MCL/sf/mw/qt: comparison src/gui/kernel/qgridlayout.cpp

equal deleted inserted replaced

--1:000000000000
+:1918ee327afb
+/****************************************************************************
+**
+** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies).
+** All rights reserved.
+** Contact: Nokia Corporation (qt-info@nokia.com)
+**
+** This file is part of the QtGui module of the Qt Toolkit.
+**
+** $QT_BEGIN_LICENSE:LGPL$
+** No Commercial Usage
+** This file contains pre-release code and may not be distributed.
+** You may use this file in accordance with the terms and conditions
+** contained in the Technology Preview License Agreement accompanying
+** this package.
+**
+** GNU Lesser General Public License Usage
+** Alternatively, this file may be used under the terms of the GNU Lesser
+** General Public License version 2.1 as published by the Free Software
+** Foundation and appearing in the file LICENSE.LGPL included in the
+** packaging of this file.  Please review the following information to
+** ensure the GNU Lesser General Public License version 2.1 requirements
+** will be met: http://www.gnu.org/licenses/old-licenses/lgpl-2.1.html.
+**
+** In addition, as a special exception, Nokia gives you certain additional
+** rights.  These rights are described in the Nokia Qt LGPL Exception
+** version 1.1, included in the file LGPL_EXCEPTION.txt in this package.
+**
+** If you have questions regarding the use of this file, please contact
+** Nokia at qt-info@nokia.com.
+**
+**
+**
+**
+**
+**
+**
+**
+** $QT_END_LICENSE$
+**
+****************************************************************************/
+#include "qgridlayout.h"
+#include "qapplication.h"
+#include "qwidget.h"
+#include "qlist.h"
+#include "qsizepolicy.h"
+#include "qvector.h"
+#include "qvarlengtharray.h"
+#include "qlayoutengine_p.h"
+#include "qlayout_p.h"
+QT_BEGIN_NAMESPACE
+struct QGridLayoutSizeTriple
+{
+QSize minS;
+QSize hint;
+QSize maxS;
+};
+/*
+Three internal classes related to QGridLayout: (1) QGridBox is a
+QLayoutItem with (row, column) information and (torow, tocolumn) information; (3) QGridLayoutData is
+the internal representation of a QGridLayout.
+*/
+class QGridBox
+{
+public:
+QGridBox(QLayoutItem *lit) { item_ = lit; }
+QGridBox(const QLayout *l, QWidget *wid) { item_ = QLayoutPrivate::createWidgetItem(l, wid); }
+~QGridBox() { delete item_; }
+QSize sizeHint() const { return item_->sizeHint(); }
+QSize minimumSize() const { return item_->minimumSize(); }
+QSize maximumSize() const { return item_->maximumSize(); }
+Qt::Orientations expandingDirections() const { return item_->expandingDirections(); }
+bool isEmpty() const { return item_->isEmpty(); }
+bool hasHeightForWidth() const { return item_->hasHeightForWidth(); }
+int heightForWidth(int w) const { return item_->heightForWidth(w); }
+void setAlignment(Qt::Alignment a) { item_->setAlignment(a); }
+void setGeometry(const QRect &r) { item_->setGeometry(r); }
+Qt::Alignment alignment() const { return item_->alignment(); }
+QLayoutItem *item() { return item_; }
+QLayoutItem *takeItem() { QLayoutItem *i = item_; item_ = 0; return i; }
+int hStretch() { return item_->widget() ?
+item_->widget()->sizePolicy().horizontalStretch() : 0; }
+int vStretch() { return item_->widget() ?
+item_->widget()->sizePolicy().verticalStretch() : 0; }
+private:
+friend class QGridLayoutPrivate;
+friend class QGridLayout;
+inline int toRow(int rr) const { return torow >= 0 ? torow : rr - 1; }
+inline int toCol(int cc) const { return tocol >= 0 ? tocol : cc - 1; }
+QLayoutItem *item_;
+int row, col;
+int torow, tocol;
+};
+class QGridLayoutPrivate : public QLayoutPrivate
+{
+Q_DECLARE_PUBLIC(QGridLayout)
+public:
+QGridLayoutPrivate();
+void add(QGridBox*, int row, int col);
+void add(QGridBox*, int row1, int row2, int col1, int col2);
+QSize sizeHint(int hSpacing, int vSpacing) const;
+QSize minimumSize(int hSpacing, int vSpacing) const;
+QSize maximumSize(int hSpacing, int vSpacing) const;
+Qt::Orientations expandingDirections(int hSpacing, int vSpacing) const;
+void distribute(QRect rect, int hSpacing, int vSpacing);
+inline int numRows() const { return rr; }
+inline int numCols() const { return cc; }
+inline void expand(int rows, int cols)
+{ setSize(qMax(rows, rr), qMax(cols, cc)); }
+inline void setRowStretch(int r, int s)
+{ expand(r + 1, 0); rStretch[r] = s; setDirty(); }
+inline void setColStretch(int c, int s)
+{ expand(0, c + 1); cStretch[c] = s; setDirty(); }
+inline int rowStretch(int r) const { return rStretch.at(r); }
+inline int colStretch(int c) const { return cStretch.at(c); }
+inline void setRowMinimumHeight(int r, int s)
+{ expand(r + 1, 0); rMinHeights[r] = s; setDirty(); }
+inline void setColumnMinimumWidth(int c, int s)
+{ expand(0, c + 1); cMinWidths[c] = s; setDirty(); }
+inline int rowSpacing(int r) const { return rMinHeights.at(r); }
+inline int colSpacing(int c) const { return cMinWidths.at(c); }
+inline void setReversed(bool r, bool c) { hReversed = c; vReversed = r; }
+inline bool horReversed() const { return hReversed; }
+inline bool verReversed() const { return vReversed; }
+inline void setDirty() { needRecalc = true; hfw_width = -1; }
+inline bool isDirty() const { return needRecalc; }
+bool hasHeightForWidth(int hSpacing, int vSpacing);
+int heightForWidth(int width, int hSpacing, int vSpacing);
+int minimumHeightForWidth(int width, int hSpacing, int vSpacing);
+inline void getNextPos(int &row, int &col) { row = nextR; col = nextC; }
+inline int count() const { return things.count(); }
+QRect cellRect(int row, int col) const;
+inline QLayoutItem *itemAt(int index) const {
+if (index < things.count())
+return things.at(index)->item();
+else
+return 0;
+}
+inline QLayoutItem *takeAt(int index) {
+QLayoutItem *item = 0;
+if (index < things.count()) {
+QGridBox *b = things.takeAt(index);
+if (b) {
+item = b->takeItem();
+delete b;
+}
+}
+return item;
+}
+void getItemPosition(int index, int *row, int *column, int *rowSpan, int *columnSpan) {
+if (index < things.count()) {
+QGridBox *b =  things.at(index);
+int toRow = b->toRow(rr);
+int toCol = b->toCol(cc);
+*row = b->row;
+*column = b->col;
+*rowSpan = toRow - *row + 1;
+*columnSpan = toCol - *column +1;
+}
+}
+void deleteAll();
+private:
+void setNextPosAfter(int r, int c);
+void recalcHFW(int w);
+void addHfwData(QGridBox *box, int width);
+void init();
+QSize findSize(int QLayoutStruct::*, int hSpacing, int vSpacing) const;
+void addData(QGridBox *b, const QGridLayoutSizeTriple &sizes, bool r, bool c);
+void setSize(int rows, int cols);
+void setupSpacings(QVector<QLayoutStruct> &chain, QGridBox *grid[], int fixedSpacing,
+Qt::Orientation orientation);
+void setupLayoutData(int hSpacing, int vSpacing);
+void setupHfwLayoutData();
+void effectiveMargins(int *left, int *top, int *right, int *bottom) const;
+int rr;
+int cc;
+QVector<QLayoutStruct> rowData;
+QVector<QLayoutStruct> colData;
+QVector<QLayoutStruct> *hfwData;
+QVector<int> rStretch;
+QVector<int> cStretch;
+QVector<int> rMinHeights;
+QVector<int> cMinWidths;
+QList<QGridBox *> things;
+int hfw_width;
+int hfw_height;
+int hfw_minheight;
+int nextR;
+int nextC;
+int horizontalSpacing;
+int verticalSpacing;
+int leftMargin;
+int topMargin;
+int rightMargin;
+int bottomMargin;
+uint hReversed : 1;
+uint vReversed : 1;
+uint needRecalc : 1;
+uint has_hfw : 1;
+uint addVertical : 1;
+};
+void QGridLayoutPrivate::effectiveMargins(int *left, int *top, int *right, int *bottom) const
+{
+int l = leftMargin;
+int t = topMargin;
+int r = rightMargin;
+int b = bottomMargin;
+#ifdef Q_WS_MAC
+int leftMost = INT_MAX;
+int topMost = INT_MAX;
+int rightMost = 0;
+int bottomMost = 0;
+QWidget *w = 0;
+const int n = things.count();
+for (int i = 0; i < n; ++i) {
+QGridBox *box = things.at(i);
+QLayoutItem *itm = box->item();
+w = itm->widget();
+if (w) {
+bool visualHReversed = hReversed != (w->layoutDirection() == Qt::RightToLeft);
+QRect lir = itm->geometry();
+QRect wr = w->geometry();
+if (box->col <= leftMost) {
+if (box->col < leftMost) {
+// we found an item even closer to the margin, discard.
