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-rw-r--r--src/corelib/global/qnamespace.h11
-rw-r--r--src/gui/embedded/qscreen_qws.cpp22
-rw-r--r--src/gui/embedded/qscreenlinuxfb_qws.cpp16
-rw-r--r--src/gui/graphicsview/graphicsview.pri12
-rw-r--r--src/gui/graphicsview/qgraph_p.h240
-rw-r--r--src/gui/graphicsview/qgraphicsanchorlayout.cpp453
-rw-r--r--src/gui/graphicsview/qgraphicsanchorlayout.h141
-rw-r--r--src/gui/graphicsview/qgraphicsanchorlayout_p.cpp2104
-rw-r--r--src/gui/graphicsview/qgraphicsanchorlayout_p.h477
-rw-r--r--src/gui/graphicsview/qsimplex_p.cpp371
-rw-r--r--src/gui/graphicsview/qsimplex_p.h125
-rw-r--r--src/gui/kernel/qwidget_qws.cpp15
-rw-r--r--src/gui/painting/qblendfunctions.cpp4
-rw-r--r--src/gui/widgets/qabstractscrollarea.cpp7
14 files changed, 3978 insertions, 20 deletions
diff --git a/src/corelib/global/qnamespace.h b/src/corelib/global/qnamespace.h
index f86ffd3..e93e477 100644
--- a/src/corelib/global/qnamespace.h
+++ b/src/corelib/global/qnamespace.h
@@ -1445,6 +1445,17 @@ public:
RightToLeft
};
+ enum AnchorPoint {
+ AnchorLeft = 0,
+ AnchorHorizontalCenter,
+ AnchorRight,
+ AnchorTop,
+ AnchorVerticalCenter,
+ AnchorBottom
+ };
+
+
+
enum DropAction {
CopyAction = 0x1,
MoveAction = 0x2,
diff --git a/src/gui/embedded/qscreen_qws.cpp b/src/gui/embedded/qscreen_qws.cpp
index 1d49bd1..cee4a21 100644
--- a/src/gui/embedded/qscreen_qws.cpp
+++ b/src/gui/embedded/qscreen_qws.cpp
@@ -181,7 +181,27 @@ void QScreenCursor::set(const QImage &image, int hotx, int hoty)
const QRect r = boundingRect();
hotspot = QPoint(hotx, hoty);
- cursor = image;
+ // These are in almost all cases the fastest formats to blend
+ QImage::Format f;
+ switch (qt_screen->depth()) {
+ case 12:
+ f = QImage::Format_ARGB4444_Premultiplied;
+ break;
+ case 15:
+ f = QImage::Format_ARGB8555_Premultiplied;
+ break;
+ case 16:
+ f = QImage::Format_ARGB8565_Premultiplied;
+ break;
+ case 18:
+ f = QImage::Format_ARGB6666_Premultiplied;
+ break;
+ default:
+ f = QImage::Format_ARGB32_Premultiplied;
+ }
+
+ cursor = image.convertToFormat(f);
+
size = image.size();
if (enable && !hwaccel)
diff --git a/src/gui/embedded/qscreenlinuxfb_qws.cpp b/src/gui/embedded/qscreenlinuxfb_qws.cpp
index 34fc54c..69e5808 100644
--- a/src/gui/embedded/qscreenlinuxfb_qws.cpp
+++ b/src/gui/embedded/qscreenlinuxfb_qws.cpp
@@ -271,15 +271,13 @@ bool QLinuxFbScreen::connect(const QString &displaySpec)
QScreen::setFrameBufferLittleEndian(true);
#endif
- // Check for explicitly specified device
- const int len = 8; // "/dev/fbx"
- int m = displaySpec.indexOf(QLatin1String("/dev/fb"));
-
- QString dev;
- if (m > 0)
- dev = displaySpec.mid(m, len);
- else
- dev = QLatin1String("/dev/fb0");
+ QString dev = QLatin1String("/dev/fb0");
+ foreach(QString d, args) {
+ if (d.startsWith(QLatin1Char('/'))) {
+ dev = d;
+ break;
+ }
+ }
if (access(dev.toLatin1().constData(), R_OK|W_OK) == 0)
d_ptr->fd = QT_OPEN(dev.toLatin1().constData(), O_RDWR);
diff --git a/src/gui/graphicsview/graphicsview.pri b/src/gui/graphicsview/graphicsview.pri
index 9d232e4..547d7ce 100644
--- a/src/gui/graphicsview/graphicsview.pri
+++ b/src/gui/graphicsview/graphicsview.pri
@@ -22,7 +22,12 @@ HEADERS += graphicsview/qgraphicsgridlayout.h \
graphicsview/qgraphicsview_p.h \
graphicsview/qgraphicswidget.h \
graphicsview/qgraphicswidget_p.h \
- graphicsview/qgridlayoutengine_p.h
+ graphicsview/qgridlayoutengine_p.h \
+ graphicsview/qgraph_p.h \
+ graphicsview/qsimplex_p.h \
+ graphicsview/qgraphicsanchorlayout_p.h \
+ graphicsview/qgraphicsanchorlayout.h
+
SOURCES += graphicsview/qgraphicsgridlayout.cpp \
graphicsview/qgraphicsitem.cpp \
graphicsview/qgraphicsitemanimation.cpp \
@@ -41,4 +46,7 @@ SOURCES += graphicsview/qgraphicsgridlayout.cpp \
graphicsview/qgraphicsview.cpp \
graphicsview/qgraphicswidget.cpp \
graphicsview/qgraphicswidget_p.cpp \
- graphicsview/qgridlayoutengine.cpp
+ graphicsview/qgridlayoutengine.cpp \
+ graphicsview/qsimplex_p.cpp \
+ graphicsview/qgraphicsanchorlayout_p.cpp \
+ graphicsview/qgraphicsanchorlayout.cpp
diff --git a/src/gui/graphicsview/qgraph_p.h b/src/gui/graphicsview/qgraph_p.h
new file mode 100644
index 0000000..7130003
--- /dev/null
+++ b/src/gui/graphicsview/qgraph_p.h
@@ -0,0 +1,240 @@
+#include <QtCore/QHash>
+#include <QtCore/QQueue>
+#include <QtCore/QString>
+#include <QtCore/QDebug>
+
+#include <float.h>
+
+QT_BEGIN_NAMESPACE
+
+template <typename Vertex, typename EdgeData>
+class Graph
+{
+public:
+ Graph() {}
+
+ class const_iterator {
+ public:
+ const_iterator(const Graph *graph, bool begin) : g(graph){
+ if (begin) {
+ row = g->m_graph.constBegin();
+ //test if the graph is empty
+ if (row != g->m_graph.constEnd())
+ {
+ column = (*row)->constBegin();
+ }
+ } else {
+ row = g->m_graph.constEnd();
+ }
+ }
+
+ inline Vertex *operator*() {
+ return column.key();
+ }
+
+ inline Vertex *from() const {
+ return row.key();
+ }
+
+ inline Vertex *to() const {
+ return column.key();
+ }
+
+ inline bool operator==(const const_iterator &o) const { return !(*this != o); }
+ inline bool operator!=(const const_iterator &o) const {
+ if (row == g->m_graph.end()) {
+ return row != o.row;
+ } else {
+ return row != o.row || column != o.column;
+ }
+ }
+ inline const_iterator& operator=(const const_iterator &o) const { row = o.row; column = o.column; return *this;}
+
+ // prefix
+ const_iterator &operator++() {
+ if (row != g->m_graph.constEnd()) {
+ ++column;
+ if (column == (*row)->constEnd()) {
+ ++row;
+ if (row != g->m_graph.constEnd()) {
+ column = (*row)->constBegin();
+ }
+ }
+ }
+ return *this;
+ }
+
+ private:
+ const Graph *g;
+ Q_TYPENAME QHash<Vertex *, QHash<Vertex *, EdgeData *> * >::const_iterator row;
+ Q_TYPENAME QHash<Vertex *, EdgeData *>::const_iterator column;
+ };
+
+ const_iterator constBegin() const {
+ return const_iterator(this,true);
+ }
+
+ const_iterator constEnd() const {
+ return const_iterator(this,false);
+ }
+
+ /*!
+ * \internal
+ *
+ * If there is an edge between \a first and \a second, it will return a structure
+ * containing the data associated with the edge, otherwise it will return 0.
+ *
+ */
+ EdgeData *edgeData(Vertex* first, Vertex* second) {
+ QHash<Vertex *, EdgeData *> *row = m_graph.value(first);
+ return row ? row->value(second) : 0;
+ }
+
+ void createEdge(Vertex *first, Vertex *second, EdgeData *data)
+ {
+ // Creates a bidirectional edge
+#if defined(QT_DEBUG) && 0
+ qDebug("Graph::createEdge(): %s",
+ qPrintable(QString::fromAscii("%1-%2")
+ .arg(first->toString()).arg(second->toString())));
+#endif
+ if (edgeData(first, second)) {
+#ifdef QT_DEBUG
+ qWarning(qPrintable(QString::fromAscii("%1-%2 already has an edge")
+ .arg(first->toString()).arg(second->toString())));
+#endif
+ }
+ createDirectedEdge(first, second, data);
+ createDirectedEdge(second, first, data);
+ }
+
+ void removeEdge(Vertex *first, Vertex *second)
+ {
+ // Removes a bidirectional edge
+#if defined(QT_DEBUG) && 0
+ qDebug("Graph::removeEdge(): %s",
+ qPrintable(QString::fromAscii("%1-%2")
+ .arg(first->toString()).arg(second->toString())));
+#endif
+ EdgeData *data = edgeData(first, second);
+ removeDirectedEdge(first, second);
+ removeDirectedEdge(second, first);
+ if (data) delete data;
+ }
+
+ EdgeData *takeEdge(Vertex* first, Vertex* second)
+ {
+#if defined(QT_DEBUG) && 0
+ qDebug("Graph::takeEdge(): %s",
+ qPrintable(QString::fromAscii("%1-%2")
+ .arg(first->toString()).arg(second->toString())));
+#endif
+ // Removes a bidirectional edge
+ EdgeData *data = edgeData(first, second);
+ if (data) {
+ removeDirectedEdge(first, second);
+ removeDirectedEdge(second, first);
+ }
+ return data;
+ }
+
+ QList<Vertex *> adjacentVertices(Vertex *vertex) const
+ {
+ QHash<Vertex *, EdgeData *> *row = m_graph.value(vertex);
+ QList<Vertex *> l;
+ if (row)
+ l = row->keys();
+ return l;
+ }
+
+ void setRootVertex(Vertex *vertex)
+ {
+ userVertex = vertex;
+ }
+
+ QSet<Vertex*> vertices() const {
+ QSet<Vertex *> setOfVertices;
+ for (const_iterator it = constBegin(); it != constEnd(); ++it) {
+ setOfVertices.insert(*it);
+ }
+ return setOfVertices;
+ }
+
+ QList<QPair<Vertex*, Vertex*> > connections() const {
+ QList<QPair<Vertex*, Vertex*> > conns;
+ for (const_iterator it = constBegin(); it != constEnd(); ++it) {
+ Vertex *from = it.from();
+ Vertex *to = it.to();
+ // do not return (from,to) *and* (to,from)
+ if (from < to) {
+ conns.append(qMakePair(from, to));
+ }
+ }
+ return conns;
+ }
+
+#if defined(QT_DEBUG)
+ QString serializeToDot() { // traversal
+ QString strVertices;
+ QString edges;
+
+ QSet<Vertex *> setOfVertices = vertices();
+ for (Q_TYPENAME QSet<Vertex*>::const_iterator it = setOfVertices.begin(); it != setOfVertices.end(); ++it) {
+ Vertex *v = *it;
+ QList<Vertex*> adjacents = adjacentVertices(v);
+ for (int i = 0; i < adjacents.count(); ++i) {
+ Vertex *v1 = adjacents.at(i);
+ EdgeData *data = edgeData(v, v1);
+ bool forward = data->from == v;
+ if (forward) {
+ edges += QString::fromAscii("%1->%2 [label=\"[%3,%4,%5]\" dir=both color=\"#000000:#a0a0a0\"] \n")
+ .arg(v->toString())
+ .arg(v1->toString())
+ .arg(data->minSize)
+ .arg(data->prefSize)
+ .arg(data->maxSize)
+ ;
+ }
+ }
+ strVertices += QString::fromAscii("%1 [label=\"%2\"]\n").arg(v->toString()).arg(v->toString());
+ }
+ return QString::fromAscii("%1\n%2\n").arg(strVertices).arg(edges);
+ }
+#endif
+
+ Vertex *rootVertex() const
+ {
+ return userVertex;
+ }
+
+protected:
+ void createDirectedEdge(Vertex *from, Vertex *to, EdgeData *data)
+ {
+ QHash<Vertex *, EdgeData *> *adjacentToFirst = m_graph.value(from);
+ if (!adjacentToFirst) {
+ adjacentToFirst = new QHash<Vertex *, EdgeData *>();
+ m_graph.insert(from, adjacentToFirst);
+ }
+ adjacentToFirst->insert(to, data);
+ }
+
+ void removeDirectedEdge(Vertex *from, Vertex *to)
+ {
+ QHash<Vertex *, EdgeData *> *adjacentToFirst = m_graph.value(from);
+ Q_ASSERT(adjacentToFirst);
+
+ adjacentToFirst->remove(to);
+ if (adjacentToFirst->isEmpty()) {
+ //nobody point to 'from' so we can remove it from the graph
+ m_graph.remove(from);
+ delete adjacentToFirst;
+ }
+ }
+
+private:
+ Vertex *userVertex;
+
+ QHash<Vertex *, QHash<Vertex *, EdgeData *> *> m_graph;
+};
+
+QT_END_NAMESPACE
diff --git a/src/gui/graphicsview/qgraphicsanchorlayout.cpp b/src/gui/graphicsview/qgraphicsanchorlayout.cpp
new file mode 100644
index 0000000..fed0e5a
--- /dev/null
+++ b/src/gui/graphicsview/qgraphicsanchorlayout.cpp
@@ -0,0 +1,453 @@
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: Qt Software Information (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 either Technology Preview License Agreement or the
+** Beta Release License Agreement.
+**
+** 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 1.0, included in the file LGPL_EXCEPTION.txt in this
+** package.
+**
+** GNU General Public License Usage
+** Alternatively, this file may be used under the terms of the GNU
+** General Public License version 3.0 as published by the Free Software
+** Foundation and appearing in the file LICENSE.GPL included in the
+** packaging of this file. Please review the following information to
+** ensure the GNU General Public License version 3.0 requirements will be
+** met: http://www.gnu.org/copyleft/gpl.html.
+**
+** If you are unsure which license is appropriate for your use, please
+** contact the sales department at qt-sales@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 is a layout where one can specify how widgets should be placed relative to
+ each other. The specification is called an anchor, and it is set up by calling anchor().
+ Anchors are always set up between edges of an item, where the "center" is also considered to
+ be an edge. Considering this example:
+ \code
+ QGraphicsAnchorLayout *l = new QGraphicsAnchorLayout;
+ QGraphicsWidget *a = new QGraphicsWidget;
+ QGraphicsWidget *b = new QGraphicsWidget;
+ l->anchor(a, Qt::AnchorRight, b, Qt::AnchorLeft);
+ \endcode
+
+ Here is the right edge of item A anchored to the left edge of item B, with the result that
+ item B will be placed to the right of item A, with a spacing between A and B. If the
+ spacing is negative, the items will overlap to some extent. Items that are anchored are
+ automatically added to the layout, and if items are removed, all their anchors will be
+ automatically removed
+
+ \section1 Size Hints and Size Policies in QGraphicsLinearLayout
+ QGraphicsLinearLayout respects each item's size hints and size policies. However it does
+ not respect stretch factors currently. This might change in the future, so please refrain
+ from using stretch factors in anchor layout to avoid any future regressions.
+
+ \section1 Spacing within QGraphicsAnchorLayout
+
+ Between the items, the layout can distribute some space. If the spacing has not been
+ explicitly specified, the actual amount of space will usually be 0, but if the first edge
+ is the "opposite" of the second edge (i.e. Right is anchored to Left or vice-versa), the
+ size of the anchor will be queried from the style through the pixelMetric
+ PM_LayoutHorizontalSpacing (or PM_LayoutVerticalSpacing for vertical anchors).
+*/
+
+#include "qgraphicsanchorlayout_p.h"
+
+QT_BEGIN_NAMESPACE
+
+QGraphicsAnchorLayout::QGraphicsAnchorLayout(QGraphicsLayoutItem *parent)
+ : QGraphicsLayout(*new QGraphicsAnchorLayoutPrivate(), parent)
+{
+ Q_D(QGraphicsAnchorLayout);
+ d->createLayoutEdges();
+}
+
+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 with 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 setAnchorSpacing() method.
+ *
+ * \sa removeAnchor, addCornerAnchors, addLeftAndRightAnchors, addTopAndBottomAnchors, addAllAnchors
+ */
+void QGraphicsAnchorLayout::addAnchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge)
+{
+ Q_D(QGraphicsAnchorLayout);
+ d->anchor(firstItem, firstEdge, secondItem, secondEdge);
+ invalidate();
+}
+
+/*!
+ * Creates two anchors between \a firstItem and \a secondItem, where one is for the horizontal
+ * edge and another one for the vertical edge that the corners \a firstCorner and \a
+ * secondCorner specifies.
+ * The magnitude of the anchors is picked up from the style.
+ *
+ * This is a convenience function, since anchoring corners can be expressed as anchoring two edges.
+ * For instance,
+ * \code
+ * layout->addAnchor(layout, Qt::AnchorTop, b, Qt::AnchorTop);
+ * layout->addAnchor(layout, Qt::AnchorLeft, b, Qt::AnchorLeft);
+ * \endcode
+ *
+ * has the same effect as
+ *
+ * \code
+ * layout->addCornerAnchors(layout, Qt::TopLeft, b, Qt::TopLeft);
+ * \endcode
+ *
+ * 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 with up to 2.
