/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the test suite of the Qt Toolkit. ** ** $QT_BEGIN_LICENSE:LGPL$ ** No Commercial Usage ** This file contains pre-release code and may not be distributed. ** You may use this file in accordance with the terms and conditions ** contained in the Technology Preview License Agreement accompanying ** this package. ** ** GNU Lesser General Public License Usage ** Alternatively, 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. ** ** If you have questions regarding the use of this file, please contact ** Nokia at qt-info@nokia.com. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include #define TEST_COMPLEX_CASES //---------------------- AnchorLayout helper class ---------------------------- class TheAnchorLayout : public QGraphicsAnchorLayout { public: TheAnchorLayout() : QGraphicsAnchorLayout() { setContentsMargins( 0,0,0,0 ); setSpacing( 0 ); } bool isValid() { return !QGraphicsAnchorLayoutPrivate::get(this)->hasConflicts(); } void setAnchor( QGraphicsLayoutItem *startItem, Qt::AnchorPoint startEdge, QGraphicsLayoutItem *endItem, Qt::AnchorPoint endEdge, qreal value) { QGraphicsAnchor *anchor = addAnchor( startItem, startEdge, endItem, endEdge); if (anchor) anchor->setSpacing(value); } int indexOf(const QGraphicsLayoutItem* item) const { for ( int i=0; i< count(); i++) { if ( itemAt(i) == item ) { return i; } } return -1; } void removeItem(QGraphicsLayoutItem* item) { removeAt(indexOf(item)); } void removeAnchor( QGraphicsLayoutItem *startItem, Qt::AnchorPoint startEdge, QGraphicsLayoutItem *endItem, Qt::AnchorPoint endEdge) { delete QGraphicsAnchorLayout::anchor(startItem, startEdge, endItem, endEdge); } }; //----------------------------------------------------------------------------- struct BasicLayoutTestData { inline BasicLayoutTestData( int index1, Qt::AnchorPoint edge1, int index2, Qt::AnchorPoint edge2, qreal distance) : firstIndex(index1), firstEdge(edge1), secondIndex(index2), secondEdge(edge2), spacing(distance) { } int firstIndex; Qt::AnchorPoint firstEdge; int secondIndex; Qt::AnchorPoint secondEdge; qreal spacing; }; struct AnchorItemSizeHint { inline AnchorItemSizeHint( qreal hmin, qreal hpref, qreal hmax, qreal vmin, qreal vpref, qreal vmax ) : hmin(hmin), hpref(hpref), hmax(hmax), vmin(vmin), vpref(vpref), vmax(vmax) { } qreal hmin, hpref, hmax; qreal vmin, vpref, vmax; }; // some test results struct BasicLayoutTestResult { inline BasicLayoutTestResult( int resultIndex, const QRectF& resultRect ) : index(resultIndex), rect(resultRect) { } int index; QRectF rect; }; typedef QList BasicLayoutTestDataList; Q_DECLARE_METATYPE(BasicLayoutTestDataList) typedef QList BasicLayoutTestResultList; Q_DECLARE_METATYPE(BasicLayoutTestResultList) typedef QList AnchorItemSizeHintList; Q_DECLARE_METATYPE(AnchorItemSizeHintList) //---------------------- Test Widget used on all tests ------------------------ class TestWidget : public QGraphicsWidget { public: inline TestWidget(QGraphicsItem *parent = 0, const QString &name = QString()) : QGraphicsWidget(parent) { setContentsMargins( 0,0,0,0 ); if (name.isEmpty()) setData(0, QString::fromAscii("w%1").arg(quintptr(this))); else setData(0, name); } ~TestWidget() { } protected: QSizeF sizeHint(Qt::SizeHint which, const QSizeF &constraint = QSizeF()) const; }; QSizeF TestWidget::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const { Q_UNUSED( constraint ); if (which == Qt::MinimumSize) { return QSizeF(5,5); } if (which == Qt::PreferredSize) { return QSizeF(50,50); } return QSizeF(500,500); } //----------------------------------------------------------------------------- //----------------------------- Test class ------------------------------------ class tst_QGraphicsAnchorLayout1 : public QObject { Q_OBJECT private slots: void testCount(); void testRemoveAt(); void testRemoveItem(); void testItemAt(); void testIndexOf(); void testAddAndRemoveAnchor(); void testIsValid(); void testSpecialCases(); void testBasicLayout_data(); void testBasicLayout(); void testNegativeSpacing_data(); void testNegativeSpacing(); void testMixedSpacing_data(); void testMixedSpacing(); void testMulti_data(); void testMulti(); void testCenterAnchors_data(); void testCenterAnchors(); void testRemoveCenterAnchor_data(); void testRemoveCenterAnchor(); void testSingleSizePolicy_data(); void testSingleSizePolicy(); void testDoubleSizePolicy_data(); void testDoubleSizePolicy(); void testSizeDistribution_data(); void testSizeDistribution(); void testSizeHint(); #ifdef TEST_COMPLEX_CASES void testComplexCases_data(); void testComplexCases(); #endif }; void tst_QGraphicsAnchorLayout1::testCount() { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); QVERIFY( layout->count() == 0 ); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); QCOMPARE( layout->count(), 1 ); // adding one more anchor for already added widget should not increase the count layout->setAnchor(layout, Qt::AnchorRight, widget1, Qt::AnchorRight, 1); QCOMPARE( layout->count(), 1 ); // create one more widget and attach with anchor layout TestWidget *widget2 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 1); QCOMPARE( layout->count(), 2 ); widget->setLayout(layout); delete widget; } void tst_QGraphicsAnchorLayout1::testRemoveAt() { TheAnchorLayout *layout = new TheAnchorLayout(); QVERIFY( layout->count() == 0 ); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 2); QVERIFY( layout->count() == 1 ); TestWidget *widget2 = new TestWidget(); layout->setAnchor(widget2, Qt::AnchorLeft, layout, Qt::AnchorLeft, 0.1); QVERIFY( layout->count() == 2 ); layout->removeAt(0); QVERIFY( layout->count() == 1 ); layout->removeAt(-55); layout->removeAt(55); QVERIFY( layout->count() == 1 ); layout->removeAt(0); QVERIFY( layout->count() == 0 ); delete layout; delete widget1; delete widget2; } void tst_QGraphicsAnchorLayout1::testRemoveItem() { TheAnchorLayout *layout = new TheAnchorLayout(); QCOMPARE( layout->count(), 0 ); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 2); QCOMPARE( layout->count(), 1 ); TestWidget *widget2 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 0.1); QCOMPARE( layout->count(), 2 ); layout->removeItem(0); QCOMPARE( layout->count(), 2 ); layout->removeItem(widget1); QCOMPARE( layout->count(), 1 ); QCOMPARE( layout->indexOf(widget1), -1 ); QCOMPARE( layout->indexOf(widget2), 0 ); layout->removeItem(widget1); QCOMPARE( layout->count(), 1 ); layout->removeItem(widget2); QVERIFY( layout->count() == 0 ); delete layout; delete widget1; delete widget2; } void tst_QGraphicsAnchorLayout1::testItemAt() { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); TestWidget *widget2 = new TestWidget(); TestWidget *widget3 = new TestWidget(); TestWidget *widget4 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget3, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget4, Qt::AnchorLeft, 0.1); QVERIFY( layout->itemAt(0) == widget1 ); layout->removeAt(0); QVERIFY( layout->itemAt(0) == widget2 ); delete widget1; widget->setLayout(layout); delete widget; } void tst_QGraphicsAnchorLayout1::testIndexOf() { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); TestWidget *widget2 = new TestWidget(); TestWidget *widget3 = new TestWidget(); TestWidget *widget4 = new TestWidget(); QCOMPARE( layout->indexOf(widget1), -1 ); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget3, Qt::AnchorLeft, 0.1); QCOMPARE( layout->indexOf(widget4), -1 ); layout->setAnchor(layout, Qt::AnchorLeft, widget4, Qt::AnchorLeft, 0.1); QCOMPARE( layout->count(), 4 ); for (int i = 0; i < layout->count(); ++i) { QCOMPARE(layout->indexOf(layout->itemAt(i)), i); } QCOMPARE( layout->indexOf(0), -1 ); widget->setLayout(layout); delete widget; } void tst_QGraphicsAnchorLayout1::testAddAndRemoveAnchor() { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); TestWidget *widget2 = new TestWidget(); TestWidget *widget3 = new TestWidget(); TestWidget *widget4 = new TestWidget(); TestWidget *widget5 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 0.5); layout->setAnchor(layout, Qt::AnchorLeft, widget3, Qt::AnchorLeft, 10); layout->setAnchor(layout, Qt::AnchorLeft, widget4, Qt::AnchorLeft, 0.1); QCOMPARE( layout->count(), 4 ); // test setting invalid anchors QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor NULL items"); layout->setAnchor(0, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor NULL items"); layout->setAnchor(layout, Qt::AnchorLeft, 0, Qt::AnchorLeft, 1); QCOMPARE( layout->count(), 4 ); // test removing invalid anchors layout->removeAnchor(widget4, Qt::AnchorRight, widget1, Qt::AnchorRight); // anchor one horizontal edge with vertical edge. it should not add this widget as a child QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor edges of different orientations"); layout->setAnchor(layout, Qt::AnchorLeft, widget5, Qt::AnchorTop, 10); QCOMPARE( layout->count(), 4 ); // anchor two edges of a widget (to define width / height) QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); layout->setAnchor(widget5, Qt::AnchorLeft, widget5, Qt::AnchorRight, 10); // QCOMPARE( layout->count(), 5 ); QCOMPARE( layout->count(), 4 ); // anchor yet new widget properly layout->setAnchor(layout, Qt::AnchorRight, widget5, Qt::AnchorRight, 20 ); QCOMPARE( layout->count(), 5 ); // remove anchor for widget1. widget1 should be removed from layout since the // last anchor was removed. layout->removeAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft); QCOMPARE( layout->count(), 4 ); QVERIFY( !widget1->parentLayoutItem() ); // test that item is not removed from layout if other anchors remain set layout->setAnchor(widget2, Qt::AnchorLeft, widget3, Qt::AnchorRight, 10); layout->removeAnchor(layout, Qt::AnchorLeft, widget2, Qt::AnchorLeft); QCOMPARE( layout->count(), 4 ); // remove all the anchors layout->removeAnchor(widget2, Qt::AnchorLeft, widget3, Qt::AnchorRight); layout->removeAnchor(layout, Qt::AnchorLeft, widget3, Qt::AnchorLeft); layout->removeAnchor(layout, Qt::AnchorLeft, widget4, Qt::AnchorLeft); layout->removeAnchor(widget5, Qt::AnchorLeft, widget5, Qt::AnchorRight); layout->removeAnchor(layout, Qt::AnchorRight, widget5, Qt::AnchorRight); QCOMPARE( layout->count(), 0 ); // set one anchor "another way round" to get full coverage for "removeAnchor" layout->setAnchor(widget1, Qt::AnchorLeft, layout, Qt::AnchorLeft, 0.1); layout->removeAnchor(widget1, Qt::AnchorLeft, layout, Qt::AnchorLeft); QCOMPARE( layout->count(), 0 ); delete widget1; delete widget2; delete widget3; delete widget4; delete widget5; widget->setLayout(layout); delete widget; } void tst_QGraphicsAnchorLayout1::testIsValid() { // Empty, valid { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); widget->setLayout(layout); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(layout->isValid(), true); delete widget; } // One widget, valid { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorTop, widget1, Qt::AnchorTop, 0.1); layout->setAnchor(widget1, Qt::AnchorRight, layout, Qt::AnchorRight, 0.1); layout->setAnchor(widget1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 0.1); widget->setLayout(layout); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(layout->isValid(), true); delete widget; } // Overconstrained one widget, invalid // ### Our understanding is that this case is valid. What happens though, // is that the layout minimum and maximum vertical size hints become // the same, 10.1. That means its height is fixed. // What will "fail" then is the "setGeometry(0, 0, 100, 100)" call, // after which the layout geometry will be (0, 0, 100, 10.1). { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorTop, widget1, Qt::AnchorTop, 0.1); layout->setAnchor(widget1, Qt::AnchorRight, layout, Qt::AnchorRight, 0.1); layout->setAnchor(widget1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 0.1); layout->setAnchor(widget1, Qt::AnchorTop, layout, Qt::AnchorBottom, 10); widget->setLayout(layout); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(layout->isValid(), true); delete widget; } // Underconstrained two widgets, valid { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); TestWidget *widget2 = new TestWidget(); // Vertically the layout has floating items. Therefore, we have a conflict layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 0.1); layout->setAnchor(layout, Qt::AnchorRight, widget1, Qt::AnchorRight, -0.1); // Horizontally the layout has floating items. Therefore, we have a conflict layout->setAnchor(layout, Qt::AnchorTop, widget2, Qt::AnchorTop, 0.1); layout->setAnchor(layout, Qt::AnchorBottom, widget2, Qt::AnchorBottom, -0.1); widget->setLayout(layout); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(layout->isValid(), false); delete widget; } } void tst_QGraphicsAnchorLayout1::testSpecialCases() { // One widget, setLayout before defining layouts { #ifdef QT_DEBUG QTest::ignoreMessage(QtWarningMsg, "QGraphicsLayout::addChildLayoutItem: QGraphicsWidget \"\"" " in wrong parent; moved to correct parent"); #endif QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); widget->setLayout(layout); TestWidget *widget1 = new TestWidget(); layout->setAnchor(layout, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, widget1, Qt::AnchorTop, 1); layout->setAnchor(widget1, Qt::AnchorRight, layout, Qt::AnchorRight, 1); layout->setAnchor(widget1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(widget1->geometry(), QRectF(1,1,98,98)); delete widget1; delete widget; } // One widget, layout inside layout, layout inside layout inside layout { #ifdef QT_DEBUG QTest::ignoreMessage(QtWarningMsg, "QGraphicsLayout::addChildLayoutItem: QGraphicsWidget \"\"" " in wrong parent; moved to correct parent"); #endif QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); widget->setLayout(layout); TheAnchorLayout *layout1 = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); layout1->setAnchor(layout1, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); layout1->setAnchor(layout1, Qt::AnchorTop, widget1, Qt::AnchorTop, 1); layout1->setAnchor(widget1, Qt::AnchorRight, layout1, Qt::AnchorRight, 1); layout1->setAnchor(widget1, Qt::AnchorBottom, layout1, Qt::AnchorBottom, 1); TheAnchorLayout *layout2 = new TheAnchorLayout(); TestWidget *widget2 = new TestWidget(); layout2->setAnchor(layout2, Qt::AnchorLeft, widget2, Qt::AnchorLeft, 1); layout2->setAnchor(layout2, Qt::AnchorTop, widget2, Qt::AnchorTop, 1); layout2->setAnchor(widget2, Qt::AnchorRight, layout2, Qt::AnchorRight, 1); layout2->setAnchor(widget2, Qt::AnchorBottom, layout2, Qt::AnchorBottom, 1); layout1->setAnchor(layout1, Qt::AnchorLeft, layout2, Qt::AnchorLeft, 1); layout1->setAnchor(layout1, Qt::AnchorTop, layout2, Qt::AnchorTop, 1); layout1->setAnchor(layout2, Qt::AnchorRight, layout1, Qt::AnchorRight, 1); layout1->setAnchor(layout2, Qt::AnchorBottom, layout1, Qt::AnchorBottom, 1); layout->setAnchor(layout, Qt::AnchorLeft, layout1, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, layout1, Qt::AnchorTop, 1); layout->setAnchor(layout1, Qt::AnchorRight, layout, Qt::AnchorRight, 1); layout->setAnchor(layout1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); // remove and add again to improve test coverage. layout->removeItem(layout1); layout->setAnchor(layout, Qt::AnchorLeft, layout1, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, layout1, Qt::AnchorTop, 1); layout->setAnchor(layout1, Qt::AnchorRight, layout, Qt::AnchorRight, 1); layout->setAnchor(layout1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(widget1->geometry(), QRectF(2,2,96,96)); QCOMPARE(widget2->geometry(), QRectF(3,3,94,94)); delete widget; } // One widget, layout inside layout, setLayout after layout definition { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); TheAnchorLayout *layout1 = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); layout1->setAnchor(layout1, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); layout1->setAnchor(layout1, Qt::AnchorTop, widget1, Qt::AnchorTop, 1); layout1->setAnchor(widget1, Qt::AnchorRight, layout1, Qt::AnchorRight, 1); layout1->setAnchor(widget1, Qt::AnchorBottom, layout1, Qt::AnchorBottom, 1); layout->setAnchor(layout, Qt::AnchorLeft, layout1, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, layout1, Qt::AnchorTop, 1); layout->setAnchor(layout1, Qt::AnchorRight, layout, Qt::AnchorRight, 1); layout->setAnchor(layout1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); widget->setLayout(layout); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(widget1->geometry(), QRectF(2,2,96,96)); delete widget; } // One widget, layout inside layout, setLayout after layout definition, widget transferred from // one layout to another { QGraphicsWidget *widget = new QGraphicsWidget; TheAnchorLayout *layout = new TheAnchorLayout(); widget->setLayout(layout); TheAnchorLayout *layout1 = new TheAnchorLayout(); TestWidget *widget1 = new TestWidget(); // Additional layout + widget to improve coverage. TheAnchorLayout *layout0 = new TheAnchorLayout(); TestWidget *widget0 = new TestWidget(); // widget0 to layout0 layout0->setAnchor(layout0, Qt::AnchorLeft, widget0, Qt::AnchorLeft, 1); layout0->setAnchor(layout0, Qt::AnchorTop, widget0, Qt::AnchorTop, 1); layout0->setAnchor(widget0, Qt::AnchorRight, layout0, Qt::AnchorRight, 1); layout0->setAnchor(widget0, Qt::AnchorBottom, layout0, Qt::AnchorBottom, 1); // layout0 to layout layout->setAnchor(layout, Qt::AnchorLeft, layout0, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, layout0, Qt::AnchorTop, 1); layout->setAnchor(layout0, Qt::AnchorRight, layout, Qt::AnchorRight, 50); layout->setAnchor(layout0, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); // widget1 to layout1 layout1->setAnchor(layout1, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); layout1->setAnchor(layout1, Qt::AnchorTop, widget1, Qt::AnchorTop, 1); layout1->setAnchor(widget1, Qt::AnchorRight, layout1, Qt::AnchorRight, 1); layout1->setAnchor(widget1, Qt::AnchorBottom, layout1, Qt::AnchorBottom, 1); // layout1 to layout layout->setAnchor(layout, Qt::AnchorLeft, layout1, Qt::AnchorLeft, 1); layout->setAnchor(layout, Qt::AnchorTop, layout1, Qt::AnchorTop, 1); layout->setAnchor(layout1, Qt::AnchorRight, layout, Qt::AnchorRight, 50); layout->setAnchor(layout1, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); TheAnchorLayout *layout2 = new TheAnchorLayout(); // layout2 to layout layout->setAnchor(layout, Qt::AnchorLeft, layout2, Qt::AnchorLeft, 50); layout->setAnchor(layout, Qt::AnchorTop, layout2, Qt::AnchorTop, 1); layout->setAnchor(layout2, Qt::AnchorRight, layout, Qt::AnchorRight, 1); layout->setAnchor(layout2, Qt::AnchorBottom, layout, Qt::AnchorBottom, 1); // transfer widget1 to layout2 layout2->setAnchor(layout2, Qt::AnchorLeft, widget1, Qt::AnchorLeft, 1); layout2->setAnchor(layout2, Qt::AnchorTop, widget1, Qt::AnchorTop, 1); layout2->setAnchor(widget1, Qt::AnchorRight, layout2, Qt::AnchorRight, 1); layout2->setAnchor(widget1, Qt::AnchorBottom, layout2, Qt::AnchorBottom, 1); widget->setGeometry(QRectF(0,0,100,100)); QCOMPARE(widget1->geometry(), QRectF(51,2,47,96)); delete widget; } // One widget, set first to one layout then to another. Child reparented. // In addition widget as a direct child of another widget. Child reparented. { QGraphicsWidget *widget1 = new QGraphicsWidget; TheAnchorLayout *layout1 = new TheAnchorLayout(); widget1->setLayout(layout1); TestWidget *childWidget = new TestWidget(); // childWidget to layout1 layout1->setAnchor(layout1, Qt::AnchorLeft, childWidget, Qt::AnchorLeft, 1); layout1->setAnchor(layout1, Qt::AnchorTop, childWidget, Qt::AnchorTop, 1); layout1->setAnchor(childWidget, Qt::AnchorRight, layout1, Qt::AnchorRight, 1); layout1->setAnchor(childWidget, Qt::AnchorBottom, layout1, Qt::AnchorBottom, 1); widget1->setGeometry(QRectF(0,0,100,100)); QCOMPARE(childWidget->geometry(), QRectF(1,1,98,98)); QVERIFY(childWidget->parentLayoutItem() == layout1); QGraphicsWidget *widget2 = new QGraphicsWidget; TheAnchorLayout *layout2 = new TheAnchorLayout(); widget2->setLayout(layout2); // childWidget to layout2 layout2->setAnchor(layout2, Qt::AnchorLeft, childWidget, Qt::AnchorLeft, 1); layout2->setAnchor(layout2, Qt::AnchorTop, childWidget, Qt::AnchorTop, 1); layout2->setAnchor(childWidget, Qt::AnchorRight, layout2, Qt::AnchorRight, 1); layout2->setAnchor(childWidget, Qt::AnchorBottom, layout2, Qt::AnchorBottom, 1); QGraphicsWidget *widget3 = new QGraphicsWidget; QGraphicsWidget *widget4 = new QGraphicsWidget; // widget4 is a direct child of widget3 (i.e. not in any layout) widget4->setParentItem(widget3); // widget4 to layout2 layout2->setAnchor(layout2, Qt::AnchorLeft, widget4, Qt::AnchorLeft, 1); layout2->setAnchor(layout2, Qt::AnchorTop, widget4, Qt::AnchorTop, 1); layout2->setAnchor(widget4, Qt::AnchorRight, layout2, Qt::AnchorRight, 1); layout2->setAnchor(widget4, Qt::AnchorBottom, layout2, Qt::AnchorBottom, 1); widget2->setGeometry(QRectF(0,0,100,100)); QCOMPARE(childWidget->geometry(), QRectF(1,1,98,98)); QVERIFY(childWidget->parentLayoutItem() == layout2); QCOMPARE(widget4->geometry(), QRectF(1,1,98,98)); QVERIFY(widget4->parentLayoutItem() == layout2); QVERIFY(widget4->parentItem() == widget2); delete widget4; delete widget3; delete widget1; delete childWidget; delete widget2; } } void tst_QGraphicsAnchorLayout1::testBasicLayout_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // One widget, basic { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 20) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 30) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 40) ; theResult << BasicResult(0, QRectF(20, 10, 150, 50) ) ; QTest::newRow("One, simple") << QSizeF(200, 100) << theData << theResult; } // One widget, duplicates { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 20) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 30) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 40) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 0) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, 0) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 0) ; theResult << BasicResult(0, QRectF(0, 0, 200, 100) ) ; QTest::newRow("One, duplicates") << QSizeF(200, 100) << theData << theResult; } // One widget, mixed { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorBottom, 80) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 150) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorRight, 150) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorBottom, 80) ; theResult << BasicResult(0, QRectF(50, 20, 100, 60) ) ; QTest::newRow("One, mixed") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets (same layout), different ordering { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 10) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) ; theResult << BasicResult(0, QRectF(10, 10, 180, 80) ) << BasicResult(1, QRectF(10, 10, 180, 80) ) ; QTest::newRow("Two, orderings") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, duplicate anchors { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 30) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 20) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 10) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, 0) ; theResult << BasicResult(0, QRectF(30, 10, 160, 70) ) << BasicResult(1, QRectF(10, 0, 190, 90) ) ; QTest::newRow("Two, duplicates") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, mixed { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorBottom, 90) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 190) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorRight, 190) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorBottom, 90) << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorBottom, 20) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 10) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorRight, 20) ; theResult << BasicResult(0, QRectF(10, 10, 180, 80) ) << BasicResult(1, QRectF(10, 80, 10, 10) ) ; QTest::newRow("Two, mixed") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 1 horizontal connection, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 20) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(30, 10, 160, 70) ) ; QTest::newRow("Two, 1h connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 2 horizontal connections, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) // ### QGAL is not sensible to the argument order in this case // To achieve the desired result we must explicitly set a negative // spacing. // << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorRight, 100) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorRight, -100) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 30) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 20) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(50, 10, 60, 70) ) ; QTest::newRow("Two, 2h connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 1 vertical connection, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 30) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 20) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(30, 20, 160, 60) ) ; QTest::newRow("Two, 1v connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 2 vertical connections, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 30) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 20) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(30, 20, 160, 50) ) ; QTest::newRow("Two, 2v connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 1 horizontal and 1 vertical connection, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 80) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 100) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 10) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(80, 10, 40, 70) ) ; QTest::newRow("Two, 1h+1v connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 2 horizontal and 2 vertical connections, first completely defined { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 180) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorLeft, 80) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 100) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 10) ; theResult << BasicResult(0, QRectF(10, 10, 10, 80) ) << BasicResult(1, QRectF(90, 20, 30, 60) ) ; QTest::newRow("Two, 2h+2v connected") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 2 horizontal and 2 vertical connections, dependent on each other. { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 150) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorBottom, 10) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorLeft, 90) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 20) ; theResult << BasicResult(0, QRectF(10, 10, 30, 60) ) << BasicResult(1, QRectF(100, 20, 90, 60) ) ; QTest::newRow("Two, 2h+2v connected2") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, connected, overlapping { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) // << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorRight, 30) // ### QGAL has different semantics and assumes right edges are always // to the left of left edges. Thus we need the minus sign here. << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorRight, -30) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorBottom, 40) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 40) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 20) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) ; theResult << BasicResult(0, QRectF(10, 10, 60, 40) ) << BasicResult(1, QRectF(40, 20, 150, 70) ) ; QTest::newRow("Two, connected overlapping") << QSizeF(200, 100) << theData << theResult; } } void tst_QGraphicsAnchorLayout1::testNegativeSpacing_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // One widget, negative spacing { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; /// ### QGAL assumes items are always inside the layout. // In this case, the negative spacing would make the item // grow beyond the layout edges, which is OK, but gives a // different result. // Changing the direction of anchors (-1 to 0 or vice-versa) // has no effect in this case. theData // << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -10) // << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -20) // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, -30) // << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -40) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, -10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, -20) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, -30) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, -40) ; theResult // << BasicResult(0, QRectF(20, 10, 150, 50) ) << BasicResult(0, QRectF(-20, -10, 250, 150) ) ; QTest::newRow("One, simple (n)") << QSizeF(200, 100) << theData << theResult; } // One widget, duplicates, negative spacing { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -20) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -20) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, -30) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -40) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -10) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, -10) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -10) ; theResult // ### Same as above... // << BasicResult(0, QRectF(10, 10, 180, 80) ) << BasicResult(0, QRectF(-10, -10, 220, 120) ) ; QTest::newRow("One, duplicates (n)") << QSizeF(200, 100) << theData << theResult; } // One widget, mixed, negative spacing { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // ### All anchors of negative spacing between the layout and an // item are handled as to make sure the item is _outside_ the // layout. // To keep it inside, one _must_ use positive spacings. // << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorTop, -80) // << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorLeft, -150) // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorLeft, -150) // << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorTop, -80) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorTop, 80) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorLeft, 150) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorLeft, 150) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorTop, 80) ; theResult << BasicResult(0, QRectF(50, 20, 100, 60) ) ; QTest::newRow("One, mixed (n)") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 1 horizontal connection, first completely defined, negative spacing { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -10) // << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -10) // << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -10) // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, -180) // << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorRight, -10) // << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, -10) // << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorTop, -10) // << BasicData(-1, Qt::AnchorBottom, 1, Qt::AnchorBottom, -20) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -10) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -10) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, 180) << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorRight, -10) << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, -10) << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorTop, -10) << BasicData(-1, Qt::AnchorBottom, 1, Qt::AnchorBottom, -20) ; theResult // << BasicResult(0, QRectF(10, 10, 10, 80) ) // << BasicResult(1, QRectF(30, 10, 160, 70) ) << BasicResult(0, QRectF(-10, -10, 30, 120) ) << BasicResult(1, QRectF(10, -10, 200, 130) ) ; QTest::newRow("Two, 1h connected (n)") << QSizeF(200, 100) << theData << theResult; } // Basic case - two widgets, 2 horizontal and 2 vertical connections, dependent on each other, negative spacing { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -10) << BasicData(1, Qt::AnchorRight, 0, Qt::AnchorRight, -150) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, -10) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, -10) << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorLeft, -90) << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, -10) << BasicData(1, Qt::AnchorTop, 