+leftMost = box->col;
+if (visualHReversed)
+r = rightMargin;
+else
+l = leftMargin;
+}
+if (visualHReversed) {
+r = qMax(r, wr.right() - lir.right());
+} else {
+l = qMax(l, lir.left() - wr.left());
+}
+}
+if (box->row <= topMost) {
+if (box->row < topMost) {
+// we found an item even closer to the margin, discard.
+topMost = box->row;
+if (vReversed)
+b = bottomMargin;
+else
+t = topMargin;
+}
+if (vReversed)
+b = qMax(b, wr.bottom() - lir.bottom());
+else
+t = qMax(t, lir.top() - wr.top());
+}
+if (box->toCol(cc) >= rightMost) {
+if (box->toCol(cc) > rightMost) {
+// we found an item even closer to the margin, discard.
+rightMost = box->toCol(cc);
+if (visualHReversed)
+l = leftMargin;
+else
+r = rightMargin;
+}
+if (visualHReversed) {
+l = qMax(l, lir.left() - wr.left());
+} else {
+r = qMax(r, wr.right() - lir.right());
+}
+}
+if (box->toRow(rr) >= bottomMost) {
+if (box->toRow(rr) > bottomMost) {
+// we found an item even closer to the margin, discard.
+bottomMost = box->toRow(rr);
+if (vReversed)
+t = topMargin;
+else
+b = bottomMargin;
+}
+if (vReversed)
+t = qMax(t, lir.top() - wr.top());
+else
+b = qMax(b, wr.bottom() - lir.bottom());
+}
+}
+}
+#endif
+if (left)
+*left = l;
+if (top)
+*top = t;
+if (right)
+*right = r;
+if (bottom)
+*bottom = b;
+}
+QGridLayoutPrivate::QGridLayoutPrivate()
+{
+addVertical = false;
+setDirty();
+rr = cc = 0;
+nextR = nextC = 0;
+hfwData = 0;
+hReversed = false;
+vReversed = false;
+horizontalSpacing = -1;
+verticalSpacing = -1;
+}
+#if 0
+QGridLayoutPrivate::QGridLayoutPrivate(int nRows, int nCols)
+: rowData(0), colData(0)
+{
+init();
+if (nRows  < 0) {
+nRows = 1;
+addVertical = false;
+}
+if (nCols  < 0) {
+nCols = 1;
+addVertical = true;
+}
+setSize(nRows, nCols);
+}
+#endif
+void QGridLayoutPrivate::deleteAll()
+{
+while (!things.isEmpty())
+delete things.takeFirst();
+delete hfwData;
+}
+bool QGridLayoutPrivate::hasHeightForWidth(int hSpacing, int vSpacing)
+{
+setupLayoutData(hSpacing, vSpacing);
+return has_hfw;
+}
+/*
+Assumes that setupLayoutData() has been called, and that
+qGeomCalc() has filled in colData with appropriate values.
+*/
+void QGridLayoutPrivate::recalcHFW(int w)
+{
+/*
+Go through all children, using colData and heightForWidth()
+and put the results in hfwData.
+*/
+if (!hfwData)
+hfwData = new QVector<QLayoutStruct>(rr);
+setupHfwLayoutData();
+QVector<QLayoutStruct> &rData = *hfwData;
+int h = 0;
+int mh = 0;
+for (int r = 0; r < rr; r++) {
+int spacing = rData.at(r).spacing;
+h += rData.at(r).sizeHint + spacing;
+mh += rData.at(r).minimumSize + spacing;
+}
+hfw_width = w;
+hfw_height = qMin(QLAYOUTSIZE_MAX, h);
+hfw_minheight = qMin(QLAYOUTSIZE_MAX, mh);
+}
+int QGridLayoutPrivate::heightForWidth(int w, int hSpacing, int vSpacing)
+{
+setupLayoutData(hSpacing, vSpacing);
+if (!has_hfw)
+return -1;
+int left, top, right, bottom;
+effectiveMargins(&left, &top, &right, &bottom);
+int hMargins = left + right;
+if (w - hMargins != hfw_width) {
+qGeomCalc(colData, 0, cc, 0, w - hMargins);
+recalcHFW(w - hMargins);
+}
+return hfw_height + top + bottom;
+}
+int QGridLayoutPrivate::minimumHeightForWidth(int w, int hSpacing, int vSpacing)
+{
+(void)heightForWidth(w, hSpacing, vSpacing);
+if (!has_hfw)
+return -1;
+int top, bottom;
+effectiveMargins(0, &top, 0, &bottom);
+return hfw_minheight + top + bottom;
+}
+QSize QGridLayoutPrivate::findSize(int QLayoutStruct::*size, int hSpacing, int vSpacing) const
+{
+QGridLayoutPrivate *that = const_cast<QGridLayoutPrivate*>(this);
+that->setupLayoutData(hSpacing, vSpacing);
+int w = 0;
+int h = 0;
+for (int r = 0; r < rr; r++)
+h += rowData.at(r).*size + rowData.at(r).spacing;
+for (int c = 0; c < cc; c++)
+w += colData.at(c).*size + colData.at(c).spacing;
+w = qMin(QLAYOUTSIZE_MAX, w);
+h = qMin(QLAYOUTSIZE_MAX, h);
+return QSize(w, h);
+}
+Qt::Orientations QGridLayoutPrivate::expandingDirections(int hSpacing, int vSpacing) const
+{
+QGridLayoutPrivate *that = const_cast<QGridLayoutPrivate*>(this);
+that->setupLayoutData(hSpacing, vSpacing);
+Qt::Orientations ret;
+for (int r = 0; r < rr; r++) {
+if (rowData.at(r).expansive) {
+ret |= Qt::Vertical;
+break;
+}
+}
+for (int c = 0; c < cc; c++) {
+if (colData.at(c).expansive) {
+ret |= Qt::Horizontal;
+break;
+}
+}
+return ret;
+}
+QSize QGridLayoutPrivate::sizeHint(int hSpacing, int vSpacing) const
+{
+return findSize(&QLayoutStruct::sizeHint, hSpacing, vSpacing);
