/**************************************************************************** ** ** Copyright (C) 2009 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 #include class tst_QGraphicsAnchorLayout : public QObject { Q_OBJECT; public: tst_QGraphicsAnchorLayout() : QObject() { hasSimplification = qgetenv("QT_ANCHORLAYOUT_NO_SIMPLIFICATION").isEmpty(); } private: bool hasSimplification; private slots: void simple(); void simple_center(); void simple_semifloat(); void layoutDirection(); void diagonal(); void parallel(); void parallel2(); void snake(); void snakeOppositeDirections(); void fairDistribution(); void fairDistributionOppositeDirections(); void proportionalPreferred(); void example(); void setSpacing(); void styleDefaults(); void hardComplexS60(); void stability(); void delete_anchor(); void conflicts(); void sizePolicy(); void floatConflict(); void infiniteMaxSizes(); void simplifiableUnfeasible(); void simplificationVsOrder(); void parallelSimplificationOfCenter(); void simplificationVsRedundance(); void spacingPersistency(); void snakeParallelWithLayout(); void parallelToHalfLayout(); void globalSpacing(); }; class RectWidget : public QGraphicsWidget { public: RectWidget(QGraphicsItem *parent = 0) : QGraphicsWidget(parent){} void paint(QPainter *painter, const QStyleOptionGraphicsItem *option, QWidget *widget) { Q_UNUSED(option); Q_UNUSED(widget); painter->drawRoundRect(rect()); painter->drawLine(rect().topLeft(), rect().bottomRight()); painter->drawLine(rect().bottomLeft(), rect().topRight()); } }; static QGraphicsWidget *createItem(const QSizeF &minimum = QSizeF(100.0, 100.0), const QSizeF &preferred = QSize(150.0, 100.0), const QSizeF &maximum = QSizeF(200.0, 100.0), const QString &name = QString()) { QGraphicsWidget *w = new RectWidget; w->setMinimumSize(minimum); w->setPreferredSize(preferred); w->setMaximumSize(maximum); w->setData(0, name); return w; } static void setAnchor(QGraphicsAnchorLayout *l, QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge, QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge, qreal spacing = 0) { QGraphicsAnchor *anchor = l->addAnchor(firstItem, firstEdge, secondItem, secondEdge); anchor->setSpacing(spacing); } static bool checkReverseDirection(QGraphicsWidget *w) { QGraphicsLayout *l = w->layout(); Q_ASSERT(l); qreal left, top, right, bottom; l->getContentsMargins(&left, &top, &right, &bottom); w->setLayoutDirection(Qt::LeftToRight); QApplication::processEvents(); const QRectF lg = l->geometry(); QMap geometries; for (int i = 0; i < l->count(); ++i) { QGraphicsLayoutItem *w = l->itemAt(i); geometries.insert(w, w->geometry()); } w->setLayoutDirection(Qt::RightToLeft); QApplication::processEvents(); lg.adjusted(+right, +top, -left, -bottom); for (int i = 0; i < l->count(); ++i) { QGraphicsLayoutItem *w = l->itemAt(i); const QRectF rtlGeom = w->geometry(); const QRectF ltrGeom = geometries.value(w); QRectF expectedGeom = ltrGeom; expectedGeom.moveRight(lg.right() - (0 + ltrGeom.left())); if (expectedGeom != rtlGeom) { qDebug() << "layout->geometry():" << lg << "expected:" << expectedGeom << "actual:" << rtlGeom; return false; } } return true; } static bool layoutHasConflict(QGraphicsAnchorLayout *l) { return QGraphicsAnchorLayoutPrivate::get(l)->hasConflicts(); } static bool usedSimplex(QGraphicsAnchorLayout *l, Qt::Orientation o) { QGraphicsAnchorLayoutPrivate::Orientation oo = (o == Qt::Horizontal) ? QGraphicsAnchorLayoutPrivate::Horizontal : QGraphicsAnchorLayoutPrivate::Vertical; return QGraphicsAnchorLayoutPrivate::get(l)->lastCalculationUsedSimplex[oo]; } void tst_QGraphicsAnchorLayout::simple() { QGraphicsWidget *w1 = createItem(); QGraphicsWidget *w2 = createItem(); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); // Horizontal l->addAnchor(l, Qt::AnchorLeft, w1, Qt::AnchorLeft); l->addAnchor(w1, Qt::AnchorRight, w2, Qt::AnchorLeft); l->addAnchor(w2, Qt::AnchorRight, l, Qt::AnchorRight); // Vertical l->addAnchors(l, w1, Qt::Vertical); l->addAnchors(l, w2, Qt::Vertical); QCOMPARE(l->count(), 2); QGraphicsWidget p; p.setLayout(l); p.adjustSize(); if (hasSimplification) { QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } } void tst_QGraphicsAnchorLayout::simple_center() { QSizeF min(10, 10); QSizeF pref(50, 10); QSizeF max(100, 10); QGraphicsWidget *a = createItem(min, pref, max, "a"); QGraphicsWidget *b = createItem(min, pref, max, "b"); QGraphicsWidget *c = createItem(min, pref, max, "c"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); // horizontal setAnchor(l, l, Qt::AnchorLeft, a, Qt::AnchorLeft, 0); setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft, 0); setAnchor(l, b, Qt::AnchorRight, l, Qt::AnchorRight, 0); setAnchor(l, a, Qt::AnchorHorizontalCenter, c, Qt::AnchorLeft, 0); setAnchor(l, c, Qt::AnchorRight, b, Qt::AnchorHorizontalCenter, 0); // vertical setAnchor(l, l, Qt::AnchorTop, a, Qt::AnchorTop, 0); setAnchor(l, l, Qt::AnchorTop, b, Qt::AnchorTop, 0); setAnchor(l, a, Qt::AnchorBottom, c, Qt::AnchorTop, 0); setAnchor(l, b, Qt::AnchorBottom, c, Qt::AnchorTop, 0); setAnchor(l, c, Qt::AnchorBottom, l, Qt::AnchorBottom, 0); QCOMPARE(l->count(), 3); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); p->setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QCOMPARE(layoutMinimumSize, QSizeF(20, 20)); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMaximumSize, QSizeF(200, 20)); if (hasSimplification) { QVERIFY(usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } delete p; } void tst_QGraphicsAnchorLayout::simple_semifloat() { // Useful for testing simplification between A_left and B_left. // Unfortunately the only way to really test that now is to manually inspect the // simplified graph. QSizeF min(10, 10); QSizeF pref(50, 10); QSizeF max(100, 10); QGraphicsWidget *A = createItem(min, pref, max, "A"); QGraphicsWidget *B = createItem(min, pref, max, "B"); QGraphicsWidget *a = createItem(min, pref, max, "a"); QGraphicsWidget *b = createItem(min, pref, max, "b"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); // horizontal setAnchor(l, l, Qt::AnchorLeft, A, Qt::AnchorLeft, 0); setAnchor(l, A, Qt::AnchorRight, B, Qt::AnchorLeft, 0); setAnchor(l, B, Qt::AnchorRight, l, Qt::AnchorRight, 0); setAnchor(l, A, Qt::AnchorLeft, a, Qt::AnchorLeft, 0); setAnchor(l, B, Qt::AnchorLeft, b, Qt::AnchorLeft, 0); // vertical setAnchor(l, l, Qt::AnchorTop, A, Qt::AnchorTop, 0); setAnchor(l, l, Qt::AnchorTop, B, Qt::AnchorTop, 0); setAnchor(l, A, Qt::AnchorBottom, a, Qt::AnchorTop, 0); setAnchor(l, B, Qt::AnchorBottom, b, Qt::AnchorTop, 0); setAnchor(l, a, Qt::AnchorBottom, l, Qt::AnchorBottom, 0); setAnchor(l, b, Qt::AnchorBottom, l, Qt::AnchorBottom, 0); QCOMPARE(l->count(), 4); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); p->setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QCOMPARE(layoutMinimumSize, QSizeF(20, 