/**************************************************************************** ** ** 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 QtGui module 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. ** ** ** ** ** ** ** ** ** $QT_END_LICENSE$ ** ****************************************************************************/ /*! \class QGraphicsAnchorLayout \brief The QGraphicsAnchorLayout class provides a layout where one can anchor widgets together in Graphics View. \since 4.6 \ingroup appearance \ingroup geomanagement \ingroup graphicsview-api The anchor layout allows developers to specify how widgets should be placed relative to each other, and to the layout itself. The specification is made by adding anchors to the layout by calling addAnchor(), addAnchors() or addCornerAnchors(). Existing anchors in the layout can be accessed with the anchor() function. Items that are anchored are automatically added to the layout, and if items are removed, all their anchors will be automatically removed. \beginfloatleft \inlineimage simpleanchorlayout-example.png Using an anchor layout to align simple colored widgets. \endfloat Anchors are always set up between edges of an item, where the "center" is also considered to be an edge. Consider the following example: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding anchors Here, the right edge of item \c a is anchored to the left edge of item \c b and the bottom edge of item \c a is anchored to the top edge of item \c b, with the result that item \c b will be placed diagonally to the right and below item \c b. The addCornerAnchors() function provides a simpler way of anchoring the corners of two widgets than the two individual calls to addAnchor() shown in the code above. Here, we see how a widget can be anchored to the top-left corner of the enclosing layout: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding a corner anchor In cases where anchors are used to match the widths or heights of widgets, it is convenient to use the addAnchors() function. As with the other functions for specifying anchors, it can also be used to anchor a widget to a layout. \clearfloat \section1 Size Hints and Size Policies in an Anchor Layout QGraphicsAnchorLayout respects each item's size hints and size policies. However it does not currently respect their stretch factors. This might change in the future, so avoid using stretch factors in anchor layouts if you want to avoid any future regressions in behavior. \section1 Spacing within an Anchor Layout The layout may distribute some space between the items. If the spacing has not been explicitly specified, the actual amount of space will usually be 0. However, if the first edge is the \e opposite of the second edge (e.g., the right edge of the first widget is anchored to the left edge of the second widget), the size of the anchor will be queried from the style through a pixel metric: \l{QStyle::}{PM_LayoutHorizontalSpacing} for horizontal anchors and \l{QStyle::}{PM_LayoutVerticalSpacing} for vertical anchors. If the spacing is negative, the items will overlap to some extent. \sa QGraphicsLinearLayout, QGraphicsGridLayout, QGraphicsLayout */ /*! \class QGraphicsAnchor \brief The QGraphicsAnchor class represents an anchor between two items in a QGraphicsAnchorLayout. \since 4.6 \ingroup appearance \ingroup geomanagement \ingroup graphicsview-api The graphics anchor provides an API that enables you to query and manipulate the properties an anchor has. When an anchor is added to the layout with QGraphicsAnchorLayout::addAnchor(), a QGraphicsAnchor instance is returned where the properties are initialized to their default values. The properties can then be further changed, and they will be picked up the next time the layout is activated. \sa QGraphicsAnchorLayout::anchor() */ #include "qgraphicsanchorlayout_p.h" QT_BEGIN_NAMESPACE