+}
+QSize QGridLayoutPrivate::maximumSize(int hSpacing, int vSpacing) const
+{
+return findSize(&QLayoutStruct::maximumSize, hSpacing, vSpacing);
+}
+QSize QGridLayoutPrivate::minimumSize(int hSpacing, int vSpacing) const
+{
+return findSize(&QLayoutStruct::minimumSize, hSpacing, vSpacing);
+}
+void QGridLayoutPrivate::setSize(int r, int c)
+{
+if ((int)rowData.size() < r) {
+int newR = qMax(r, rr * 2);
+rowData.resize(newR);
+rStretch.resize(newR);
+rMinHeights.resize(newR);
+for (int i = rr; i < newR; i++) {
+rowData[i].init();
+rowData[i].maximumSize = 0;
+rowData[i].pos = 0;
+rowData[i].size = 0;
+rStretch[i] = 0;
+rMinHeights[i] = 0;
+}
+}
+if ((int)colData.size() < c) {
+int newC = qMax(c, cc * 2);
+colData.resize(newC);
+cStretch.resize(newC);
+cMinWidths.resize(newC);
+for (int i = cc; i < newC; i++) {
+colData[i].init();
+colData[i].maximumSize = 0;
+colData[i].pos = 0;
+colData[i].size = 0;
+cStretch[i] = 0;
+cMinWidths[i] = 0;
+}
+}
+if (hfwData && (int)hfwData->size() < r) {
+delete hfwData;
+hfwData = 0;
+hfw_width = -1;
+}
+rr = r;
+cc = c;
+}
+void QGridLayoutPrivate::setNextPosAfter(int row, int col)
+{
+if (addVertical) {
+if (col > nextC || (col == nextC && row >= nextR)) {
+nextR = row + 1;
+nextC = col;
+if (nextR >= rr) {
+nextR = 0;
+nextC++;
+}
+}
+} else {
+if (row > nextR || (row == nextR && col >= nextC)) {
+nextR = row;
+nextC = col + 1;
+if (nextC >= cc) {
+nextC = 0;
+nextR++;
+}
+}
+}
+}
+void QGridLayoutPrivate::add(QGridBox *box, int row, int col)
+{
+expand(row + 1, col + 1);
+box->row = box->torow = row;
+box->col = box->tocol = col;
+things.append(box);
+setDirty();
+setNextPosAfter(row, col);
+}
+void QGridLayoutPrivate::add(QGridBox *box, int row1, int row2, int col1, int col2)
+{
+if (row2 >= 0 && row2 < row1)
+qWarning("QGridLayout: Multi-cell fromRow greater than toRow");
+if (col2 >= 0 && col2 < col1)
+qWarning("QGridLayout: Multi-cell fromCol greater than toCol");
+if (row1 == row2 && col1 == col2) {
+add(box, row1, col1);
+return;
+}
+expand(row2 + 1, col2 + 1);
+box->row = row1;
+box->col = col1;
+box->torow = row2;
+box->tocol = col2;
+things.append(box);
+setDirty();
+if (col2 < 0)
+col2 = cc - 1;
+setNextPosAfter(row2, col2);
+}
+void QGridLayoutPrivate::addData(QGridBox *box, const QGridLayoutSizeTriple &sizes, bool r, bool c)
+{
+const QWidget *widget = box->item()->widget();
+if (box->isEmpty() && widget)
+return;
+if (c) {
+QLayoutStruct *data = &colData[box->col];
+if (!cStretch.at(box->col))
+data->stretch = qMax(data->stretch, box->hStretch());
+data->sizeHint = qMax(sizes.hint.width(), data->sizeHint);
+data->minimumSize = qMax(sizes.minS.width(), data->minimumSize);
+qMaxExpCalc(data->maximumSize, data->expansive, data->empty, sizes.maxS.width(),
+box->expandingDirections() & Qt::Horizontal, box->isEmpty());
+}
+if (r) {
+QLayoutStruct *data = &rowData[box->row];
+if (!rStretch.at(box->row))
+data->stretch = qMax(data->stretch, box->vStretch());
+data->sizeHint = qMax(sizes.hint.height(), data->sizeHint);
+data->minimumSize = qMax(sizes.minS.height(), data->minimumSize);
+qMaxExpCalc(data->maximumSize, data->expansive, data->empty, sizes.maxS.height(),
+box->expandingDirections() & Qt::Vertical, box->isEmpty());
+}
+}
+static void initEmptyMultiBox(QVector<QLayoutStruct> &chain, int start, int end)
+{
+for (int i = start; i <= end; i++) {
+QLayoutStruct *data = &chain[i];
+if (data->empty && data->maximumSize == 0) // truly empty box
+data->maximumSize = QWIDGETSIZE_MAX;
+data->empty = false;
+}
+}
+static void distributeMultiBox(QVector<QLayoutStruct> &chain, int start, int end, int minSize,
+int sizeHint, QVector<int> &stretchArray, int stretch)
+{
+int i;
+int w = 0;
+int wh = 0;
+int max = 0;
+for (i = start; i <= end; i++) {
+QLayoutStruct *data = &chain[i];
+w += data->minimumSize;
+wh += data->sizeHint;
+max += data->maximumSize;
+if (stretchArray.at(i) == 0)
+data->stretch = qMax(data->stretch, stretch);
+if (i != end) {
+int spacing = data->spacing;
+w += spacing;
+wh += spacing;
+max += spacing;
+}
+}
+if (max < minSize) { // implies w < minSize
+/*
+We must increase the maximum size of at least one of the
+items. qGeomCalc() will put the extra space in between the
+items. We must recover that extra space and put it
+somewhere. It does not really matter where, since the user
+can always specify stretch factors and avoid this code.