20)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(100, 20)); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMaximumSize, QSizeF(200, 20)); delete p; } void tst_QGraphicsAnchorLayout::layoutDirection() { QSizeF min(10, 10); QSizeF pref(50, 10); QSizeF max(100, 10); QGraphicsWidget *a = createItem(min, pref, max, "a"); QGraphicsWidget *b = createItem(min, pref, max, "b"); QGraphicsWidget *c = createItem(min, pref, QSizeF(100, 20), "c"); a->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); b->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); c->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 5, 10, 15); // horizontal setAnchor(l, l, Qt::AnchorLeft, a, Qt::AnchorLeft, 0); setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft, 0); setAnchor(l, b, Qt::AnchorRight, l, Qt::AnchorRight, 0); setAnchor(l, a, Qt::AnchorHorizontalCenter, c, Qt::AnchorLeft, 0); setAnchor(l, c, Qt::AnchorRight, b, Qt::AnchorHorizontalCenter, 0); // vertical setAnchor(l, l, Qt::AnchorTop, a, Qt::AnchorTop, 0); setAnchor(l, l, Qt::AnchorTop, b, Qt::AnchorTop, 0); setAnchor(l, a, Qt::AnchorBottom, c, Qt::AnchorTop, 0); setAnchor(l, b, Qt::AnchorBottom, c, Qt::AnchorTop, 0); setAnchor(l, c, Qt::AnchorBottom, l, Qt::AnchorBottom, 0); QCOMPARE(l->count(), 3); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); p->setLayoutDirection(Qt::LeftToRight); p->setLayout(l); QGraphicsScene scene; QGraphicsView *view = new QGraphicsView(&scene); scene.addItem(p); p->show(); view->show(); QCOMPARE(checkReverseDirection(p), true); if (hasSimplification) { QVERIFY(usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } delete p; delete view; } void tst_QGraphicsAnchorLayout::diagonal() { QSizeF min(10, 100); QSizeF pref(70, 100); QSizeF max(100, 100); QGraphicsWidget *a = createItem(min, pref, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget *c = createItem(min, pref, max, "C"); QGraphicsWidget *d = createItem(min, pref, max, "D"); QGraphicsWidget *e = createItem(min, pref, max, "E"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); // vertical l->addAnchor(a, Qt::AnchorTop, l, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorTop, l, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorTop, a, Qt::AnchorBottom); l->addAnchor(c, Qt::AnchorTop, b, Qt::AnchorBottom); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, e, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(e, Qt::AnchorBottom, l, Qt::AnchorBottom); // horizontal l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorLeft, d, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, e, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(e, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(d, Qt::AnchorRight, e, Qt::AnchorLeft); QCOMPARE(l->count(), 5); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(30.0, 300.0)); QCOMPARE(layoutPreferredSize, QSizeF(170.0, 300.0)); QCOMPARE(layoutMaximumSize, QSizeF(190.0, 300.0)); p.resize(layoutMinimumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 10.0, 100.0)); QCOMPARE(b->geometry(), QRectF(10.0, 0.0, 20.0, 100.0)); QCOMPARE(c->geometry(), QRectF(10.0, 100.0, 10.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 200.0, 20.0, 100.0)); QCOMPARE(e->geometry(), QRectF(20.0, 200.0, 10.0, 100.0)); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 70.0, 100.0)); QCOMPARE(b->geometry(), QRectF(70.0, 0.0, 100.0, 100.0)); QCOMPARE(c->geometry(), QRectF(70.0, 100.0, 30.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 200.0, 100.0, 100.0)); QCOMPARE(e->geometry(), QRectF(100.0, 200.0, 70.0, 100.0)); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 90.0, 100.0)); QCOMPARE(b->geometry(), QRectF(90.0, 0.0, 100.0, 100.0)); QCOMPARE(c->geometry(), QRectF(90.0, 100.0, 10.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 200.0, 100.0, 100.0)); QCOMPARE(e->geometry(), QRectF(100.0, 200.0, 90.0, 100.0)); QCOMPARE(p.size(), layoutMaximumSize); QSizeF testA(175.0, 300.0); p.resize(testA); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 75.0, 100.0)); QCOMPARE(b->geometry(), QRectF(75.0, 0.0, 100.0, 100.0)); QCOMPARE(c->geometry(), QRectF(75.0, 100.0, 25.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 200.0, 100.0, 100.0)); QCOMPARE(e->geometry(), QRectF(100.0, 200.0, 75.0, 100.0)); QCOMPARE(p.size(), testA); if (hasSimplification) { QVERIFY(usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } QCOMPARE(checkReverseDirection(&p), true); c->setMinimumWidth(300); QVERIFY(layoutHasConflict(l)); } void tst_QGraphicsAnchorLayout::parallel() { QGraphicsWidget *a = createItem(QSizeF(100, 100), QSizeF(150, 100), QSizeF(200, 100), "A"); QGraphicsWidget *b = createItem(QSizeF(100, 100), QSizeF(150, 100), QSizeF(300, 100), "B"); QGraphicsWidget *c = createItem(QSizeF(100, 100), QSizeF(200, 100), QSizeF(350, 100), "C"); QGraphicsWidget *d = createItem(QSizeF(100, 100), QSizeF(170, 100), QSizeF(200, 100), "D"); QGraphicsWidget *e = createItem(QSizeF(150, 100), QSizeF(150, 100), QSizeF(200, 100), "E"); QGraphicsWidget *f = createItem(QSizeF(100, 100), QSizeF(150, 100), QSizeF(200, 100), "F"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, e, Qt::AnchorTop); l->addAnchor(e, Qt::AnchorBottom, f, Qt::AnchorTop); l->addAnchor(f, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, c, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, d, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, e, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, f, Qt::AnchorLeft); l->addAnchor(d, Qt::AnchorRight, f, Qt::AnchorLeft); l->addAnchor(e, Qt::AnchorRight, f, Qt::AnchorLeft); l->addAnchor(f, Qt::AnchorRight, l, Qt::AnchorRight); QCOMPARE(l->count(), 6); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMinimumSize, QSizeF(450, 600)); QCOMPARE(layoutPreferredSize, QSizeF(620, 600)); QCOMPARE(layoutMaximumSize, QSizeF(750, 600)); p.resize(layoutMinimumSize); QCOMPARE(a->geometry(), QRectF(0, 0, 100, 100)); QCOMPARE(b->geometry(), QRectF(100, 100, 100, 100)); QCOMPARE(c->geometry(), QRectF(100, 200, 250, 100)); QCOMPARE(d->geometry(), QRectF(200, 300, 150, 100)); QCOMPARE(e->geometry(), QRectF(200, 400, 150, 100)); QCOMPARE(f->geometry(), QRectF(350, 500, 100, 100)); QCOMPARE(p.size(), layoutMinimumSize); if (!hasSimplification) return; p.resize(layoutPreferredSize); QCOMPARE(a->geometry(), QRectF(0, 0, 150, 100)); QCOMPARE(b->geometry(), QRectF(150, 100, 150, 100)); QCOMPARE(c->geometry(), QRectF(150, 200, 320, 100)); QCOMPARE(d->geometry(), QRectF(300, 300, 170, 100)); QCOMPARE(e->geometry(), QRectF(300, 400, 170, 100)); QCOMPARE(f->geometry(), QRectF(470, 500, 150, 100)); QCOMPARE(p.size(), layoutPreferredSize); // Maximum size depends on simplification / fair distribution // Without that, test may or may not pass, depending on the // solution found by the solver at runtime. p.resize(layoutMaximumSize); QCOMPARE(a->geometry(), QRectF(0, 0, 200, 100)); QCOMPARE(b->geometry(), QRectF(200, 100, 175, 100)); QCOMPARE(c->geometry(), QRectF(200, 200, 350, 100)); QCOMPARE(d->geometry(), QRectF(375, 300, 175, 100)); QCOMPARE(e->geometry(), QRectF(375, 400, 175, 100)); QCOMPARE(f->geometry(), QRectF(550, 500, 200, 100)); QCOMPARE(p.size(), layoutMaximumSize); QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } void tst_QGraphicsAnchorLayout::parallel2() { QGraphicsWidget *a = createItem(QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), QSizeF(200.