+ */
+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->anchor(firstItem, firstEdge, secondItem, secondEdge);
+
+ // Vertical anchor
+ firstEdge = (firstCorner & 2 ? Qt::AnchorBottom: Qt::AnchorTop);
+ secondEdge = (secondCorner & 2 ? Qt::AnchorBottom: Qt::AnchorTop);
+ d->anchor(firstItem, firstEdge, secondItem, secondEdge);
+
+ invalidate();
+}
+
+/*!
+ \fn QGraphicsAnchorLayout::addLeftAndRightAnchors(QGraphicsLayoutItem *firstEdge, QGraphicsLayoutItem *secondEdge)
+
+ This convenience function is equivalent to calling
+ \code
+ l->addAnchor(firstEdge, Qt::AnchorLeft, secondEdge, Qt::AnchorLeft);
+ l->addAnchor(firstEdge, Qt::AnchorRight, secondEdge, Qt::AnchorRight);
+ \endcode
+*/
+
+/*!
+ \fn QGraphicsAnchorLayout::addTopAndBottomAnchors(QGraphicsLayoutItem *firstEdge, QGraphicsLayoutItem *secondEdge)
+
+ This convenience function is equivalent to calling
+ \code
+ l->addAnchor(firstEdge, Qt::AnchorTop, secondEdge, Qt::AnchorTop);
+ l->addAnchor(firstEdge, Qt::AnchorBottom, secondEdge, Qt::AnchorBottom);
+ \endcode
+*/
+
+/*!
+ \fn QGraphicsAnchorLayout::addAllAnchors(QGraphicsLayoutItem *firstEdge, QGraphicsLayoutItem *secondEdge)
+
+ This convenience function is equivalent to calling
+ \code
+ l->addLeftAndRightAnchors(firstEdge, secondEdge);
+ l->addTopAndBottomAnchors(firstEdge, secondEdge);
+ \endcode
+*/
+
+/*!
+ Set the spacing between the anchor point defined by \a firstItem and \a firstEdge and
+ \a secondItem and \a secondEdge to be \a spacing.
+*/
+void QGraphicsAnchorLayout::setAnchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge,
+ qreal spacing)
+{
+ Q_D(QGraphicsAnchorLayout);
+
+ if (!d->setAnchorSize(firstItem, firstEdge, secondItem, secondEdge, &spacing)) {
+ qWarning("setAnchorSpacing: The anchor does not exist.");
+ }
+ invalidate();
+}
+
+/*!
+ Returns the spacing between the anchor point defined by \a firstItem and \a firstEdge and
+ \a secondItem and \a secondEdge. The anchor must exist.
+*/
+qreal QGraphicsAnchorLayout::anchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge) const
+{
+ Q_D(const QGraphicsAnchorLayout);
+ qreal size = 0;
+ if (!d->anchorSize(firstItem, firstEdge, secondItem, secondEdge, 0, &size)) {
+ qWarning("anchorSpacing: The anchor does not exist.");
+ }
+ return size;
+}
+
+/*!
+ Resets the spacing between the anchor point defined by \a firstItem and \a firstEdge and
+ \a secondItem and \a secondEdge to be the default spacing. Depending on the anchor type, the
+ default spacing is either 0 or a value returned from the style.
+
+ \sa setAnchorSpacing, anchorSpacing, addAnchor
+*/
+void QGraphicsAnchorLayout::unsetAnchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge)
+{
+ Q_D(QGraphicsAnchorLayout);
+
+ if (!d->setAnchorSize(firstItem, firstEdge, secondItem, secondEdge, 0)) {
+ qWarning("unsetAnchorSpacing: The anchor does not exist.");
+ }
+ invalidate();
+}
+
+/*!
+ Removes the anchor between the edge \a firstEdge of item \a firstItem and the edge \a secondEdge
+ of item \a secondItem. If such an anchor does not exist, the layout will be left unchanged.
+*/
+void QGraphicsAnchorLayout::removeAnchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge)
+{
+ Q_D(QGraphicsAnchorLayout);
+ if ((firstItem == 0) || (secondItem == 0)) {
+ qWarning("QGraphicsAnchorLayout::removeAnchor: "
+ "Cannot remove anchor between NULL items");
+ return;
+ }
+
+ if (firstItem == secondItem) {
+ qWarning("QGraphicsAnchorLayout::removeAnchor: "
+ "Cannot remove anchor from the item to itself");
+ return;
+ }
+
+ if (d->edgeOrientation(secondEdge) != d->edgeOrientation(firstEdge)) {
+ qWarning("QGraphicsAnchorLayout::removeAnchor: "
+ "Cannot remove anchor from edges of different orientations");
+ return;
+ }
+
+ d->removeAnchor(firstItem, firstEdge, secondItem, secondEdge);
+ invalidate();
+}
+
+/*!
+ Sets the default horizontal spacing for the anchor layout to \a spacing.
+
+ \sa horizontalSpacing, setVerticalSpacing, setSpacing
+*/
+void QGraphicsAnchorLayout::setHorizontalSpacing(qreal spacing)
+{
+ Q_D(QGraphicsAnchorLayout);
+ 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);
+ 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.
+ \sa setHorizontalSpacing, setVerticalSpacing
+*/
+void QGraphicsAnchorLayout::setSpacing(qreal spacing)
+{
+ Q_D(QGraphicsAnchorLayout);
+ 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->effectiveSpacing(QGraphicsAnchorLayoutPrivate::Horizontal);
+}
+
+/*!
+ Returns the default vertical spacing for the anchor layout.
+
+ \sa horizontalSpacing, setVerticalSpacing
+*/
+qreal QGraphicsAnchorLayout::verticalSpacing() const
+{
+ Q_D(const QGraphicsAnchorLayout);
+ return d->effectiveSpacing(QGraphicsAnchorLayoutPrivate::Vertical);
+}
+
+/*!
+ \reimp
+*/
+void QGraphicsAnchorLayout::setGeometry(const QRectF &geom)
+{
+ Q_D(QGraphicsAnchorLayout);
+
+ QGraphicsLayout::setGeometry(geom);
+ d->calculateVertexPositions(QGraphicsAnchorLayoutPrivate::Horizontal);
+ d->calculateVertexPositions(QGraphicsAnchorLayoutPrivate::Vertical);
+ d->setItemsGeometries();
+}
+
+/*!
+ Removing an item will also remove any of the anchors associated with it.
+*/
+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 = 1;
+}
+
+/*!
+ \reimp
+*/
+QSizeF QGraphicsAnchorLayout::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const
+{
+ Q_UNUSED(which);
+ 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<QGraphicsAnchorLayoutPrivate *>(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
diff --git a/src/gui/graphicsview/qgraphicsanchorlayout.h b/src/gui/graphicsview/qgraphicsanchorlayout.h
new file mode 100644
index 0000000..3de9ae5
--- /dev/null
+++ b/src/gui/graphicsview/qgraphicsanchorlayout.h
@@ -0,0 +1,141 @@
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: Qt Software Information (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 either Technology Preview License Agreement or the
+** Beta Release License Agreement.
+**
+** 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 1.0, included in the file LGPL_EXCEPTION.txt in this
+** package.
+**
+** GNU General Public License Usage
+** Alternatively, this file may be used under the terms of the GNU
+** General Public License version 3.0 as published by the Free Software
+** Foundation and appearing in the file LICENSE.GPL included in the
+** packaging of this file. Please review the following information to
+** ensure the GNU General Public License version 3.0 requirements will be
+** met: http://www.gnu.org/copyleft/gpl.html.
+**
+** If you are unsure which license is appropriate for your use, please
+** contact the sales department at qt-sales@nokia.com.
+** $QT_END_LICENSE$
+**
+****************************************************************************/
+
+#ifndef QGRAPHICSANCHORLAYOUT_H
+#define QGRAPHICSANCHORLAYOUT_H
+
+#include <QtGui/qgraphicsitem.h>
+#include <QtGui/qgraphicslayout.h>
+
+
+QT_BEGIN_HEADER
+
+QT_BEGIN_NAMESPACE
+
+QT_MODULE(Gui)
+
+#if !defined(QT_NO_GRAPHICSVIEW) || (QT_EDITION & QT_MODULE_GRAPHICSVIEW) != QT_MODULE_GRAPHICSVIEW
+
+class QGraphicsAnchorLayoutPrivate;
+
+class Q_GUI_EXPORT QGraphicsAnchorLayout : public QGraphicsLayout
+{
+public:
+ QGraphicsAnchorLayout(QGraphicsLayoutItem *parent = 0);
+ virtual ~QGraphicsAnchorLayout();
+
+ void addAnchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge);
+
+ void addCornerAnchors(QGraphicsLayoutItem *firstItem, Qt::Corner firstCorner,
+ QGraphicsLayoutItem *secondItem, Qt::Corner secondCorner);
+
+ inline void addLeftAndRightAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem);
+
+ inline void addTopAndBottomAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem);
+
+ inline void addAllAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem);
+
+ void setAnchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge,
+ qreal spacing);
+
+ qreal anchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge) const;
+
+ void unsetAnchorSpacing(const QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge);
+
+ void removeAnchor(QGraphicsLayoutItem *firstItem, Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem, Qt::AnchorPoint secondEdge);
+
+ void setHorizontalSpacing(qreal spacing);
+ void setVerticalSpacing(qreal spacing);
+ void setSpacing(qreal spacing);
+ qreal horizontalSpacing() const;
+ qreal verticalSpacing() const;
+
+ void removeAt(int index);
+ void setGeometry(const QRectF &rect);
+ int count() const;
+ QGraphicsLayoutItem *itemAt(int index) const;
+
+ void invalidate();
+protected:
+ QSizeF sizeHint(Qt::SizeHint which, const QSizeF &constraint = QSizeF()) const;
+
+private:
+ Q_DISABLE_COPY(QGraphicsAnchorLayout)
+ Q_DECLARE_PRIVATE(QGraphicsAnchorLayout)
+};
+
+
+void QGraphicsAnchorLayout::addLeftAndRightAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem)
+{
+ addAnchor(secondItem, Qt::AnchorLeft, firstItem, Qt::AnchorLeft);
+ addAnchor(firstItem, Qt::AnchorRight, secondItem, Qt::AnchorRight);
+}
+
+void QGraphicsAnchorLayout::addTopAndBottomAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem)
+{
+ addAnchor(secondItem, Qt::AnchorTop, firstItem, Qt::AnchorTop);
+ addAnchor(firstItem, Qt::AnchorBottom, secondItem, Qt::AnchorBottom);
+}
+
+void QGraphicsAnchorLayout::addAllAnchors(QGraphicsLayoutItem *firstItem,
+ QGraphicsLayoutItem *secondItem)
+{
+ addLeftAndRightAnchors(firstItem, secondItem);
+ addTopAndBottomAnchors(firstItem, secondItem);
+}
+
+#endif
+
+QT_END_NAMESPACE
+
+QT_END_HEADER
+
+#endif
diff --git a/src/gui/graphicsview/qgraphicsanchorlayout_p.cpp b/src/gui/graphicsview/qgraphicsanchorlayout_p.cpp
new file mode 100644
index 0000000..c137de3
--- /dev/null
+++ b/src/gui/graphicsview/qgraphicsanchorlayout_p.cpp
@@ -0,0 +1,2104 @@
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: Qt Software Information (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 either Technology Preview License Agreement or the
+** Beta Release License Agreement.
+**
+** 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 1.0, included in the file LGPL_EXCEPTION.txt in this
+** package.
+**
+** GNU General Public License Usage
+** Alternatively, this file may be used under the terms of the GNU
+** General Public License version 3.0 as published by the Free Software
+** Foundation and appearing in the file LICENSE.GPL included in the
+** packaging of this file. Please review the following information to
+** ensure the GNU General Public License version 3.0 requirements will be
+** met: http://www.gnu.org/copyleft/gpl.html.
+**
+** If you are unsure which license is appropriate for your use, please
+** contact the sales department at qt-sales@nokia.com.
+** $QT_END_LICENSE$
+**
+****************************************************************************/
+
+#include <QtGui/qwidget.h>
+#include <QtCore/qlinkedlist.h>
+#include <QtCore/qstack.h>
+
+#ifdef QT_DEBUG
+#include <QtCore/qfile.h>
+#endif
+
+#include "qgraphicsanchorlayout_p.h"
+
+QT_BEGIN_NAMESPACE
+
+void AnchorData::refreshSizeHints(qreal effectiveSpacing)
+{
+ if (!isLayoutAnchor && from->m_item == to->m_item) {
+ bool hasCenter = false;
+ QGraphicsLayoutItem *item = from->m_item;
+
+ if (QGraphicsAnchorLayoutPrivate::edgeOrientation(from->m_edge)
+ == QGraphicsAnchorLayoutPrivate::Horizontal) {
+ minSize = item->minimumWidth();
+ prefSize = item->preferredWidth();
+ maxSize = item->maximumWidth();
+ hasCenter = (from->m_edge == Qt::AnchorHorizontalCenter
+ || to->m_edge == Qt::AnchorHorizontalCenter);
+ } else {
+ minSize = item->minimumHeight();
+ prefSize = item->preferredHeight();
+ maxSize = item->maximumHeight();
+ hasCenter = (from->m_edge == Qt::AnchorVerticalCenter
+ || to->m_edge == Qt::AnchorVerticalCenter);
+ }
+
+ if (hasCenter) {
+ minSize /= 2;
+ prefSize /= 2;
+ maxSize /= 2;
+ }
+
+ // Set the anchor effective sizes to preferred.
+ //
+ // Note: The idea here is that all items should remain at their
+ // preferred size unless where that's impossible. In cases where
+ // the item is subject to restrictions (anchored to the layout
+ // edges, for instance), the simplex solver will be run to
+ // recalculate and override the values we set here.
+ sizeAtMinimum = prefSize;
+ sizeAtPreferred = prefSize;
+ sizeAtMaximum = prefSize;
+
+ } else if (!hasSize) {
+ // Anchor has no size defined, use given default information
+ minSize = effectiveSpacing;
+ prefSize = effectiveSpacing;
+ maxSize = effectiveSpacing;
+
+ sizeAtMinimum = prefSize;
+ sizeAtPreferred = prefSize;
+ sizeAtMaximum = prefSize;
+ }
+}
+
+void ParallelAnchorData::updateChildrenSizes()
+{
+ firstEdge->sizeAtMinimum = secondEdge->sizeAtMinimum = sizeAtMinimum;
+ firstEdge->sizeAtPreferred = secondEdge->sizeAtPreferred = sizeAtPreferred;
+ firstEdge->sizeAtMaximum = secondEdge->sizeAtMaximum = sizeAtMaximum;
+
+ firstEdge->updateChildrenSizes();
+ secondEdge->updateChildrenSizes();
+}
+
+void ParallelAnchorData::refreshSizeHints(qreal effectiveSpacing)
+{
+ // First refresh children information
+ firstEdge->refreshSizeHints(effectiveSpacing);
+ secondEdge->refreshSizeHints(effectiveSpacing);
+
+ // ### should we warn if the parallel connection is invalid?
+ // e.g. 1-2-3 with 10-20-30, the minimum of the latter is
+ // bigger than the maximum of the former.
+
+ minSize = qMax(firstEdge->minSize, secondEdge->minSize);
+ maxSize = qMin(firstEdge->maxSize, secondEdge->maxSize);
+
+ prefSize = qMax(firstEdge->prefSize, secondEdge->prefSize);
+ prefSize = qMin(prefSize, maxSize);
+
+ // See comment in AnchorData::refreshSizeHints() about sizeAt* values
+ sizeAtMinimum = prefSize;
+ sizeAtPreferred = prefSize;
+ sizeAtMaximum = prefSize;
+}
+
+/*!
+ \internal
+ returns the factor in the interval [-1, 1].
+ -1 is at Minimum
+ 0 is at Preferred
+ 1 is at Maximum
+*/
+static qreal getFactor(qreal value, qreal min, qreal pref, qreal max)
+{
+ // ### Maybe remove some of the assertions? (since outside is asserting us)
+ Q_ASSERT(value > min || qFuzzyCompare(value, min));
+ Q_ASSERT(value < max || qFuzzyCompare(value, max));
+
+ if (qFuzzyCompare(value, min)) {
+ return -1.0;
+ } else if (qFuzzyCompare(value, pref)) {
+ return 0.0;
+ } else if (qFuzzyCompare(value, max)) {
+ return 1.0;
+ } else if (value < pref) {
+ // Since value < pref and value != pref and min <= value,
+ // we can assert that min < pref.
+ Q_ASSERT(min < pref);
+ return (value - min) / (pref - min) - 1;
+ } else {
+ // Since value > pref and value != pref and max >= value,
+ // we can assert that max > pref.
+ Q_ASSERT(max > pref);
+ return (value - pref) / (max - pref);
+ }
+}
+
+void SequentialAnchorData::updateChildrenSizes()
+{
+ // ### REMOVE ME
+ // ### check whether we are guarantee to get those or we need to warn stuff at this
+ // point.
+ Q_ASSERT(sizeAtMinimum > minSize || qFuzzyCompare(sizeAtMinimum, minSize));
+ Q_ASSERT(sizeAtMinimum < maxSize || qFuzzyCompare(sizeAtMinimum, maxSize));
+ Q_ASSERT(sizeAtPreferred > minSize || qFuzzyCompare(sizeAtPreferred, minSize));
+ Q_ASSERT(sizeAtPreferred < maxSize || qFuzzyCompare(sizeAtPreferred, maxSize));
+ Q_ASSERT(sizeAtMaximum > minSize || qFuzzyCompare(sizeAtMaximum, minSize));
+ Q_ASSERT(sizeAtMaximum < maxSize || qFuzzyCompare(sizeAtMaximum, maxSize));
+
+ // Band here refers if the value is in the Minimum To Preferred
+ // band (the lower band) or the Preferred To Maximum (the upper band).