+*/
+qGeomCalc(chain, start, end - start + 1, 0, minSize);
+int pos = 0;
+for (i = start; i <= end; i++) {
+QLayoutStruct *data = &chain[i];
+int nextPos = (i == end) ? minSize : chain.at(i + 1).pos;
+int realSize = nextPos - pos;
+if (i != end)
+realSize -= data->spacing;
+if (data->minimumSize < realSize)
+data->minimumSize = realSize;
+if (data->maximumSize < data->minimumSize)
+data->maximumSize = data->minimumSize;
+pos = nextPos;
+}
+} else if (w < minSize) {
+qGeomCalc(chain, start, end - start + 1, 0, minSize);
+for (i = start; i <= end; i++) {
+QLayoutStruct *data = &chain[i];
+if (data->minimumSize < data->size)
+data->minimumSize = data->size;
+}
+}
+if (wh < sizeHint) {
+qGeomCalc(chain, start, end - start + 1, 0, sizeHint);
+for (i = start; i <= end; i++) {
+QLayoutStruct *data = &chain[i];
+if (data->sizeHint < data->size)
+data->sizeHint = data->size;
+}
+}
+}
+static QGridBox *&gridAt(QGridBox *grid[], int r, int c, int cc,
+Qt::Orientation orientation = Qt::Vertical)
+{
+if (orientation == Qt::Horizontal)
+qSwap(r, c);
+return grid[(r * cc) + c];
+}
+void QGridLayoutPrivate::setupSpacings(QVector<QLayoutStruct> &chain,
+QGridBox *grid[], int fixedSpacing,
+Qt::Orientation orientation)
+{
+Q_Q(QGridLayout);
+int numRows = rr;       // or columns if orientation is horizontal
+int numColumns = cc;    // or rows if orientation is horizontal
+if (orientation == Qt::Horizontal) {
+qSwap(numRows, numColumns);
+}
+QStyle *style = 0;
+if (fixedSpacing < 0) {
+if (QWidget *parentWidget = q->parentWidget())
+style = parentWidget->style();
+}
+for (int c = 0; c < numColumns; ++c) {
+QGridBox *previousBox = 0;
+int previousRow = -1;       // previous *non-empty* row
+for (int r = 0; r < numRows; ++r) {
+if (chain.at(r).empty)
+continue;
+QGridBox *box = gridAt(grid, r, c, cc, orientation);
+if (previousRow != -1 && (!box || previousBox != box)) {
+int spacing = fixedSpacing;
+if (spacing < 0) {
+QSizePolicy::ControlTypes controlTypes1 = QSizePolicy::DefaultType;
+QSizePolicy::ControlTypes controlTypes2 = QSizePolicy::DefaultType;
+if (previousBox)
+controlTypes1 = previousBox->item()->controlTypes();
+if (box)
+controlTypes2 = box->item()->controlTypes();
+if ((orientation == Qt::Horizontal && hReversed)
+|| (orientation == Qt::Vertical && vReversed))
+qSwap(controlTypes1, controlTypes2);
+if (style)
+spacing = style->combinedLayoutSpacing(controlTypes1, controlTypes2,
+orientation, 0, q->parentWidget());
+} else {
+if (orientation == Qt::Vertical) {
+QGridBox *sibling = vReversed ? previousBox : box;
+if (sibling) {
+QWidget *wid = sibling->item()->widget();
+if (wid)
+spacing = qMax(spacing, sibling->item()->geometry().top() - wid->geometry().top() );
+}
+}
+}
+if (spacing > chain.at(previousRow).spacing)
+chain[previousRow].spacing = spacing;
+}
+previousBox = box;
+previousRow = r;
+}
+}
+}
+//#define QT_LAYOUT_DISABLE_CACHING
+void QGridLayoutPrivate::setupLayoutData(int hSpacing, int vSpacing)
+{
+Q_Q(QGridLayout);
+#ifndef QT_LAYOUT_DISABLE_CACHING
+if (!needRecalc)
+return;
+#endif
+has_hfw = false;
+int i;
+for (i = 0; i < rr; i++) {
+rowData[i].init(rStretch.at(i), rMinHeights.at(i));
+rowData[i].maximumSize = rStretch.at(i) ? QLAYOUTSIZE_MAX : rMinHeights.at(i);
+}
+for (i = 0; i < cc; i++) {
+colData[i].init(cStretch.at(i), cMinWidths.at(i));
+colData[i].maximumSize = cStretch.at(i) ? QLAYOUTSIZE_MAX : cMinWidths.at(i);
+}
+int n = things.size();
+QVarLengthArray<QGridLayoutSizeTriple> sizes(n);
+bool has_multi = false;
+/*
+Grid of items. We use it to determine which items are
+adjacent to which and compute the spacings correctly.
+*/
+QVarLengthArray<QGridBox *> grid(rr * cc);
+qMemSet(grid.data(), 0, rr * cc * sizeof(QGridBox *));
+/*
+Initialize 'sizes' and 'grid' data structures, and insert
+non-spanning items to our row and column data structures.
+*/
+for (i = 0; i < n; ++i) {
+QGridBox * const box = things.at(i);
+sizes[i].minS = box->minimumSize();
+sizes[i].hint = box->sizeHint();
+sizes[i].maxS = box->maximumSize();
+if (box->hasHeightForWidth())
+has_hfw = true;
+if (box->row == box->toRow(rr)) {
+addData(box, sizes[i], true, false);
+} else {
+initEmptyMultiBox(rowData, box->row, box->toRow(rr));
+has_multi = true;
+}
+if (box->col == box->toCol(cc)) {
+addData(box, sizes[i], false, true);
+} else {
+initEmptyMultiBox(colData, box->col, box->toCol(cc));
+has_multi = true;
+}
+for (int r = box->row; r <= box->toRow(rr); ++r) {
+for (int c = box->col; c <= box->toCol(cc); ++c) {
+gridAt(grid.data(), r, c, cc) = box;
+}
+}
+}
+setupSpacings(colData, grid.data(), hSpacing, Qt::Horizontal);
+setupSpacings(rowData, grid.data(), vSpacing, Qt::Vertical);
+/*
+Insert multicell items to our row and column data structures.
+This must be done after the non-spanning items to obtain a
+better distribution in distributeMultiBox().
+*/
+if (has_multi) {
+for (i = 0; i < n; ++i) {
+QGridBox * const box = things.at(i);
+if (box->row != box->toRow(rr))
+distributeMultiBox(rowData, box->row, box->toRow(rr), sizes[i].minS.height(),
+sizes[i].hint.height(), rStretch, box->vStretch());
+if (box->col != box->toCol(cc))
+distributeMultiBox(colData, box->col, box->toCol(cc), sizes[i].minS.width(),
+sizes[i].hint.width(), cStretch, box->hStretch());
+}
+}
+for (i = 0; i < rr; i++)
+rowData[i].expansive = rowData.at(i).expansive || rowData.at(i).stretch > 0;
+for (i = 0; i < cc; i++)
+colData[i].expansive = colData.at(i).expansive || colData.at(i).stretch > 0;
+q->getContentsMargins(&leftMargin, &topMargin, &rightMargin, &bottomMargin);
+needRecalc = false;
+}
+void QGridLayoutPrivate::addHfwData(QGridBox *box, int width)
+{
+QVector<QLayoutStruct> &rData = *hfwData;
+if (box->hasHeightForWidth()) {
+int hint = box->heightForWidth(width);
+rData[box->row].sizeHint = qMax(hint, rData.at(box->row).sizeHint);
+rData[box->row].minimumSize = qMax(hint, rData.at(box->row).minimumSize);
+} else {
+QSize hint = box->sizeHint();
+QSize minS = box->minimumSize();
+rData[box->row].sizeHint = qMax(hint.height(), rData.at(box->row).sizeHint);
+rData[box->row].minimumSize = qMax(minS.height(), rData.at(box->row).minimumSize);
+}
+}
+/*
+Similar to setupLayoutData(), but uses heightForWidth(colData)
+instead of sizeHint(). Assumes that setupLayoutData() and
+qGeomCalc(colData) has been called.