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(100.0, 100.0), QSizeF(150.0, 100.0), QSizeF(190.0, 100.0), "B"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchors(l, a, Qt::Horizontal); l->addAnchor(l, Qt::AnchorLeft, b, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, a, Qt::AnchorRight); QCOMPARE(l->count(), 2); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMinimumSize, QSizeF(100.0, 200.0)); QCOMPARE(layoutPreferredSize, QSizeF(150.0, 200.0)); QCOMPARE(layoutMaximumSize, QSizeF(190.0, 200.0)); p.resize(layoutMinimumSize); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(p.size(), layoutMaximumSize); if (hasSimplification) { QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } } void tst_QGraphicsAnchorLayout::snake() { QGraphicsWidget *a = createItem(QSizeF(50.0, 100.0), QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(10.0, 100.0), QSizeF(20.0, 100.0), QSizeF(40.0, 100.0), "B"); QGraphicsWidget *c = createItem(QSizeF(50.0, 100.0), QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), "C"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorRight); l->addAnchor(b, Qt::AnchorLeft, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); QCOMPARE(l->count(), 3); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(60.0, 300.0)); QCOMPARE(layoutPreferredSize, QSizeF(120.0, 300.0)); QCOMPARE(layoutMaximumSize, QSizeF(190.0, 300.0)); p.resize(layoutMinimumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 50.0, 100.0)); QCOMPARE(b->geometry(), QRectF(10.0, 100.0, 40.0, 100.0)); QCOMPARE(c->geometry(), QRectF(10.0, 200.0, 50.0, 100.0)); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 70.0, 100.0)); QCOMPARE(b->geometry(), QRectF(50.0, 100.0, 20.0, 100.0)); QCOMPARE(c->geometry(), QRectF(50.0, 200.0, 70.0, 100.0)); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 100.0, 100.0)); QCOMPARE(b->geometry(), QRectF(90.0, 100.0, 10.0, 100.0)); QCOMPARE(c->geometry(), QRectF(90.0, 200.0, 100.0, 100.0)); QCOMPARE(p.size(), layoutMaximumSize); QVERIFY(layoutHasConflict(l) == false); // Test QSizePolicy::ExpandFlag, it shouldn't change the extreme // points of the layout... b->setSizePolicy(QSizePolicy::Expanding, QSizePolicy::Preferred); QSizeF newLayoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF newLayoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF newLayoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, newLayoutMinimumSize); QCOMPARE(layoutMaximumSize, newLayoutMaximumSize); QCOMPARE(layoutPreferredSize, newLayoutPreferredSize); } void tst_QGraphicsAnchorLayout::snakeOppositeDirections() { QGraphicsWidget *a = createItem(QSizeF(50.0, 100.0), QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(10.0, 100.0), QSizeF(20.0, 100.0), QSizeF(40.0, 100.0), "B"); QGraphicsWidget *c = createItem(QSizeF(50.0, 100.0), QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), "C"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); // Both a and c are 'pointing' to b l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorRight); l->addAnchor(c, Qt::AnchorLeft, b, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); QCOMPARE(l->count(), 3); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(60.0, 300.0)); QCOMPARE(layoutPreferredSize, QSizeF(120.0, 300.0)); QCOMPARE(layoutMaximumSize, QSizeF(190.0, 300.0)); p.resize(layoutMinimumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 50.0, 100.0)); QCOMPARE(b->geometry(), QRectF(10.0, 100.0, 40.0, 100.0)); QCOMPARE(c->geometry(), QRectF(10.0, 200.0, 50.0, 100.0)); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 70.0, 100.0)); QCOMPARE(b->geometry(), QRectF(50.0, 100.0, 20.0, 100.0)); QCOMPARE(c->geometry(), QRectF(50.0, 200.0, 70.0, 100.0)); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 100.0, 100.0)); QCOMPARE(b->geometry(), QRectF(90.0, 100.0, 10.0, 100.0)); QCOMPARE(c->geometry(), QRectF(90.0, 200.0, 100.0, 100.0)); QCOMPARE(p.size(), layoutMaximumSize); QCOMPARE(checkReverseDirection(&p), true); } void tst_QGraphicsAnchorLayout::fairDistribution() { QGraphicsWidget *a = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "B"); QGraphicsWidget *c = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "C"); QGraphicsWidget *d = createItem(QSizeF(60.0, 100.0), QSizeF(165.0, 100.0), QSizeF(600.0, 100.0), "D"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(l, Qt::AnchorLeft, d, Qt::AnchorLeft); l->addAnchor(d, Qt::AnchorRight, l, Qt::AnchorRight); QCOMPARE(l->count(), 4); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(60.0, 400.0)); QCOMPARE(layoutPreferredSize, QSizeF(165.0, 400.0)); QCOMPARE(layoutMaximumSize, QSizeF(300.0, 400.0)); p.resize(layoutMinimumSize); if (!hasSimplification) QEXPECT_FAIL("", "Without simplification there is no fair distribution.", Abort); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 20.0, 100.0)); QCOMPARE(b->geometry(), QRectF(20.0, 100.0, 20.0, 100.0)); QCOMPARE(c->geometry(), QRectF(40.0, 200.0, 20.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 300.0, 60.0, 100.0)); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 55.0, 100.0)); QCOMPARE(b->geometry(), QRectF(55.0, 100.0, 55.0, 100.0)); QCOMPARE(c->geometry(), QRectF(110.0, 200.0, 55.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 300.0, 165.0, 100.0)); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(a->geometry(), QRectF(0.0, 0.0, 100.0, 100.0)); QCOMPARE(b->geometry(), QRectF(100.0, 100.0, 100.0, 100.0)); QCOMPARE(c->geometry(), QRectF(200.0, 200.0, 100.0, 100.0)); QCOMPARE(d->geometry(), QRectF(0.0, 300.0, 300.0, 100.0)); QCOMPARE(p.size(), layoutMaximumSize); if (hasSimplification) { QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } } void tst_QGraphicsAnchorLayout::fairDistributionOppositeDirections() { QGraphicsWidget *a = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "B"); QGraphicsWidget *c = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "C"); QGraphicsWidget *d = createItem(QSizeF(10.0, 100.0), QSizeF(50.0, 100.0), QSizeF(100.0, 100.0), "D"); QGraphicsWidget *e = createItem(QSizeF(60.0, 100.0), QSizeF(220.0, 100.0), QSizeF(600.0, 