QGraphicsAnchor::QGraphicsAnchor(QGraphicsAnchorLayout *parentLayout) : QObject(*(new QGraphicsAnchorPrivate)) { Q_D(QGraphicsAnchor); Q_ASSERT(parentLayout); d->layoutPrivate = parentLayout->d_func(); } /*! Removes the QGraphicsAnchor object from the layout and destroys it. */ QGraphicsAnchor::~QGraphicsAnchor() { } /*! \property QGraphicsAnchor::sizePolicy \brief the size policy for the QGraphicsAnchor. By setting the size policy on an anchor you can configure how the item can resize itself from its preferred spacing. For instance, if the anchor has the size policy QSizePolicy::Minimum, the spacing is the minimum size of the anchor. However, its size can grow up to the anchors maximum size. If the default size policy is QSizePolicy::Fixed, the anchor can neither grow or shrink, which means that the only size the anchor can have is the spacing. QSizePolicy::Fixed is the default size policy. QGraphicsAnchor always has a minimum spacing of 0 and a very large maximum spacing. \sa QGraphicsAnchor::spacing */ void QGraphicsAnchor::setSizePolicy(QSizePolicy::Policy policy) { Q_D(QGraphicsAnchor); d->setSizePolicy(policy); } QSizePolicy::Policy QGraphicsAnchor::sizePolicy() const { Q_D(const QGraphicsAnchor); return d->sizePolicy; } /*! \property QGraphicsAnchor::spacing \brief the preferred space between items in the QGraphicsAnchorLayout. Depending on the anchor type, the default spacing is either 0 or a value returned from the style. \sa QGraphicsAnchorLayout::addAnchor() */ void QGraphicsAnchor::setSpacing(qreal spacing) { Q_D(QGraphicsAnchor); d->setSpacing(spacing); } qreal QGraphicsAnchor::spacing() const { Q_D(const QGraphicsAnchor); return d->spacing(); } void QGraphicsAnchor::unsetSpacing() { Q_D(QGraphicsAnchor); d->unsetSpacing(); } /*! Constructs a QGraphicsAnchorLayout instance. \a parent is passed to QGraphicsLayout's constructor. */ QGraphicsAnchorLayout::QGraphicsAnchorLayout(QGraphicsLayoutItem *parent) : QGraphicsLayout(*new QGraphicsAnchorLayoutPrivate(), parent) { Q_D(QGraphicsAnchorLayout); d->createLayoutEdges(); } /*! Destroys the QGraphicsAnchorLayout object. */ QGraphicsAnchorLayout::~QGraphicsAnchorLayout() { Q_D(QGraphicsAnchorLayout); for (int i = count() - 1; i >= 0; --i) { QGraphicsLayoutItem *item = d->items.at(i); removeAt(i); if (item) { if (item->ownedByLayout()) delete item; } } d->removeCenterConstraints(this, QGraphicsAnchorLayoutPrivate::Horizontal); d->removeCenterConstraints(this, QGraphicsAnchorLayoutPrivate::Vertical); d->deleteLayoutEdges(); Q_ASSERT(d->itemCenterConstraints[0].isEmpty()); Q_ASSERT(d->itemCenterConstraints[1].isEmpty()); Q_ASSERT(d->items.isEmpty()); Q_ASSERT(d->m_vertexList.isEmpty()); } /*! Creates an anchor between the edge \a firstEdge of item \a firstItem and the edge \a secondEdge of item \a secondItem. The magnitude of the anchor is picked up from the style. Anchors between a layout edge and an item edge will have a size of 0. If there is already an anchor between the edges, the the new anchor will replace the old one. \a firstItem and \a secondItem are automatically added to the layout if they are not part of the layout. This means that count() can increase by up to 2. The spacing an anchor will get depends on the type of anchor. For instance, anchors from the Right edge of one item to the Left edge of another (or vice versa) will use the default horizontal spacing. The same behaviour applies to Bottom to Top anchors, (but they will use the default vertical spacing). For all other anchor combinations, the spacing will be 0. All anchoring functions will follow this rule. The spacing can also be set manually by using QGraphicsAnchor::setSpacing() method. Calling this function where \a firstItem or \a secondItem are ancestors of the layout have undefined behaviour. \sa addAnchors(), addCornerAnchors() */ QGraphicsAnchor * QGraphicsAnchorLayout::addAnchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge, QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge) { Q_D(QGraphicsAnchorLayout); QGraphicsAnchor *a = d->addAnchor(firstItem, firstEdge, secondItem, secondEdge); invalidate(); return a; } /*! Returns the anchor between the anchor points defined by \a firstItem and \a firstEdge and \a secondItem and \a secondEdge. If there is no such anchor, the function will return 0. */ QGraphicsAnchor * QGraphicsAnchorLayout::anchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge, QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge) { Q_D(QGraphicsAnchorLayout); return d->getAnchor(firstItem, firstEdge, secondItem, secondEdge); } /*! Creates two anchors between \a firstItem and \a secondItem specified by the corners, \a firstCorner and \a secondCorner, where one is for the horizontal edge and another one for the vertical edge. This is a convenience function, since anchoring corners can be expressed as anchoring two edges. For instance: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding a corner anchor in two steps This can also be achieved with the following line of code: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding a corner anchor If there is already an anchor between the edge pairs, it will be replaced by the anchors that this function specifies. \a firstItem and \a secondItem are automatically added to the layout if they are not part of the layout. This means that count() can increase by up to 2. \sa addAnchor(), addAnchors() */ void QGraphicsAnchorLayout::addCornerAnchors(QGraphicsLayoutItem *firstItem, Qt::Corner firstCorner, QGraphicsLayoutItem *secondItem, Qt::Corner secondCorner) { Q_D(QGraphicsAnchorLayout); // Horizontal anchor Qt::AnchorPoint firstEdge = (firstCorner & 1 ? Qt::AnchorRight: Qt::AnchorLeft); Qt::AnchorPoint secondEdge = (secondCorner & 1 ? Qt::AnchorRight: Qt::AnchorLeft); d->addAnchor(firstItem, firstEdge, secondItem, secondEdge); // Vertical anchor firstEdge = (firstCorner & 2 ? Qt::AnchorBottom: Qt::AnchorTop); secondEdge = (secondCorner & 2 ? Qt::AnchorBottom: Qt::AnchorTop); d->addAnchor(firstItem, firstEdge, secondItem, secondEdge); invalidate(); } /*! Anchors two or four edges of \a firstItem with the corresponding edges of \a secondItem, so that \a firstItem has the same size as \a secondItem in the dimensions specified by \a orientations. For example, the following example anchors the left and right edges of two items to match their widths: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding anchors to match sizes in two steps This can also be achieved using the following line of code: \snippet examples/graphicsview/simpleanchorlayout/main.cpp adding anchors to match sizes \sa addAnchor(), addCornerAnchors() */ void QGraphicsAnchorLayout::addAnchors(QGraphicsLayoutItem *firstItem, QGraphicsLayoutItem *secondItem, Qt::Orientations orientations) { if (orientations & Qt::Horizontal) { addAnchor(secondItem, Qt::AnchorLeft, firstItem, Qt::AnchorLeft); addAnchor(firstItem, Qt::AnchorRight, secondItem, Qt::AnchorRight); } if (orientations & Qt::Vertical) { addAnchor(secondItem, Qt::AnchorTop, firstItem, Qt::AnchorTop); addAnchor(firstItem, Qt::AnchorBottom, secondItem, Qt::AnchorBottom); } } /*! Sets the default horizontal spacing for the anchor layout to \a spacing. \sa horizontalSpacing(), setVerticalSpacing(), setSpacing() */ void QGraphicsAnchorLayout::setHorizontalSpacing(qreal spacing) { Q_D(QGraphicsAnchorLayout); // ### We don't support negative spacing yet if (spacing < 0) { spacing = 0; qWarning() << "QGraphicsAnchorLayout does not support negative spacing."; } d->spacings[0] = spacing; invalidate(); } /*! Sets the default vertical spacing for the anchor layout to \a spacing. \sa verticalSpacing(), setHorizontalSpacing(), setSpacing() */ void QGraphicsAnchorLayout::setVerticalSpacing(qreal spacing) { Q_D(QGraphicsAnchorLayout); // ### We don't support