+
+ qreal minFactor = getFactor(sizeAtMinimum, minSize, prefSize, maxSize);
+ qreal prefFactor = getFactor(sizeAtPreferred, minSize, prefSize, maxSize);
+ qreal maxFactor = getFactor(sizeAtMaximum, minSize, prefSize, maxSize);
+
+ for (int i = 0; i < m_edges.count(); ++i) {
+ AnchorData *e = m_edges.at(i);
+
+ qreal bandSize = minFactor > 0 ? e->maxSize - e->prefSize : e->prefSize - e->minSize;
+ e->sizeAtMinimum = e->prefSize + bandSize * minFactor;
+
+ bandSize = prefFactor > 0 ? e->maxSize - e->prefSize : e->prefSize - e->minSize;
+ e->sizeAtPreferred = e->prefSize + bandSize * prefFactor;
+
+ bandSize = maxFactor > 0 ? e->maxSize - e->prefSize : e->prefSize - e->minSize;
+ e->sizeAtMaximum = e->prefSize + bandSize * maxFactor;
+
+ e->updateChildrenSizes();
+ }
+}
+
+void SequentialAnchorData::refreshSizeHints(qreal effectiveSpacing)
+{
+ minSize = 0;
+ prefSize = 0;
+ maxSize = 0;
+
+ for (int i = 0; i < m_edges.count(); ++i) {
+ AnchorData *edge = m_edges.at(i);
+
+ // First refresh children information
+ edge->refreshSizeHints(effectiveSpacing);
+
+ minSize += edge->minSize;
+ prefSize += edge->prefSize;
+ maxSize += edge->maxSize;
+ }
+
+ // See comment in AnchorData::refreshSizeHints() about sizeAt* values
+ sizeAtMinimum = prefSize;
+ sizeAtPreferred = prefSize;
+ sizeAtMaximum = prefSize;
+}
+
+#ifdef QT_DEBUG
+void AnchorData::dump(int indent) {
+ if (type == Parallel) {
+ qDebug("%*s type: parallel:", indent, "");
+ ParallelAnchorData *p = static_cast<ParallelAnchorData *>(this);
+ p->firstEdge->dump(indent+2);
+ p->secondEdge->dump(indent+2);
+ } else if (type == Sequential) {
+ SequentialAnchorData *s = static_cast<SequentialAnchorData *>(this);
+ int kids = s->m_edges.count();
+ qDebug("%*s type: sequential(%d):", indent, "", kids);
+ for (int i = 0; i < kids; ++i) {
+ s->m_edges.at(i)->dump(indent+2);
+ }
+ } else {
+ qDebug("%*s type: Normal:", indent, "");
+ }
+}
+
+#endif
+
+QSimplexConstraint *GraphPath::constraint(const GraphPath &path) const
+{
+ // Calculate
+ QSet<AnchorData *> cPositives;
+ QSet<AnchorData *> cNegatives;
+ QSet<AnchorData *> intersection;
+
+ cPositives = positives + path.negatives;
+ cNegatives = negatives + path.positives;
+
+ intersection = cPositives & cNegatives;
+
+ cPositives -= intersection;
+ cNegatives -= intersection;
+
+ // Fill
+ QSimplexConstraint *c = new QSimplexConstraint;
+ QSet<AnchorData *>::iterator i;
+ for (i = cPositives.begin(); i != cPositives.end(); ++i)
+ c->variables.insert(*i, 1.0);
+
+ for (i = cNegatives.begin(); i != cNegatives.end(); ++i)
+ c->variables.insert(*i, -1.0);
+
+ return c;
+}
+
+#ifdef QT_DEBUG
+QString GraphPath::toString() const
+{
+ QString string(QLatin1String("Path: "));
+ foreach(AnchorData *edge, positives)
+ string += QString::fromAscii(" (+++) %1").arg(edge->toString());
+
+ foreach(AnchorData *edge, negatives)
+ string += QString::fromAscii(" (---) %1").arg(edge->toString());
+
+ return string;
+}
+#endif
+
+QGraphicsAnchorLayoutPrivate::QGraphicsAnchorLayoutPrivate()
+ : calculateGraphCacheDirty(1)
+{
+ for (int i = 0; i < NOrientations; ++i) {
+ spacings[i] = -1;
+ graphSimplified[i] = false;
+ }
+}
+
+Qt::AnchorPoint QGraphicsAnchorLayoutPrivate::oppositeEdge(Qt::AnchorPoint edge)
+{
+ switch (edge) {
+ case Qt::AnchorLeft:
+ edge = Qt::AnchorRight;
+ break;
+ case Qt::AnchorRight:
+ edge = Qt::AnchorLeft;
+ break;
+ case Qt::AnchorTop:
+ edge = Qt::AnchorBottom;
+ break;
+ case Qt::AnchorBottom:
+ edge = Qt::AnchorTop;
+ break;
+ default:
+ break;
+ }
+ return edge;
+}
+
+
+/*!
+ * \internal
+ *
+ * helper function in order to avoid overflowing anchor sizes
+ * the returned size will never be larger than FLT_MAX
+ *
+ */
+inline static qreal checkAdd(qreal a, qreal b)
+{
+ if (FLT_MAX - b < a)
+ return FLT_MAX;
+ return a + b;
+}
+
+/*!
+ * \internal
+ *
+ * Takes the sequence of vertices described by (\a before, \a vertices, \a after) and replaces
+ * all anchors connected to the vertices in \a vertices with one simplified anchor between
+ * \a before and \a after. The simplified anchor will be a placeholder for all the previous
+ * anchors between \a before and \a after, and can be restored back to the anchors it is a
+ * placeholder for.
+ */
+static bool simplifySequentialChunk(Graph<AnchorVertex, AnchorData> *graph,
+ AnchorVertex *before,
+ const QVector<AnchorVertex*> &vertices,
+ AnchorVertex *after)
+{
+ int i;
+#if defined(QT_DEBUG) && 0
+ QString strVertices;
+ for (i = 0; i < vertices.count(); ++i)
+ strVertices += QString::fromAscii("%1 - ").arg(vertices.at(i)->toString());
+ QString strPath = QString::fromAscii("%1 - %2%3").arg(before->toString(), strVertices, after->toString());
+ qDebug("simplifying [%s] to [%s - %s]", qPrintable(strPath), qPrintable(before->toString()), qPrintable(after->toString()));
+#endif
+
+ qreal min = 0;
+ qreal pref = 0;
+ qreal max = 0;
+
+ SequentialAnchorData *sequence = new SequentialAnchorData;
+ AnchorVertex *prev = before;
+ AnchorData *data;
+ for (i = 0; i <= vertices.count(); ++i) {
+ AnchorVertex *next = (i < vertices.count()) ? vertices.at(i) : after;
+ data = graph->takeEdge(prev, next);
+ min += data->minSize;
+ pref += data->prefSize;
+ max = checkAdd(max, data->maxSize);
+ sequence->m_edges.append(data);
+ prev = next;
+ }
+
+ // insert new
+ sequence->minSize = min;
+ sequence->prefSize = pref;
+ sequence->maxSize = max;
+
+ // Unless these values are overhidden by the simplex solver later-on,
+ // anchors will keep their own preferred size.
+ sequence->sizeAtMinimum = pref;
+ sequence->sizeAtPreferred = pref;
+ sequence->sizeAtMaximum = pref;
+
+ sequence->setVertices(vertices);
+
+ sequence->from = before;
+ sequence->to = after;
+
+ // data here is the last edge in the sequence
+ // ### this seems to be here for supporting reverse order sequences,
+ // but doesnt seem to be used right now
+ if (data->from != vertices.last())
+ qSwap(sequence->from, sequence->to);
+
+ // Note that since layout 'edges' can't be simplified away from
+ // the graph, it's safe to assume that if there's a layout
+ // 'edge', it'll be in the boundaries of the sequence.
+ sequence->isLayoutAnchor = (sequence->m_edges.first()->isLayoutAnchor
+ || sequence->m_edges.last()->isLayoutAnchor);
+
+ AnchorData *newAnchor = sequence;
+ if (AnchorData *oldAnchor = graph->takeEdge(before, after)) {
+ newAnchor = new ParallelAnchorData(oldAnchor, sequence);
+
+ newAnchor->isLayoutAnchor = (oldAnchor->isLayoutAnchor
+ || sequence->isLayoutAnchor);
+
+ min = qMax(oldAnchor->minSize, sequence->minSize);
+ max = qMin(oldAnchor->maxSize, sequence->maxSize);
+
+ pref = qMax(oldAnchor->prefSize, sequence->prefSize);
+ pref = qMin(pref, max);
+
+ newAnchor->minSize = min;
+ newAnchor->prefSize = pref;
+ newAnchor->maxSize = max;
+
+ // Same as above, by default, keep preferred size.
+ newAnchor->sizeAtMinimum = pref;
+ newAnchor->sizeAtPreferred = pref;
+ newAnchor->sizeAtMaximum = pref;
+ }
+ graph->createEdge(before, after, newAnchor);
+
+ // True if we created a parallel anchor
+ return newAnchor != sequence;
+}
+
+/*!
+ \internal
+
+ The purpose of this function is to simplify the graph.
+ Simplification serves two purposes:
+ 1. Reduce the number of edges in the graph, (thus the number of variables to the equation
+ solver is reduced, and the solver performs better).
+ 2. Be able to do distribution of sequences of edges more intelligently (esp. with sequential
+ anchors)
+
+ It is essential that it must be possible to restore simplified anchors back to their "original"
+ form. This is done by restoreSimplifiedAnchor().
+
+ There are two types of simplification that can be done:
+ 1. Sequential simplification
+ Sequential simplification means that all sequences of anchors will be merged into one single
+ anchor. Only anhcors that points in the same direction will be merged.
+ 2. Parallel simplification
+ If a simplified sequential anchor is about to be inserted between two vertices in the graph
+ and there already exist an anchor between those two vertices, a parallel anchor will be
+ created that serves as a placeholder for the sequential anchor and the anchor that was
+ already between the two vertices.
+
+ The process of simplification can be described as:
+
+ 1. Simplify all sequences of anchors into one anchor.
+ If no further simplification was done, go to (3)
+ - If there already exist an anchor where the sequential anchor is supposed to be inserted,
+ take that anchor out of the graph
+ - Then create a parallel anchor that holds the sequential anchor and the anchor just taken
+ out of the graph.
+ 2. Go to (1)
+ 3. Done
+
+
+ * Gathering sequential anchors *
+ The algorithm walks the graph in depth-first order, and only collects vertices that has two
+ edges connected to it. If the vertex does not have two edges or if it is a layout edge,
+ it will take all the previously collected vertices and try to create a simplified sequential
+ anchor representing all the previously collected vertices.
+ Once the simplified anchor is inserted, the collected list is cleared in order to find the next
+ sequence to simplify.
+ Note that there are some catches to this that are not covered by the above explanation.
+*/
+void QGraphicsAnchorLayoutPrivate::simplifyGraph(Orientation orientation)
+{
+ static bool noSimplification = !qgetenv("QT_ANCHORLAYOUT_NO_SIMPLIFICATION").isEmpty();
+ if (noSimplification)
+ return;
+
+ if (graphSimplified[orientation])
+ return;
+ graphSimplified[orientation] = true;
+
+#if 0
+ qDebug("Simplifying Graph for %s",
+ orientation == Horizontal ? "Horizontal" : "Vertical");
+#endif
+
+ AnchorVertex *rootVertex = graph[orientation].rootVertex();
+
+ if (!rootVertex)
+ return;
+
+ bool dirty;
+ do {
+ dirty = simplifyGraphIteration(orientation);
+ } while (dirty);
+}
+
+bool QGraphicsAnchorLayoutPrivate::simplifyGraphIteration(QGraphicsAnchorLayoutPrivate::Orientation orientation)
+{
+ Q_Q(QGraphicsAnchorLayout);
+ Graph<AnchorVertex, AnchorData> &g = graph[orientation];
+ AnchorVertex *v = g.rootVertex();
+
+ QSet<AnchorVertex *> visited;
+ QStack<AnchorVertex *> stack;
+ stack.push(v);
+ QVector<AnchorVertex*> candidates;
+
+ const Qt::AnchorPoint centerEdge = pickEdge(Qt::AnchorHorizontalCenter, orientation);
+ const Qt::AnchorPoint layoutEdge = oppositeEdge(v->m_edge);
+
+ bool dirty = false;
+
+ // walk depth-first.
+ while (!stack.isEmpty()) {
+ v = stack.pop();
+ QList<AnchorVertex *> vertices = g.adjacentVertices(v);
+ const int count = vertices.count();
+ bool endOfSequence = (v->m_item == q && v->m_edge == layoutEdge) || count != 2;
+ if (count == 2 && v->m_item != q) {
+ candidates.append(v);
+ if (visited.contains(vertices.first()) && visited.contains(vertices.last())) {
+ // in case of a cycle
+ endOfSequence = true;
+ }
+ }
+ if (endOfSequence && candidates.count() >= 2) {
+ int i;
+ AnchorVertex *afterSequence= 0;
+ QList<AnchorVertex *> adjacentOfSecondLastVertex = g.adjacentVertices(candidates.last());
+ Q_ASSERT(adjacentOfSecondLastVertex.count() == 2);
+ if (adjacentOfSecondLastVertex.first() == candidates.at(candidates.count() - 2))
+ afterSequence = adjacentOfSecondLastVertex.last();
+ else
+ afterSequence = adjacentOfSecondLastVertex.first();
+
+ AnchorVertex *beforeSequence = 0;
+ QList<AnchorVertex *> adjacentOfSecondVertex = g.adjacentVertices(candidates.first());
+ Q_ASSERT(adjacentOfSecondVertex.count() == 2);
+ if (adjacentOfSecondVertex.first() == candidates.at(1))
+ beforeSequence = adjacentOfSecondVertex.last();
+ else
+ beforeSequence = adjacentOfSecondVertex.first();
+ // The complete path of the sequence to simplify is: beforeSequence, <candidates>, afterSequence
+ // where beforeSequence and afterSequence are the endpoints where the anchor is inserted
+ // between.
+#if defined(QT_DEBUG) && 0
+ // ### DEBUG
+ QString strCandidates;
+ for (i = 0; i < candidates.count(); ++i)
+ strCandidates += QString::fromAscii("%1 - ").arg(candidates.at(i)->toString());
+ QString strPath = QString::fromAscii("%1 - %2%3").arg(beforeSequence->toString(), strCandidates, afterSequence->toString());
+ qDebug("candidate list for sequential simplification:\n[%s]", qPrintable(strPath));
+#endif
+
+ bool forward;
+ AnchorVertex *prev = beforeSequence;
+ int intervalFrom = 0;
+
+ // Check for directionality (from). We don't want to destroy that information,
+ // thus we only combine anchors with the same direction.
+
+ // "i" is the index *including* the beforeSequence and afterSequence vertices.
+ for (i = 1; i <= candidates.count() + 1; ++i) {
+ bool atVertexAfter = i > candidates.count();
+ AnchorVertex *v1 = atVertexAfter ? afterSequence : candidates.at(i - 1);
+ AnchorData *data = g.edgeData(prev, v1);
+ Q_ASSERT(data);
+ if (i == 1) {
+ forward = (prev == data->from ? true : false);
+ } else if (forward != (prev == data->from) || atVertexAfter) {
+ int intervalTo = i;
+ if (forward != (prev == data->from))
+ --intervalTo;
+
+ // intervalFrom and intervalTo should now be indices to the vertex before and
+ // after the sequential anchor.
+ if (intervalTo - intervalFrom >= 2) {
+ // simplify in the range [intervalFrom, intervalTo]
+
+ // Trim off internal center anchors (Left-Center/Center-Right) from the
+ // start and the end of the sequence. We never want to simplify internal
+ // center anchors where there is an external anchor connected to the center.
+ AnchorVertex *intervalVertexFrom = intervalFrom == 0 ? beforeSequence : candidates.at(intervalFrom - 1);
+ if (intervalVertexFrom->m_edge == centerEdge
+ && intervalVertexFrom->m_item == candidates.at(intervalFrom)->m_item) {
+ ++intervalFrom;
+ intervalVertexFrom = candidates.at(intervalFrom - 1);
+ }
+ AnchorVertex *intervalVertexTo = intervalTo <= candidates.count() ? candidates.at(intervalTo - 1) : afterSequence;
+ if (intervalVertexTo->m_edge == centerEdge
+ && intervalVertexTo->m_item == candidates.at(intervalTo - 2)->m_item) {
+ --intervalTo;
+ intervalVertexTo = candidates.at(intervalTo - 1);
+ }
+
+ QVector<AnchorVertex*> subCandidates;
+ if (forward) {
+ subCandidates = candidates.mid(intervalFrom, intervalTo - intervalFrom - 1);
+ } else {
+ // reverse the order of the candidates.