0, Qt::AnchorTop, -10) << BasicData(-1, Qt::AnchorBottom, 1, Qt::AnchorBottom, -20) ; theResult // << BasicResult(0, QRectF(10, 10, 30, 60) ) // << BasicResult(1, QRectF(100, 20, 90, 60) ) << BasicResult(0, QRectF(-10, -10, 70, 120) ) << BasicResult(1, QRectF(80, 0, 130, 120) ) ; QTest::newRow("Two, 2h+2v connected2 (n)") << QSizeF(200, 100) << theData << theResult; } } void tst_QGraphicsAnchorLayout1::testMixedSpacing_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // Two widgets, partial overlapping { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, -50) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 50) << BasicData(1, Qt::AnchorRight, 0, Qt::AnchorRight, 15) // << BasicData(1, Qt::AnchorTop, 0, Qt::AnchorBottom, 5) << BasicData(1, Qt::AnchorTop, 0, Qt::AnchorBottom, -5) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorLeft, -10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 20) << BasicData(-1, Qt::AnchorBottom, 1, Qt::AnchorBottom, -5) ; theResult // << BasicResult(0, QRectF(50, 10, 45, 40) ) // << BasicResult(1, QRectF(40, 45, 40, 50) ) << BasicResult(0, QRectF(-50, 10, 145, 40) ) << BasicResult(1, QRectF(-60, 45, 140, 60) ) ; QTest::newRow("Two, partial overlap") << QSizeF(100, 100) << theData << theResult; } // Two widgets, complete overlapping { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 5) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 0) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 25) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 0) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5) << BasicData(1, Qt::AnchorLeft, -1, Qt::AnchorRight, 50) << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, -10) ; theResult << BasicResult(0, QRectF(65, 5, 35, 35) ) << BasicResult(1, QRectF(40, 5, 60, 35) ) ; QTest::newRow("Two, complete overlap") << QSizeF(90, 45) << theData << theResult; } // Five widgets, v shaped, edges shared { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // edges shared << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 0) << BasicData(1, Qt::AnchorRight, 2, Qt::AnchorLeft, 0) << BasicData(2, Qt::AnchorRight, 3, Qt::AnchorLeft, 0) << BasicData(3, Qt::AnchorRight, 4, Qt::AnchorLeft, 0) << BasicData(1, Qt::AnchorBottom, 2, Qt::AnchorTop, 0) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorTop, 0) << BasicData(3, Qt::AnchorBottom, 2, Qt::AnchorTop, 0) << BasicData(4, Qt::AnchorBottom, 3, Qt::AnchorTop, 0) << BasicData(0, Qt::AnchorBottom, 4, Qt::AnchorBottom, 0) << BasicData(1, Qt::AnchorBottom, 3, Qt::AnchorBottom, 0) << BasicData(0, Qt::AnchorTop, 4, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorTop, 3, Qt::AnchorTop, 0) // margins << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 5) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 5) << BasicData(2, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5) // << BasicData(-1, Qt::AnchorRight, 4, Qt::AnchorRight, -5) << BasicData(-1, Qt::AnchorRight, 4, Qt::AnchorRight, 5) // additional details for exact size determination easily << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 25) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorRight, 50) // << BasicData(-1, Qt::AnchorRight, 3, Qt::AnchorRight, -25) // << BasicData(-1, Qt::AnchorRight, 2, Qt::AnchorRight, -50) << BasicData(-1, Qt::AnchorRight, 3, Qt::AnchorRight, 25) << BasicData(-1, Qt::AnchorRight, 2, Qt::AnchorRight, 50) << BasicData(-1, Qt::AnchorTop, 3, Qt::AnchorBottom, 50) // << BasicData(-1, Qt::AnchorBottom, 3, Qt::AnchorTop, -50) << BasicData(-1, Qt::AnchorBottom, 3, Qt::AnchorTop, 50) ; theResult << BasicResult(0, QRectF(5,5,20,20)) << BasicResult(1, QRectF(25,25,25,25)) << BasicResult(2, QRectF(50,50,25,20)) << BasicResult(3, QRectF(75,25,25,25)) << BasicResult(4, QRectF(100,5,20,20)) ; QTest::newRow("Five, V shape") << QSizeF(125, 75) << theData << theResult; } // ### The behavior is different in QGraphicsAnchorLayout. What happens here is // that when the above anchors are set, the layout size hints are changed. // In the example, the minimum item width is 5, thus the minimum layout width // becomes 105 (50 + 5 + 50). Once that size hint is set, trying to set // the widget size to (10, 10) is not possible because // QGraphicsWidget::setGeometry() will enforce the minimum is respected. if (0) // One widget, unsolvable { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 50) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 50) ; theResult << BasicResult(0, QRectF(0,0,0,0)) ; QTest::newRow("One widget, unsolvable") << QSizeF(10, 10) << theData << theResult; } // Two widgets, one has fixed size { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 50) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 50) // not supported, use sizePolicy instead // << BasicData(0, Qt::AnchorLeft, 0, Qt::AnchorRight, 50) << BasicData(-1, Qt::AnchorLeft, 1, Qt::AnchorLeft, 50) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 50) ; theResult << BasicResult(0, QRectF(50,0,50,50)) << BasicResult(1, QRectF(50,0,50,50)) ; QTest::newRow("Two widgets, one has fixed size") << QSizeF(150, 150) << theData << theResult; } } void tst_QGraphicsAnchorLayout1::testMulti_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // Multiple widgets, all overllapping { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; const int n = 30; for ( int i = 0 ; i < n; i++ ) { theData << BasicData(-1, Qt::AnchorTop, i, Qt::AnchorTop, 20) << BasicData(-1, Qt::AnchorLeft, i, Qt::AnchorLeft, 10) // << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -40) // << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, -30); << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, 40) << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, 30); theResult << BasicResult(i, QRectF(10, 20, 160, 40) ); } QTest::newRow("Overlapping multi") << QSizeF(200, 100) << theData << theResult; } // Multiple widgets, linear order { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; const qreal height = 1000.f; const qreal width = 2000.f; const int n = 30; const qreal verticalStep = height/qreal(n+2); const qreal horizontalStep = width/qreal(n+2); for ( int i = 0 ; i < n; i++ ) { if ( i == 0 ) { // First item theData << BasicData(-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i+1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); } else if ( i == n-1 ) { // Last item theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, verticalStep) << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, horizontalStep); // << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) // << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); } else { // items in the middle theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i+1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); // << BasicData(i+1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) // << BasicData(i+1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); } theResult << BasicResult(i, QRectF((i+1)*horizontalStep, (i+1)*verticalStep, horizontalStep, verticalStep) ); } QTest::newRow("Linear multi") << QSizeF(width, height) << theData << theResult; } // Multiple widgets, V shape { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; const qreal height = 100.f; const qreal width = 200.f; const int n = 31; // odd number please (3,5,7... ) const qreal verticalStep = height/(2.f+(n+1)/2.f); const qreal horizontalStep = width/(n+2.f); for ( int i = 0 ; i < n; i++ ) { if ( i == 0 ) { // First item theData << BasicData(-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i, Qt::AnchorRight, i+1, Qt::AnchorRight, horizontalStep); } else if ( i == n-1 ) { // Last item theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, -verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i, Qt::AnchorRight, -1, Qt::AnchorRight, horizontalStep); } else if ( i == ((n-1)/2) ) { // midway theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) // << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, verticalStep) << BasicData(i, Qt::AnchorRight, i+1, Qt::AnchorRight, horizontalStep); } else if ( i < ((n-1)/2) ) { // before midway - going down theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i, Qt::AnchorRight, i+1, Qt::AnchorRight, horizontalStep); } else { // after midway - going up theData << BasicData(i-1, Qt::AnchorTop, i, Qt::AnchorTop, -verticalStep) << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(i, Qt::AnchorRight, i+1, Qt::AnchorRight, horizontalStep); } if ( i <= ((n-1)/2) ) { // until midway theResult << BasicResult(i, QRectF((i+1)*horizontalStep, (i+1)*verticalStep, horizontalStep, verticalStep) ); } else { // after midway theResult << BasicResult(i, QRectF((i+1)*horizontalStep, (n-i)*verticalStep, horizontalStep, verticalStep) ); } } QTest::newRow("V multi") << QSizeF(width, height) << theData << theResult; } // Multiple widgets, grid { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; const qreal height = 100.f; const qreal width = 200.f; const int d = 10; // items per dimension const int n = d*d; const qreal verticalStep = height/(d+2.f); const qreal horizontalStep = width/(d+2.f); for ( int i = 0 ; i < n; i++ ) { if ( i%d == 0 ) { // left side item theData << BasicData(-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); } else if ( (i+1)%d == 0 ) { // rigth side item theData << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) // << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); << BasicData(-1, Qt::AnchorRight, i, Qt::AnchorRight, horizontalStep); } else { // horizontal middle theData << BasicData(i-1, Qt::AnchorLeft, i, Qt::AnchorLeft, horizontalStep) << BasicData(i+1, Qt::AnchorRight, i, Qt::AnchorRight, -horizontalStep); } if ( i < d ) { // top line theData << BasicData(-1, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i+d, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep); } else if ( i >= (d-1)*d ){ // bottom line theData << BasicData(i-d, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) // << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep) << BasicData(-1, Qt::AnchorBottom, i, Qt::AnchorBottom, verticalStep); } else { // vertical middle theData << BasicData(i-d, Qt::AnchorTop, i, Qt::AnchorTop, verticalStep) << BasicData(i+d, Qt::AnchorBottom, i, Qt::AnchorBottom, -verticalStep); } theResult << BasicResult(i, QRectF(((i%d)+1)*horizontalStep, ((i/d)+1)*verticalStep, horizontalStep, verticalStep) ); } QTest::newRow("Grid multi") << QSizeF(200, 100) << theData << theResult; } } inline QGraphicsLayoutItem *getItem( int index, const QList& widgets, QGraphicsLayoutItem *defaultItem) { if (index < 0) { return defaultItem; } return widgets[index]; } static QRectF truncate(QRectF original) { QRectF result; result.setX(qRound(original.x() * 1000000) / 1000000.0); result.setY(qRound(original.y() * 1000000) / 1000000.0); result.setWidth(qRound(original.width() * 1000000) / 1000000.0); result.setHeight(qRound(original.height() * 1000000) / 1000000.0); return result; } void tst_QGraphicsAnchorLayout1::testBasicLayout() { QFETCH(QSizeF, size); QFETCH(BasicLayoutTestDataList, data); QFETCH(BasicLayoutTestResultList, result); QGraphicsWidget *widget = new QGraphicsWidget; // Determine amount of widgets to add. int widgetCount = -1; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; widgetCount = qMax(widgetCount, item.firstIndex); widgetCount = qMax(widgetCount, item.secondIndex); } ++widgetCount; // widgetCount is max of indices. // Create dummy widgets QList widgets; for (int i = 0; i < widgetCount; ++i) { TestWidget *w = new TestWidget(0, QString::fromAscii("W%1").arg(i)); widgets << w; } // Setup anchor layout TheAnchorLayout *layout = new TheAnchorLayout; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; layout->setAnchor( getItem(item.firstIndex, widgets, layout), item.firstEdge, getItem(item.secondIndex, widgets, layout), item.secondEdge, item.spacing ); } widget->setLayout(layout); widget->setContentsMargins(0,0,0,0); widget->resize(size); QCOMPARE(widget->size(), size); // Validate for (int i = 0; i < result.count(); ++i) { const BasicLayoutTestResult item = result[i]; QRectF expected = truncate(item.rect); QRectF actual = truncate(widgets[item.index]->geometry()); QCOMPARE(actual, expected); } // Test mirrored mode widget->setLayoutDirection(Qt::RightToLeft); layout->activate(); // Validate for (int j = 0; j < result.count(); ++j) { const BasicLayoutTestResult item = result[j]; QRectF mirroredRect(item.rect); // only valid cases are mirrored if (mirroredRect.isValid()){ mirroredRect.moveLeft(size.width()-item.rect.width()-item.rect.left()); } QRectF expected = truncate(mirroredRect); QRectF actual = truncate(widgets[item.index]->geometry()); QCOMPARE(actual, expected); } qDeleteAll(widgets); delete widget; } void tst_QGraphicsAnchorLayout1::testNegativeSpacing() { // use the same frame testBasicLayout(); } void tst_QGraphicsAnchorLayout1::testMixedSpacing() { // use the same frame testBasicLayout(); } void tst_QGraphicsAnchorLayout1::testMulti() { // use the same frame testBasicLayout(); } void tst_QGraphicsAnchorLayout1::testCenterAnchors_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // Basic center case { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 15) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorVerticalCenter, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5); theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::newRow("center, basic") << QSizeF(20, 20) << theData << theResult; } // Basic center case, with invalid (shouldn't affect on result) { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 15) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorVerticalCenter, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5) // bogus definitions << BasicData(0, Qt::AnchorHorizontalCenter, -1, Qt::AnchorBottom, 5) << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorVerticalCenter, 5) << BasicData(0, Qt::AnchorVerticalCenter, -1, Qt::AnchorRight, 5) << BasicData(0, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 666) << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 999) << BasicData(0, Qt::AnchorLeft, 0, Qt::AnchorLeft, 333) << BasicData(-1, Qt::AnchorRight, -1, Qt::AnchorRight, 222) << BasicData(0, Qt::AnchorTop, 0, Qt::AnchorTop, 111) << BasicData(0, Qt::AnchorBottom, 0, Qt::AnchorBottom, 444); theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor edges of different orientations"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor edges of different orientations"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor edges of different orientations"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::newRow("center, basic with invalid") << QSizeF(20, 20) << theData << theResult; } // Basic center case 2 { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 0) // Not supported << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, 5) << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, 5) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 0) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorTop, -5); theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::newRow("center, basic 2") << QSizeF(20, 20) << theData << theResult; } // Basic center case, overrides { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 20) << BasicData(0, Qt::AnchorHorizontalCenter, -1, Qt::AnchorHorizontalCenter, 30) << BasicData(0, Qt::AnchorVerticalCenter, -1, Qt::AnchorVerticalCenter, 40) // actual data: << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 0) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 0) // << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, 5) << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, 5) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorTop, -5); theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::newRow("center, overrides") << QSizeF(20, 20) << theData << theResult; } // Two nested { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorLeft, 0) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 0) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorRight, 0) << BasicData(0, Qt::AnchorVerticalCenter, 1, Qt::AnchorTop, 0) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorLeft, 0) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 0) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorBottom, 0); theResult << BasicResult(0, QRectF(20, 0, 20, 40)) << BasicResult(1, QRectF(20, 20, 20, 20)); QTest::newRow("center, two nested") << QSizeF(40, 40) << theData << theResult; } // Two overlap { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; // theData // // horizontal // << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 20) // << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorLeft, 0) // << BasicData(1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, -5) // << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) // << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, 10) // // vertical is pretty much same as horizontal, just roles swapped // << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 20) // << BasicData(1, Qt::AnchorVerticalCenter, 0, Qt::AnchorTop, 0) // << BasicData(0, Qt::AnchorVerticalCenter, 1, Qt::AnchorBottom, -5) // << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 10) // << BasicData(1, Qt::AnchorVerticalCenter, 1, Qt::AnchorBottom, 10); theData // horizontal << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 20) << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorLeft, 0) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorHorizontalCenter, 5) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorRight, 20) // vertical << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 20) << BasicData(1, Qt::AnchorVerticalCenter, 0, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorVerticalCenter, 5) << BasicData(1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 20); theResult << BasicResult(0, QRectF(20, 30, 20, 30)) << BasicResult(1, QRectF(30, 20, 30, 20)); QTest::newRow("center, two overlap") << QSizeF(70, 70) << theData << theResult; } // Three { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 0) << BasicData(0, Qt::AnchorHorizontalCenter, 2, Qt::AnchorHorizontalCenter, 75) << BasicData(1, Qt::AnchorRight, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, -30) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 0) << BasicData(1, Qt::AnchorLeft, 1, Qt::AnchorRight, 30) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 35) << BasicData(1, Qt::AnchorVerticalCenter, 2, Qt::AnchorVerticalCenter, 15) << BasicData(1, Qt::AnchorBottom, 2, Qt::AnchorTop, 5) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 0) << BasicData(2, Qt::AnchorBottom, 0, Qt::AnchorTop, 5) << BasicData(0, Qt::AnchorTop, 0, Qt::AnchorBottom, 20); theResult << BasicResult(0, QRectF(0, 30, 10, 20)) << BasicResult(1, QRectF(20, 0, 30, 10)) << BasicResult(2, QRectF(60, 15, 40, 10)); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::newRow("center, three") << QSizeF(100, 50) << theData << theResult; } // Two, parent center { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // vertical is pretty much same as horizontal, just roles swapped << BasicData(-1, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, -15) << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 10) << BasicData(-1, Qt::AnchorBottom, 0, Qt::AnchorBottom, 0) << BasicData(1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) // horizontal << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, -15) << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorRight, 1, Qt::AnchorRight, 0) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorLeft, 0); theResult << BasicResult(0, QRectF(20, 20, 30, 80)) << BasicResult(1, QRectF(20, 20, 80, 30)); QTest::newRow("center, parent") << QSizeF(100, 100) << theData << theResult; } // Two, parent center 2 { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData // << BasicData(1, Qt::AnchorLeft, -1, Qt::AnchorHorizontalCenter, 15) << BasicData(1, Qt::AnchorLeft, -1, Qt::AnchorHorizontalCenter, -15) << BasicData(1, Qt::AnchorRight, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, -1, Qt::AnchorRight, 5) << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorRight, -5) // vertical << BasicData(0, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, 20) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 10) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorBottom, 20) << BasicData(0, Qt::AnchorTop, 1, Qt::AnchorTop, 20) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorTop, 10); theResult << BasicResult(0, QRectF(30, 10, 15, 10)) << BasicResult(1, QRectF(10, 30, 10, 10)); QTest::newRow("center, parent 2") << QSizeF(50, 50) << theData << theResult; } // Two, parent center 3 { BasicLayoutTestDataList theData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorRight, -5) << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorLeft, 5) // << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorRight, 100) << BasicData(0, Qt::AnchorLeft, 1, Qt::AnchorRight, -100) << BasicData(0, Qt::AnchorLeft, -1, Qt::AnchorLeft, 0) // vertical << BasicData(0, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, 55) << BasicData(0, Qt::AnchorTop, -1, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorBottom, -1, Qt::AnchorBottom, 