLimit <= 20480); QPixmapCache::setCacheLimit(std::numeric_limits::max()); QCOMPARE(QPixmapCache::cacheLimit(), std::numeric_limits::max()); QPixmapCache::setCacheLimit(100); QCOMPARE(QPixmapCache::cacheLimit(), 100); QPixmapCache::setCacheLimit(-50); QCOMPARE(QPixmapCache::cacheLimit(), -50); } void tst_QPixmapCache::setCacheLimit() { QPixmap res; QPixmap *p1 = new QPixmap(2, 3); QPixmapCache::insert("P1", *p1); QVERIFY(QPixmapCache::find("P1", &res)); delete p1; QPixmapCache::setCacheLimit(0); QVERIFY(!QPixmapCache::find("P1", &res)); p1 = new QPixmap(2, 3); QPixmapCache::setCacheLimit(1000); QPixmapCache::insert("P1", *p1); QVERIFY(QPixmapCache::find("P1", &res)); delete p1; //The int part of the API p1 = new QPixmap(2, 3); QPixmapCache::Key key = QPixmapCache::insert(*p1); QVERIFY(QPixmapCache::find(key, p1) != 0); delete p1; QPixmapCache::setCacheLimit(0); QVERIFY(QPixmapCache::find(key, p1) == 0); p1 = new QPixmap(2, 3); QPixmapCache::setCacheLimit(1000); QPixmapCache::replace(key, *p1); QVERIFY(QPixmapCache::find(key, p1) == 0); delete p1; //Let check if keys are released when the pixmap cache is //full or has been flushed. QPixmapCache::clear(); p1 = new QPixmap(2, 3); key = QPixmapCache::insert(*p1); QVERIFY(QPixmapCache::find(key, p1) != 0); p1->detach(); // dectach so that the cache thinks no-one is using it. QPixmapCache::setCacheLimit(0); QVERIFY(QPixmapCache::find(key, p1) == 0); QPixmapCache::setCacheLimit(1000); key = QPixmapCache::insert(*p1); QVERIFY(key.isValid()); QCOMPARE(getPrivate(key)->key, 1); delete p1; //Let check if removing old entries doesn't let you get // wrong pixmaps QPixmapCache::clear(); QPixmap p2; p1 = new QPixmap(2, 3); key = QPixmapCache::insert(*p1); QVERIFY(QPixmapCache::find(key, &p2) != 0); //we flush the cache p1->detach(); p2.detach(); QPixmapCache::setCacheLimit(0); QPixmapCache::setCacheLimit(1000); QPixmapCache::Key key2 = QPixmapCache::insert(*p1); QCOMPARE(getPrivate(key2)->key, 1); QVERIFY(QPixmapCache::find(key, &p2) == 0); QVERIFY(QPixmapCache::find(key2, &p2) != 0); QCOMPARE(p2, *p1); delete p1; //Here we simulate the flushing when the app is idle QPixmapCache::clear(); QPixmapCache::setCacheLimit(originalCacheLimit); p1 = new QPixmap(300, 300); key = QPixmapCache::insert(*p1); p1->detach(); QCOMPARE(getPrivate(key)->key, 1); key2 = QPixmapCache::insert(*p1); p1->detach(); key2 = QPixmapCache::insert(*p1); p1->detach(); QPixmapCache::Key key3 = QPixmapCache::insert(*p1); p1->detach(); qt_qpixmapcache_flush_detached_pixmaps(); key2 = QPixmapCache::insert(*p1); QCOMPARE(getPrivate(key2)->key, 1); //This old key is not valid anymore after the flush QVERIFY(!key.isValid()); QVERIFY(QPixmapCache::find(key, &p2) == 0); delete p1; } void tst_QPixmapCache::find() { QPixmap p1(10, 10); p1.fill(Qt::red); QVERIFY(QPixmapCache::insert("P1", p1)); QPixmap p2; QVERIFY(QPixmapCache::find("P1", &p2)); QCOMPARE(p2.width(), 10); QCOMPARE(p2.height(), 10); QCOMPARE(p1, p2); //The int part of the API QPixmapCache::Key key = QPixmapCache::insert(p1); QVERIFY(QPixmapCache::find(key, &p2)); QCOMPARE(p2.width(), 10); QCOMPARE(p2.height(), 10); QCOMPARE(p1, p2); QPixmapCache::clear(); QPixmapCache::setCacheLimit(128); QPixmap p4(10,10); key = QPixmapCache::insert(p4); p4.detach(); QPixmap p5(10,10); QList keys; for (int i = 0; i < 4000; ++i) QPixmapCache::insert(p5); //at that time the first key has been erase because no more place in the cache QVERIFY(QPixmapCache::find(key, &p1) == 0); QVERIFY(!key.isValid()); } void tst_QPixmapCache::insert() { QPixmap p1(10, 