+*/
+void QGridLayoutPrivate::setupHfwLayoutData()
+{
+QVector<QLayoutStruct> &rData = *hfwData;
+for (int i = 0; i < rr; i++) {
+rData[i] = rowData.at(i);
+rData[i].minimumSize = rData[i].sizeHint = rMinHeights.at(i);
+}
+for (int pass = 0; pass < 2; ++pass) {
+for (int i = 0; i < things.size(); ++i) {
+QGridBox *box = things.at(i);
+int r1 = box->row;
+int c1 = box->col;
+int r2 = box->toRow(rr);
+int c2 = box->toCol(cc);
+int w = colData.at(c2).pos + colData.at(c2).size - colData.at(c1).pos;
+if (r1 == r2) {
+if (pass == 0)
+addHfwData(box, w);
+} else {
+if (pass == 0) {
+initEmptyMultiBox(rData, r1, r2);
+} else {
+QSize hint = box->sizeHint();
+QSize min = box->minimumSize();
+if (box->hasHeightForWidth()) {
+int hfwh = box->heightForWidth(w);
+if (hfwh > hint.height())
+hint.setHeight(hfwh);
+if (hfwh > min.height())
+min.setHeight(hfwh);
+}
+distributeMultiBox(rData, r1, r2, min.height(), hint.height(),
+rStretch, box->vStretch());
+}
+}
+}
+}
+for (int i = 0; i < rr; i++)
+rData[i].expansive = rData.at(i).expansive || rData.at(i).stretch > 0;
+}
+void QGridLayoutPrivate::distribute(QRect r, int hSpacing, int vSpacing)
+{
+Q_Q(QGridLayout);
+bool visualHReversed = hReversed;
+QWidget *parent = q->parentWidget();
+if (parent && parent->isRightToLeft())
+visualHReversed = !visualHReversed;
+setupLayoutData(hSpacing, vSpacing);
+int left, top, right, bottom;
+effectiveMargins(&left, &top, &right, &bottom);
+r.adjust(+left, +top, -right, -bottom);
+qGeomCalc(colData, 0, cc, r.x(), r.width());
+QVector<QLayoutStruct> *rDataPtr;
+if (has_hfw) {
+recalcHFW(r.width());
+qGeomCalc(*hfwData, 0, rr, r.y(), r.height());
+rDataPtr = hfwData;
+} else {
+qGeomCalc(rowData, 0, rr, r.y(), r.height());
+rDataPtr = &rowData;
+}
+QVector<QLayoutStruct> &rData = *rDataPtr;
+int i;
+bool reverse = ((r.bottom() > rect.bottom()) || (r.bottom() == rect.bottom()
+&& ((r.right() > rect.right()) != visualHReversed)));
+int n = things.size();
+for (i = 0; i < n; ++i) {
+QGridBox *box = things.at(reverse ? n-i-1 : i);
+int r2 = box->toRow(rr);
+int c2 = box->toCol(cc);
+int x = colData.at(box->col).pos;
+int y = rData.at(box->row).pos;
+int x2p = colData.at(c2).pos + colData.at(c2).size; // x2+1
+int y2p = rData.at(r2).pos + rData.at(r2).size;    // y2+1
+int w = x2p - x;
+int h = y2p - y;
+if (visualHReversed)
+x = r.left() + r.right() - x - w + 1;
+if (vReversed)
+y = r.top() + r.bottom() - y - h + 1;
+box->setGeometry(QRect(x, y, w, h));
+}
+}
+QRect QGridLayoutPrivate::cellRect(int row, int col) const
+{
+if (row < 0 || row >= rr || col < 0 || col >= cc)
+return QRect();
+const QVector<QLayoutStruct> *rDataPtr;
+if (has_hfw && hfwData)
+rDataPtr = hfwData;
+else
+rDataPtr = &rowData;
+return QRect(colData.at(col).pos, rDataPtr->at(row).pos,
+colData.at(col).size, rDataPtr->at(row).size);
+}
+/*!
+\class QGridLayout
+\brief The QGridLayout class lays out widgets in a grid.
+\ingroup geomanagement
+QGridLayout takes the space made available to it (by its parent
+layout or by the parentWidget()), divides it up into rows and
+columns, and puts each widget it manages into the correct cell.
+Columns and rows behave identically; we will discuss columns, but
+there are equivalent functions for rows.
+Each column has a minimum width and a stretch factor. The minimum
+width is the greatest of that set using setColumnMinimumWidth() and the
+minimum width of each widget in that column. The stretch factor is
+set using setColumnStretch() and determines how much of the available
+space the column will get over and above its necessary minimum.
+Normally, each managed widget or layout is put into a cell of its
+own using addWidget(). It is also possible for a widget to occupy
+multiple cells using the row and column spanning overloads of
+addItem() and addWidget(). If you do this, QGridLayout will guess
+how to distribute the size over the columns/rows (based on the
+stretch factors).
+To remove a widget from a layout, call removeWidget(). Calling
+QWidget::hide() on a widget also effectively removes the widget
+from the layout until QWidget::show() is called.
+This illustration shows a fragment of a dialog with a five-column,
+three-row grid (the grid is shown overlaid in magenta):
+\image gridlayout.png A grid layout
+Columns 0, 2 and 4 in this dialog fragment are made up of a
+QLabel, a QLineEdit, and a QListBox. Columns 1 and 3 are
+placeholders made with setColumnMinimumWidth(). Row 0 consists of three
+QLabel objects, row 1 of three QLineEdit objects and row 2 of
+three QListBox objects. We used placeholder columns (1 and 3) to
+get the right amount of space between the columns.
+Note that the columns and rows are not equally wide or tall. If
+you want two columns to have the same width, you must set their
+minimum widths and stretch factors to be the same yourself. You do
+this using setColumnMinimumWidth() and setColumnStretch().
+If the QGridLayout is not the top-level layout (i.e. does not
+manage all of the widget's area and children), you must add it to
+its parent layout when you create it, but before you do anything
+with it. The normal way to add a layout is by calling
+addLayout() on the parent layout.
+Once you have added your layout you can start putting widgets and
+other layouts into the cells of your grid layout using
+addWidget(), addItem(), and addLayout().
+QGridLayout also includes two margin widths:
+the \l{getContentsMargins()}{contents margin} and the spacing().
+The contents margin is the width of the reserved space along each
+of the QGridLayout's four sides. The spacing() is the width of the
+automatically allocated spacing between neighboring boxes.
+The default contents margin values are provided by the
+\l{QStyle::pixelMetric()}{style}. The default value Qt styles specify
+is 9 for child widgets and 11 for windows. The spacing defaults to the same as
+the margin width for a top-level layout, or to the same as the
+parent layout.
+\sa QBoxLayout, QStackedLayout, {Layout Management}, {Basic Layouts Example}
+*/
+/*!
+Constructs a new QGridLayout with parent widget, \a parent.  The
+layout has one row and one column initially, and will expand when
+new items are inserted.
+*/
+QGridLayout::QGridLayout(QWidget *parent)
+: QLayout(*new QGridLayoutPrivate, 0, parent)
+{
+Q_D(QGridLayout);
+d->expand(1, 1);
+}
+/*!
+Constructs a new grid layout.
+You must insert this grid into another layout. You can insert
+widgets and layouts into this layout at any time, but laying out
+will not be performed before this is inserted into another layout.
+*/
+QGridLayout::QGridLayout()
+: QLayout(*new QGridLayoutPrivate, 0, 0)
+{
+Q_D(QGridLayout);
+d->expand(1, 1);
+}
+#ifdef QT3_SUPPORT
+/*!
+\obsolete
+Constructs a new QGridLayout with \a nRows rows, \a nCols columns
+and parent widget, \a  parent. \a parent may not be 0. The grid
+layout is called \a name.
+\a margin is the number of pixels between the edge of the widget
+and its managed children. \a space is the default number of pixels
+between cells. If \a space is -1, the value of \a margin is used.
+*/
+QGridLayout::QGridLayout(QWidget *parent, int nRows, int nCols, int margin,
+int space, const char *name)
+: QLayout(*new QGridLayoutPrivate, 0, parent)
+{
+Q_D(QGridLayout);
+d->expand(nRows, nCols);
+setMargin(margin);
+setSpacing(space < 0 ? margin : space);
+setObjectName(QString::fromAscii(name));
+}
+/*!