100.0), "E"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, e, Qt::AnchorTop); l->addAnchor(e, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(a, Qt::AnchorLeft, l, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorLeft, a, Qt::AnchorRight); l->addAnchor(c, Qt::AnchorLeft, b, Qt::AnchorRight); l->addAnchor(d, Qt::AnchorLeft, c, Qt::AnchorRight); l->addAnchor(d, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchors(l, e, Qt::Horizontal); QCOMPARE(l->count(), 5); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(60.0, 500.0)); QCOMPARE(layoutPreferredSize, QSizeF(220.0, 500.0)); QCOMPARE(layoutMaximumSize, QSizeF(400.0, 500.0)); if (!hasSimplification) return; p.resize(layoutMinimumSize); QCOMPARE(a->size(), b->size()); QCOMPARE(a->size(), c->size()); QCOMPARE(a->size(), d->size()); QCOMPARE(e->size().width(), 4 * a->size().width()); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(a->size(), b->size()); QCOMPARE(a->size(), c->size()); QCOMPARE(a->size(), d->size()); QCOMPARE(e->size().width(), 4 * a->size().width()); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(a->size(), b->size()); QCOMPARE(a->size(), c->size()); QCOMPARE(a->size(), d->size()); QCOMPARE(e->size().width(), 4 * a->size().width()); QCOMPARE(p.size(), layoutMaximumSize); QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } void tst_QGraphicsAnchorLayout::proportionalPreferred() { QSizeF min(0, 100); QGraphicsWidget *a = createItem(min, QSizeF(10, 100), QSizeF(20, 100), "A"); QGraphicsWidget *b = createItem(min, QSizeF(20, 100), QSizeF(30, 100), "B"); QGraphicsWidget *c = createItem(min, QSizeF(14, 100), QSizeF(20, 100), "C"); QGraphicsWidget *d = createItem(min, QSizeF(10, 100), QSizeF(20, 100), "D"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorLeft, b, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, c, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, d, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(d, Qt::AnchorRight, l, Qt::AnchorRight); QCOMPARE(l->count(), 4); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMinimumSize, QSizeF(0, 400)); QCOMPARE(layoutPreferredSize, QSizeF(24, 400)); QCOMPARE(layoutMaximumSize, QSizeF(30, 400)); p.resize(layoutMinimumSize); QCOMPARE(p.size(), layoutMinimumSize); p.resize(layoutPreferredSize); QCOMPARE(c->size().width(), d->size().width()); QCOMPARE(p.size(), layoutPreferredSize); p.resize(layoutMaximumSize); QCOMPARE(p.size(), layoutMaximumSize); p.resize(QSizeF(12, 400)); // Proportionality between size given and preferred size, this // should be respected in this graph for (a) and (b)|(c). qreal factor = 12.0 / 24.0; QCOMPARE(c->size().width(), d->size().width()); QCOMPARE(a->size().width(), 10 * factor); QCOMPARE(c->size().width(), 14 * factor); QCOMPARE(p.size(), QSizeF(12, 400)); if (hasSimplification) { QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } } void tst_QGraphicsAnchorLayout::example() { QSizeF min(30, 100); QSizeF pref(210, 100); QSizeF max(300, 100); QGraphicsWidget *a = createItem(min, pref, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget *c = createItem(min, pref, max, "C"); QGraphicsWidget *d = createItem(min, pref, max, "D"); QGraphicsWidget *e = createItem(min, pref, max, "E"); QGraphicsWidget *f = createItem(QSizeF(30, 50), QSizeF(150, 50), max, "F"); QGraphicsWidget *g = createItem(QSizeF(30, 50), QSizeF(30, 100), max, "G"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); // vertical l->addAnchor(a, Qt::AnchorTop, l, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorTop, l, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorTop, a, Qt::AnchorBottom); l->addAnchor(c, Qt::AnchorTop, b, Qt::AnchorBottom); l->addAnchor(c, Qt::AnchorBottom, d, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, e, Qt::AnchorTop); l->addAnchor(d, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(e, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchor(c, Qt::AnchorTop, f, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorVerticalCenter, f, Qt::AnchorBottom); l->addAnchor(f, Qt::AnchorBottom, g, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, g, Qt::AnchorBottom); // horizontal l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorLeft, d, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, e, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(e, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(d, Qt::AnchorRight, e, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorLeft, f, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorLeft, g, Qt::AnchorLeft); l->addAnchor(f, Qt::AnchorRight, g, Qt::AnchorRight); QCOMPARE(l->count(), 7); QGraphicsWidget p; p.setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutMinimumSize, QSizeF(90.0, 300.0)); QCOMPARE(layoutPreferredSize, QSizeF(510.0, 300.0)); QCOMPARE(layoutMaximumSize, QSizeF(570.0, 300.0)); p.resize(layoutMinimumSize); QCOMPARE(p.size(), layoutMinimumSize); QCOMPARE(a->size(), e->size()); QCOMPARE(b->size(), d->size()); QCOMPARE(f->size(), g->size()); p.resize(layoutPreferredSize); QCOMPARE(p.size(), layoutPreferredSize); QCOMPARE(a->size(), e->size()); QCOMPARE(b->size(), d->size()); QCOMPARE(f->size(), g->size()); p.resize(layoutMaximumSize); QCOMPARE(p.size(), layoutMaximumSize); QCOMPARE(a->size(), e->size()); QCOMPARE(b->size(), d->size()); QCOMPARE(f->size(), g->size()); if (hasSimplification) { QVERIFY(usedSimplex(l, Qt::Horizontal)); QVERIFY(usedSimplex(l, Qt::Vertical)); } } void tst_QGraphicsAnchorLayout::setSpacing() { QSizeF min(10, 10); QSizeF pref(20, 20); QSizeF max(50, 50); QGraphicsWidget *a = createItem(min, pref, max); QGraphicsWidget *b = createItem(min, pref, max); QGraphicsWidget *c = createItem(min, pref, max); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->addCornerAnchors(l, Qt::TopLeftCorner, a, Qt::TopLeftCorner); l->addCornerAnchors(b, Qt::TopRightCorner, l, Qt::TopRightCorner); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchors(l, c, Qt::Horizontal); l->addAnchor(a, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, l, Qt::AnchorBottom); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); p->setLayout(l); l->setSpacing(1); // don't let the style influence the test. l->setContentsMargins(0, 0, 0, 0); QGraphicsScene scene; scene.addItem(p); QGraphicsView *view = new QGraphicsView(&scene); view->show(); p->show(); QApplication::processEvents(); #ifdef Q_WS_MAC QTest::qWait(200); #endif QCOMPARE(a->geometry(), QRectF(0, 0, 20, 20)); QCOMPARE(b->geometry(), QRectF(21, 0, 20, 20)); QCOMPARE(c->geometry(), QRectF(0, 21, 41, 20)); l->setHorizontalSpacing(4); QApplication::processEvents(); p->adjustSize(); QCOMPARE(a->geometry(), QRectF(0, 0, 20, 20)); QCOMPARE(b->geometry(), QRectF(24, 0, 20, 20)); QCOMPARE(c->geometry(), QRectF(0, 21, 44, 20)); l->setVerticalSpacing(0); QApplication::processEvents(); p->adjustSize(); QCOMPARE(a->geometry(), QRectF(0, 0, 20, 20)); QCOMPARE(b->geometry(), QRectF(24, 0, 20, 