10); p1.fill(Qt::red); QPixmap p2(10, 10); p2.fill(Qt::yellow); // Calcuate estimated num of items what fits to cache int estimatedNum = (1024 * QPixmapCache::cacheLimit()) / ((p1.width() * p1.height() * p1.depth()) / 8); // Mare sure we will put enough items to reach the cache limit const int numberOfKeys = estimatedNum + 1000; // make sure it doesn't explode for (int i = 0; i < numberOfKeys; ++i) QPixmapCache::insert("0", p1); // ditto for (int j = 0; j < numberOfKeys; ++j) { QPixmap p3(10, 10); QPixmapCache::insert(QString::number(j), p3); } int num = 0; QPixmap res; for (int k = 0; k < numberOfKeys; ++k) { if (QPixmapCache::find(QString::number(k), &res)) ++num; } if (QPixmapCache::find("0", &res)) ++num; QVERIFY(num <= estimatedNum); QPixmap p3; QPixmapCache::insert("null", p3); QPixmap c1(10, 10); c1.fill(Qt::yellow); QPixmapCache::insert("custom", c1); QVERIFY(!c1.isDetached()); QPixmap c2(10, 10); c2.fill(Qt::red); QPixmapCache::insert("custom", c2); //We have deleted the old pixmap in the cache for the same key QVERIFY(c1.isDetached()); //The int part of the API // make sure it doesn't explode QList keys; for (int i = 0; i < numberOfKeys; ++i) { QPixmap p3(10,10); keys.append(QPixmapCache::insert(p3)); } num = 0; for (int k = 0; k < numberOfKeys; ++k) { if (QPixmapCache::find(keys.at(k), &p2)) ++num; } estimatedNum = (1024 * QPixmapCache::cacheLimit()) / ((p1.width() * p1.height() * p1.depth()) / 8); QVERIFY(num <= estimatedNum); } void tst_QPixmapCache::replace() { //The int part of the API QPixmap p1(10, 10); p1.fill(Qt::red); QPixmap p2(10, 10); p2.fill(Qt::yellow); QPixmapCache::Key key = QPixmapCache::insert(p1); QVERIFY(key.isValid()); QPixmap p3; QVERIFY(QPixmapCache::find(key, &p3) == 1); QPixmapCache::replace(key, p2); QVERIFY(QPixmapCache::find(key, &p3) == 1); QVERIFY(key.isValid()); QCOMPARE(getPrivate(key)->key, 1); QCOMPARE(p3.width(), 10); QCOMPARE(p3.height(), 10); QCOMPARE(p3, p2); //Broken keys QCOMPARE(QPixmapCache::replace(QPixmapCache::Key(), p2), false); } void tst_QPixmapCache::remove() { QPixmap p1(10, 10); p1.fill(Qt::red); QPixmapCache::insert("red", p1); p1.fill(Qt::yellow); QPixmap p2; QVERIFY(QPixmapCache::find("red", &p2)); QVERIFY(p1.toImage() != p2.toImage()); QVERIFY(p1.toImage() == p1.toImage()); // sanity check QPixmapCache::remove("red"); QVERIFY(!QPixmapCache::find("red", &p2)); QPixmapCache::remove("red"); QVERIFY(!QPixmapCache::find("red", &p2)); QPixmapCache::remove("green"); QVERIFY(!QPixmapCache::find("green", &p2)); //The int part of the API QPixmapCache::clear(); p1.fill(Qt::red); QPixmapCache::Key key = QPixmapCache::insert(p1); p1.fill(Qt::yellow); QVERIFY(QPixmapCache::find(key, &p2)); QVERIFY(p1.toImage() != p2.toImage()); QVERIFY(p1.toImage() == p1.toImage()); // sanity check QPixmapCache::remove(key); QVERIFY(QPixmapCache::find(key, &p1) == 0); //Broken key QPixmapCache::remove(QPixmapCache::Key()); QVERIFY(QPixmapCache::find(QPixmapCache::Key(), &p1) == 0); //Test if keys are release QPixmapCache::clear(); key = QPixmapCache::insert(p1); QCOMPARE(getPrivate(key)->key, 1); QPixmapCache::remove(key); key = QPixmapCache::insert(p1); QCOMPARE(getPrivate(key)->key, 1); //Test if pixmaps are correctly deleted QPixmapCache::clear(); key = QPixmapCache::insert(p1); QCOMPARE(getPrivate(key)->key, 1); QVERIFY(QPixmapCache::find(key, &p1) != 0); QPixmapCache::remove(key); QCOMPARE(p1.isDetached(), true); //We mix both part of the API QPixmapCache::clear(); p1.fill(Qt::red); QPixmapCache::insert("red", p1); key = QPixmapCache::insert(p1); QPixmapCache::remove(key); QVERIFY(QPixmapCache::find(key, &p1) == 0); QVERIFY(QPixmapCache::find("red", &p1) != 0); } void tst_QPixmapCache::clear() { QPixmap p1(10, 10); p1.fill(Qt::red); // Calcuate estimated num of items what fits to cache int estimatedNum = (1024 * QPixmapCache::cacheLimit()) / ((p1.width() * p1.height() * p1.depth()) / 8); // Mare sure we will put enough items to reach the cache limit const int numberOfKeys = estimatedNum + 1000; for (int i = 0; i < numberOfKeys; ++i) QVERIFY(!QPixmapCache::find("x" + QString::number(i), &p1)); for (int j = 0; j < numberOfKeys; ++j) QPixmapCache::insert(QString::number(j), p1); int num = 0; for (int k = 0; k < numberOfKeys; ++k) { if (QPixmapCache::find(QString::number(k), &p1)) ++num; } QVERIFY(num > 0); QPixmapCache::clear(); for (int k = 0; k < numberOfKeys; ++k) QVERIFY(!QPixmapCache::find(QString::number(k), &p1)); //The int part of the API QPixmap p2(10, 10); p2.fill(Qt::red); QList keys; for (int k = 0; k < numberOfKeys; ++k) keys.append(QPixmapCache::insert(p2)); QPixmapCache::clear(); for (int k = 0; k < numberOfKeys; ++k) { QVERIFY(QPixmapCache::find(keys.at(k), &p1) == 0); QVERIFY(!keys[k].isValid()); } } void tst_QPixmapCache::pixmapKey() { QPixmapCache::Key key; //Default constructed keys have no d pointer unless //we use them QVERIFY(!getPrivate(key)); //Let's put a d pointer QPixmapCache::KeyData** keyd = getPrivateRef(key); *keyd = new QPixmapCache::KeyData; QCOMPARE(getPrivate(key)->ref, 1); QPixmapCache::Key key2; //Let's put a d pointer QPixmapCache::KeyData** key2d = getPrivateRef(key2); *key2d = new QPixmapCache::KeyData; QCOMPARE(getPrivate(key2)->ref, 1); key = key2; QCOMPARE(getPrivate(key2)->ref, 2); QCOMPARE(getPrivate(key)->ref, 2); QPixmapCache::Key key3; //Let's put a d pointer QPixmapCache::KeyData** key3d = getPrivateRef(key3); *key3d = new QPixmapCache::KeyData; QPixmapCache::Key key4 = key3; QCOMPARE(getPrivate(key3)->ref, 2); QCOMPARE(getPrivate(key4)->ref, 2); key4 = key; QCOMPARE(getPrivate(key4)->ref, 3); QCOMPARE(getPrivate(key3)->ref, 1); QPixmapCache::Key key5(key3); QCOMPARE(getPrivate(key3)->ref, 2); QCOMPARE(getPrivate(key5)->ref, 2); //let test default constructed keys QPixmapCache::Key key6; QVERIFY(!getPrivate(key6)); QPixmapCache::Key key7; QVERIFY(!getPrivate(key7)); key6 = key7; QVERIFY(!getPrivate(key6)); QVERIFY(!getPrivate(key7)); QPixmapCache::Key key8(key7); QVERIFY(!getPrivate(key8)); } void tst_QPixmapCache::noLeak() { QPixmapCache::Key key; int oldSize = q_QPixmapCache_keyHashSize(); for (int i = 0; i < 100; ++i) { QPixmap pm(128, 128); pm.fill(Qt::transparent); key = QPixmapCache::insert(pm); QPixmapCache::remove(key); } int newSize = q_QPixmapCache_keyHashSize(); QCOMPARE(oldSize, newSize); } void tst_QPixmapCache::strictCacheLimit() { const int limit = 1024; // 1024 KB QPixmapCache::clear(); QPixmapCache::setCacheLimit(limit); // insert 200 64x64 pixmaps // 3200 KB for 32-bit depths // 1600 KB for 16-bit depths // not counting the duplicate entries for (int i = 0; i < 200; ++i) { QPixmap pixmap(64, 64); pixmap.fill(Qt::transparent); QString id = QString::number(i); QPixmapCache::insert(id + "-a", pixmap); QPixmapCache::insert(id + "-b", pixmap); } QVERIFY(qt_qpixmapcache_qpixmapcache_total_used() <= limit); } void tst_QPixmapCache::noCrashOnLargeInsert() { QPixmapCache::clear(); QPixmapCache::setCacheLimit(100); QPixmap pixmap(500, 500); pixmap.fill(Qt::transparent); QPixmapCache::insert("test", pixmap); QVERIFY(true); // no crash } QTEST_MAIN(tst_QPixmapCache) #include "tst_qpixmapcache.moc"