+\obsolete
+Constructs a new grid with \a nRows rows and \a nCols columns. If
+\a spacing is -1, this QGridLayout inherits its parent's
+spacing(); otherwise \a spacing is used. The grid layout is called
+\a name.
+You must insert this grid into another layout. You can insert
+widgets and layouts into this layout at any time, but laying out
+will not be performed before this is inserted into another layout.
+*/
+QGridLayout::QGridLayout(QLayout *parentLayout, int nRows, int nCols,
+int spacing, const char *name)
+: QLayout(*new QGridLayoutPrivate, parentLayout, 0)
+{
+Q_D(QGridLayout);
+d->expand(nRows, nCols);
+setSpacing(spacing);
+setObjectName(QString::fromAscii(name));
+}
+/*!
+\obsolete
+Constructs a new grid with \a nRows rows and \a nCols columns. If
+\a spacing is -1, this QGridLayout inherits its parent's
+spacing(); otherwise \a spacing is used. The grid layout is called
+\a name.
+You must insert this grid into another layout. You can insert
+widgets and layouts into this layout at any time, but laying out
+will not be performed before this is inserted into another layout.
+*/
+QGridLayout::QGridLayout(int nRows, int nCols, int spacing, const char *name)
+: QLayout(*new QGridLayoutPrivate, 0, 0)
+{
+Q_D(QGridLayout);
+d->expand(nRows, nCols);
+setSpacing(spacing);
+setObjectName(QString::fromAscii(name));
+}
+#endif
+/*!
+\internal (mostly)
+Sets the positioning mode used by addItem(). If \a orient is
+Qt::Horizontal, this layout is expanded to \a n columns, and items
+will be added columns-first. Otherwise it is expanded to \a n rows and
+items will be added rows-first.
+*/
+void QGridLayout::setDefaultPositioning(int n, Qt::Orientation orient)
+{
+Q_D(QGridLayout);
+if (orient == Qt::Horizontal) {
+d->expand(1, n);
+d->addVertical = false;
+} else {
+d->expand(n,1);
+d->addVertical = true;
+}
+}
+/*!
+Destroys the grid layout. Geometry management is terminated if
+this is a top-level grid.
+The layout's widgets aren't destroyed.
+*/
+QGridLayout::~QGridLayout()
+{
+Q_D(QGridLayout);
+d->deleteAll();
+}
+/*!
+\property QGridLayout::horizontalSpacing
+\brief the spacing between widgets that are laid out side by side
+\since 4.3
+If no value is explicitly set, the layout's horizontal spacing is
+inherited from the parent layout, or from the style settings for
+the parent widget.
+\sa verticalSpacing, QStyle::pixelMetric(), {QStyle::}{PM_LayoutHorizontalSpacing}
+*/
+void QGridLayout::setHorizontalSpacing(int spacing)
+{
+Q_D(QGridLayout);
+d->horizontalSpacing = spacing;
+invalidate();
+}
+int QGridLayout::horizontalSpacing() const
+{
+Q_D(const QGridLayout);
+if (d->horizontalSpacing >= 0) {
+return d->horizontalSpacing;
+} else {
+return qSmartSpacing(this, QStyle::PM_LayoutHorizontalSpacing);
+}
+}
+/*!
+\property QGridLayout::verticalSpacing
+\brief the spacing between widgets that are laid out on top of each other
+\since 4.3
+If no value is explicitly set, the layout's vertical spacing is
+inherited from the parent layout, or from the style settings for
+the parent widget.
+\sa horizontalSpacing, QStyle::pixelMetric(), {QStyle::}{PM_LayoutHorizontalSpacing}
+*/
+void QGridLayout::setVerticalSpacing(int spacing)
+{
+Q_D(QGridLayout);
+d->verticalSpacing = spacing;
+invalidate();
+}
+int QGridLayout::verticalSpacing() const
+{
+Q_D(const QGridLayout);
+if (d->verticalSpacing >= 0) {
+return d->verticalSpacing;
+} else {
+return qSmartSpacing(this, QStyle::PM_LayoutVerticalSpacing);
+}
+}
+/*!
+This function sets both the vertical and horizontal spacing to
+\a spacing.
+\sa setVerticalSpacing(), setHorizontalSpacing()
+*/
+void QGridLayout::setSpacing(int spacing)
+{
+Q_D(QGridLayout);
+d->horizontalSpacing = d->verticalSpacing = spacing;
+invalidate();
+}
+/*!
+If the vertical spacing is equal to the horizontal spacing,
+this function returns that value; otherwise it return -1.
+\sa setSpacing(), verticalSpacing(), horizontalSpacing()
+*/
+int QGridLayout::spacing() const
+{
+int hSpacing = horizontalSpacing();
+if (hSpacing == verticalSpacing()) {
+return hSpacing;
+} else {
+return -1;
+}
+}
+/*!
+Returns the number of rows in this grid.
+*/
+int QGridLayout::rowCount() const
+{
+Q_D(const QGridLayout);
+return d->numRows();
+}
+/*!
+Returns the number of columns in this grid.
+*/
+int QGridLayout::columnCount() const
+{
+Q_D(const QGridLayout);
+return d->numCols();
+}
+/*!
+\reimp
+*/
+QSize QGridLayout::sizeHint() const
+{
+Q_D(const QGridLayout);
+QSize result(d->sizeHint(horizontalSpacing(), verticalSpacing()));
+int left, top, right, bottom;
+d->effectiveMargins(&left, &top, &right, &bottom);
+result += QSize(left + right, top + bottom);
+return result;
+}
+/*!
+\reimp
+*/
+QSize QGridLayout::minimumSize() const
+{
+Q_D(const QGridLayout);
+QSize result(d->minimumSize(horizontalSpacing(), verticalSpacing()));
+int left, top, right, bottom;
+d->effectiveMargins(&left, &top, &right, &bottom);
+result += QSize(left + right, top + bottom);
+return result;
+}
+/*!
+\reimp
+*/
+QSize QGridLayout::maximumSize() const
+{
+Q_D(const QGridLayout);
+QSize s = d->maximumSize(horizontalSpacing(), verticalSpacing());
+int left, top, right, bottom;
+d->effectiveMargins(&left, &top, &right, &bottom);
+s += QSize(left + right, top + bottom);
+s = s.boundedTo(QSize(QLAYOUTSIZE_MAX, QLAYOUTSIZE_MAX));
+if (alignment() & Qt::AlignHorizontal_Mask)
+s.setWidth(QLAYOUTSIZE_MAX);
+if (alignment() & Qt::AlignVertical_Mask)
+s.setHeight(QLAYOUTSIZE_MAX);
+return s;
+}
+/*!
+\reimp
+*/
+bool QGridLayout::hasHeightForWidth() const
+{
+return ((QGridLayout*)this)->d_func()->hasHeightForWidth(horizontalSpacing(), verticalSpacing());
+}
+/*!
+\reimp
+*/
+int QGridLayout::heightForWidth(int w) const
+{
+Q_D(const QGridLayout);
+QGridLayoutPrivate *dat = const_cast<QGridLayoutPrivate *>(d);
+return dat->heightForWidth(w, horizontalSpacing(), verticalSpacing());
+}
+/*!
+\reimp
+*/
+int QGridLayout::minimumHeightForWidth(int w) const
+{
+Q_D(const QGridLayout);
+QGridLayoutPrivate *dat = const_cast<QGridLayoutPrivate *>(d);
+return dat->minimumHeightForWidth(w, horizontalSpacing(), verticalSpacing());
+}
+#ifdef QT3_SUPPORT
+/*!