20)); QCOMPARE(c->geometry(), QRectF(0, 20, 44, 20)); delete p; delete view; } class CustomLayoutStyle : public QWindowsStyle { Q_OBJECT public: CustomLayoutStyle() : QWindowsStyle() { hspacing = 5; vspacing = 10; } virtual int pixelMetric(PixelMetric metric, const QStyleOption * option = 0, const QWidget * widget = 0 ) const; int hspacing; int vspacing; protected slots: int layoutSpacingImplementation(QSizePolicy::ControlType control1, QSizePolicy::ControlType control2, Qt::Orientation orientation, const QStyleOption *option = 0, const QWidget *widget = 0) const; }; #define CT1(c) CT2(c, c) #define CT2(c1, c2) ((uint)c1 << 16) | (uint)c2 int CustomLayoutStyle::layoutSpacingImplementation(QSizePolicy::ControlType control1, QSizePolicy::ControlType control2, Qt::Orientation orientation, const QStyleOption * /*option = 0*/, const QWidget * /*widget = 0*/) const { if (orientation == Qt::Horizontal) { switch (CT2(control1, control2)) { case CT1(QSizePolicy::PushButton): return 2; break; } return 5; } else { switch (CT2(control1, control2)) { case CT1(QSizePolicy::RadioButton): return 2; break; } return 10; } } int CustomLayoutStyle::pixelMetric(PixelMetric metric, const QStyleOption * option /*= 0*/, const QWidget * widget /*= 0*/ ) const { switch (metric) { case PM_LayoutLeftMargin: return 0; break; case PM_LayoutTopMargin: return 3; break; case PM_LayoutRightMargin: return 6; break; case PM_LayoutBottomMargin: return 9; break; case PM_LayoutHorizontalSpacing: return hspacing; case PM_LayoutVerticalSpacing: return vspacing; break; default: break; } return QWindowsStyle::pixelMetric(metric, option, widget); } void tst_QGraphicsAnchorLayout::styleDefaults() { QSizeF min (10, 10); QSizeF pref(20, 20); QSizeF max (50, 50); /* create this layout, where a,b have controlType QSizePolicy::RadioButton c,d have controlType QSizePolicy::PushButton: +-------+ |a | | b | | c | | d| +-------+ */ QGraphicsScene scene; QGraphicsWidget *a = createItem(min, pref, max); QSizePolicy spRadioButton = a->sizePolicy(); spRadioButton.setControlType(QSizePolicy::RadioButton); a->setSizePolicy(spRadioButton); QGraphicsWidget *b = createItem(min, pref, max); b->setSizePolicy(spRadioButton); QGraphicsWidget *c = createItem(min, pref, max); QSizePolicy spPushButton = c->sizePolicy(); spPushButton.setControlType(QSizePolicy::PushButton); c->setSizePolicy(spPushButton); QGraphicsWidget *d = createItem(min, pref, max); d->setSizePolicy(spPushButton); QGraphicsWidget *window = new QGraphicsWidget(0, Qt::Window); // Test layoutSpacingImplementation CustomLayoutStyle *style = new CustomLayoutStyle; style->hspacing = -1; style->vspacing = -1; window->setStyle(style); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->addCornerAnchors(l, Qt::TopLeftCorner, a, Qt::TopLeftCorner); l->addCornerAnchors(a, Qt::BottomRightCorner, b, Qt::TopLeftCorner); l->addCornerAnchors(b, Qt::BottomRightCorner, c, Qt::TopLeftCorner); l->addCornerAnchors(c, Qt::BottomRightCorner, d, Qt::TopLeftCorner); l->addCornerAnchors(d, Qt::BottomRightCorner, l, Qt::BottomRightCorner); window->setLayout(l); scene.addItem(window); window->show(); QGraphicsView *view = new QGraphicsView(&scene); view->resize(200, 200); view->show(); window->adjustSize(); QCOMPARE(a->geometry(), QRectF(0, 3, 20, 20)); //radio QCOMPARE(b->geometry(), QRectF(25, 25, 20, 20)); //radio QCOMPARE(c->geometry(), QRectF(50, 55, 20, 20)); //push QCOMPARE(d->geometry(), QRectF(72, 85, 20, 20)); //push QCOMPARE(l->geometry(), QRectF(0, 0, 98, 114)); // Test pixelMetric(PM_Layout{Horizontal|Vertical}Spacing window->setStyle(0); style->hspacing = 1; style->vspacing = 2; window->setStyle(style); window->adjustSize(); QCOMPARE(a->geometry(), QRectF(0, 3, 20, 20)); QCOMPARE(b->geometry(), QRectF(21, 25, 20, 20)); QCOMPARE(c->geometry(), QRectF(42, 47, 20, 20)); QCOMPARE(d->geometry(), QRectF(63, 69, 20, 20)); QCOMPARE(l->geometry(), QRectF(0, 0, 89, 98)); } /*! Taken from "hard" complex case, found at https://cwiki.nokia.com/S60QTUI/AnchorLayoutComplexCases This layout has a special property, since it has two possible solutions for its minimum size. For instance, when it is in its minimum size - the layout have two possible solutions: 1. c.width == 10, e.width == 10 and g.width == 10 (all others have width 0) 2. d.width == 10 and g.width == 10 (all others have width 0) It also has several solutions for preferred size. */ static QGraphicsAnchorLayout *createAmbiguousS60Layout() { QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); QSizeF min(0, 10); QSizeF pref(50, 10); QSizeF max(100, 10); QGraphicsWidget *a = createItem(min, pref, max, "a"); QGraphicsWidget *b = createItem(min, pref, max, "b"); QGraphicsWidget *c = createItem(min, pref, max, "c"); QGraphicsWidget *d = createItem(min, pref, max, "d"); QGraphicsWidget *e = createItem(min, pref, max, "e"); QGraphicsWidget *f = createItem(min, pref, max, "f"); QGraphicsWidget *g = createItem(min, pref, max, "g"); // setAnchor(l, l, Qt::AnchorLeft, a, Qt::AnchorLeft, 10); setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft, 10); setAnchor(l, b, Qt::AnchorRight, c, Qt::AnchorLeft, 10); setAnchor(l, c, Qt::AnchorRight, d, Qt::AnchorLeft, 10); setAnchor(l, d, Qt::AnchorRight, l, Qt::AnchorRight, 10); // setAnchor(l, b, Qt::AnchorLeft, e, Qt::AnchorLeft, 10); setAnchor(l, e, Qt::AnchorRight, d, Qt::AnchorLeft, 10); // setAnchor(l, a, Qt::AnchorHorizontalCenter, g, Qt::AnchorLeft, 10); setAnchor(l, g, Qt::AnchorRight, f, Qt::AnchorHorizontalCenter, 10); setAnchor(l, c, Qt::AnchorLeft, f, Qt::AnchorLeft, 10); setAnchor(l, f, Qt::AnchorRight, d, Qt::AnchorRight, 10); // setAnchor(l, l, Qt::AnchorTop, e, Qt::AnchorTop, 0); setAnchor(l, e, Qt::AnchorBottom, a, Qt::AnchorTop, 0); setAnchor(l, e, Qt::AnchorBottom, b, Qt::AnchorTop, 0); setAnchor(l, e, Qt::AnchorBottom, c, Qt::AnchorTop, 0); setAnchor(l, e, Qt::AnchorBottom, d, Qt::AnchorTop, 0); setAnchor(l, a, Qt::AnchorBottom, f, Qt::AnchorTop, 0); setAnchor(l, a, Qt::AnchorBottom, b, Qt::AnchorBottom, 0); setAnchor(l, a, Qt::AnchorBottom, c, Qt::AnchorBottom, 0); setAnchor(l, a, Qt::AnchorBottom, d, Qt::AnchorBottom, 0); setAnchor(l, f, Qt::AnchorBottom, g, Qt::AnchorTop, 0); setAnchor(l, g, Qt::AnchorBottom, l, Qt::AnchorBottom, 0); return l; } void tst_QGraphicsAnchorLayout::hardComplexS60() { QGraphicsAnchorLayout *l = createAmbiguousS60Layout(); QCOMPARE(l->count(), 7); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); p->setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); QCOMPARE(layoutMinimumSize, QSizeF(60, 40)); // expected preferred might be wrong, (haven't manually verified it) QSizeF layoutPreferredSize = l->effectiveSizeHint(Qt::PreferredSize); QCOMPARE(layoutPreferredSize, QSizeF(220, 40)); QSizeF layoutMaximumSize = l->effectiveSizeHint(Qt::MaximumSize); QCOMPARE(layoutMaximumSize, QSizeF(240, 