0) << BasicData(0, Qt::AnchorBottom, 1, Qt::AnchorTop, 10) // << BasicData(0, Qt::AnchorTop, 0, Qt::AnchorBottom, 45) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorBottom, 45) ; theResult << BasicResult(0, QRectF(0, 0, 45, 45)) << BasicResult(1, QRectF(55, 55, 45, 45)); QTest::newRow("center, parent 3") << QSizeF(100, 100) << theData << theResult; } } void tst_QGraphicsAnchorLayout1::testCenterAnchors() { // use the same frame testBasicLayout(); } void tst_QGraphicsAnchorLayout1::testRemoveCenterAnchor_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("removeData"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; { BasicLayoutTestDataList theData; BasicLayoutTestDataList theRemoveData; BasicLayoutTestResultList theResult; theData // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 15) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorVerticalCenter, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5) << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 66) << BasicData(1, Qt::AnchorVerticalCenter, -1, Qt::AnchorVerticalCenter, 99) << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 33) ; theRemoveData << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 0) << BasicData(1, Qt::AnchorVerticalCenter, -1, Qt::AnchorVerticalCenter, 0) << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 0); theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::newRow("remove, center, basic") << QSizeF(20, 20) << theData << theRemoveData << theResult; } { BasicLayoutTestDataList theData; BasicLayoutTestDataList theRemoveData; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 0) << BasicData(0, Qt::AnchorHorizontalCenter, 2, Qt::AnchorHorizontalCenter, 75) << BasicData(1, Qt::AnchorRight, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, -30) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 0) << BasicData(1, Qt::AnchorLeft, 1, Qt::AnchorRight, 30) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) // extra: << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 66) << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 33) << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 55) << BasicData(1, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, 55) << BasicData(1, Qt::AnchorTop, -1, Qt::AnchorTop, 0) << BasicData(1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 35) << BasicData(1, Qt::AnchorVerticalCenter, 2, Qt::AnchorVerticalCenter, 15) << BasicData(1, Qt::AnchorBottom, 2, Qt::AnchorTop, 5) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 0) << BasicData(2, Qt::AnchorBottom, 0, Qt::AnchorTop, 5) << BasicData(0, Qt::AnchorTop, 0, Qt::AnchorBottom, 20); theRemoveData << BasicData(-1, Qt::AnchorVerticalCenter, 0, Qt::AnchorVerticalCenter, 66) << BasicData(-1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 33) << BasicData(0, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 55) << BasicData(1, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, 55); theResult << BasicResult(0, QRectF(0, 30, 10, 20)) << BasicResult(1, QRectF(20, 0, 30, 10)) << BasicResult(2, QRectF(60, 15, 40, 10)); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::newRow("remove, center, three") << QSizeF(100, 50) << theData << theRemoveData << theResult; } // add edge (item0,edge0,item1,edge1), remove (item1,edge1,item0,edge0) { BasicLayoutTestDataList theData; BasicLayoutTestDataList theRemoveData; BasicLayoutTestResultList theResult; theData // << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, -10) << BasicData(-1, Qt::AnchorRight, 0, Qt::AnchorHorizontalCenter, 10) << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorRight, 15) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorVerticalCenter, 10) << BasicData(0, Qt::AnchorBottom, -1, Qt::AnchorBottom, 5) << BasicData(-1, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 66) << BasicData(1, Qt::AnchorVerticalCenter, -1, Qt::AnchorVerticalCenter, 99) << BasicData(0, Qt::AnchorHorizontalCenter, 1, Qt::AnchorHorizontalCenter, 33) << BasicData(0, Qt::AnchorLeft, 0, Qt::AnchorRight, 22) << BasicData(0, Qt::AnchorTop, 0, Qt::AnchorBottom, 11) ; theRemoveData << BasicData(1, Qt::AnchorHorizontalCenter, -1, Qt::AnchorHorizontalCenter, 0) << BasicData(-1, Qt::AnchorVerticalCenter, 1, Qt::AnchorVerticalCenter, 0) << BasicData(1, Qt::AnchorHorizontalCenter, 0, Qt::AnchorHorizontalCenter, 0) << BasicData(0, Qt::AnchorRight, 0, Qt::AnchorLeft, 0) << BasicData(0, Qt::AnchorBottom, 0, Qt::AnchorTop, 0) ; theResult << BasicResult(0, QRectF(5, 5, 10, 10) ); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::ignoreMessage(QtWarningMsg, "QGraphicsAnchorLayout::addAnchor(): Cannot anchor the item to itself"); QTest::newRow("remove, center, basic 2") << QSizeF(20, 20) << theData << theRemoveData << theResult; } } void tst_QGraphicsAnchorLayout1::testRemoveCenterAnchor() { QFETCH(QSizeF, size); QFETCH(BasicLayoutTestDataList, data); QFETCH(BasicLayoutTestDataList, removeData); QFETCH(BasicLayoutTestResultList, result); QGraphicsWidget *widget = new QGraphicsWidget; // Determine amount of widgets to add. int widgetCount = -1; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; widgetCount = qMax(widgetCount, item.firstIndex); widgetCount = qMax(widgetCount, item.secondIndex); } ++widgetCount; // widgetCount is max of indices. // Create dummy widgets QList widgets; for (int i = 0; i < widgetCount; ++i) { TestWidget *w = new TestWidget; widgets << w; } // Setup anchor layout TheAnchorLayout *layout = new TheAnchorLayout; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; layout->setAnchor( getItem(item.firstIndex, widgets, layout), item.firstEdge, getItem(item.secondIndex, widgets, layout), item.secondEdge, item.spacing ); } for (int i = 0; i < removeData.count(); ++i) { const BasicLayoutTestData item = removeData[i]; layout->removeAnchor( getItem(item.firstIndex, widgets, layout), item.firstEdge, getItem(item.secondIndex, widgets, layout), item.secondEdge); } widget->setLayout(layout); widget->setContentsMargins(0,0,0,0); widget->resize(size); QCOMPARE(widget->size(), size); // Validate for (int i = 0; i < result.count(); ++i) { const BasicLayoutTestResult item = result[i]; QCOMPARE(widgets[item.index]->geometry(), item.rect); } qDeleteAll(widgets); delete widget; } void tst_QGraphicsAnchorLayout1::testSingleSizePolicy_data() { QTest::addColumn("size"); QTest::addColumn("policy"); QTest::addColumn("valid"); // FIXED { QSizePolicy sizePolicy( QSizePolicy::Fixed, QSizePolicy::Fixed ); QTest::newRow("single size policy: fixed ok") << QSizeF(70, 70) << sizePolicy << true; } /* { QSizePolicy sizePolicy( QSizePolicy::Fixed, QSizePolicy::Fixed ); QTest::newRow("single size policy: fixed too big") << QSizeF(100, 100) << sizePolicy << false; } { QSizePolicy sizePolicy( QSizePolicy::Fixed, QSizePolicy::Fixed ); QTest::newRow("single size policy: fixed too small") << QSizeF(50, 50) << sizePolicy << false; } */ // MINIMUM { QSizePolicy sizePolicy( QSizePolicy::Minimum, QSizePolicy::Minimum ); QTest::newRow("single size policy: minimum bigger ok") << QSizeF(100, 100) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::Minimum, QSizePolicy::Minimum ); QTest::newRow("single size policy: minimum limit ok") << QSizeF(70, 70) << sizePolicy << true; } /* { QSizePolicy sizePolicy( QSizePolicy::Minimum, QSizePolicy::Minimum ); QTest::newRow("single size policy: minimum too small") << QSizeF(50, 50) << sizePolicy << false; } */ // MAXIMUM { QSizePolicy sizePolicy( QSizePolicy::Maximum, QSizePolicy::Maximum ); QTest::newRow("single size policy: maximum small ok") << QSizeF(50, 50) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::Maximum, QSizePolicy::Maximum ); QTest::newRow("single size policy: maximum limit ok") << QSizeF(70, 70) << sizePolicy << true; } /* { QSizePolicy sizePolicy( QSizePolicy::Maximum, QSizePolicy::Maximum ); QTest::newRow("single size policy: maximum bigger fail") << QSizeF(100, 100) << sizePolicy << false; } */ // PREFERRED { QSizePolicy sizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred ); QTest::newRow("single size policy: preferred bigger ok") << QSizeF(100, 100) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred ); QTest::newRow("single size policy: preferred smaller ok") << QSizeF(50, 50) << sizePolicy << true; } /* { QSizePolicy sizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred ); QTest::newRow("single size policy: preferred too big") << QSizeF(700, 700) << sizePolicy << false; } { QSizePolicy sizePolicy( QSizePolicy::Preferred, QSizePolicy::Preferred ); QTest::newRow("single size policy: preferred too small") << QSizeF(21, 21) << sizePolicy << false; } */ // MINIMUMEXPANDING { QSizePolicy sizePolicy( QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding ); QTest::newRow("single size policy: min.expanding bigger ok") << QSizeF(100, 100) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding ); QTest::newRow("single size policy: min.expanding limit ok") << QSizeF(70, 70) << sizePolicy << true; } /*{ QSizePolicy sizePolicy( QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding ); QTest::newRow("single size policy: min.expanding too small") << QSizeF(50, 50) << sizePolicy << false; }*/ // EXPANDING { QSizePolicy sizePolicy( QSizePolicy::Expanding, QSizePolicy::Expanding ); QTest::newRow("single size policy: expanding bigger ok") << QSizeF(100, 100) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::Expanding, QSizePolicy::Expanding ); QTest::newRow("single size policy: expanding smaller ok") << QSizeF(50, 50) << sizePolicy << true; } // IGNORED { QSizePolicy sizePolicy( QSizePolicy::Ignored, QSizePolicy::Ignored ); QTest::newRow("single size policy: ignored bigger ok") << QSizeF(100, 100) << sizePolicy << true; } { QSizePolicy sizePolicy( QSizePolicy::Ignored, QSizePolicy::Ignored ); QTest::newRow("single size policy: ignored smaller ok") << QSizeF(50, 50) << sizePolicy << true; } } void tst_QGraphicsAnchorLayout1::testSingleSizePolicy() { QFETCH(QSizeF, size); QFETCH(QSizePolicy, policy); QFETCH(bool, valid); // create objects QGraphicsWidget widget; TheAnchorLayout *layout = new TheAnchorLayout; TestWidget *childWidget = new TestWidget; // set anchors layout->setAnchor( layout, Qt::AnchorLeft, childWidget, Qt::AnchorLeft, 10 ); layout->setAnchor( childWidget, Qt::AnchorRight, layout, Qt::AnchorRight, 10 ); layout->setAnchor( layout, Qt::AnchorTop, childWidget, Qt::AnchorTop, 10 ); layout->setAnchor( childWidget, Qt::AnchorBottom, layout, Qt::AnchorBottom, 10 ); widget.setLayout( layout ); // set test case specific: policy and size childWidget->setSizePolicy( policy ); widget.setGeometry( QRectF( QPoint(0,0), size ) ); QCOMPARE( layout->isValid() , valid ); const QRectF childRect = childWidget->geometry(); Q_UNUSED( childRect ); } void tst_QGraphicsAnchorLayout1::testDoubleSizePolicy_data() { // tests only horizontal direction QTest::addColumn("policy1"); QTest::addColumn("policy2"); QTest::addColumn("width1"); QTest::addColumn("width2"); // layout size always 100x100 and size hints for items are 5<50<500 // gabs: 10-item1-10-item2-10 { QSizePolicy sizePolicy1( QSizePolicy::Fixed, QSizePolicy::Fixed ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 50; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: fixed-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Minimum, QSizePolicy::Minimum ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 50; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: minimum-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Maximum, QSizePolicy::Maximum ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 35; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: maximum-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Preferred, QSizePolicy::Preferred ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 35; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: preferred-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 50; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: min.expanding-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Expanding, QSizePolicy::Expanding ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 35; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: expanding-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } // QGAL handling of ignored flag is different if (0) { QSizePolicy sizePolicy1( QSizePolicy::Ignored, QSizePolicy::Ignored ); QSizePolicy sizePolicy2( QSizePolicy::Preferred, QSizePolicy::Preferred ); const qreal width1 = 35; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: ignored-preferred") << sizePolicy1 << sizePolicy2 << width1 << width2; } /*{ QSizePolicy sizePolicy1( QSizePolicy::Fixed, QSizePolicy::Fixed ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = -1; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: fixed-fixed invalid") << sizePolicy1 << sizePolicy2 << width1 << width2; }*/ /*{ QSizePolicy sizePolicy1( QSizePolicy::Minimum, QSizePolicy::Minimum ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = -1; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: minimum-fixed invalid") << sizePolicy1 << sizePolicy2 << width1 << width2; }*/ { QSizePolicy sizePolicy1( QSizePolicy::Maximum, QSizePolicy::Maximum ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = 20; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: maximum-fixed") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Preferred, QSizePolicy::Preferred ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = 20; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: preferred-fixed") << sizePolicy1 << sizePolicy2 << width1 << width2; } /*{ QSizePolicy sizePolicy1( QSizePolicy::MinimumExpanding, QSizePolicy::MinimumExpanding ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = -1; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: min.expanding-fixed invalid") << sizePolicy1 << sizePolicy2 << width1 << width2; }*/ { QSizePolicy sizePolicy1( QSizePolicy::Expanding, QSizePolicy::Expanding ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = 20; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: expanding-fixed") << sizePolicy1 << sizePolicy2 << width1 << width2; } { QSizePolicy sizePolicy1( QSizePolicy::Ignored, QSizePolicy::Ignored ); QSizePolicy sizePolicy2( QSizePolicy::Fixed, QSizePolicy::Fixed ); const qreal width1 = 20; const qreal width2 = 100-10-10-10-width1; QTest::newRow("double size policy: ignored-fixed") << sizePolicy1 << sizePolicy2 << width1 << width2; } } void tst_QGraphicsAnchorLayout1::testDoubleSizePolicy() { QFETCH(QSizePolicy, policy1); QFETCH(QSizePolicy, policy2); QFETCH(qreal, width1); QFETCH(qreal, width2); // create objects QGraphicsWidget widget; TheAnchorLayout *layout = new TheAnchorLayout; TestWidget *childWidget1 = new TestWidget; TestWidget *childWidget2 = new TestWidget; // set anchors layout->setAnchor( layout, Qt::AnchorLeft, childWidget1, Qt::AnchorLeft, 10 ); layout->setAnchor( childWidget1, Qt::AnchorRight, childWidget2, Qt::AnchorLeft, 10 ); layout->setAnchor( childWidget2, Qt::AnchorRight, layout, Qt::AnchorRight, 10 ); widget.setLayout( layout ); // set test case specific: policy childWidget1->setSizePolicy( policy1 ); childWidget2->setSizePolicy( policy2 ); widget.setGeometry( QRectF( QPoint(0,0), QSize( 100,100 ) ) ); // check results: if ( width1 == -1.0f ) { // invalid QCOMPARE( layout->isValid() , false ); } else { // valid QCOMPARE( childWidget1->geometry().width(), width1 ); QCOMPARE( childWidget2->geometry().width(), width2 ); } } typedef QMap SizeHintArray; Q_DECLARE_METATYPE(SizeHintArray) void tst_QGraphicsAnchorLayout1::testSizeDistribution_data() { // tests only horizontal direction QTest::addColumn("sizeHints1"); QTest::addColumn("sizeHints2"); QTest::addColumn("width1"); QTest::addColumn("width2"); // layout size always 100x100 and size policy for items is preferred-preferred // gabs: 10-item1-10-item2-10 { SizeHintArray sizeHints1; sizeHints1.insert( Qt::MinimumSize, 30 ); sizeHints1.insert( Qt::PreferredSize, 35 ); sizeHints1.insert( Qt::MaximumSize, 40 ); Q_ASSERT( sizeHints1.value( Qt::MinimumSize ) <= sizeHints1.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints1.value( Qt::PreferredSize ) <= sizeHints1.value( Qt::MaximumSize ) ); SizeHintArray sizeHints2; sizeHints2.insert( Qt::MinimumSize, 5 ); sizeHints2.insert( Qt::PreferredSize, 35 ); sizeHints2.insert( Qt::MaximumSize, 300 ); Q_ASSERT( sizeHints2.value( Qt::MinimumSize ) <= sizeHints2.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints2.value( Qt::PreferredSize ) <= sizeHints2.value( Qt::MaximumSize ) ); const qreal width1 = 35; const qreal width2 = 100-10-10-10-width1; QTest::newRow("size distribution: preferred equal") << sizeHints1 << sizeHints2 << width1 << width2; } { SizeHintArray sizeHints1; sizeHints1.insert( Qt::MinimumSize, 0 ); sizeHints1.insert( Qt::PreferredSize, 20 ); sizeHints1.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints1.value( Qt::MinimumSize ) <= sizeHints1.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints1.value( Qt::PreferredSize ) <= sizeHints1.value( Qt::MaximumSize ) ); SizeHintArray sizeHints2; sizeHints2.insert( Qt::MinimumSize, 0 ); sizeHints2.insert( Qt::PreferredSize, 50 ); sizeHints2.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints2.value( Qt::MinimumSize ) <= sizeHints2.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints2.value( Qt::PreferredSize ) <= sizeHints2.value( Qt::MaximumSize ) ); const qreal width1 = 20; const qreal width2 = 100-10-10-10-width1; QTest::newRow("size distribution: preferred non-equal") << sizeHints1 << sizeHints2 << width1 << width2; } { SizeHintArray sizeHints1; sizeHints1.insert( Qt::MinimumSize, 0 ); sizeHints1.insert( Qt::PreferredSize, 40 ); sizeHints1.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints1.value( Qt::MinimumSize ) <= sizeHints1.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints1.value( Qt::PreferredSize ) <= sizeHints1.value( Qt::MaximumSize ) ); SizeHintArray sizeHints2; sizeHints2.insert( Qt::MinimumSize, 0 ); sizeHints2.insert( Qt::PreferredSize, 60 ); sizeHints2.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints2.value( Qt::MinimumSize ) <= sizeHints2.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints2.value( Qt::PreferredSize ) <= sizeHints2.value( Qt::MaximumSize ) ); const qreal width1 = 28; // got from manual calculation const qreal width2 = 100-10-10-10-width1; QTest::newRow("size distribution: below preferred") << sizeHints1 << sizeHints2 << width1 << width2; } { SizeHintArray sizeHints1; sizeHints1.insert( Qt::MinimumSize, 0 ); sizeHints1.insert( Qt::PreferredSize, 10 ); sizeHints1.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints1.value( Qt::MinimumSize ) <= sizeHints1.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints1.value( Qt::PreferredSize ) <= sizeHints1.value( Qt::MaximumSize ) ); SizeHintArray sizeHints2; sizeHints2.insert( Qt::MinimumSize, 0 ); sizeHints2.insert( Qt::PreferredSize, 40 ); sizeHints2.insert( Qt::MaximumSize, 100 ); Q_ASSERT( sizeHints2.value( Qt::MinimumSize ) <= sizeHints2.value( Qt::PreferredSize ) ); Q_ASSERT( sizeHints2.value( Qt::PreferredSize ) <= sizeHints2.value( Qt::MaximumSize ) ); const qreal width1 = 22; // got from manual calculation const qreal width2 = 100-10-10-10-width1; QTest::newRow("size distribution: above preferred") << sizeHints1 << sizeHints2 << width1 << width2; } } void tst_QGraphicsAnchorLayout1::testSizeDistribution() { QFETCH(SizeHintArray, sizeHints1); QFETCH(SizeHintArray, sizeHints2); QFETCH(qreal, width1); QFETCH(qreal, width2); // create objects QGraphicsWidget widget; TheAnchorLayout *layout = new TheAnchorLayout; TestWidget *childWidget1 = new TestWidget; TestWidget *childWidget2 = new TestWidget; // set anchors layout->setAnchor( layout, Qt::AnchorLeft, childWidget1, Qt::AnchorLeft, 10 ); layout->setAnchor( childWidget1, Qt::AnchorRight, childWidget2, Qt::AnchorLeft, 10 ); layout->setAnchor( childWidget2, Qt::AnchorRight, layout, Qt::AnchorRight, 10 ); widget.setLayout( layout ); // set test case specific: size hints childWidget1->setMinimumWidth( sizeHints1.value( Qt::MinimumSize ) ); childWidget1->setPreferredWidth( sizeHints1.value( Qt::PreferredSize ) ); childWidget1->setMaximumWidth( sizeHints1.value( Qt::MaximumSize ) ); childWidget2->setMinimumWidth( sizeHints2.value( Qt::MinimumSize ) ); childWidget2->setPreferredWidth( sizeHints2.value( Qt::PreferredSize ) ); childWidget2->setMaximumWidth( sizeHints2.value( Qt::MaximumSize ) ); widget.setGeometry( QRectF( QPoint(0,0), QSize( 100,100 ) ) ); // check results: if ( width1 == -1.0f ) { // invalid QCOMPARE( layout->isValid() , false ); } else { // valid QCOMPARE( float(childWidget1->geometry().width()), float(width1) ); QCOMPARE( float(childWidget2->geometry().width()), float(width2) ); } } void tst_QGraphicsAnchorLayout1::testSizeHint() { QGraphicsWidget *widget[5]; for( int i = 0; i < 5; i++ ) { widget[i] = new QGraphicsWidget; widget[i]->setMinimumSize( 10, 10 ); widget[i]->setPreferredSize( 20, 20 ); widget[i]->setMaximumSize( 40, 40 ); } // one, basic { TheAnchorLayout *layout = new TheAnchorLayout(); layout->setAnchor(layout, Qt::AnchorLeft, widget[0], Qt::AnchorLeft, 0 ); layout->setAnchor(layout, Qt::AnchorRight, widget[0], Qt::AnchorRight, 0 ); layout->setAnchor(layout, Qt::AnchorTop, widget[0], Qt::AnchorTop, 0 