negative spacing yet if (spacing < 0) { spacing = 0; qWarning() << "QGraphicsAnchorLayout does not support negative spacing."; } d->spacings[1] = spacing; invalidate(); } /*! Sets the default horizontal and the default vertical spacing for the anchor layout to \a spacing. If an item is anchored with no spacing associated with the anchor, it will use the default spacing. Currently QGraphicsAnchorLayout does not support negative default spacings. \sa setHorizontalSpacing(), setVerticalSpacing() */ void QGraphicsAnchorLayout::setSpacing(qreal spacing) { Q_D(QGraphicsAnchorLayout); // ### Currently we do not support negative anchors inside the graph. // To avoid those being created by a negative spacing, we must // make this test. if (spacing < 0) { spacing = 0; qWarning() << "QGraphicsAnchorLayout does not support negative spacing."; } d->spacings[0] = d->spacings[1] = spacing; invalidate(); } /*! Returns the default horizontal spacing for the anchor layout. \sa verticalSpacing(), setHorizontalSpacing() */ qreal QGraphicsAnchorLayout::horizontalSpacing() const { Q_D(const QGraphicsAnchorLayout); return d->styleInfo().defaultSpacing(Qt::Horizontal); } /*! Returns the default vertical spacing for the anchor layout. \sa horizontalSpacing(), setVerticalSpacing() */ qreal QGraphicsAnchorLayout::verticalSpacing() const { Q_D(const QGraphicsAnchorLayout); return d->styleInfo().defaultSpacing(Qt::Vertical); } /*! \reimp */ void QGraphicsAnchorLayout::setGeometry(const QRectF &geom) { Q_D(QGraphicsAnchorLayout); QGraphicsLayout::setGeometry(geom); d->calculateVertexPositions(QGraphicsAnchorLayoutPrivate::Horizontal); d->calculateVertexPositions(QGraphicsAnchorLayoutPrivate::Vertical); d->setItemsGeometries(geom); } /*! Removes the layout item at \a index without destroying it. Ownership of the item is transferred to the caller. Removing an item will also remove any of the anchors associated with it. \sa itemAt(), count() */ void QGraphicsAnchorLayout::removeAt(int index) { Q_D(QGraphicsAnchorLayout); QGraphicsLayoutItem *item = d->items.value(index); if (!item) return; // Removing an item affects both horizontal and vertical graphs d->restoreSimplifiedGraph(QGraphicsAnchorLayoutPrivate::Horizontal); d->restoreSimplifiedGraph(QGraphicsAnchorLayoutPrivate::Vertical); d->removeCenterConstraints(item, QGraphicsAnchorLayoutPrivate::Horizontal); d->removeCenterConstraints(item, QGraphicsAnchorLayoutPrivate::Vertical); d->removeAnchors(item); d->items.remove(index); item->setParentLayoutItem(0); invalidate(); } /*! \reimp */ int QGraphicsAnchorLayout::count() const { Q_D(const QGraphicsAnchorLayout); return d->items.size(); } /*! \reimp */ QGraphicsLayoutItem *QGraphicsAnchorLayout::itemAt(int index) const { Q_D(const QGraphicsAnchorLayout); return d->items.value(index); } /*! \reimp */ void QGraphicsAnchorLayout::invalidate() { Q_D(QGraphicsAnchorLayout); QGraphicsLayout::invalidate(); d->calculateGraphCacheDirty = true; d->styleInfoDirty = true; } /*! \reimp */ QSizeF QGraphicsAnchorLayout::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const { Q_UNUSED(constraint); Q_D(const QGraphicsAnchorLayout); // Some setup calculations are delayed until the information is // actually needed, avoiding unnecessary recalculations when // adding multiple anchors. // sizeHint() / effectiveSizeHint() already have a cache // mechanism, using invalidate() to force recalculation. However // sizeHint() is called three times after invalidation (for max, // min and pref), but we just need do our setup once. const_cast(d)->calculateGraphs(); // ### apply constraint! QSizeF engineSizeHint( d->sizeHints[QGraphicsAnchorLayoutPrivate::Horizontal][which], d->sizeHints[QGraphicsAnchorLayoutPrivate::Vertical][which]); qreal left, top, right, bottom; getContentsMargins(&left, &top, &right, &bottom); return engineSizeHint + QSizeF(left + right, top + bottom); } QT_END_NAMESPACE