+ qSwap(intervalVertexFrom, intervalVertexTo);
+ do {
+ ++intervalFrom;
+ subCandidates.prepend(candidates.at(intervalFrom - 1));
+ } while (intervalFrom < intervalTo - 1);
+ }
+ if (simplifySequentialChunk(&g, intervalVertexFrom, subCandidates, intervalVertexTo)) {
+ dirty = true;
+ break;
+ }
+ // finished simplification of chunk with same direction
+ }
+ if (forward == (prev == data->from))
+ --intervalTo;
+ intervalFrom = intervalTo;
+
+ forward = !forward;
+ }
+ prev = v1;
+ }
+
+ if (dirty)
+ break;
+ }
+
+ if (endOfSequence)
+ candidates.clear();
+
+ for (int i = 0; i < count; ++i) {
+ AnchorVertex *next = vertices.at(i);
+ if (next->m_item == q && next->m_edge == centerEdge)
+ continue;
+ if (visited.contains(next))
+ continue;
+ stack.push(next);
+ }
+
+ visited.insert(v);
+ }
+
+ return dirty;
+}
+
+static void restoreSimplifiedAnchor(Graph<AnchorVertex, AnchorData> &g,
+ AnchorData *edge,
+ AnchorVertex *before,
+ AnchorVertex *after)
+{
+ Q_ASSERT(edge->type != AnchorData::Normal);
+#if 0
+ static const char *anchortypes[] = {"Normal",
+ "Sequential",
+ "Parallel"};
+ qDebug("Restoring %s edge.", anchortypes[int(edge->type)]);
+#endif
+ if (edge->type == AnchorData::Sequential) {
+ SequentialAnchorData* seqEdge = static_cast<SequentialAnchorData*>(edge);
+ // restore the sequential anchor
+ AnchorVertex *prev = before;
+ AnchorVertex *last = after;
+ if (edge->from != prev)
+ qSwap(last, prev);
+
+ for (int i = 0; i < seqEdge->m_edges.count(); ++i) {
+ AnchorVertex *v1 = (i < seqEdge->m_children.count()) ? seqEdge->m_children.at(i) : last;
+ AnchorData *data = seqEdge->m_edges.at(i);
+ if (data->type != AnchorData::Normal) {
+ restoreSimplifiedAnchor(g, data, prev, v1);
+ } else {
+ g.createEdge(prev, v1, data);
+ }
+ prev = v1;
+ }
+ } else if (edge->type == AnchorData::Parallel) {
+ ParallelAnchorData* parallelEdge = static_cast<ParallelAnchorData*>(edge);
+ AnchorData *parallelEdges[2] = {parallelEdge->firstEdge,
+ parallelEdge->secondEdge};
+ for (int i = 0; i < 2; ++i) {
+ AnchorData *data = parallelEdges[i];
+ if (data->type == AnchorData::Normal) {
+ g.createEdge(before, after, data);
+ } else {
+ restoreSimplifiedAnchor(g, data, before, after);
+ }
+ }
+ }
+}
+
+void QGraphicsAnchorLayoutPrivate::restoreSimplifiedGraph(Orientation orientation)
+{
+ if (!graphSimplified[orientation])
+ return;
+ graphSimplified[orientation] = false;
+
+#if 0
+ qDebug("Restoring Simplified Graph for %s",
+ orientation == Horizontal ? "Horizontal" : "Vertical");
+#endif
+
+ Graph<AnchorVertex, AnchorData> &g = graph[orientation];
+
+ QList<QPair<AnchorVertex*, AnchorVertex*> > connections = g.connections();
+ for (int i = 0; i < connections.count(); ++i) {
+ AnchorVertex *v1 = connections.at(i).first;
+ AnchorVertex *v2 = connections.at(i).second;
+ AnchorData *edge = g.edgeData(v1, v2);
+ if (edge->type != AnchorData::Normal) {
+ AnchorData *oldEdge = g.takeEdge(v1, v2);
+ restoreSimplifiedAnchor(g, edge, v1, v2);
+ delete oldEdge;
+ }
+ }
+}
+
+QGraphicsAnchorLayoutPrivate::Orientation
+QGraphicsAnchorLayoutPrivate::edgeOrientation(Qt::AnchorPoint edge)
+{
+ return edge > Qt::AnchorRight ? Vertical : Horizontal;
+}
+
+/*!
+ \internal
+
+ Create internal anchors to connect the layout edges (Left to Right and
+ Top to Bottom).
+
+ These anchors doesn't have size restrictions, that will be enforced by
+ other anchors and items in the layout.
+*/
+void QGraphicsAnchorLayoutPrivate::createLayoutEdges()
+{
+ Q_Q(QGraphicsAnchorLayout);
+ QGraphicsLayoutItem *layout = q;
+
+ // Horizontal
+ AnchorData *data = new AnchorData(0, 0, QWIDGETSIZE_MAX);
+ addAnchor(layout, Qt::AnchorLeft, layout,
+ Qt::AnchorRight, data);
+ data->skipInPreferred = 1;
+
+ // Set the Layout Left edge as the root of the horizontal graph.
+ AnchorVertex *v = internalVertex(layout, Qt::AnchorLeft);
+ graph[Horizontal].setRootVertex(v);
+
+ // Vertical
+ data = new AnchorData(0, 0, QWIDGETSIZE_MAX);
+ addAnchor(layout, Qt::AnchorTop, layout,
+ Qt::AnchorBottom, data);
+ data->skipInPreferred = 1;
+
+ // Set the Layout Top edge as the root of the vertical graph.
+ v = internalVertex(layout, Qt::AnchorTop);
+ graph[Vertical].setRootVertex(v);
+}
+
+void QGraphicsAnchorLayoutPrivate::deleteLayoutEdges()
+{
+ Q_Q(QGraphicsAnchorLayout);
+
+ Q_ASSERT(internalVertex(q, Qt::AnchorHorizontalCenter) == NULL);
+ Q_ASSERT(internalVertex(q, Qt::AnchorVerticalCenter) == NULL);
+
+ removeAnchor(q, Qt::AnchorLeft, q, Qt::AnchorRight);
+ removeAnchor(q, Qt::AnchorTop, q, Qt::AnchorBottom);
+}
+
+void QGraphicsAnchorLayoutPrivate::createItemEdges(QGraphicsLayoutItem *item)
+{
+ Q_ASSERT(!graphSimplified[Horizontal] && !graphSimplified[Vertical]);
+
+ items.append(item);
+
+ // Horizontal
+ int minimumSize = item->minimumWidth();
+ int preferredSize = item->preferredWidth();
+ int maximumSize = item->maximumWidth();
+
+ AnchorData *data = new AnchorData(minimumSize, preferredSize, maximumSize);
+ addAnchor(item, Qt::AnchorLeft, item,
+ Qt::AnchorRight, data);
+
+ // Vertical
+ minimumSize = item->minimumHeight();
+ preferredSize = item->preferredHeight();
+ maximumSize = item->maximumHeight();
+
+ data = new AnchorData(minimumSize, preferredSize, maximumSize);
+ addAnchor(item, Qt::AnchorTop, item,
+ Qt::AnchorBottom, data);
+}
+
+/*!
+ \internal
+
+ By default, each item in the layout is represented internally as
+ a single anchor in each direction. For instance, from Left to Right.
+
+ However, to support anchorage of items to the center of items, we
+ must split this internal anchor into two half-anchors. From Left
+ to Center and then from Center to Right, with the restriction that
+ these anchors must have the same time at all times.
+*/
+void QGraphicsAnchorLayoutPrivate::createCenterAnchors(
+ QGraphicsLayoutItem *item, Qt::AnchorPoint centerEdge)
+{
+ Orientation orientation;
+ switch (centerEdge) {
+ case Qt::AnchorHorizontalCenter:
+ orientation = Horizontal;
+ break;
+ case Qt::AnchorVerticalCenter:
+ orientation = Vertical;
+ break;
+ default:
+ // Don't create center edges unless needed
+ return;
+ }
+
+ Q_ASSERT(!graphSimplified[orientation]);
+
+ // Check if vertex already exists
+ if (internalVertex(item, centerEdge))
+ return;
+
+ // Orientation code
+ Qt::AnchorPoint firstEdge;
+ Qt::AnchorPoint lastEdge;
+
+ if (orientation == Horizontal) {
+ firstEdge = Qt::AnchorLeft;
+ lastEdge = Qt::AnchorRight;
+ } else {
+ firstEdge = Qt::AnchorTop;
+ lastEdge = Qt::AnchorBottom;
+ }
+
+ AnchorVertex *first = internalVertex(item, firstEdge);
+ AnchorVertex *last = internalVertex(item, lastEdge);
+ Q_ASSERT(first && last);
+
+ // Create new anchors
+ AnchorData *oldData = graph[orientation].edgeData(first, last);
+
+ int minimumSize = oldData->minSize / 2;
+ int preferredSize = oldData->prefSize / 2;
+ int maximumSize = oldData->maxSize / 2;
+
+ QSimplexConstraint *c = new QSimplexConstraint;
+ AnchorData *data = new AnchorData(minimumSize, preferredSize, maximumSize);
+ c->variables.insert(data, 1.0);
+ addAnchor(item, firstEdge, item, centerEdge, data);
+
+ data = new AnchorData(minimumSize, preferredSize, maximumSize);
+ c->variables.insert(data, -1.0);
+ addAnchor(item, centerEdge, item, lastEdge, data);
+
+ itemCenterConstraints[orientation].append(c);
+
+ // Remove old one
+ removeAnchor(item, firstEdge, item, lastEdge);
+}
+
+void QGraphicsAnchorLayoutPrivate::removeCenterAnchors(
+ QGraphicsLayoutItem *item, Qt::AnchorPoint centerEdge,
+ bool substitute)
+{
+ Orientation orientation;
+ switch (centerEdge) {
+ case Qt::AnchorHorizontalCenter:
+ orientation = Horizontal;
+ break;
+ case Qt::AnchorVerticalCenter:
+ orientation = Vertical;
+ break;
+ default:
+ // Don't remove edges that not the center ones
+ return;
+ }
+
+ Q_ASSERT(!graphSimplified[orientation]);
+
+ // Orientation code
+ Qt::AnchorPoint firstEdge;
+ Qt::AnchorPoint lastEdge;
+
+ if (orientation == Horizontal) {
+ firstEdge = Qt::AnchorLeft;
+ lastEdge = Qt::AnchorRight;
+ } else {
+ firstEdge = Qt::AnchorTop;
+ lastEdge = Qt::AnchorBottom;
+ }
+
+ AnchorVertex *center = internalVertex(item, centerEdge);
+ if (!center)
+ return;
+ AnchorVertex *first = internalVertex(item, firstEdge);
+
+ Q_ASSERT(first);
+ Q_ASSERT(center);
+
+ Graph<AnchorVertex, AnchorData> &g = graph[orientation];
+
+
+ AnchorData *oldData = g.edgeData(first, center);
+ // Remove center constraint
+ for (int i = itemCenterConstraints[orientation].count() - 1; i >= 0; --i) {
+ if (itemCenterConstraints[orientation][i]->variables.contains(oldData)) {
+ delete itemCenterConstraints[orientation].takeAt(i);
+ break;
+ }
+ }
+
+ if (substitute) {
+ // Create the new anchor that should substitute the left-center-right anchors.
+ AnchorData *oldData = g.edgeData(first, center);
+
+ int minimumSize = oldData->minSize * 2;
+ int preferredSize = oldData->prefSize * 2;
+ int maximumSize = oldData->maxSize * 2;
+
+ AnchorData *data = new AnchorData(minimumSize, preferredSize, maximumSize);
+ addAnchor(item, firstEdge, item, lastEdge, data);
+
+ // Remove old anchors
+ removeAnchor(item, firstEdge, item, centerEdge);
+ removeAnchor(item, centerEdge, item, lastEdge);
+
+ } else {
+ // this is only called from removeAnchors()
+ // first, remove all non-internal anchors
+ QList<AnchorVertex*> adjacents = g.adjacentVertices(center);
+ for (int i = 0; i < adjacents.count(); ++i) {
+ AnchorVertex *v = adjacents.at(i);
+ if (v->m_item != item) {
+ removeAnchor(item, centerEdge, v->m_item, v->m_edge);
+ }
+ }
+ // when all non-internal anchors is removed it will automatically merge the
+ // center anchor into a left-right (or top-bottom) anchor. We must also delete that.
+ // by this time, the center vertex is deleted and merged into a non-centered internal anchor
+ removeAnchor(item, firstEdge, item, lastEdge);
+ }
+}
+
+
+void QGraphicsAnchorLayoutPrivate::removeCenterConstraints(QGraphicsLayoutItem *item,
+ Orientation orientation)
+{
+ Q_ASSERT(!graphSimplified[orientation]);
+
+ // Remove the item center constraints associated to this item
+ // ### This is a temporary solution. We should probably use a better
+ // data structure to hold items and/or their associated constraints
+ // so that we can remove those easily
+
+ AnchorVertex *first = internalVertex(item, orientation == Horizontal ?
+ Qt::AnchorLeft :
+ Qt::AnchorTop);
+ AnchorVertex *center = internalVertex(item, orientation == Horizontal ?
+ Qt::AnchorHorizontalCenter :
+ Qt::AnchorVerticalCenter);
+
+ // Skip if no center constraints exist
+ if (!center)
+ return;
+
+ Q_ASSERT(first);
+ AnchorData *internalAnchor = graph[orientation].edgeData(first, center);
+
+ // Look for our anchor in all item center constraints, then remove it
+ for (int i = 0; i < itemCenterConstraints[orientation].size(); ++i) {
+ if (itemCenterConstraints[orientation][i]->variables.contains(internalAnchor)) {
+ delete itemCenterConstraints[orientation].takeAt(i);
+ break;
+ }
+ }
+}
+
+/*!
+ * \internal
+ *
+ * Helper function that is called from the anchor functions in the public API.
+ * If \a spacing is 0, it will pick up the spacing defined by the style.
+ */
+void QGraphicsAnchorLayoutPrivate::anchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ qreal *spacing)
+{
+ Q_Q(QGraphicsAnchorLayout);
+ if ((firstItem == 0) || (secondItem == 0)) {
+ qWarning("QGraphicsAnchorLayout::addAnchor(): "
+ "Cannot anchor NULL items");
+ return;
+ }
+
+ if (firstItem == secondItem) {
+ qWarning("QGraphicsAnchorLayout::addAnchor(): "
+ "Cannot anchor the item to itself");
+ return;
+ }
+
+ if (edgeOrientation(secondEdge) != edgeOrientation(firstEdge)) {
+ qWarning("QGraphicsAnchorLayout::addAnchor(): "
+ "Cannot anchor edges of different orientations");
+ return;
+ }
+
+ // Guarantee that the graph is no simplified when adding this anchor,
+ // anchor manipulation always happen in the full graph
+ restoreSimplifiedGraph(edgeOrientation(firstEdge));
+
+ // In QGraphicsAnchorLayout, items are represented in its internal
+ // graph as four anchors that connect:
+ // - Left -> HCenter
+ // - HCenter-> Right
+ // - Top -> VCenter
+ // - VCenter -> Bottom
+
+ // Ensure that the internal anchors have been created for both items.
+ if (firstItem != q && !items.contains(firstItem)) {
+ restoreSimplifiedGraph(edgeOrientation(firstEdge) == Horizontal ? Vertical : Horizontal);
+ createItemEdges(firstItem);
+ addChildLayoutItem(firstItem);
+ }
+ if (secondItem != q && !items.contains(secondItem)) {
+ restoreSimplifiedGraph(edgeOrientation(firstEdge) == Horizontal ? Vertical : Horizontal);
+ createItemEdges(secondItem);
+ addChildLayoutItem(secondItem);
+ }
+
+ // Create center edges if needed
+ createCenterAnchors(firstItem, firstEdge);
+ createCenterAnchors(secondItem, secondEdge);
+
+ // Use heuristics to find out what the user meant with this anchor.
+ correctEdgeDirection(firstItem, firstEdge, secondItem, secondEdge);
+
+ AnchorData *data;
+ if (!spacing) {
+ // If firstItem or secondItem is the layout itself, the spacing will default to 0.
+ // Otherwise, the following matrix is used (questionmark means that the spacing
+ // is queried from the style):
+ // from
+ // to Left HCenter Right
+ // Left 0 0 ?
+ // HCenter 0 0 0
+ // Right ? 0 0
+ if (firstItem != q
+ && secondItem != q
+ && pickEdge(firstEdge, Horizontal) != Qt::AnchorHorizontalCenter
+ && oppositeEdge(firstEdge) == secondEdge) {
+ data = new AnchorData; // ask the style later
+ } else {
+ data = new AnchorData(0); // spacing should be 0
+ }
+ addAnchor(firstItem, firstEdge, secondItem, secondEdge, data);
+ } else if (*spacing >= 0) {
+ data = new AnchorData(*spacing);
+ addAnchor(firstItem, firstEdge, secondItem, secondEdge, data);
+ } else {
+ data = new AnchorData(-*spacing);
+ addAnchor(secondItem, secondEdge, firstItem, firstEdge, data);
+ }
+}
+
+void QGraphicsAnchorLayoutPrivate::addAnchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ AnchorData *data)
+{
+ Q_Q(QGraphicsAnchorLayout);
+
+ // Guarantee that the graph is no simplified when adding this anchor,
+ // anchor manipulation always happen in the full graph
+ restoreSimplifiedGraph(edgeOrientation(firstEdge));
+
+ // Is the Vertex (firstItem, firstEdge) already represented in our
+ // internal structure?
+ AnchorVertex *v1 = addInternalVertex(firstItem, firstEdge);
+ AnchorVertex *v2 = addInternalVertex(secondItem, secondEdge);
+
+ // Remove previous anchor
+ // ### Could we update the existing edgeData rather than creating a new one?
+ if (graph[edgeOrientation(firstEdge)].edgeData(v1, v2))
+ removeAnchor(firstItem, firstEdge, secondItem, secondEdge);
+
+ // Create a bi-directional edge in the sense it can be transversed both
+ // from v1 or v2. "data" however is shared between the two references
+ // so we still know that the anchor direction is from 1 to 2.