40)); delete p; } void tst_QGraphicsAnchorLayout::stability() { QVector geometries; geometries.resize(7); QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); bool sameAsPreviousArrangement = true; // it usually fails after 3-4 iterations for (int pass = 0; pass < 20 && sameAsPreviousArrangement; ++pass) { // In case we need to "scramble" the heap allocator to provoke this bug. //static const int primes[] = {2, 3, 5, 13, 89, 233, 1597, 28657, 514229}; // fibo primes //const int primeCount = sizeof(primes)/sizeof(int); //int alloc = primes[pass % primeCount] + pass; //void *mem = qMalloc(alloc); //qFree(mem); QGraphicsAnchorLayout *l = createAmbiguousS60Layout(); p->setLayout(l); QSizeF layoutMinimumSize = l->effectiveSizeHint(Qt::MinimumSize); l->setGeometry(QRectF(QPointF(0,0), layoutMinimumSize)); QApplication::processEvents(); for (int i = l->count() - 1; i >=0 && sameAsPreviousArrangement; --i) { QRectF geom = l->itemAt(i)->geometry(); if (pass != 0) { sameAsPreviousArrangement = (geometries[i] == geom); } geometries[i] = geom; } p->setLayout(0); // uninstalls and deletes the layout QApplication::processEvents(); } delete p; QEXPECT_FAIL("", "The layout have several solutions, but which solution it picks is not stable", Continue); QCOMPARE(sameAsPreviousArrangement, true); } void tst_QGraphicsAnchorLayout::delete_anchor() { QGraphicsScene scene; QSizeF minSize(0, 0); QSizeF prefSize(50, 50); QSizeF maxSize(100, 100); QGraphicsWidget *w1 = createItem(minSize, prefSize, maxSize, "w1"); QGraphicsWidget *w2 = createItem(minSize, prefSize, maxSize, "w2"); QGraphicsWidget *w3 = createItem(minSize, prefSize, maxSize, "w3"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setSpacing(0); l->setContentsMargins(0, 0, 0, 0); // Horizontal l->addAnchor(l, Qt::AnchorLeft, w1, Qt::AnchorLeft); l->addAnchor(w1, Qt::AnchorRight, w2, Qt::AnchorLeft); l->addAnchor(w2, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(w1, Qt::AnchorRight, w3, Qt::AnchorLeft); l->addAnchor(w3, Qt::AnchorRight, l, Qt::AnchorRight); // Vertical l->addAnchors(l, w1, Qt::Vertical); l->addAnchors(l, w2, Qt::Vertical); l->addAnchors(l, w3, Qt::Vertical); QGraphicsAnchor *anchor = l->anchor(w3, Qt::AnchorRight, l, Qt::AnchorRight); anchor->setSpacing(10); QGraphicsWidget *p = new QGraphicsWidget; p->setLayout(l); QCOMPARE(l->count(), 3); scene.addItem(p); QGraphicsView *view = new QGraphicsView(&scene); QApplication::processEvents(); // Should now be simplified QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize).width(), qreal(110)); QGraphicsAnchor *anchor1 = l->anchor(w3, Qt::AnchorRight, l, Qt::AnchorRight); QVERIFY(anchor1); QGraphicsAnchor *anchor2 = l->anchor(w3, Qt::AnchorRight, l, Qt::AnchorRight); QVERIFY(anchor2); QGraphicsAnchor *anchor3 = l->anchor(l, Qt::AnchorRight, w3, Qt::AnchorRight); QVERIFY(anchor3); QGraphicsAnchor *anchor4 = l->anchor(l, Qt::AnchorRight, w3, Qt::AnchorRight); QVERIFY(anchor4); // should all be the same object QCOMPARE(anchor1, anchor2); QCOMPARE(anchor2, anchor3); QCOMPARE(anchor3, anchor4); // check if removal works delete anchor1; QApplication::processEvents(); // it should also change the preferred size of the layout QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize).width(), qreal(100)); delete p; delete view; } void tst_QGraphicsAnchorLayout::sizePolicy() { QGraphicsScene scene; QSizeF minSize(0, 0); QSizeF prefSize(50, 50); QSizeF maxSize(100, 100); QGraphicsWidget *w1 = createItem(minSize, prefSize, maxSize, "w1"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setSpacing(0); l->setContentsMargins(0, 0, 0, 0); // horizontal and vertical l->addAnchors(l, w1); QGraphicsWidget *p = new QGraphicsWidget; p->setLayout(l); scene.addItem(p); QGraphicsView *view = new QGraphicsView(&scene); // QSizePolicy::Minimum w1->setSizePolicy(QSizePolicy::Minimum, QSizePolicy::Minimum); QApplication::processEvents(); w1->adjustSize(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(100, 100)); // QSizePolicy::Maximum w1->setSizePolicy(QSizePolicy::Maximum, QSizePolicy::Maximum); QApplication::processEvents(); w1->adjustSize(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(0, 0)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(50, 50)); // QSizePolicy::Fixed w1->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed); QApplication::processEvents(); w1->adjustSize(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(50, 50)); // QSizePolicy::Preferred w1->setSizePolicy(QSizePolicy::Preferred, QSizePolicy::Preferred); QApplication::processEvents(); w1->adjustSize(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(0, 0)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(100, 100)); // QSizePolicy::Ignored w1->setSizePolicy(QSizePolicy::Ignored, QSizePolicy::Ignored); QApplication::processEvents(); w1->adjustSize(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(0, 0)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(0, 0)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(100, 100)); // Anchor size policies w1->setSizePolicy(QSizePolicy::Fixed, QSizePolicy::Fixed); QGraphicsAnchor *anchor = l->anchor(l, Qt::AnchorLeft, w1, Qt::AnchorLeft); anchor->setSpacing(10); // QSizePolicy::Minimum anchor->setSizePolicy(QSizePolicy::Minimum); QApplication::processEvents(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(60, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(60, 50)); // The layout has a maximum size of QWIDGETSIZE_MAX, so the result won't exceed that value. QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(QWIDGETSIZE_MAX, 50)); // QSizePolicy::Preferred anchor->setSizePolicy(QSizePolicy::Preferred); QApplication::processEvents(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(60, 50)); // The layout has a maximum size of QWIDGETSIZE_MAX, so the result won't exceed that value. QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(QWIDGETSIZE_MAX, 50)); // QSizePolicy::Maximum anchor->setSizePolicy(QSizePolicy::Maximum); QApplication::processEvents(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(60, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(60, 50)); // QSizePolicy::Ignored anchor->setSizePolicy(QSizePolicy::Ignored); QApplication::processEvents(); QCOMPARE(l->effectiveSizeHint(Qt::MinimumSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::PreferredSize), QSizeF(50, 50)); QCOMPARE(l->effectiveSizeHint(Qt::MaximumSize), QSizeF(QWIDGETSIZE_MAX, 50)); if (hasSimplification) { QVERIFY(!usedSimplex(l, Qt::Horizontal)); QVERIFY(!usedSimplex(l, Qt::Vertical)); } delete p; delete view; } /*! \internal Uses private API. (We have decided to pull hasConflicts() out of the API). However, it also tests some tight conditions (almost-in-conflict) that we really want to test. */ void tst_QGraphicsAnchorLayout::conflicts() { QGraphicsWidget *a = createItem(QSizeF(80,10), QSizeF(90,10), QSizeF(100,10), "a"); QGraphicsWidget *b = createItem(QSizeF(10,10), QSizeF(20,10), QSizeF(30,10), "b"); QGraphicsWidget *c = createItem(QSizeF(10,10), QSizeF(20,10), QSizeF(30,10), "c"); QGraphicsAnchorLayout *l; QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); // with the following setup, 'a' cannot be larger than 30 we will first have a Simplex conflict // horizontal setAnchor(l, l, Qt::AnchorLeft, b, Qt::AnchorLeft); setAnchor(l, b, Qt::AnchorRight, c, Qt::AnchorLeft); setAnchor(l, c, Qt::AnchorRight, l, Qt::AnchorRight); setAnchor(l, b, Qt::AnchorHorizontalCenter, a, Qt::AnchorLeft); setAnchor(l, a, Qt::AnchorRight, c, Qt::AnchorHorizontalCenter); // vertical setAnchor(l, l, Qt::AnchorTop, a, Qt::AnchorTop); setAnchor(l, a, Qt::AnchorBottom, b, Qt::AnchorTop); setAnchor(l, a, Qt::AnchorBottom, c, Qt::AnchorTop); setAnchor(l, b, Qt::AnchorBottom, l, Qt::AnchorBottom); setAnchor(l, c, Qt::AnchorBottom, l, Qt::AnchorBottom); p->setLayout(l); QCOMPARE(layoutHasConflict(l), true); a->setMinimumSize(QSizeF(29,10)); QCOMPARE(layoutHasConflict(l), false); a->setMinimumSize(QSizeF(30,10)); QCOMPARE(layoutHasConflict(l), false); delete p; } void tst_QGraphicsAnchorLayout::floatConflict() { QGraphicsWidget *a = createItem(QSizeF(80,10), QSizeF(90,10), QSizeF(100,10), "a"); QGraphicsWidget *b = createItem(QSizeF(80,10), QSizeF(90,10), QSizeF(100,10), "b"); QGraphicsAnchorLayout *l; QGraphicsWidget *p = new QGraphicsWidget(0, Qt::Window); l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); p->setLayout(l); // horizontal // with this anchor we have two floating items setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft); // Just checking if the layout is handling well the removal of floating items delete l->anchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); QCOMPARE(l->count(), 0); QCOMPARE(layoutHasConflict(l), false); // setting back the same anchor setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft); // We don't support floating items but they should be counted as if they are in the layout QCOMPARE(l->count(), 2); // Although, we have an invalid situation QCOMPARE(layoutHasConflict(l), true); // Semi-floats are supported setAnchor(l, a, Qt::AnchorLeft, l, Qt::AnchorLeft); QCOMPARE(l->count(), 2); // Vertically the layout has floating items. Therefore, we have a conflict QCOMPARE(layoutHasConflict(l), true); // No more floating items setAnchor(l, b, Qt::AnchorRight, l, Qt::AnchorRight); setAnchor(l, a, Qt::AnchorTop, l, Qt::AnchorTop); setAnchor(l, a, Qt::AnchorBottom, l, Qt::AnchorBottom); setAnchor(l, b, Qt::AnchorTop, l, Qt::AnchorTop); setAnchor(l, b, Qt::AnchorBottom, l, Qt::AnchorBottom); QCOMPARE(layoutHasConflict(l), false); delete p; } void tst_QGraphicsAnchorLayout::infiniteMaxSizes() { QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); QSizeF min(10, 10); QSizeF pref(50, 10); QSizeF max(QWIDGETSIZE_MAX, 10); QGraphicsWidget *a = createItem(min, pref, max, "a"); QGraphicsWidget *b = createItem(min, pref, max, "b"); QGraphicsWidget *c = createItem(min, pref, max, "c"); QGraphicsWidget *d = createItem(min, pref, max, "d"); QGraphicsWidget *e = createItem(min, pref, max, "e"); // setAnchor(l, l, Qt::AnchorLeft, a, Qt::AnchorLeft, 0); setAnchor(l, a, Qt::AnchorRight, b, Qt::AnchorLeft, 0); setAnchor(l, b, Qt::AnchorRight, c, Qt::AnchorLeft, 0); setAnchor(l, c, Qt::AnchorRight, d, Qt::AnchorLeft, 0); setAnchor(l, d, Qt::AnchorRight, l, Qt::AnchorRight, 0); setAnchor(l, b, Qt::AnchorHorizontalCenter, e, Qt::AnchorLeft, 0); setAnchor(l, e, Qt::AnchorRight, c, Qt::AnchorHorizontalCenter, 0); QGraphicsWidget p; p.setLayout(l); QCOMPARE(int(p.effectiveSizeHint(Qt::MaximumSize).width()), QWIDGETSIZE_MAX); p.resize(200, 10); QCOMPARE(a->geometry(), QRectF(0, 0, 50, 10)); QCOMPARE(b->geometry(), QRectF(50, 0, 50, 10)); QCOMPARE(c->geometry(), QRectF(100, 0, 50, 10)); QCOMPARE(d->geometry(), QRectF(150, 0, 50, 10)); p.resize(1000, 10); QCOMPARE(a->geometry(), QRectF(0, 0, 250, 10)); QCOMPARE(b->geometry(), QRectF(250, 0, 250, 10)); QCOMPARE(c->geometry(), QRectF(500, 0, 250, 10)); QCOMPARE(d->geometry(), QRectF(750, 0, 250, 10)); p.resize(40000, 10); QCOMPARE(a->geometry(), QRectF(0, 0, 10000, 10)); QCOMPARE(b->geometry(), QRectF(10000, 0, 10000, 10)); QCOMPARE(c->geometry(), QRectF(20000, 0, 10000, 10)); QCOMPARE(d->geometry(), QRectF(30000, 0, 10000, 10)); } void tst_QGraphicsAnchorLayout::simplifiableUnfeasible() { QGraphicsWidget *a = createItem(QSizeF(70.0, 100.0), QSizeF(100.0, 100.0), QSizeF(100.0, 100.0), "A"); QGraphicsWidget *b = createItem(QSizeF(110.0, 100.0), QSizeF(150.0, 100.0), QSizeF(190.0, 100.0), "B"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, l, Qt::AnchorBottom); l->addAnchors(l, a, Qt::Horizontal); l->addAnchor(l, Qt::AnchorLeft, b, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, a, Qt::AnchorRight); QCOMPARE(l->count(), 2); QGraphicsWidget p; p.setLayout(l); l->invalidate(); QVERIFY(layoutHasConflict(l)); if (hasSimplification) QVERIFY(!usedSimplex(l, Qt::Horizontal)); // Now we make it valid b->setMinimumWidth(100); l->invalidate(); QVERIFY(!layoutHasConflict(l)); if (hasSimplification) QVERIFY(!usedSimplex(l, Qt::Horizontal)); // And make it invalid again a->setPreferredWidth(70); a->setMaximumWidth(70); l->invalidate(); QVERIFY(layoutHasConflict(l)); if (hasSimplification) QVERIFY(!usedSimplex(l, Qt::Horizontal)); } /* Test whether the anchor direction can prevent it from being simplificated */ void tst_QGraphicsAnchorLayout::simplificationVsOrder() { QSizeF min(10, 10); QSizeF pref(20, 10); QSizeF max(50, 10); QGraphicsWidget *a = createItem(min, pref, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget *c = createItem(min, pref, max, "C"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; // Bulk anchors l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorLeft, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); // Problematic anchor, direction b->c QGraphicsAnchor *anchor = l->addAnchor(b, Qt::AnchorRight, c, Qt::AnchorRight); anchor->setSpacing(5); l->effectiveSizeHint(Qt::MinimumSize); if (hasSimplification) { QCOMPARE(usedSimplex(l, Qt::Horizontal), false); QCOMPARE(usedSimplex(l, Qt::Vertical), false); } // Problematic anchor, direction c->b delete anchor; anchor = l->addAnchor(c, Qt::AnchorRight, b, Qt::AnchorRight); anchor->setSpacing(5); l->effectiveSizeHint(Qt::MinimumSize); if (hasSimplification) { QEXPECT_FAIL("", "Sequential anchors cannot handle children of opposite directions", Continue); QCOMPARE(usedSimplex(l, Qt::Horizontal), false); QCOMPARE(usedSimplex(l, Qt::Vertical), false); } } void tst_QGraphicsAnchorLayout::parallelSimplificationOfCenter() { QSizeF min(10, 10); QSizeF pref(20, 10); QSizeF max(50, 10); QGraphicsWidget *a = createItem(min, pref, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget parent; QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout(&parent); l->setContentsMargins(0, 0, 0, 0); l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(l, Qt::AnchorRight, a, Qt::AnchorRight); l->addAnchor(a, Qt::AnchorHorizontalCenter, b, Qt::AnchorLeft); l->addAnchor(b, Qt::AnchorRight, a, Qt::AnchorRight); parent.resize(l->effectiveSizeHint(Qt::PreferredSize)); QCOMPARE(a->geometry(), QRectF(0, 0, 40, 10)); QCOMPARE(b->geometry(), QRectF(20, 0, 20, 10)); } /* Test whether redundance of anchors (in this case by using addCornerAnchors), will prevent simplification to take place when it should. */ void tst_QGraphicsAnchorLayout::simplificationVsRedundance() { QSizeF min(10, 10); QSizeF pref(20, 10); QSizeF max(50, 30); QGraphicsWidget *a = createItem(min, pref, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget *c = createItem(min, pref, max, "C"); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout; l->addCornerAnchors(a, Qt::TopLeftCorner, l, Qt::TopLeftCorner); l->addCornerAnchors(a, Qt::BottomLeftCorner, l, Qt::BottomLeftCorner); l->addCornerAnchors(b, Qt::TopLeftCorner, a, Qt::TopRightCorner); l->addCornerAnchors(b, Qt::TopRightCorner, l, Qt::TopRightCorner); l->addCornerAnchors(c, Qt::TopLeftCorner, b, Qt::BottomLeftCorner); l->addCornerAnchors(c, Qt::BottomLeftCorner, a, Qt::BottomRightCorner); l->addCornerAnchors(c, Qt::TopRightCorner, b, Qt::BottomRightCorner); l->addCornerAnchors(c, Qt::BottomRightCorner, l, Qt::BottomRightCorner); l->effectiveSizeHint(Qt::MinimumSize); QCOMPARE(layoutHasConflict(l), false); if (!hasSimplification) QEXPECT_FAIL("", "Test depends on simplification.", Abort); QCOMPARE(usedSimplex(l, Qt::Horizontal), false); QCOMPARE(usedSimplex(l, Qt::Vertical), false); } /* Avoid regression where the saved prefSize would be lost. This was solved by saving the original spacing in the QGraphicsAnchorPrivate class */ void tst_QGraphicsAnchorLayout::spacingPersistency() { QGraphicsWidget w; QGraphicsWidget *a = createItem(); QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout(&w); l->addAnchors(l, a, Qt::Horizontal); QGraphicsAnchor *anchor = l->anchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); anchor->setSpacing(-30); QCOMPARE(anchor->spacing(), -30.0); anchor->setSpacing(30); QCOMPARE(anchor->spacing(), 30.0); anchor->setSizePolicy(QSizePolicy::Ignored); w.effectiveSizeHint(Qt::PreferredSize); QCOMPARE(anchor->spacing(), 30.0); } /* Test whether a correct preferred size is set when a "snake" sequence is in parallel with the layout or half of the layout. The tricky thing here is that all items on the snake should keep their preferred sizes. */ void tst_QGraphicsAnchorLayout::snakeParallelWithLayout() { QSizeF min(10, 20); QSizeF pref(50, 20); QSizeF max(100, 20); QGraphicsWidget *a = createItem(max, max, max, "A"); QGraphicsWidget *b = createItem(min, pref, max, "B"); QGraphicsWidget *c = createItem(max, max, max, "C"); QGraphicsWidget parent; QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout(&parent); l->setContentsMargins(0, 0, 0, 0); l->setSpacing(0); // First we'll do the case in parallel with the entire layout... l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); l->addAnchor(a, Qt::AnchorRight, b, Qt::AnchorRight); l->addAnchor(b, Qt::AnchorLeft, c, Qt::AnchorLeft); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(l, Qt::AnchorTop, a, Qt::AnchorTop); l->addAnchor(a, Qt::AnchorBottom, b, Qt::AnchorTop); l->addAnchor(b, Qt::AnchorBottom, c, Qt::AnchorTop); l->addAnchor(c, Qt::AnchorBottom, l, Qt::AnchorBottom); parent.resize(l->effectiveSizeHint(Qt::PreferredSize)); // Note that A and C are fixed in the maximum size QCOMPARE(l->geometry(), QRectF(QPointF(0, 0), QSizeF(150, 60))); QCOMPARE(a->geometry(), QRectF(QPointF(0, 0), max)); QCOMPARE(b->geometry(), QRectF(QPointF(50, 20), pref)); QCOMPARE(c->geometry(), QRectF(QPointF(50, 40), max)); // Then, we change the "snake" to be in parallel with half of the layout delete l->anchor(c, Qt::AnchorRight, l, Qt::AnchorRight); l->addAnchor(c, Qt::AnchorRight, l, Qt::AnchorHorizontalCenter); parent.resize(l->effectiveSizeHint(Qt::PreferredSize)); QCOMPARE(l->geometry(), QRectF(QPointF(0, 0), QSizeF(300, 60))); QCOMPARE(a->geometry(), QRectF(QPointF(0, 0), max)); QCOMPARE(b->geometry(), QRectF(QPointF(50, 20), pref)); QCOMPARE(c->geometry(), QRectF(QPointF(50, 40), max)); } /* Avoid regression where the sizeHint constraints would not be created for a parallel anchor that included the first layout half */ void tst_QGraphicsAnchorLayout::parallelToHalfLayout() { QGraphicsWidget *a = createItem(); QGraphicsWidget w; QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout(&w); l->setContentsMargins(10, 10, 10, 10); l->addAnchors(l, a, Qt::Vertical); QGraphicsAnchor *anchor; anchor = l->addAnchor(l, Qt::AnchorLeft, a, Qt::AnchorLeft); anchor->setSpacing(5); anchor = l->addAnchor(l, Qt::AnchorHorizontalCenter, a, Qt::AnchorRight); anchor->setSpacing(-5); const QSizeF minimumSizeHint = w.effectiveSizeHint(Qt::MinimumSize); const QSizeF preferredSizeHint = w.effectiveSizeHint(Qt::PreferredSize); const QSizeF maximumSizeHint = w.effectiveSizeHint(Qt::MaximumSize); const QSizeF overhead = QSizeF(10 + 5 + 5, 10) * 2; QCOMPARE(minimumSizeHint, QSizeF(200, 100) + overhead); QCOMPARE(preferredSizeHint, QSizeF(300, 100) + overhead); QCOMPARE(maximumSizeHint, QSizeF(400, 100) + overhead); } void tst_QGraphicsAnchorLayout::globalSpacing() { QGraphicsWidget *a = createItem(); QGraphicsWidget *b = createItem(); QGraphicsWidget w; QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout(&w); l->addCornerAnchors(l, Qt::TopLeftCorner, a, Qt::TopLeftCorner); l->addCornerAnchors(a, Qt::BottomRightCorner, b, Qt::TopLeftCorner); l->addCornerAnchors(b, Qt::BottomRightCorner, l, Qt::BottomRightCorner); w.resize(w.effectiveSizeHint(Qt::PreferredSize)); qreal vSpacing = b->geometry().top() - a->geometry().bottom(); qreal hSpacing = b->geometry().left() - a->geometry().right(); // Set spacings manually l->setVerticalSpacing(vSpacing + 10); l->setHorizontalSpacing(hSpacing + 5); w.resize(w.effectiveSizeHint(Qt::PreferredSize)); qreal newVSpacing = b->geometry().top() - a->geometry().bottom(); qreal newHSpacing = b->geometry().left() - a->geometry().right(); QCOMPARE(newVSpacing, vSpacing + 10); QCOMPARE(newHSpacing, hSpacing + 5); // Set a negative spacing. This will unset the previous spacing and // bring back the widget-defined spacing. l->setSpacing(-1); w.resize(w.effectiveSizeHint(Qt::PreferredSize)); newVSpacing = b->geometry().top() - a->geometry().bottom(); newHSpacing = b->geometry().left() - a->geometry().right(); QCOMPARE(newVSpacing, vSpacing); QCOMPARE(newHSpacing, hSpacing); } QTEST_MAIN(tst_QGraphicsAnchorLayout) #include "tst_qgraphicsanchorlayout.moc"