+\compat
+Searches for widget \a w in this layout (not including child
+layouts). If \a w is found, it sets \c{*}\a{row} and
+\c{*}\a{column} to the row and column that the widget
+occupies and returns true; otherwise returns false.
+If the widget spans multiple rows/columns, the top-left cell
+is returned.
+Use indexOf() and getItemPosition() instead.
+*/
+bool QGridLayout::findWidget(QWidget* w, int *row, int *column)
+{
+Q_D(QGridLayout);
+int index = indexOf(w);
+if (index < 0)
+return false;
+int dummy1, dummy2;
+d->getItemPosition(index, row, column, &dummy1, &dummy2);
+return true;
+}
+#endif
+/*!
+\reimp
+*/
+int QGridLayout::count() const
+{
+Q_D(const QGridLayout);
+return d->count();
+}
+/*!
+\reimp
+*/
+QLayoutItem *QGridLayout::itemAt(int index) const
+{
+Q_D(const QGridLayout);
+return d->itemAt(index);
+}
+/*!
+\since 4.4
+Returns the layout item that occupies cell (\a row, \a column), or 0 if
+the cell is empty.
+\sa getItemPosition(), indexOf()
+*/
+QLayoutItem *QGridLayout::itemAtPosition(int row, int column) const
+{
+Q_D(const QGridLayout);
+int n = d->things.count();
+for (int i = 0; i < n; ++i) {
+QGridBox *box = d->things.at(i);
+if (row >= box->row && row <= box->toRow(d->rr)
+&& column >= box->col && column <= box->toCol(d->cc)) {
+return box->item();
+}
+}
+return 0;
+}
+/*!
+\reimp
+*/
+QLayoutItem *QGridLayout::takeAt(int index)
+{
+Q_D(QGridLayout);
+return d->takeAt(index);
+}
+/*!
+Returns the position information of the item with the given \a index.
+The variables passed as \a row and \a column are updated with the position of the
+item in the layout, and the \a rowSpan and \a columnSpan variables are updated
+with the vertical and horizontal spans of the item.
+\sa itemAtPosition(), itemAt()
+*/
+void QGridLayout::getItemPosition(int index, int *row, int *column, int *rowSpan, int *columnSpan)
+{
+Q_D(QGridLayout);
+d->getItemPosition(index, row, column, rowSpan, columnSpan);
+}
+/*!
+\reimp
+*/
+void QGridLayout::setGeometry(const QRect &rect)
+{
+Q_D(QGridLayout);
+if (d->isDirty() || rect != geometry()) {
+QRect cr = alignment() ? alignmentRect(rect) : rect;
+d->distribute(cr, horizontalSpacing(), verticalSpacing());
+QLayout::setGeometry(rect);
+}
+}
+/*!
+Returns the geometry of the cell with row \a row and column \a column
+in the grid. Returns an invalid rectangle if \a row or \a column is
+outside the grid.
+\warning in the current version of Qt this function does not
+return valid results until setGeometry() has been called, i.e.
+after the parentWidget() is visible.
+*/
+QRect QGridLayout::cellRect(int row, int column) const
+{
+Q_D(const QGridLayout);
+return d->cellRect(row, column);
+}
+#ifdef QT3_SUPPORT
+/*!
+\obsolete
+Expands this grid so that it will have \a nRows rows and \a nCols
+columns. Will not shrink the grid. You should not need to call
+this function because QGridLayout expands automatically as new
+items are inserted.
+*/
+void QGridLayout::expand(int nRows, int nCols)
+{
+Q_D(QGridLayout);
+d->expand(nRows, nCols);
+}
+#endif
+/*!
+\reimp
+*/
+void QGridLayout::addItem(QLayoutItem *item)
+{
+Q_D(QGridLayout);
+int r, c;
+d->getNextPos(r, c);
+addItem(item, r, c);
+}
+/*!
+Adds \a item at position \a row, \a column, spanning \a rowSpan
+rows and \a columnSpan columns, and aligns it according to \a
+alignment. If \a rowSpan and/or \a columnSpan is -1, then the item
+will extend to the bottom and/or right edge, respectively. The
+layout takes ownership of the \a item.
+\warning Do not use this function to add child layouts or child
+widget items. Use addLayout() or addWidget() instead.
+*/
+void QGridLayout::addItem(QLayoutItem *item, int row, int column, int rowSpan, int columnSpan, Qt::Alignment alignment)
+{
+Q_D(QGridLayout);
+QGridBox *b = new QGridBox(item);
+b->setAlignment(alignment);
+d->add(b, row, (rowSpan < 0) ? -1 : row + rowSpan - 1, column, (columnSpan < 0) ? -1 : column + columnSpan - 1);
+invalidate();
+}
+/*
+Returns true if the widget \a w can be added to the layout \a l;
+otherwise returns false.
+*/
+static bool checkWidget(QLayout *l, QWidget *w)
+{
+if (!w) {
+qWarning("QLayout: Cannot add null widget to %s/%s", l->metaObject()->className(),
+l->objectName().toLocal8Bit().data());
+return false;
+}
+return true;
+}
+/*!
+Adds the given \a widget to the cell grid at \a row, \a column. The
+top-left position is (0, 0) by default.
+The alignment is specified by \a alignment. The default
+alignment is 0, which means that the widget fills the entire cell.
+*/
+void QGridLayout::addWidget(QWidget *widget, int row, int column, Qt::Alignment alignment)
+{
+if (!checkWidget(this, widget))
+return;
+if (row < 0 || column < 0) {
+qWarning("QGridLayout: Cannot add %s/%s to %s/%s at row %d column %d",
+widget->metaObject()->className(), widget->objectName().toLocal8Bit().data(),
+metaObject()->className(), objectName().toLocal8Bit().data(), row, column);
+return;
+}
+addChildWidget(widget);
+QWidgetItem *b = QLayoutPrivate::createWidgetItem(this, widget);
+addItem(b, row, column, 1, 1, alignment);
+}
+/*!
+\overload
+This version adds the given \a widget to the cell grid, spanning
+multiple rows/columns. The cell will start at \a fromRow, \a
+fromColumn spanning \a rowSpan rows and \a columnSpan columns. The
+\a widget will have the given \a alignment.
+If \a rowSpan and/or \a columnSpan is -1, then the widget will
+extend to the bottom and/or right edge, respectively.
+*/
+void QGridLayout::addWidget(QWidget *widget, int fromRow, int fromColumn,
+int rowSpan, int columnSpan, Qt::Alignment alignment)
+{
+Q_D(QGridLayout);
+if (!checkWidget(this, widget))
+return;
+int toRow = (rowSpan < 0) ? -1 : fromRow + rowSpan - 1;
+int toColumn = (columnSpan < 0) ? -1 : fromColumn + columnSpan - 1;
+addChildWidget(widget);
+QGridBox *b = new QGridBox(this, widget);
+b->setAlignment(alignment);
+d->add(b, fromRow, toRow, fromColumn, toColumn);
+invalidate();
+}
+/*!
+\fn void QGridLayout::addWidget(QWidget *widget)
+\overload
+\internal
+*/
+/*!
+Places the \a layout at position (\a row, \a column) in the grid. The
+top-left position is (0, 0).
+The alignment is specified by \a alignment. The default
+alignment is 0, which means that the widget fills the entire cell.
+A non-zero alignment indicates that the layout should not grow to
+fill the available space but should be sized according to
+sizeHint().
+\a layout becomes a child of the grid layout.
+*/
+void QGridLayout::addLayout(QLayout *layout, int row, int column, Qt::Alignment alignment)
+{
+Q_D(QGridLayout);
+addChildLayout(layout);
+QGridBox *b = new QGridBox(layout);
+b->setAlignment(alignment);
+d->add(b, row, column);
+}
+/*!