+ data->from = v1;
+ data->to = v2;
+#ifdef QT_DEBUG
+ data->name = QString::fromAscii("%1 --to--> %2").arg(v1->toString()).arg(v2->toString());
+#endif
+ // Keep track of anchors that are connected to the layout 'edges'
+ data->isLayoutAnchor = (v1->m_item == q || v2->m_item == q);
+
+ graph[edgeOrientation(firstEdge)].createEdge(v1, v2, data);
+}
+
+void QGraphicsAnchorLayoutPrivate::removeAnchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge)
+{
+ // Guarantee that the graph is no simplified when adding this anchor,
+ // anchor manipulation always happen in the full graph
+ restoreSimplifiedGraph(edgeOrientation(firstEdge));
+
+ // Look for both vertices
+ AnchorVertex *v1 = internalVertex(firstItem, firstEdge);
+ AnchorVertex *v2 = internalVertex(secondItem, secondEdge);
+
+ Q_ASSERT(v1 && v2);
+
+ // Remove edge from graph
+ graph[edgeOrientation(firstEdge)].removeEdge(v1, v2);
+
+ // Decrease vertices reference count (may trigger a deletion)
+ removeInternalVertex(firstItem, firstEdge);
+ removeInternalVertex(secondItem, secondEdge);
+}
+
+bool QGraphicsAnchorLayoutPrivate::setAnchorSize(const QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ const qreal *anchorSize)
+{
+ // ### we can avoid restoration if we really want to, but we would have to
+ // search recursively through all composite anchors
+ restoreSimplifiedGraph(edgeOrientation(firstEdge));
+ AnchorVertex *v1 = internalVertex(firstItem, firstEdge);
+ AnchorVertex *v2 = internalVertex(secondItem, secondEdge);
+
+ AnchorData *data = graph[edgeOrientation(firstEdge)].edgeData(v1, v2);
+ if (data) {
+ if (anchorSize) {
+ data->setFixedSize(*anchorSize);
+ } else {
+ data->unsetSize();
+ }
+ }
+
+ return data;
+}
+
+bool QGraphicsAnchorLayoutPrivate::anchorSize(const QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ qreal *minSize,
+ qreal *prefSize,
+ qreal *maxSize) const
+{
+ Q_ASSERT(minSize || prefSize || maxSize);
+ QGraphicsAnchorLayoutPrivate *that = const_cast<QGraphicsAnchorLayoutPrivate *>(this);
+ that->restoreSimplifiedGraph(edgeOrientation(firstEdge));
+ AnchorVertex *v1 = internalVertex(firstItem, firstEdge);
+ AnchorVertex *v2 = internalVertex(secondItem, secondEdge);
+
+ AnchorData *data = that->graph[edgeOrientation(firstEdge)].edgeData(v1, v2);
+ if (data) {
+ if (minSize)
+ *minSize = data->minSize;
+ if (prefSize)
+ *prefSize = data->prefSize;
+ if (maxSize)
+ *maxSize = data->maxSize;
+ }
+ return data;
+}
+
+AnchorVertex *QGraphicsAnchorLayoutPrivate::addInternalVertex(QGraphicsLayoutItem *item,
+ Qt::AnchorPoint edge)
+{
+ QPair<QGraphicsLayoutItem *, Qt::AnchorPoint> pair(item, edge);
+ QPair<AnchorVertex *, int> v = m_vertexList.value(pair);
+
+ if (!v.first) {
+ Q_ASSERT(v.second == 0);
+ v.first = new AnchorVertex(item, edge);
+ }
+ v.second++;
+ m_vertexList.insert(pair, v);
+ return v.first;
+}
+
+/**
+ * \internal
+ *
+ * returns the AnchorVertex that was dereferenced, also when it was removed.
+ * returns 0 if it did not exist.
+ */
+void QGraphicsAnchorLayoutPrivate::removeInternalVertex(QGraphicsLayoutItem *item,
+ Qt::AnchorPoint edge)
+{
+ QPair<QGraphicsLayoutItem *, Qt::AnchorPoint> pair(item, edge);
+ QPair<AnchorVertex *, int> v = m_vertexList.value(pair);
+
+ if (!v.first) {
+ qWarning("This item with this edge is not in the graph");
+ return;
+ }
+
+ v.second--;
+ if (v.second == 0) {
+ // Remove reference and delete vertex
+ m_vertexList.remove(pair);
+ delete v.first;
+ } else {
+ // Update reference count
+ m_vertexList.insert(pair, v);
+
+ if ((v.second == 2) &&
+ ((edge == Qt::AnchorHorizontalCenter) ||
+ (edge == Qt::AnchorVerticalCenter))) {
+ removeCenterAnchors(item, edge, true);
+ }
+ }
+}
+
+void QGraphicsAnchorLayoutPrivate::removeVertex(QGraphicsLayoutItem *item, Qt::AnchorPoint edge)
+{
+ if (AnchorVertex *v = internalVertex(item, edge)) {
+ Graph<AnchorVertex, AnchorData> &g = graph[edgeOrientation(edge)];
+ const QList<AnchorVertex *> allVertices = graph[edgeOrientation(edge)].adjacentVertices(v);
+ AnchorVertex *v2;
+ foreach (v2, allVertices) {
+ g.removeEdge(v, v2);
+ removeInternalVertex(item, edge);
+ removeInternalVertex(v2->m_item, v2->m_edge);
+ }
+ }
+}
+
+void QGraphicsAnchorLayoutPrivate::removeAnchors(QGraphicsLayoutItem *item)
+{
+ Q_ASSERT(!graphSimplified[Horizontal] && !graphSimplified[Vertical]);
+
+ // remove the center anchor first!!
+ removeCenterAnchors(item, Qt::AnchorHorizontalCenter, false);
+ removeVertex(item, Qt::AnchorLeft);
+ removeVertex(item, Qt::AnchorRight);
+
+ removeCenterAnchors(item, Qt::AnchorVerticalCenter, false);
+ removeVertex(item, Qt::AnchorTop);
+ removeVertex(item, Qt::AnchorBottom);
+}
+
+/*!
+ \internal
+
+ Use heuristics to determine the correct orientation of a given anchor.
+
+ After API discussions, we decided we would like expressions like
+ anchor(A, Left, B, Right) to mean the same as anchor(B, Right, A, Left).
+ The problem with this is that anchors could become ambiguous, for
+ instance, what does the anchor A, B of size X mean?
+
+ "pos(B) = pos(A) + X" or "pos(A) = pos(B) + X" ?
+
+ To keep the API user friendly and at the same time, keep our algorithm
+ deterministic, we use an heuristic to determine a direction for each
+ added anchor and then keep it. The heuristic is based on the fact
+ that people usually avoid overlapping items, therefore:
+
+ "A, RIGHT to B, LEFT" means that B is to the LEFT of A.
+ "B, LEFT to A, RIGHT" is corrected to the above anchor.
+
+ Special correction is also applied when one of the items is the
+ layout. We handle Layout Left as if it was another items's Right
+ and Layout Right as another item's Left.
+*/
+void QGraphicsAnchorLayoutPrivate::correctEdgeDirection(QGraphicsLayoutItem *&firstItem,
+ Qt::AnchorPoint &firstEdge,
+ QGraphicsLayoutItem *&secondItem,
+ Qt::AnchorPoint &secondEdge)
+{
+ Q_Q(QGraphicsAnchorLayout);
+
+ Qt::AnchorPoint effectiveFirst = firstEdge;
+ Qt::AnchorPoint effectiveSecond = secondEdge;
+
+ if (firstItem == q)
+ effectiveFirst = QGraphicsAnchorLayoutPrivate::oppositeEdge(firstEdge);
+ if (secondItem == q)
+ effectiveSecond = QGraphicsAnchorLayoutPrivate::oppositeEdge(secondEdge);
+
+ if (effectiveFirst < effectiveSecond) {
+
+ // ### DEBUG
+ /* printf("Swapping Anchor from %s %d --to--> %s %d\n",
+ firstItem->isLayout() ? "<layout>" :
+ qPrintable(static_cast<QGraphicsWidget *>(firstItem)->data(0).toString()),
+ firstEdge,
+ secondItem->isLayout() ? "<layout>" :
+ qPrintable(static_cast<QGraphicsWidget *>(secondItem)->data(0).toString()),
+ secondEdge);
+ */
+ qSwap(firstItem, secondItem);
+ qSwap(firstEdge, secondEdge);
+ }
+}
+
+qreal QGraphicsAnchorLayoutPrivate::effectiveSpacing(Orientation orientation) const
+{
+ Q_Q(const QGraphicsAnchorLayout);
+ qreal s = spacings[orientation];
+ if (s < 0) {
+ // ### make sure behaviour is the same as in QGraphicsGridLayout
+ QGraphicsLayoutItem *parent = q->parentLayoutItem();
+ while (parent && parent->isLayout()) {
+ parent = parent->parentLayoutItem();
+ }
+ if (parent) {
+ QGraphicsItem *parentItem = parent->graphicsItem();
+ if (parentItem && parentItem->isWidget()) {
+ QGraphicsWidget *w = static_cast<QGraphicsWidget*>(parentItem);
+ s = w->style()->pixelMetric(orientation == Horizontal
+ ? QStyle::PM_LayoutHorizontalSpacing
+ : QStyle::PM_LayoutVerticalSpacing);
+ }
+ }
+ }
+ return s;
+}
+
+/*!
+ \internal
+
+ Called on activation. Uses Linear Programming to define minimum, preferred
+ and maximum sizes for the layout. Also calculates the sizes that each item
+ should assume when the layout is in one of such situations.
+*/
+void QGraphicsAnchorLayoutPrivate::calculateGraphs()
+{
+ if (!calculateGraphCacheDirty)
+ return;
+
+ calculateGraphs(Horizontal);
+ calculateGraphs(Vertical);
+
+ calculateGraphCacheDirty = 0;
+}
+
+// ### remove me:
+QList<AnchorData *> getVariables(QList<QSimplexConstraint *> constraints)
+{
+ QSet<AnchorData *> variableSet;
+ for (int i = 0; i < constraints.count(); ++i) {
+ const QSimplexConstraint *c = constraints[i];
+ foreach (QSimplexVariable *var, c->variables.keys()) {
+ variableSet += static_cast<AnchorData *>(var);
+ }
+ }
+ return variableSet.toList();
+}
+
+/*!
+ \internal
+
+ Calculate graphs is the method that puts together all the helper routines
+ so that the AnchorLayout can calculate the sizes of each item.
+
+ In a nutshell it should do:
+
+ 1) Update anchor nominal sizes, that is, the size that each anchor would
+ have if no other restrictions applied. This is done by quering the
+ layout style and the sizeHints of the items belonging to the layout.
+
+ 2) Simplify the graph by grouping together parallel and sequential anchors
+ into "group anchors". These have equivalent minimum, preferred and maximum
+ sizeHints as the anchors they replace.
+
+ 3) Check if we got to a trivial case. In some cases, the whole graph can be
+ simplified into a single anchor. If so, use this information. If not,
+ then call the Simplex solver to calculate the anchors sizes.
+
+ 4) Once the root anchors had its sizes calculated, propagate that to the
+ anchors they represent.
+*/
+void QGraphicsAnchorLayoutPrivate::calculateGraphs(
+ QGraphicsAnchorLayoutPrivate::Orientation orientation)
+{
+ Q_Q(QGraphicsAnchorLayout);
+
+ // Simplify the graph
+ simplifyGraph(orientation);
+
+ // Reset the nominal sizes of each anchor based on the current item sizes
+ setAnchorSizeHintsFromItems(orientation);
+
+ // Traverse all graph edges and store the possible paths to each vertex
+ findPaths(orientation);
+
+ // From the paths calculated above, extract the constraints that the current
+ // anchor setup impose, to our Linear Programming problem.
+ constraintsFromPaths(orientation);
+
+ // Split the constraints and anchors into groups that should be fed to the
+ // simplex solver independently. Currently we find two groups:
+ //
+ // 1) The "trunk", that is, the set of anchors (items) that are connected
+ // to the two opposite sides of our layout, and thus need to stretch in
+ // order to fit in the current layout size.
+ //
+ // 2) The floating or semi-floating anchors (items) that are those which
+ // are connected to only one (or none) of the layout sides, thus are not
+ // influenced by the layout size.
+ QList<QList<QSimplexConstraint *> > parts;
+ parts = getGraphParts(orientation);
+
+ // Now run the simplex solver to calculate Minimum, Preferred and Maximum sizes
+ // of the "trunk" set of constraints and variables.
+ // ### does trunk always exist? empty = trunk is the layout left->center->right
+ QList<QSimplexConstraint *> trunkConstraints = parts[0];
+ QList<QSimplexConstraint *> sizeHintConstraints;
+ sizeHintConstraints = constraintsFromSizeHints(getVariables(trunkConstraints));
+ trunkConstraints += sizeHintConstraints;
+
+ // For minimum and maximum, use the path between the two layout sides as the
+ // objective function.
+
+ // Retrieve that path
+ AnchorVertex *v = internalVertex(q, pickEdge(Qt::AnchorRight, orientation));
+ GraphPath trunkPath = graphPaths[orientation].value(v);
+
+ if (!trunkConstraints.isEmpty()) {
+#if 0
+ qDebug("Simplex used for trunk of %s",
+ orientation == Horizontal ? "Horizontal" : "Vertical");
+#endif
+
+ // Solve min and max size hints for trunk
+ QPair<qreal, qreal> minMax = solveMinMax(trunkConstraints, trunkPath);
+ sizeHints[orientation][Qt::MinimumSize] = minMax.first;
+ sizeHints[orientation][Qt::MaximumSize] = minMax.second;
+
+ // Solve for preferred. The objective function is calculated from the constraints
+ // and variables internally.
+ solvePreferred(trunkConstraints);
+
+ // Propagate the new sizes down the simplified graph, ie. tell the
+ // group anchors to set their children anchors sizes.
+
+ // ### we calculated variables already a few times, can't we reuse that?
+ QList<AnchorData *> trunkVariables = getVariables(trunkConstraints);
+
+ for (int i = 0; i < trunkVariables.count(); ++i)
+ trunkVariables.at(i)->updateChildrenSizes();
+
+ // Calculate and set the preferred size for the layout from the edge sizes that
+ // were calculated above.
+ qreal pref(0.0);
+ foreach (const AnchorData *ad, trunkPath.positives) {
+ pref += ad->sizeAtPreferred;
+ }
+ foreach (const AnchorData *ad, trunkPath.negatives) {
+ pref -= ad->sizeAtPreferred;
+ }
+ sizeHints[orientation][Qt::PreferredSize] = pref;
+ } else {
+#if 0
+ qDebug("Simplex NOT used for trunk of %s",
+ orientation == Horizontal ? "Horizontal" : "Vertical");
+#endif
+
+ // No Simplex is necessary because the path was simplified all the way to a single
+ // anchor.
+ Q_ASSERT(trunkPath.positives.count() == 1);
+ Q_ASSERT(trunkPath.negatives.count() == 0);
+
+ AnchorData *ad = trunkPath.positives.toList()[0];
+ ad->sizeAtMinimum = ad->minSize;
+ ad->sizeAtPreferred = ad->prefSize;
+ ad->sizeAtMaximum = ad->maxSize;
+
+ // Propagate
+ ad->updateChildrenSizes();
+
+ sizeHints[orientation][Qt::MinimumSize] = ad->sizeAtMinimum;
+ sizeHints[orientation][Qt::PreferredSize] = ad->sizeAtPreferred;
+ sizeHints[orientation][Qt::MaximumSize] = ad->sizeAtMaximum;
+ }
+
+ // Delete the constraints, we won't use them anymore.
+ qDeleteAll(sizeHintConstraints);
+ sizeHintConstraints.clear();
+
+ // For the other parts that not the trunk, solve only for the preferred size
+ // that is the size they will remain at, since they are not stretched by the
+ // layout.
+
+ // Solve the other only for preferred, skip trunk
+ for (int i = 1; i < parts.count(); ++i) {
+ QList<QSimplexConstraint *> partConstraints = parts[i];
+ QList<AnchorData *> partVariables = getVariables(partConstraints);
+ Q_ASSERT(!partVariables.isEmpty());
+
+ sizeHintConstraints = constraintsFromSizeHints(partVariables);
+ partConstraints += sizeHintConstraints;
+ solvePreferred(partConstraints);
+
+ // Propagate size at preferred to other sizes. Semi-floats
+ // always will be in their sizeAtPreferred.
+ for (int j = 0; j < partVariables.count(); ++j) {
+ AnchorData *ad = partVariables[j];
+ Q_ASSERT(ad);
+ ad->sizeAtMinimum = ad->sizeAtPreferred;
+ ad->sizeAtMaximum = ad->sizeAtPreferred;
+ ad->updateChildrenSizes();
+ }
+
+ // Delete the constraints, we won't use them anymore.
+ qDeleteAll(sizeHintConstraints);
+ sizeHintConstraints.clear();
+ }
+
+ // Clean up our data structures. They are not needed anymore since
+ // distribution uses just interpolation.
+ qDeleteAll(constraints[orientation]);
+ constraints[orientation].clear();
+ graphPaths[orientation].clear(); // ###
+}
+
+/*!
+ \internal
+
+ For graph edges ("anchors") that represent items, this method updates their
+ intrinsic size restrictions, based on the item size hints.
+*/
+void QGraphicsAnchorLayoutPrivate::setAnchorSizeHintsFromItems(Orientation orientation)
+{
+ Graph<AnchorVertex, AnchorData> &g = graph[orientation];
+ QList<QPair<AnchorVertex *, AnchorVertex *> > vertices = g.connections();
+
+ qreal spacing = effectiveSpacing(orientation);
+
+ for (int i = 0; i < vertices.count(); ++i) {
+ AnchorData *data = g.edgeData(vertices.at(i).first, vertices.at(i).second);;
+ Q_ASSERT(data->from && data->to);
+ data->refreshSizeHints(spacing);
+ }
+}
+
+/*!
+ \internal
+
+ This method walks the graph using a breadth-first search to find paths
+ between the root vertex and each vertex on the graph. The edges
+ directions in each path are considered and they are stored as a
+ positive edge (left-to-right) or negative edge (right-to-left).
+
+ The list of paths is used later to generate a list of constraints.