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, 0 ); QCOMPARE( layout->minimumSize(), widget[0]->minimumSize() ); QCOMPARE( layout->preferredSize(), widget[0]->preferredSize() ); QCOMPARE( layout->maximumSize(), widget[0]->maximumSize() ); delete layout; } // one, basic again { TheAnchorLayout *layout = new TheAnchorLayout(); layout->setAnchor(layout, Qt::AnchorLeft, widget[0], Qt::AnchorLeft, 10 ); // layout->setAnchor(layout, Qt::AnchorRight, widget[0], Qt::AnchorRight, -10 ); layout->setAnchor(layout, Qt::AnchorRight, widget[0], Qt::AnchorRight, 10 ); layout->setAnchor(layout, Qt::AnchorTop, widget[0], Qt::AnchorTop, 10 ); // layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, -10 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, 10 ); QCOMPARE( layout->minimumSize(), widget[0]->minimumSize() + QSizeF( 20, 20 ) ); QCOMPARE( layout->preferredSize(), widget[0]->preferredSize() + QSizeF( 20, 20 ) ); QCOMPARE( layout->maximumSize(), widget[0]->maximumSize() + QSizeF( 20, 20 ) ); delete layout; } // two, serial { TheAnchorLayout *layout = new TheAnchorLayout(); layout->setAnchor(layout, Qt::AnchorLeft, widget[0], Qt::AnchorLeft, 0 ); layout->setAnchor(layout, Qt::AnchorTop, widget[0], Qt::AnchorTop, 0 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, 0 ); layout->setAnchor(widget[0], Qt::AnchorRight, widget[1], Qt::AnchorLeft, 0 ); layout->setAnchor(widget[1], Qt::AnchorRight, layout, Qt::AnchorRight, 0 ); QCOMPARE( layout->minimumSize(), widget[0]->minimumSize() + QSizeF( widget[1]->minimumWidth(), 0 ) ); QCOMPARE( layout->preferredSize(), widget[0]->preferredSize() + QSizeF( widget[1]->preferredWidth(), 0 ) ); QCOMPARE( layout->maximumSize(), widget[0]->maximumSize() + QSizeF( widget[1]->maximumWidth(), 0 ) ); delete layout; } // two, parallel { TheAnchorLayout *layout = new TheAnchorLayout(); layout->setAnchor(layout, Qt::AnchorLeft, widget[0], Qt::AnchorLeft, 0 ); layout->setAnchor(layout, Qt::AnchorTop, widget[0], Qt::AnchorTop, 0 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, 0 ); layout->setAnchor(layout, Qt::AnchorRight, widget[0], Qt::AnchorRight, 0 ); layout->setAnchor(layout, Qt::AnchorLeft, widget[1], Qt::AnchorLeft, 0 ); layout->setAnchor(layout, Qt::AnchorTop, widget[1], Qt::AnchorTop, 0 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[1], Qt::AnchorBottom, 0 ); layout->setAnchor(layout, Qt::AnchorRight, widget[1], Qt::AnchorRight, 0 ); QCOMPARE( layout->minimumSize(), widget[0]->minimumSize() ); QCOMPARE( layout->preferredSize(), widget[0]->preferredSize() ); QCOMPARE( layout->maximumSize(), widget[0]->maximumSize() ); delete layout; } // five, serial { TheAnchorLayout *layout = new TheAnchorLayout(); layout->setAnchor(layout, Qt::AnchorLeft, widget[0], Qt::AnchorLeft, 0 ); layout->setAnchor(layout, Qt::AnchorTop, widget[0], Qt::AnchorTop, 0 ); layout->setAnchor(layout, Qt::AnchorBottom, widget[0], Qt::AnchorBottom, 0 ); layout->setAnchor(widget[0], Qt::AnchorRight, widget[1], Qt::AnchorLeft, 0 ); layout->setAnchor(widget[1], Qt::AnchorRight, widget[2], Qt::AnchorLeft, 0 ); layout->setAnchor(widget[2], Qt::AnchorRight, widget[3], Qt::AnchorLeft, 0 ); layout->setAnchor(widget[3], Qt::AnchorRight, widget[4], Qt::AnchorLeft, 0 ); layout->setAnchor(widget[4], Qt::AnchorRight, layout, Qt::AnchorRight, 0 ); QCOMPARE( layout->minimumSize(), widget[0]->minimumSize() + QSizeF( widget[1]->minimumWidth() + widget[2]->minimumWidth() + widget[3]->minimumWidth() + widget[4]->minimumWidth(), 0 ) ); QCOMPARE( layout->preferredSize(), widget[0]->preferredSize() + QSizeF( widget[1]->preferredWidth() + widget[2]->preferredWidth() + widget[3]->preferredWidth() + widget[4]->preferredWidth(), 0 ) ); QCOMPARE( layout->maximumSize(), widget[0]->maximumSize() + QSizeF( widget[1]->maximumWidth() + widget[2]->maximumWidth() + widget[3]->maximumWidth() + widget[4]->maximumWidth(), 0 ) ); delete layout; } for( int i = 0; i < 5; i++ ) { delete widget[i]; } } #ifdef TEST_COMPLEX_CASES void tst_QGraphicsAnchorLayout1::testComplexCases_data() { QTest::addColumn("size"); QTest::addColumn("data"); QTest::addColumn("sizehint"); QTest::addColumn("result"); typedef BasicLayoutTestData BasicData; typedef BasicLayoutTestResult BasicResult; // Three widgets, the same sizehint { BasicLayoutTestDataList theData; AnchorItemSizeHintList theSizeHint; BasicLayoutTestResultList theResult1; BasicLayoutTestResultList theResult2; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 2, Qt::AnchorTop, 0) ; theSizeHint << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) ; theResult1 << BasicResult(0, QRectF(10, 0, 30, 50) ) << BasicResult(1, QRectF(50, 0, 30, 50) ) << BasicResult(2, QRectF(50, 0, 30, 50) ) ; theResult2 << BasicResult(0, QRectF(10, 0, 60, 50) ) << BasicResult(1, QRectF(80, 0, 60, 50) ) << BasicResult(2, QRectF(80, 0, 60, 50) ) ; QTest::newRow("Three, the same sizehint(1)") << QSizeF(90, 50) << theData << theSizeHint << theResult1; QTest::newRow("Three, the same sizehint(2)") << QSizeF(150, 50) << theData << theSizeHint << theResult2; } // Three widgets, serial is bigger { BasicLayoutTestDataList theData; AnchorItemSizeHintList theSizeHint; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 2, Qt::AnchorTop, 0) ; theSizeHint << AnchorItemSizeHint( 0, 100, 200, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) ; theResult << BasicResult(0, QRectF(10, 0, 70, 50) ) << BasicResult(1, QRectF(90, 0, 35, 50) ) << BasicResult(2, QRectF(90, 0, 35, 50) ); QTest::newRow("Three, serial is bigger") << QSizeF(135, 50) << theData << theSizeHint << theResult; // theResult // << BasicResult(0, QRectF(10, 0, 80, 50) ) // << BasicResult(1, QRectF(100, 0, 60, 50) ) // << BasicResult(2, QRectF(100, 0, 60, 50) ) // ; // QTest::newRow("Three, serial is bigger") << QSizeF(170, 50) << theData << theSizeHint << theResult; } // Three widgets, parallel is bigger { BasicLayoutTestDataList theData; AnchorItemSizeHintList theSizeHint; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 2, Qt::AnchorTop, 0) ; theSizeHint << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 100, 200, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) ; // ### QGAL uses a different preferred size calculation algorithm. // This algorithm was discussed with Jan-Arve and tries to grow // items instead of shrinking them. // In this case, the preferred size of each item becomes: // Item 0: 50 // Item 1: 100 (grows to avoid shrinking item 2) // Item 2: 100 // Therefore, the preferred size of the parent widget becomes // 180 == (10 + 50 + 10 + 100 + 10) // As we set its size to 150, each widget is shrinked in the same // ratio, in order to achieve the width of 150 == (10 + 40 + 10 + 80 + 10) theResult << BasicResult(0, QRectF(10, 0, 40, 50) ) << BasicResult(1, QRectF(60, 0, 80, 50) ) << BasicResult(2, QRectF(60, 0, 80, 50) ) ; QTest::newRow("Three, parallel is bigger") << QSizeF(150, 50) << theData << theSizeHint << theResult; // #ifdef PREFERRED_IS_AVERAGE // theResult // << BasicResult(0, QRectF(10, 0, 50, 50) ) // << BasicResult(1, QRectF(70, 0, 75, 50) ) // << BasicResult(2, QRectF(70, 0, 75, 50) ) // ; // QTest::newRow("Three, parallel is bigger") << QSizeF(155, 50) << theData << theSizeHint << theResult; // #else // theResult // << BasicResult(0, QRectF(10, 0, 50, 50) ) // << BasicResult(1, QRectF(70, 0, 66.66666666666666, 50) ) // << BasicResult(2, QRectF(70, 0, 60.66666666666666, 50) ) // ; // QTest::newRow("Three, parallel is bigger") << QSizeF(146.66666666666666, 50) << theData << theSizeHint << theResult; // #endif } // Three widgets, the same sizehint, one center anchor { BasicLayoutTestDataList theData; AnchorItemSizeHintList theSizeHint; BasicLayoutTestResultList theResult; theData << BasicData(-1, Qt::AnchorLeft, 0, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorRight, 1, Qt::AnchorLeft, 10) << BasicData(0, Qt::AnchorHorizontalCenter, 2, Qt::AnchorLeft, 10) << BasicData(1, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(2, Qt::AnchorRight, -1, Qt::AnchorRight, 10) << BasicData(-1, Qt::AnchorTop, 0, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 1, Qt::AnchorTop, 0) << BasicData(-1, Qt::AnchorTop, 2, Qt::AnchorTop, 0) ; theSizeHint << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) << AnchorItemSizeHint( 0, 50, 100, 0, 50, 100 ) ; theResult << BasicResult(0, QRectF(10, 0, 40, 50) ) << BasicResult(1, QRectF(60, 0, 40, 50) ) << BasicResult(2, QRectF(40, 0, 60, 50) ) ; ; QTest::newRow("Three, the same sizehint, one center anchor") << QSizeF(110, 50) << theData << theSizeHint << theResult; } } void tst_QGraphicsAnchorLayout1::testComplexCases() { QFETCH(QSizeF, size); QFETCH(BasicLayoutTestDataList, data); QFETCH(AnchorItemSizeHintList, sizehint); QFETCH(BasicLayoutTestResultList, result); QGraphicsWidget *widget = new QGraphicsWidget; // Determine amount of widgets to add. int widgetCount = -1; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; widgetCount = qMax(widgetCount, item.firstIndex); widgetCount = qMax(widgetCount, item.secondIndex); } ++widgetCount; // widgetCount is max of indices. // Create dummy widgets QList widgets; for (int i = 0; i < widgetCount; ++i) { TestWidget *w = new TestWidget; w->setMinimumWidth( sizehint[i].hmin ); w->setPreferredWidth( sizehint[i].hpref ); w->setMaximumWidth( sizehint[i].hmax ); w->setMinimumHeight( sizehint[i].vmin ); w->setPreferredHeight( sizehint[i].vpref ); w->setMaximumHeight( sizehint[i].vmax ); widgets << w; } // Setup anchor layout TheAnchorLayout *layout = new TheAnchorLayout; for (int i = 0; i < data.count(); ++i) { const BasicLayoutTestData item = data[i]; layout->setAnchor( getItem(item.firstIndex, widgets, layout), item.firstEdge, getItem(item.secondIndex, widgets, layout), item.secondEdge, item.spacing ); } widget->setLayout(layout); widget->setContentsMargins(0,0,0,0); widget->resize(size); QCOMPARE(widget->size(), size); // QTest::qWait(500); // layouting is asynchronous.. // Validate for (int i = 0; i < result.count(); ++i) { const BasicLayoutTestResult item = result[i]; QCOMPARE(widgets[item.index]->geometry(), item.rect); } // Test mirrored mode widget->setLayoutDirection(Qt::RightToLeft); layout->activate(); // Validate for (int j = 0; j < result.count(); ++j) { const BasicLayoutTestResult item = result[j]; QRectF mirroredRect(item.rect); // only valid cases are mirrored if (mirroredRect.isValid()){ mirroredRect.moveLeft(size.width()-item.rect.width()-item.rect.left()); } QCOMPARE(widgets[item.index]->geometry(), mirroredRect); delete widgets[item.index]; } delete widget; } #endif //TEST_COMPLEX_CASES QTEST_MAIN(tst_QGraphicsAnchorLayout1) #include "tst_qgraphicsanchorlayout1.moc" //-----------------------------------------------------------------------------