+ */
+void QGraphicsAnchorLayoutPrivate::findPaths(Orientation orientation)
+{
+ QQueue<QPair<AnchorVertex *, AnchorVertex *> > queue;
+
+ QSet<AnchorData *> visited;
+
+ AnchorVertex *root = graph[orientation].rootVertex();
+
+ graphPaths[orientation].insert(root, GraphPath());
+
+ foreach (AnchorVertex *v, graph[orientation].adjacentVertices(root)) {
+ queue.enqueue(qMakePair(root, v));
+ }
+
+ while(!queue.isEmpty()) {
+ QPair<AnchorVertex *, AnchorVertex *> pair = queue.dequeue();
+ AnchorData *edge = graph[orientation].edgeData(pair.first, pair.second);
+
+ if (visited.contains(edge))
+ continue;
+
+ visited.insert(edge);
+ GraphPath current = graphPaths[orientation].value(pair.first);
+
+ if (edge->from == pair.first)
+ current.positives.insert(edge);
+ else
+ current.negatives.insert(edge);
+
+ graphPaths[orientation].insert(pair.second, current);
+
+ foreach (AnchorVertex *v,
+ graph[orientation].adjacentVertices(pair.second)) {
+ queue.enqueue(qMakePair(pair.second, v));
+ }
+ }
+}
+
+/*!
+ \internal
+
+ Each vertex on the graph that has more than one path to it
+ represents a contra int to the sizes of the items in these paths.
+
+ This method walks the list of paths to each vertex, generate
+ the constraints and store them in a list so they can be used later
+ by the Simplex solver.
+*/
+void QGraphicsAnchorLayoutPrivate::constraintsFromPaths(Orientation orientation)
+{
+ foreach (AnchorVertex *vertex, graphPaths[orientation].uniqueKeys())
+ {
+ int valueCount = graphPaths[orientation].count(vertex);
+ if (valueCount == 1)
+ continue;
+
+ QList<GraphPath> pathsToVertex = graphPaths[orientation].values(vertex);
+ for (int i = 1; i < valueCount; ++i) {
+ constraints[orientation] += \
+ pathsToVertex[0].constraint(pathsToVertex[i]);
+ }
+ }
+}
+
+/*!
+ \internal
+
+ Create LP constraints for each anchor based on its minimum and maximum
+ sizes, as specified in its size hints
+*/
+QList<QSimplexConstraint *> QGraphicsAnchorLayoutPrivate::constraintsFromSizeHints(
+ const QList<AnchorData *> &anchors)
+{
+ QList<QSimplexConstraint *> anchorConstraints;
+ for (int i = 0; i < anchors.size(); ++i) {
+ QSimplexConstraint *c = new QSimplexConstraint;
+ c->variables.insert(anchors[i], 1.0);
+ c->constant = anchors[i]->minSize;
+ c->ratio = QSimplexConstraint::MoreOrEqual;
+ anchorConstraints += c;
+
+ c = new QSimplexConstraint;
+ c->variables.insert(anchors[i], 1.0);
+ c->constant = anchors[i]->maxSize;
+ c->ratio = QSimplexConstraint::LessOrEqual;
+ anchorConstraints += c;
+ }
+
+ return anchorConstraints;
+}
+
+/*!
+ \Internal
+*/
+QList< QList<QSimplexConstraint *> >
+QGraphicsAnchorLayoutPrivate::getGraphParts(Orientation orientation)
+{
+ Q_Q(QGraphicsAnchorLayout);
+
+ // Find layout vertices and edges for the current orientation.
+ AnchorVertex *layoutFirstVertex = \
+ internalVertex(q, pickEdge(Qt::AnchorLeft, orientation));
+
+ AnchorVertex *layoutCentralVertex = \
+ internalVertex(q, pickEdge(Qt::AnchorHorizontalCenter, orientation));
+
+ AnchorVertex *layoutLastVertex = \
+ internalVertex(q, pickEdge(Qt::AnchorRight, orientation));
+
+ Q_ASSERT(layoutFirstVertex && layoutLastVertex);
+
+ AnchorData *edgeL1 = NULL;
+ AnchorData *edgeL2 = NULL;
+
+ // The layout may have a single anchor between Left and Right or two half anchors
+ // passing through the center
+ if (layoutCentralVertex) {
+ edgeL1 = graph[orientation].edgeData(layoutFirstVertex, layoutCentralVertex);
+ edgeL2 = graph[orientation].edgeData(layoutCentralVertex, layoutLastVertex);
+ } else {
+ edgeL1 = graph[orientation].edgeData(layoutFirstVertex, layoutLastVertex);
+ }
+
+ QLinkedList<QSimplexConstraint *> remainingConstraints;
+ for (int i = 0; i < constraints[orientation].count(); ++i) {
+ remainingConstraints += constraints[orientation][i];
+ }
+ for (int i = 0; i < itemCenterConstraints[orientation].count(); ++i) {
+ remainingConstraints += itemCenterConstraints[orientation][i];
+ }
+
+ QList<QSimplexConstraint *> trunkConstraints;
+ QSet<QSimplexVariable *> trunkVariables;
+
+ trunkVariables += edgeL1;
+ if (edgeL2)
+ trunkVariables += edgeL2;
+
+ bool dirty;
+ do {
+ dirty = false;
+
+ QLinkedList<QSimplexConstraint *>::iterator it = remainingConstraints.begin();
+ while (it != remainingConstraints.end()) {
+ QSimplexConstraint *c = *it;
+ bool match = false;
+
+ // Check if this constraint have some overlap with current
+ // trunk variables...
+ foreach (QSimplexVariable *ad, trunkVariables) {
+ if (c->variables.contains(ad)) {
+ match = true;
+ break;
+ }
+ }
+
+ // If so, we add it to trunk, and erase it from the
+ // remaining constraints.
+ if (match) {
+ trunkConstraints += c;
+ trunkVariables += QSet<QSimplexVariable *>::fromList(c->variables.keys());
+ it = remainingConstraints.erase(it);
+ dirty = true;
+ } else {
+ // Note that we don't erase the constraint if it's not
+ // a match, since in a next iteration of a do-while we
+ // can pass on it again and it will be a match.
+ //
+ // For example: if trunk share a variable with
+ // remainingConstraints[1] and it shares with
+ // remainingConstraints[0], we need a second iteration
+ // of the do-while loop to match both.
+ ++it;
+ }
+ }
+ } while (dirty);
+
+ QList< QList<QSimplexConstraint *> > result;
+ result += trunkConstraints;
+
+ if (!remainingConstraints.isEmpty()) {
+ QList<QSimplexConstraint *> nonTrunkConstraints;
+ QLinkedList<QSimplexConstraint *>::iterator it = remainingConstraints.begin();
+ while (it != remainingConstraints.end()) {
+ nonTrunkConstraints += *it;
+ ++it;
+ }
+ result += nonTrunkConstraints;
+ }
+
+ return result;
+}
+
+/*!
+ \internal
+
+ Use the current vertices distance to calculate and set the geometry of
+ each item.
+*/
+void QGraphicsAnchorLayoutPrivate::setItemsGeometries()
+{
+ AnchorVertex *firstH, *secondH, *firstV, *secondV;
+
+ foreach (QGraphicsLayoutItem *item, items) {
+ firstH = internalVertex(item, Qt::AnchorLeft);
+ secondH = internalVertex(item, Qt::AnchorRight);
+ firstV = internalVertex(item, Qt::AnchorTop);
+ secondV = internalVertex(item, Qt::AnchorBottom);
+
+ QPointF topLeft(firstH->distance, firstV->distance);
+ QPointF bottomRight(secondH->distance, secondV->distance);
+
+ item->setGeometry(QRectF(topLeft, bottomRight));
+ }
+}
+
+/*!
+ \internal
+
+ Calculate the position of each vertex based on the paths to each of
+ them as well as the current edges sizes.
+*/
+void QGraphicsAnchorLayoutPrivate::calculateVertexPositions(
+ QGraphicsAnchorLayoutPrivate::Orientation orientation)
+{
+ Q_Q(QGraphicsAnchorLayout);
+ QQueue<QPair<AnchorVertex *, AnchorVertex *> > queue;
+ QSet<AnchorVertex *> visited;
+
+ // Get root vertex
+ AnchorVertex *root = graph[orientation].rootVertex();
+
+ qreal widgetMargin;
+ qreal layoutMargin;
+
+ // Initialize the first vertex
+ if (orientation == Horizontal) {
+ widgetMargin = q->geometry().x();
+ q->getContentsMargins(&layoutMargin, 0, 0, 0);
+ } else {
+ // Root position is equal to the top margin
+ widgetMargin = q->geometry().y();
+ q->getContentsMargins(0, &layoutMargin, 0, 0);
+ }
+ root->distance = widgetMargin + layoutMargin;
+ visited.insert(root);
+
+ // Add initial edges to the queue
+ foreach (AnchorVertex *v, graph[orientation].adjacentVertices(root)) {
+ queue.enqueue(qMakePair(root, v));
+ }
+
+ // Do initial calculation required by "interpolateEdge()"
+ setupEdgesInterpolation(orientation);
+
+ // Traverse the graph and calculate vertex positions, we need to
+ // visit all pairs since each of them could have a sequential
+ // anchor inside, which hides more vertices.
+ while (!queue.isEmpty()) {
+ QPair<AnchorVertex *, AnchorVertex *> pair = queue.dequeue();
+ AnchorData *edge = graph[orientation].edgeData(pair.first, pair.second);
+
+ // Both vertices were interpolated, and the anchor itself can't have other
+ // anchors inside (it's not a complex anchor).
+ if (edge->type == AnchorData::Normal && visited.contains(pair.second))
+ continue;
+
+ visited.insert(pair.second);
+ interpolateEdge(pair.first, edge, orientation);
+
+ QList<AnchorVertex *> adjacents = graph[orientation].adjacentVertices(pair.second);
+ for (int i = 0; i < adjacents.count(); ++i) {
+ if (!visited.contains(adjacents.at(i)))
+ queue.enqueue(qMakePair(pair.second, adjacents.at(i)));
+ }
+ }
+}
+
+/*!
+ \internal
+
+ Calculate interpolation parameters based on current Layout Size.
+ Must once before calling "interpolateEdgeSize()" for each edge.
+*/
+void QGraphicsAnchorLayoutPrivate::setupEdgesInterpolation(
+ Orientation orientation)
+{
+ Q_Q(QGraphicsAnchorLayout);
+ qreal lower, upper, current;
+
+ if (orientation == Horizontal) {
+ current = q->contentsRect().width();
+ } else {
+ current = q->contentsRect().height();
+ }
+
+ if (current < sizeHints[orientation][Qt::PreferredSize]) {
+ interpolationInterval[orientation] = MinToPreferred;
+ lower = sizeHints[orientation][Qt::MinimumSize];
+ upper = sizeHints[orientation][Qt::PreferredSize];
+ } else {
+ interpolationInterval[orientation] = PreferredToMax;
+ lower = sizeHints[orientation][Qt::PreferredSize];
+ upper = sizeHints[orientation][Qt::MaximumSize];
+ }
+
+ if (upper == lower) {
+ interpolationProgress[orientation] = 0;
+ } else {
+ interpolationProgress[orientation] = (current - lower) / (upper - lower);
+ }
+}
+
+/*!
+ \internal
+
+ Calculate the current Edge size based on the current Layout size and the
+ size the edge is supposed to have when:
+
+ - the layout is at its minimum size.
+ - the layout is at its preferred size.
+ - the layout is at its maximum size.
+
+ These three key values are calculated in advance using linear
+ programming (more expensive) or the simplification algorithm, then
+ subsequential resizes of the parent layout require a simple
+ interpolation.
+
+ If the edge is sequential or parallel, it's possible to have more
+ vertices to be initalized, so it calls specialized functions that
+ will recurse back to interpolateEdge().
+ */
+void QGraphicsAnchorLayoutPrivate::interpolateEdge(AnchorVertex *base,
+ AnchorData *edge,
+ Orientation orientation)
+{
+ qreal lower, upper;
+
+ if (interpolationInterval[orientation] == MinToPreferred) {
+ lower = edge->sizeAtMinimum;
+ upper = edge->sizeAtPreferred;
+ } else {
+ lower = edge->sizeAtPreferred;
+ upper = edge->sizeAtMaximum;
+ }
+
+ qreal edgeDistance = (interpolationProgress[orientation] * (upper - lower)) + lower;
+
+ Q_ASSERT(edge->from == base || edge->to == base);
+
+ if (edge->from == base)
+ edge->to->distance = base->distance + edgeDistance;
+ else
+ edge->from->distance = base->distance - edgeDistance;
+
+ // Process child anchors
+ if (edge->type == AnchorData::Sequential)
+ interpolateSequentialEdges(edge->from,
+ static_cast<SequentialAnchorData *>(edge),
+ orientation);
+ else if (edge->type == AnchorData::Parallel)
+ interpolateParallelEdges(edge->from,
+ static_cast<ParallelAnchorData *>(edge),
+ orientation);
+}
+
+void QGraphicsAnchorLayoutPrivate::interpolateParallelEdges(
+ AnchorVertex *base, ParallelAnchorData *data, Orientation orientation)
+{
+ // In parallels the boundary vertices are already calculate, we
+ // just need to look for sequential groups inside, because only
+ // them may have new vertices associated.
+
+ // First edge
+ if (data->firstEdge->type == AnchorData::Sequential)
+ interpolateSequentialEdges(base,
+ static_cast<SequentialAnchorData *>(data->firstEdge),
+ orientation);
+ else if (data->firstEdge->type == AnchorData::Parallel)
+ interpolateParallelEdges(base,
+ static_cast<ParallelAnchorData *>(data->firstEdge),
+ orientation);
+
+ // Second edge
+ if (data->secondEdge->type == AnchorData::Sequential)
+ interpolateSequentialEdges(base,
+ static_cast<SequentialAnchorData *>(data->secondEdge),
+ orientation);
+ else if (data->secondEdge->type == AnchorData::Parallel)
+ interpolateParallelEdges(base,
+ static_cast<ParallelAnchorData *>(data->secondEdge),
+ orientation);
+}
+
+void QGraphicsAnchorLayoutPrivate::interpolateSequentialEdges(
+ AnchorVertex *base, SequentialAnchorData *data, Orientation orientation)
+{
+ AnchorVertex *prev = base;
+
+ // ### I'm not sure whether this assumption is safe. If not,
+ // consider that m_edges.last() could be used instead (so
+ // at(0) would be the one to be treated specially).
+ Q_ASSERT(base == data->m_edges.at(0)->to || base == data->m_edges.at(0)->from);
+
+ // Skip the last
+ for (int i = 0; i < data->m_edges.count() - 1; ++i) {
+ AnchorData *child = data->m_edges.at(i);
+ interpolateEdge(prev, child, orientation);
+ prev = child->to;
+ }
+
+ // Treat the last specially, since we already calculated it's end
+ // vertex, so it's only interesting if it's a complex one
+ if (data->m_edges.last()->type != AnchorData::Normal)
+ interpolateEdge(prev, data->m_edges.last(), orientation);
+}
+
+QPair<qreal, qreal>
+QGraphicsAnchorLayoutPrivate::solveMinMax(QList<QSimplexConstraint *> constraints,
+ GraphPath path)
+{
+ QSimplex simplex;
+ simplex.setConstraints(constraints);
+
+ // Obtain the objective constraint
+ QSimplexConstraint objective;
+ QSet<AnchorData *>::const_iterator iter;
+ for (iter = path.positives.constBegin(); iter != path.positives.constEnd(); ++iter)
+ objective.variables.insert(*iter, 1.0);
+
+ for (iter = path.negatives.constBegin(); iter != path.negatives.constEnd(); ++iter)
+ objective.variables.insert(*iter, -1.0);
+
+ simplex.setObjective(&objective);
+
+ // Calculate minimum values
+ qreal min = simplex.solveMin();
+
+ // Save sizeAtMinimum results
+ QList<QSimplexVariable *> variables = simplex.constraintsVariables();
+ for (int i = 0; i < variables.size(); ++i) {
+ AnchorData *ad = static_cast<AnchorData *>(variables[i]);
+ ad->sizeAtMinimum = ad->result;
+ }
+
+ // Calculate maximum values
+ qreal max = simplex.solveMax();
+
+ // Save sizeAtMaximum results
+ for (int i = 0; i < variables.size(); ++i) {
+ AnchorData *ad = static_cast<AnchorData *>(variables[i]);
+ ad->sizeAtMaximum = ad->result;
+ }
+
+ return qMakePair<qreal, qreal>(min, max);
+}
+
+void QGraphicsAnchorLayoutPrivate::solvePreferred(QList<QSimplexConstraint *> constraints)
+{
+ QList<AnchorData *> variables = getVariables(constraints);
+ QList<QSimplexConstraint *> preferredConstraints;
+ QList<QSimplexVariable *> preferredVariables;
+ QSimplexConstraint objective;
+
+ // Fill the objective coefficients for this variable. In the
+ // end the objective function will be
+ //
+ // z = n * (A_shrink + B_shrink + ...) + (A_grower + B_grower + ...)
+ //
+ // where n is the number of variables that have
+ // slacks. Note that here we use the number of variables
+ // as coefficient, this is to mark the "shrinker slack
+ // variable" less likely to get value than the "grower
+ // slack variable".
+
+ // This will fill the values for the structural constraints
+ // and we now fill the values for the slack constraints (one per variable),
+ // which have this form (the constant A_pref was set when creating the slacks):
+ //
+ // A + A_shrinker - A_grower = A_pref
+ //
+ for (int i = 0; i < variables.size(); ++i) {
+ AnchorData *ad = static_cast<AnchorData *>(variables[i]);
+ if (ad->skipInPreferred)
+ continue;
+
+ QSimplexVariable *grower = new QSimplexVariable;
+ QSimplexVariable *shrinker = new QSimplexVariable;
+ QSimplexConstraint *c = new QSimplexConstraint;
+ c->variables.insert(ad, 1.0);
+ c->variables.insert(shrinker, 1.0);
+ c->variables.insert(grower, -1.0);
+ c->constant = ad->prefSize;
+
+ preferredConstraints += c;
+ preferredVariables += grower;
+ preferredVariables += shrinker;
+
+ objective.variables.insert(grower, 1.0);
+ objective.variables.insert(shrinker, variables.size());
+ }
+
+
+ QSimplex *simplex = new QSimplex;
+ simplex->setConstraints(constraints + preferredConstraints);
+ simplex->setObjective(&objective);
+
+ // Calculate minimum values
+ simplex->solveMin();
+
+ // Save sizeAtPreferred results
+ for (int i = 0; i < variables.size(); ++i) {
+ AnchorData *ad = static_cast<AnchorData *>(variables[i]);
+ ad->sizeAtPreferred = ad->result;
+ }
+
+ // Make sure we delete the simplex solver -before- we delete the
+ // constraints used by it.
+ delete simplex;
+
+ // Delete constraints and variables we created.
+ qDeleteAll(preferredConstraints);
+ qDeleteAll(preferredVariables);
+}
+
+#ifdef QT_DEBUG
+void QGraphicsAnchorLayoutPrivate::dumpGraph()
+{
+ QFile file(QString::fromAscii("anchorlayout.dot"));
+ if (!file.open(QIODevice::WriteOnly | QIODevice::Text | QIODevice::Truncate))
+ qWarning("Could not write to %s", file.fileName().toLocal8Bit().constData());
+
+ QString str = QString::fromAscii("digraph anchorlayout {\nnode [shape=\"rect\"]\n%1}");
+ QString dotContents = graph[0].serializeToDot();
+ dotContents += graph[1].serializeToDot();
+ file.write(str.arg(dotContents).toLocal8Bit());
+
+ file.close();
+}
+#endif
+
+QT_END_NAMESPACE
diff --git a/src/gui/graphicsview/qgraphicsanchorlayout_p.h b/src/gui/graphicsview/qgraphicsanchorlayout_p.h
new file mode 100644
index 0000000..15a1b44
--- /dev/null
+++ b/src/gui/graphicsview/qgraphicsanchorlayout_p.h
@@ -0,0 +1,477 @@
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** Contact: Qt Software Information (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 either Technology Preview License Agreement or the
+** Beta Release License Agreement.
+**
+** 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 1.0, included in the file LGPL_EXCEPTION.txt in this
+** package.
+**
+** GNU General Public License Usage
+** Alternatively, this file may be used under the terms of the GNU
+** General Public License version 3.0 as published by the Free Software
+** Foundation and appearing in the file LICENSE.GPL included in the
+** packaging of this file. Please review the following information to
+** ensure the GNU General Public License version 3.0 requirements will be
+** met: http://www.gnu.org/copyleft/gpl.html.
+**
+** If you are unsure which license is appropriate for your use, please
+** contact the sales department at qt-sales@nokia.com.
+** $QT_END_LICENSE$
+**
+****************************************************************************/
+
+#include <QGraphicsWidget>
+
+#include "qgraphicslayout_p.h"
+#include "qgraphicsanchorlayout.h"
+#include "qgraph_p.h"
+#include "qsimplex_p.h"
+
+QT_BEGIN_NAMESPACE
+
+/*
+ The public QGraphicsAnchorLayout interface represents an anchorage point
+ as a pair of a <QGraphicsLayoutItem *> and a <Qt::AnchorPoint>.
+
+ Internally though, it has a graph of anchorage points (vertices) and
+ anchors (edges), represented by the AnchorVertex and AnchorData structs
+ respectively.
+*/
+
+/*!
+ \internal
+
+ Represents a vertex (anchorage point) in the internal graph
+*/
+struct AnchorVertex {
+ AnchorVertex(QGraphicsLayoutItem *item, Qt::AnchorPoint edge)
+ : m_item(item), m_edge(edge) {}
+
+ AnchorVertex()
+ : m_item(0), m_edge(Qt::AnchorPoint(0)) {}
+
+#ifdef QT_DEBUG
+ inline QString toString() const;
+#endif
+ QGraphicsLayoutItem *m_item;
+ Qt::AnchorPoint m_edge;
+
+ // Current distance from this vertex to the layout edge (Left or Top)
+ // Value is calculated from the current anchors sizes.
+ qreal distance;
+};
+
+#ifdef QT_DEBUG
+inline QString AnchorVertex::toString() const
+{
+ if (!this || !m_item) {
+ return QLatin1String("NULL");
+ }
+ QString edge;
+ switch (m_edge) {
+ case Qt::AnchorLeft:
+ edge = QLatin1String("Left");
+ break;
+ case Qt::AnchorHorizontalCenter:
+ edge = QLatin1String("HorizontalCenter");
+ break;
+ case Qt::AnchorRight:
+ edge = QLatin1String("Right");
+ break;
+ case Qt::AnchorTop:
+ edge = QLatin1String("Top");
+ break;
+ case Qt::AnchorVerticalCenter:
+ edge = QLatin1String("VerticalCenter");
+ break;
+ case Qt::AnchorBottom:
+ edge = QLatin1String("Bottom");
+ break;
+ default:
+ edge = QLatin1String("None");
+ break;
+ }
+ QString itemName;
+ if (m_item->isLayout()) {
+ itemName = QLatin1String("layout");
+ } else {
+ if (QGraphicsItem *item = m_item->graphicsItem()) {
+ itemName = item->data(0).toString();
+ }
+ }
+ edge.insert(0, QLatin1String("%1_"));
+ return edge.arg(itemName);
+}
+#endif
+
+/*!
+ \internal
+
+ Represents an edge (anchor) in the internal graph.
+*/
+struct AnchorData : public QSimplexVariable {
+ enum Type {
+ Normal = 0,
+ Sequential,
+ Parallel
+ };
+ AnchorData(qreal minimumSize, qreal preferredSize, qreal maximumSize)
+ : QSimplexVariable(), from(0), to(0),
+ minSize(minimumSize), prefSize(preferredSize),
+ maxSize(maximumSize), sizeAtMinimum(preferredSize),
+ sizeAtPreferred(preferredSize), sizeAtMaximum(preferredSize),
+ skipInPreferred(0), type(Normal), hasSize(true),
+ isLayoutAnchor(false) {}
+
+ AnchorData(qreal size)
+ : QSimplexVariable(), from(0), to(0),
+ minSize(size), prefSize(size), maxSize(size),
+ sizeAtMinimum(size), sizeAtPreferred(size), sizeAtMaximum(size),
+ skipInPreferred(0), type(Normal), hasSize(true),
+ isLayoutAnchor(false) {}
+
+ AnchorData()
+ : QSimplexVariable(), from(0), to(0),
+ minSize(0), prefSize(0), maxSize(0),
+ sizeAtMinimum(0), sizeAtPreferred(0), sizeAtMaximum(0),
+ skipInPreferred(0), type(Normal), hasSize(false),
+ isLayoutAnchor(false) {}
+
+ virtual void updateChildrenSizes() { };
+ virtual void refreshSizeHints(qreal effectiveSpacing);
+
+ virtual ~AnchorData() {}
+
+#ifdef QT_DEBUG
+ void dump(int indent = 2);
+ inline QString toString() const;
+ QString name;
+#endif
+
+ inline void setFixedSize(qreal size)
+ {
+ minSize = size;
+ prefSize = size;
+ maxSize = size;
+ sizeAtMinimum = size;
+ sizeAtPreferred = size;
+ sizeAtMaximum = size;
+ hasSize = true;
+ }
+
+ inline void unsetSize()
+ {
+ hasSize = false;
+ }
+
+ // Anchor is semantically directed
+ AnchorVertex *from;
+ AnchorVertex *to;
+
+ // Size restrictions of this edge. For anchors internal to items, these
+ // values are derived from the respective item size hints. For anchors
+ // that were added by users, these values are equal to the specified anchor
+ // size.
+ qreal minSize;
+ qreal prefSize;
+ qreal maxSize;
+
+ // These attributes define which sizes should that anchor be in when the
+ // layout is at its minimum, preferred or maximum sizes. Values are
+ // calculated by the Simplex solver based on the current layout setup.
+ qreal sizeAtMinimum;
+ qreal sizeAtPreferred;
+ qreal sizeAtMaximum;
+
+ uint skipInPreferred : 1;
+ uint type : 2; // either Normal, Sequential or Parallel
+ uint hasSize : 1; // if false, get size from style.
+ uint isLayoutAnchor : 1; // if this anchor is connected to a layout 'edge'
+protected:
+ AnchorData(Type type, qreal size = 0)
+ : QSimplexVariable(), from(0), to(0),
+ minSize(size), prefSize(size),
+ maxSize(size), sizeAtMinimum(size),
+ sizeAtPreferred(size), sizeAtMaximum(size),
+ skipInPreferred(0), type(type), hasSize(true),
+ isLayoutAnchor(false) {}
+};
+
+#ifdef QT_DEBUG
+inline QString AnchorData::toString() const
+{
+ return QString::fromAscii("Anchor(%1)").arg(name);
+}
+#endif
+
+struct SequentialAnchorData : public AnchorData
+{
+ SequentialAnchorData() : AnchorData(AnchorData::Sequential)
+ {
+#ifdef QT_DEBUG
+ name = QLatin1String("SequentialAnchorData");
+#endif
+ }
+
+ virtual void updateChildrenSizes();
+ virtual void refreshSizeHints(qreal effectiveSpacing);
+
+ void setVertices(const QVector<AnchorVertex*> &vertices)
+ {
+ m_children = vertices;
+#ifdef QT_DEBUG
+ name = QString::fromAscii("%1 -- %2").arg(vertices.first()->toString(), vertices.last()->toString());
+#endif
+ }
+
+ QVector<AnchorVertex*> m_children; // list of vertices in the sequence
+ QVector<AnchorData*> m_edges; // keep the list of edges too.
+};
+
+struct ParallelAnchorData : public AnchorData
+{
+ ParallelAnchorData(AnchorData *first, AnchorData *second)
+ : AnchorData(AnchorData::Parallel),
+ firstEdge(first), secondEdge(second)
+ {
+ // ### Those asserts force that both child anchors have the same direction,
+ // but can't we simplify a pair of anchors in opposite directions?
+ Q_ASSERT(first->from == second->from);
+ Q_ASSERT(first->to == second->to);
+ from = first->from;
+ to = first->to;
+#ifdef QT_DEBUG
+ name = QString::fromAscii("%1 | %2").arg(first->toString(), second->toString());
+#endif
+ }
+
+ virtual void updateChildrenSizes();
+ virtual void refreshSizeHints(qreal effectiveSpacing);
+
+ AnchorData* firstEdge;
+ AnchorData* secondEdge;
+};
+
+/*!
+ \internal
+
+ Representation of a valid path for a given vertex in the graph.
+ In this struct, "positives" is the set of anchors that have been
+ traversed in the forward direction, while "negatives" is the set
+ with the ones walked backwards.
+
+ This paths are compared against each other to produce LP Constraints,
+ the exact order in which the anchors were traversed is not relevant.
+*/
+class GraphPath
+{
+public:
+ GraphPath() {};
+
+ QSimplexConstraint *constraint(const GraphPath &path) const;
+#ifdef QT_DEBUG
+ QString toString() const;
+#endif
+ QSet<AnchorData *> positives;
+ QSet<AnchorData *> negatives;
+};
+
+
+/*!
+ \internal
+
+ QGraphicsAnchorLayout private methods and attributes.
+*/
+class QGraphicsAnchorLayoutPrivate : public QGraphicsLayoutPrivate
+{
+ Q_DECLARE_PUBLIC(QGraphicsAnchorLayout)
+
+public:
+ // When the layout geometry is different from its Minimum, Preferred
+ // or Maximum values, interpolation is used to calculate the geometries
+ // of the items.
+ //
+ // Interval represents which interpolation interval are we operating in.
+ enum Interval {
+ MinToPreferred = 0,
+ PreferredToMax
+ };
+
+ // Several structures internal to the layout are duplicated to handle
+ // both Horizontal and Vertical restrictions.
+ //
+ // Orientation is used to reference the right structure in each context
+ enum Orientation {
+ Horizontal = 0,
+ Vertical,
+ NOrientations
+ };
+
+ QGraphicsAnchorLayoutPrivate();
+
+ static Qt::AnchorPoint oppositeEdge(
+ Qt::AnchorPoint edge);
+
+ static Orientation edgeOrientation(Qt::AnchorPoint edge);
+
+ static Qt::AnchorPoint pickEdge(Qt::AnchorPoint edge, Orientation orientation)
+ {
+ if (orientation == Vertical && int(edge) <= 2)
+ return (Qt::AnchorPoint)(edge + 3);
+ else if (orientation == Horizontal && int(edge) >= 3) {
+ return (Qt::AnchorPoint)(edge - 3);
+ }
+ return edge;
+ }
+
+ // Init methods
+ void createLayoutEdges();
+ void deleteLayoutEdges();
+ void createItemEdges(QGraphicsLayoutItem *item);
+ void createCenterAnchors(QGraphicsLayoutItem *item, Qt::AnchorPoint centerEdge);
+ void removeCenterAnchors(QGraphicsLayoutItem *item, Qt::AnchorPoint centerEdge, bool substitute = true);
+ void removeCenterConstraints(QGraphicsLayoutItem *item, Orientation orientation);
+
+ // helper function used by the 4 API functions
+ void anchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ qreal *spacing = 0);
+
+ // Anchor Manipulation methods
+ void addAnchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ AnchorData *data);
+
+ void removeAnchor(QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge);
+
+ bool setAnchorSize(const QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ const qreal *anchorSize);
+
+ bool anchorSize(const QGraphicsLayoutItem *firstItem,
+ Qt::AnchorPoint firstEdge,
+ const QGraphicsLayoutItem *secondItem,
+ Qt::AnchorPoint secondEdge,
+ qreal *minSize = 0,
+ qreal *prefSize = 0,
+ qreal *maxSize = 0) const;
+
+ void removeAnchors(QGraphicsLayoutItem *item);
+
+ void removeVertex(QGraphicsLayoutItem *item, Qt::AnchorPoint edge);
+
+ void correctEdgeDirection(QGraphicsLayoutItem *&firstItem,
+ Qt::AnchorPoint &firstEdge,
+ QGraphicsLayoutItem *&secondItem,
+ Qt::AnchorPoint &secondEdge);
+ // for getting the actual spacing (will query the style if the
+ // spacing is not explicitly set).
+ qreal effectiveSpacing(Orientation orientation) const;
+
+ // Activation methods
+ void simplifyGraph(Orientation orientation);
+ bool simplifyGraphIteration(Orientation orientation);
+ void restoreSimplifiedGraph(Orientation orientation);
+
+ void calculateGraphs();
+ void calculateGraphs(Orientation orientation);
+ void setAnchorSizeHintsFromItems(Orientation orientation);
+ void findPaths(Orientation orientation);
+ void constraintsFromPaths(Orientation orientation);
+ QList<QSimplexConstraint *> constraintsFromSizeHints(const QList<AnchorData *> &anchors);
+ QList<QList<QSimplexConstraint *> > getGraphParts(Orientation orientation);
+
+ inline AnchorVertex *internalVertex(const QPair<QGraphicsLayoutItem*, Qt::AnchorPoint> &itemEdge) const
+ {
+ return m_vertexList.value(itemEdge).first;
+ }
+
+ inline AnchorVertex *internalVertex(const QGraphicsLayoutItem *item, Qt::AnchorPoint edge) const
+ {
+ return internalVertex(qMakePair(const_cast<QGraphicsLayoutItem *>(item), edge));
+ }
+
+ AnchorVertex *addInternalVertex(QGraphicsLayoutItem *item, Qt::AnchorPoint edge);
+ void removeInternalVertex(QGraphicsLayoutItem *item, Qt::AnchorPoint edge);
+
+ // Geometry interpolation methods
+ void setItemsGeometries();
+
+ void calculateVertexPositions(Orientation orientation);
+ void setupEdgesInterpolation(Orientation orientation);
+ void interpolateEdge(AnchorVertex *base, AnchorData *edge, Orientation orientation);
+ void interpolateSequentialEdges(AnchorVertex *base, SequentialAnchorData *edge,
+ Orientation orientation);
+ void interpolateParallelEdges(AnchorVertex *base, ParallelAnchorData *edge,
+ Orientation orientation);
+
+ // Linear Programming solver methods
+ QPair<qreal, qreal> solveMinMax(QList<QSimplexConstraint *> constraints,
+ GraphPath path);
+ void solvePreferred(QList<QSimplexConstraint *> constraints);
+
+#ifdef QT_DEBUG
+ void dumpGraph();
+#endif
+
+
+ qreal spacings[NOrientations];
+ // Size hints from simplex engine
+ qreal sizeHints[2][3];
+
+ // Items
+ QVector<QGraphicsLayoutItem *> items;
+
+ // Mapping between high level anchorage points (Item, Edge) to low level
+ // ones (Graph Vertices)
+
+ QHash<QPair<QGraphicsLayoutItem*, Qt::AnchorPoint>, QPair<AnchorVertex *, int> > m_vertexList;
+
+ // Internal graph of anchorage points and anchors, for both orientations
+ Graph<AnchorVertex, AnchorData> graph[2];
+
+ // Graph paths and constraints, for both orientations
+ QMultiHash<AnchorVertex *, GraphPath> graphPaths[2];
+ QList<QSimplexConstraint *> constraints[2];
+ QList<QSimplexConstraint *> itemCenterConstraints[2];
+
+ // The interpolation interval and progress based on the current size
+ // as well as the key values (minimum, preferred and maximum)
+ Interval interpolationInterval[2];
+ qreal interpolationProgress[2];
+
+ // ###
+ bool graphSimplified[2];
+
+ uint calculateGraphCacheDirty : 1;
+};
+
+QT_END_NAMESPACE
diff --git a/src/gui/graphicsview/qsimplex_p.cpp b/src/gui/graphicsview/qsimplex_p.cpp
new file mode 100644
index 0000000..7fa5ab0
--- /dev/null
+++ b/src/gui/graphicsview/qsimplex_p.cpp
@@ -0,0 +1,371 @@
+#include "qsimplex_p.h"
+
+#include <QtCore/qset.h>
+#include <QtCore/qdebug.h>
+
+#include <stdlib.h>
+
+QT_BEGIN_NAMESPACE
+
+QSimplex::QSimplex() : objective(0), rows(0), columns(0), firstArtificial(0), matrix(0)
+{
+}
+
+QSimplex::~QSimplex()
+{
+ clearDataStructures();
+}
+
+void QSimplex::clearDataStructures()
+{
+ if (matrix == 0)
+ return;
+
+ // Matrix
+ rows = 0;
+ columns = 0;
+ firstArtificial = 0;
+ free(matrix);
+ matrix = 0;
+
+ // Constraints
+ for (int i = 0; i < constraints.size(); ++i) {
+ delete constraints[i]->helper.first;
+ constraints[i]->helper.first = 0;
+ constraints[i]->helper.second = 0.0;
+ delete constraints[i]->artificial;
+ constraints[i]->artificial = 0;
+ }
+ constraints.clear();
+
+ // Other
+ variables.clear();
+ objective = 0;
+}
+
+void QSimplex::setConstraints(const QList<QSimplexConstraint *> newConstraints)
+{
+ clearDataStructures();
+
+ if (newConstraints.isEmpty())
+ return;
+ constraints = newConstraints;
+
+ // Set Variables direct mapping
+ QSet<QSimplexVariable *> variablesSet;
+ for (int i = 0; i < constraints.size(); ++i)
+ variablesSet += \
+ QSet<QSimplexVariable *>::fromList(constraints[i]->variables.keys());
+ variables = variablesSet.toList();
+
+ // Set Variables reverse mapping
+ for (int i = 0; i < variables.size(); ++i) {
+ // The variable "0" goes at the column "1", etc...
+ variables[i]->index = i + 1;
+ }
+
+ // Normalize Constraints
+ int variableIndex = variables.size();
+ QList <QSimplexVariable *> artificialList;
+
+ for (int i = 0; i < constraints.size(); ++i) {
+ QSimplexVariable *slack;
+ QSimplexVariable *surplus;
+ QSimplexVariable *artificial;
+
+ Q_ASSERT(constraints[i]->helper.first == 0);
+ Q_ASSERT(constraints[i]->artificial == 0);
+
+ switch(constraints[i]->ratio) {
+ case QSimplexConstraint::LessOrEqual:
+ slack = new QSimplexVariable;
+ slack->index = ++variableIndex;
+ constraints[i]->helper.first = slack;
+ constraints[i]->helper.second = 1.0;
+ break;
+ case QSimplexConstraint::MoreOrEqual:
+ surplus = new QSimplexVariable;
+ surplus->index = ++variableIndex;
+ constraints[i]->helper.first = surplus;
+ constraints[i]->helper.second = -1.0;
+ // fall through
+ case QSimplexConstraint::Equal:
+ artificial = new QSimplexVariable;
+ constraints[i]->artificial = artificial;
+ artificialList += constraints[i]->artificial;
+ break;
+ }
+ }
+
+ firstArtificial = variableIndex + 1;
+ for (int i = 0; i < artificialList.size(); ++i)
+ artificialList[i]->index = ++variableIndex;
+ artificialList.clear();
+
+ // Matrix
+
+ // One for each variable plus the Basic and BFS columns (first and last)
+ columns = variableIndex + 2;
+ // One for each constraint plus the objective function
+ rows = constraints.size() + 1;
+
+ matrix = (qreal *)malloc(sizeof(qreal) * columns * rows);
+ if (!matrix) {
+ qWarning() << "QSimplex: Unable to allocate memory!";
+ return;
+ }
+ for (int i = columns * rows - 1; i >= 0; --i)
+ matrix[i] = 0.0;
+
+ // Fill Matrix
+ for (int i = 1; i <= constraints.size(); ++i) {
+ QSimplexConstraint *c = constraints[i - 1];
+
+ if (c->artificial) {
+ // Will use artificial basic variable
+ setValueAt(i, 0, c->artificial->index);
+ setValueAt(i, c->artificial->index, 1.0);
+
+ if (c->helper.second != 0.0) {
+ // Surplus variable
+ setValueAt(i, c->helper.first->index, c->helper.second);
+ }
+ } else {
+ // Slack is used as the basic variable
+ Q_ASSERT(c->helper.second == 1.0);
+ setValueAt(i, 0, c->helper.first->index);
+ setValueAt(i, c->helper.first->index, 1.0);
+ }
+
+ QHash<QSimplexVariable *, qreal>::const_iterator iter;
+ for (iter = c->variables.constBegin();
+ iter != c->variables.constEnd();
+ ++iter) {
+ setValueAt(i, iter.key()->index, iter.value());
+ }
+
+ setValueAt(i, columns - 1, c->constant);
+ }
+
+ // Set temporary objective: -1 * sum_of_artificial_vars
+ for (int j = firstArtificial; j < columns - 1; ++j)
+ setValueAt(0, j, 1.0);
+
+ // Maximize our objective (artificial vars go to zero)
+ solveMaxHelper();
+
+ if (valueAt(0, columns - 1) != 0.0) {
+ qWarning() << "QSimplex: No feasible solution!";
+ clearDataStructures();
+ return;
+ }
+
+ // Remove artificial variables
+ clearColumns(firstArtificial, columns - 2);
+}
+
+void QSimplex::solveMaxHelper()
+{
+ reducedRowEchelon();
+ while (iterate()) ;
+}
+
+void QSimplex::setObjective(QSimplexConstraint *newObjective)
+{
+ objective = newObjective;
+}
+
+void QSimplex::clearRow(int rowIndex)
+{
+ qreal *item = matrix + rowIndex * columns;
+ for (int i = 0; i < columns; ++i)
+ item[i] = 0.0;
+}
+
+void QSimplex::clearColumns(int first, int last)
+{
+ for (int i = 0; i < rows; ++i) {
+ qreal *row = matrix + i * columns;
+ for (int j = first; j <= last; ++j)
+ row[j] = 0.0;
+ }
+}
+
+void QSimplex::dumpMatrix()
+{
+ printf("---- Simplex Matrix ----\n");
+
+ printf(" ");
+ for (int j = 0; j < columns; ++j)
+ printf(" <% 2d >", j);
+ printf("\n");
+
+ for (int i = 0; i < rows; ++i) {
+ printf("Row %2d:", i);
+
+ qreal *row = matrix + i * columns;
+ for (int j = 0; j < columns; ++j) {
+ printf(" % 2.2f", row[j]);
+ }
+ printf("\n");
+ }
+ printf("------------------------\n\n");
+}
+
+void QSimplex::combineRows(int toIndex, int fromIndex, qreal factor)
+{
+ if (!factor)
+ return;
+
+ qreal *from = matrix + fromIndex * columns;
+ qreal *to = matrix + toIndex * columns;
+
+ for (int j = 1; j < columns; ++j) {
+ qreal value = from[j];
+
+ // skip to[j] = to[j] + factor*0.0
+ if (value == 0.0)
+ continue;
+
+ to[j] += factor * value;
+
+ // ### Avoid Numerical errors
+ if (qAbs(to[j]) < 0.0000000001)
+ to[j] = 0.0;
+ }
+}
+
+int QSimplex::findPivotColumn()
+{
+ qreal min = 0;
+ int minIndex = -1;
+
+ for (int j = 0; j < columns-1; ++j) {
+ if (valueAt(0, j) < min) {
+ min = valueAt(0, j);
+ minIndex = j;
+ }
+ }
+
+ return minIndex;
+}
+
+int QSimplex::pivotRowForColumn(int column)
+{
+ qreal min = 999999999999.0; // ###
+ int minIndex = -1;
+
+ for (int i = 1; i < rows; ++i) {
+ qreal divisor = valueAt(i, column);
+ if (divisor <= 0)
+ continue;
+
+ qreal quotient = valueAt(i, columns - 1) / divisor;
+ if (quotient < min) {
+ min = quotient;
+ minIndex = i;
+ }
+ }
+
+ return minIndex;
+}
+
+void QSimplex::reducedRowEchelon()
+{
+ for (int i = 1; i < rows; ++i) {
+ int factorInObjectiveRow = valueAt(i, 0);
+ combineRows(0, i, -1 * valueAt(0, factorInObjectiveRow));
+ }
+}
+
+bool QSimplex::iterate()
+{
+ // Find Pivot column
+ int pivotColumn = findPivotColumn();
+ if (pivotColumn == -1)
+ return false;
+
+ // Find Pivot row for column
+ int pivotRow = pivotRowForColumn(pivotColumn);
+ if (pivotRow == -1) {
+ qWarning() << "QSimplex: Unbounded problem!";
+ return false;
+ }
+
+ // Normalize Pivot Row
+ qreal pivot = valueAt(pivotRow, pivotColumn);
+ if (pivot != 1.0)
+ combineRows(pivotRow, pivotRow, (1.0 - pivot) / pivot);
+
+ // Update other rows
+ for (int row=0; row < rows; ++row) {
+ if (row == pivotRow)
+ continue;
+
+ combineRows(row, pivotRow, -1 * valueAt(row, pivotColumn));
+ }
+
+ // Update first column
+ setValueAt(pivotRow, 0, pivotColumn);
+
+ // dumpMatrix();
+ // printf("------------ end of iteration --------------\n");
+ return true;
+}
+
+/*!
+ \internal
+
+ Both solveMin and solveMax are interfaces to this method.
+
+ The enum solverFactor admits 2 values: Minimum (-1) and Maximum (+1).
+ */
+qreal QSimplex::solver(solverFactor factor)
+{
+ // Remove old objective
+ clearRow(0);
+
+ // Set new objective
+ QHash<QSimplexVariable *, qreal>::const_iterator iter;
+ for (iter = objective->variables.constBegin();
+ iter != objective->variables.constEnd();
+ ++iter) {
+ setValueAt(0, iter.key()->index, -1 * factor * iter.value());
+ }
+
+ solveMaxHelper();
+ collectResults();
+
+ return factor * valueAt(0, columns - 1);
+}
+
+qreal QSimplex::solveMin()
+{
+ return solver(Minimum);
+}
+
+qreal QSimplex::solveMax()
+{
+ return solver(Maximum);
+}
+
+void QSimplex::collectResults()
+{
+ // All variables are zero unless overridden below.
+
+ // ### Is this really needed? Is there any chance that an
+ // important variable remains as non-basic at the end of simplex?
+ for (int i = 0; i < variables.size(); ++i)
+ variables[i]->result = 0;
+
+ // Basic variables
+ // Update the variable indicated in the first column with the value
+ // in the last column.
+ for (int i = 1; i < rows; ++i) {
+ int index = valueAt(i, 0) - 1;
+ if (index < variables.size())
+ variables[index]->result = valueAt(i, columns - 1);
+ }
+}
+
+QT_END_NAMESPACE
diff --git a/src/gui/graphicsview/qsimplex_p.h b/src/gui/graphicsview/qsimplex_p.h
new file mode 100644
index 0000000..e3629df
--- /dev/null
+++ b/src/gui/graphicsview/qsimplex_p.h
@@ -0,0 +1,125 @@
+/****************************************************************************
+**
+** Copyright (C) 1992-$THISYEAR$ $TROLLTECH$. All rights reserved.
+**
+** This file is part of the $MODULE$ of the Qt Toolkit.
+**
+** $TROLLTECH_DUAL_LICENSE$
+**
+** This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
+** WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
+**
+****************************************************************************/
+
+#ifndef QSIMPLEX_P_H
+#define QSIMPLEX_P_H
+
+#include <QtCore/qhash.h>
+#include <QtCore/qpair.h>
+
+QT_BEGIN_NAMESPACE
+
+struct QSimplexVariable
+{
+ QSimplexVariable() : result(0), index(0) {};
+
+ qreal result;
+ uint index;
+};
+
+
+/*!
+ \internal
+
+ Representation of a LP constraint like:
+
+ (c1 * X1) + (c2 * X2) + ... = K
+ or <= K
+ or >= K
+
+ Where (ci, Xi) are the pairs in "variables" and K the real "constant".
+*/
+struct QSimplexConstraint
+{
+ QSimplexConstraint() : constant(0), ratio(Equal), artificial(0) {};
+
+ enum Ratio {
+ LessOrEqual = 0,
+ Equal,
+ MoreOrEqual
+ };
+
+ QHash<QSimplexVariable *, qreal> variables;
+ qreal constant;
+ Ratio ratio;
+
+ QPair<QSimplexVariable *, qreal> helper;
+ QSimplexVariable * artificial;
+};
+
+
+class QSimplex
+{
+public:
+ QSimplex();
+ virtual ~QSimplex();
+
+ qreal solveMin();
+ qreal solveMax();
+ QList<QSimplexVariable *> constraintsVariables();
+
+ void setConstraints(const QList<QSimplexConstraint *> constraints);
+ void setObjective(QSimplexConstraint *objective);
+
+ void dumpMatrix();
+
+private:
+ // Matrix handling
+ qreal valueAt(int row, int column);
+ void setValueAt(int row, int column, qreal value);
+ void clearRow(int rowIndex);
+ void clearColumns(int first, int last);
+ void combineRows(int toIndex, int fromIndex, qreal factor);
+
+ // Simplex
+ int findPivotColumn();
+ int pivotRowForColumn(int column);
+ void reducedRowEchelon();
+ bool iterate();
+
+ // Helpers
+ void clearDataStructures();
+ void solveMaxHelper();
+ enum solverFactor { Minimum = -1, Maximum = 1 };
+ qreal solver(solverFactor factor);
+ void collectResults();
+
+ QList<QSimplexConstraint *> constraints;
+ QList<QSimplexVariable *> variables;
+ QSimplexConstraint *objective;
+
+ int rows;
+ int columns;
+ int firstArtificial;
+
+ qreal *matrix;
+};
+
+inline QList<QSimplexVariable *> QSimplex::constraintsVariables()
+{
+ return variables;
+}
+
+inline qreal QSimplex::valueAt(int rowIndex, int columnIndex)
+{
+ return matrix[rowIndex * columns + columnIndex];
+}
+
+inline void QSimplex::setValueAt(int rowIndex, int columnIndex, qreal value)
+{
+ matrix[rowIndex * columns + columnIndex] = value;
+}
+
+QT_END_NAMESPACE
+
+#endif // QSIMPLEX_P_H
diff --git a/src/gui/kernel/qwidget_qws.cpp b/src/gui/kernel/qwidget_qws.cpp
index 66c047a..09bffe6 100644
--- a/src/gui/kernel/qwidget_qws.cpp
+++ b/src/gui/kernel/qwidget_qws.cpp
@@ -581,6 +581,15 @@ void QWidgetPrivate::show_sys()
if (q->isWindow()) {
+
+ if (!q->testAttribute(Qt::WA_ShowWithoutActivating)
+ && q->windowType() != Qt::Popup
+ && q->windowType() != Qt::Tool
+ && q->windowType() != Qt::ToolTip) {
+ QWidget::qwsDisplay()->requestFocus(data.winid,true);
+ }
+
+
if (QWindowSurface *surface = q->windowSurface()) {
const QRect frameRect = q->frameGeometry();
if (surface->geometry() != frameRect)
@@ -597,12 +606,6 @@ void QWidgetPrivate::show_sys()
#endif
data.fstrut_dirty = true;
invalidateBuffer(r);
- if (!q->testAttribute(Qt::WA_ShowWithoutActivating)
- && q->windowType() != Qt::Popup
- && q->windowType() != Qt::Tool
- && q->windowType() != Qt::ToolTip) {
- QWidget::qwsDisplay()->requestFocus(data.winid,true);
- }
bool staysontop =
(q->windowFlags() & Qt::WindowStaysOnTopHint)
|| q->windowType() == Qt::Popup;
diff --git a/src/gui/painting/qblendfunctions.cpp b/src/gui/painting/qblendfunctions.cpp
index e447301..cd78de0 100644
--- a/src/gui/painting/qblendfunctions.cpp
+++ b/src/gui/painting/qblendfunctions.cpp
@@ -374,9 +374,9 @@ template <typename T> void qt_blend_argb24_on_rgb16(uchar *destPixels, int dbpl,
const uchar *src = srcPixels + y * sbpl;
const uchar *srcEnd = src + srcOffset;
while (src < srcEnd) {
-#if defined(QT_ARCH_ARM) || defined(QT_ARCH_POWERPC) || defined(QT_ARCH_SH) || (defined(QT_ARCH_WINDOWSCE) && !defined(_X86_))
+#if defined(QT_ARCH_ARM) || defined(QT_ARCH_POWERPC) || defined(QT_ARCH_SH) || defined(QT_ARCH_AVR32) || (defined(QT_ARCH_WINDOWSCE) && !defined(_X86_))
// non-16-bit aligned memory access is not possible on PowerPC,
- // ARM <v6 (QT_ARCH_ARMV6) & SH
+ // ARM <v6 (QT_ARCH_ARMV6) & SH & AVR32
quint16 spix = (quint16(src[2])<<8) + src[1];
#else
quint16 spix = *(quint16 *) (src + 1);
diff --git a/src/gui/widgets/qabstractscrollarea.cpp b/src/gui/widgets/qabstractscrollarea.cpp
index f09768a..533a56b 100644
--- a/src/gui/widgets/qabstractscrollarea.cpp
+++ b/src/gui/widgets/qabstractscrollarea.cpp
@@ -934,6 +934,10 @@ bool QAbstractScrollArea::event(QEvent *e)
case QEvent::DragMove:
case QEvent::DragLeave:
#endif
+ // ignore touch events in case they have been propagated from the viewport
+ case QEvent::TouchBegin:
+ case QEvent::TouchUpdate:
+ case QEvent::TouchEnd:
return false;
case QEvent::StyleChange:
case QEvent::LayoutDirectionChange:
@@ -974,6 +978,9 @@ bool QAbstractScrollArea::viewportEvent(QEvent *e)
case QEvent::MouseButtonPress:
case QEvent::MouseButtonRelease:
case QEvent::MouseButtonDblClick:
+ case QEvent::TouchBegin:
+ case QEvent::TouchUpdate:
+ case QEvent::TouchEnd:
case QEvent::MouseMove:
case QEvent::ContextMenu:
#ifndef QT_NO_WHEELEVENT