+\overload
+This version adds the layout \a layout to the cell grid, spanning multiple
+rows/columns. The cell will start at \a row, \a column spanning \a
+rowSpan rows and \a columnSpan columns.
+If \a rowSpan and/or \a columnSpan is -1, then the layout will extend to the bottom
+and/or right edge, respectively.
+*/
+void QGridLayout::addLayout(QLayout *layout, int row, int column,
+int rowSpan, int columnSpan, Qt::Alignment alignment)
+{
+Q_D(QGridLayout);
+addChildLayout(layout);
+QGridBox *b = new QGridBox(layout);
+b->setAlignment(alignment);
+d->add(b, row, (rowSpan < 0) ? -1 : row + rowSpan - 1, column, (columnSpan < 0) ? -1 : column + columnSpan - 1);
+}
+/*!
+Sets the stretch factor of row \a row to \a stretch. The first row
+is number 0.
+The stretch factor is relative to the other rows in this grid.
+Rows with a higher stretch factor take more of the available
+space.
+The default stretch factor is 0. If the stretch factor is 0 and no
+other row in this table can grow at all, the row may still grow.
+\sa rowStretch(), setRowMinimumHeight(), setColumnStretch()
+*/
+void QGridLayout::setRowStretch(int row, int stretch)
+{
+Q_D(QGridLayout);
+d->setRowStretch(row, stretch);
+invalidate();
+}
+/*!
+Returns the stretch factor for row \a row.
+\sa setRowStretch()
+*/
+int QGridLayout::rowStretch(int row) const
+{
+Q_D(const QGridLayout);
+return d->rowStretch(row);
+}
+/*!
+Returns the stretch factor for column \a column.
+\sa setColumnStretch()
+*/
+int QGridLayout::columnStretch(int column) const
+{
+Q_D(const QGridLayout);
+return d->colStretch(column);
+}
+/*!
+Sets the stretch factor of column \a column to \a stretch. The first
+column is number 0.
+The stretch factor is relative to the other columns in this grid.
+Columns with a higher stretch factor take more of the available
+space.
+The default stretch factor is 0. If the stretch factor is 0 and no
+other column in this table can grow at all, the column may still
+grow.
+An alternative approach is to add spacing using addItem() with a
+QSpacerItem.
+\sa columnStretch(), setRowStretch()
+*/
+void QGridLayout::setColumnStretch(int column, int stretch)
+{
+Q_D(QGridLayout);
+d->setColStretch(column, stretch);
+invalidate();
+}
+/*!
+Sets the minimum height of row \a row to \a minSize pixels.
+\sa rowMinimumHeight(), setColumnMinimumWidth()
+*/
+void QGridLayout::setRowMinimumHeight(int row, int minSize)
+{
+Q_D(QGridLayout);
+d->setRowMinimumHeight(row, minSize);
+invalidate();
+}
+/*!
+Returns the minimum width set for row \a row.
+\sa setRowMinimumHeight()
+*/
+int QGridLayout::rowMinimumHeight(int row) const
+{
+Q_D(const QGridLayout);
+return d->rowSpacing(row);
+}
+/*!
+Sets the minimum width of column \a column to \a minSize pixels.
+\sa columnMinimumWidth(), setRowMinimumHeight()
+*/
+void QGridLayout::setColumnMinimumWidth(int column, int minSize)
+{
+Q_D(QGridLayout);
+d->setColumnMinimumWidth(column, minSize);
+invalidate();
+}
+/*!
+Returns the column spacing for column \a column.
+\sa setColumnMinimumWidth()
+*/
+int QGridLayout::columnMinimumWidth(int column) const
+{
+Q_D(const QGridLayout);
+return d->colSpacing(column);
+}
+/*!
+\reimp
+*/
+Qt::Orientations QGridLayout::expandingDirections() const
+{
+Q_D(const QGridLayout);
+return d->expandingDirections(horizontalSpacing(), verticalSpacing());
+}
+/*!
+Sets the grid's origin corner, i.e. position (0, 0), to \a corner.
+*/
+void QGridLayout::setOriginCorner(Qt::Corner corner)
+{
+Q_D(QGridLayout);
+d->setReversed(corner == Qt::BottomLeftCorner || corner == Qt::BottomRightCorner,
+corner == Qt::TopRightCorner || corner == Qt::BottomRightCorner);
+}
+/*!
+Returns the corner that's used for the grid's origin, i.e. for
+position (0, 0).
+*/
+Qt::Corner QGridLayout::originCorner() const
+{
+Q_D(const QGridLayout);
+if (d->horReversed()) {
+return d->verReversed() ? Qt::BottomRightCorner : Qt::TopRightCorner;
+} else {
+return d->verReversed() ? Qt::BottomLeftCorner : Qt::TopLeftCorner;
+}
+}
+/*!
+\reimp
+*/
+void QGridLayout::invalidate()
+{
+Q_D(QGridLayout);
+d->setDirty();
+QLayout::invalidate();
+}
+/*!
+\fn void QGridLayout::addRowSpacing(int row, int minsize)
+Use addItem(new QSpacerItem(0, minsize), row, 0) instead.
+*/
+/*!
+\fn void QGridLayout::addColSpacing(int col, int minsize)
+Use addItem(new QSpacerItem(minsize, 0), 0, col) instead.
+*/
+/*!
+\fn void QGridLayout::addMultiCellWidget(QWidget *widget, int fromRow, int toRow, int fromCol, int toCol, Qt::Alignment align = 0)
+Use an addWidget() overload that allows you to specify row and
+column spans instead.
+*/
+/*!
+\fn void QGridLayout::addMultiCell(QLayoutItem *l, int fromRow, int toRow, int fromCol, int toCol, Qt::Alignment align = 0)
+Use an addItem() overload that allows you to specify row and
+column spans instead.
+*/
+/*!
+\fn void QGridLayout::addMultiCellLayout(QLayout *layout, int fromRow, int toRow, int fromCol, int toCol, Qt::Alignment align = 0)
+Use an addLayout() overload that allows you to specify row and
+column spans instead.
+*/
+/*!
+\fn int QGridLayout::numRows() const
+Use rowCount() instead.
+*/
+/*!
+\fn int QGridLayout::numCols() const
+Use columnCount() instead.
+*/
+/*!
+\fn void QGridLayout::setColStretch(int col, int stretch)
+Use setColumnStretch() instead.
+*/
+/*!
+\fn int QGridLayout::colStretch(int col) const
+Use columnStretch() instead.
+*/
+/*!
+\fn void QGridLayout::setColSpacing(int col, int minSize)
+Use setColumnMinimumWidth() instead.
+*/
+/*!
+\fn int QGridLayout::colSpacing(int col) const
+Use columnSpacing() instead.
+*/
+/*!
+\fn void QGridLayout::setRowSpacing(int row, int minSize)
+Use setRowMinimumHeight(\a row, \a minSize) instead.
+*/
+/*!
+\fn int QGridLayout::rowSpacing(int row) const
+Use rowMinimumHeight(\a row) instead.
+*/
+/*!
+\fn QRect QGridLayout::cellGeometry(int row, int column) const
+Use cellRect(\a row, \a column) instead.
+*/
+/*!
+\fn void QGridLayout::setOrigin(Qt::Corner corner)
+Use setOriginCorner(\a corner) instead.
+*/
+/*!
+\fn Qt::Corner QGridLayout::origin() const
+Use originCorner() instead.
+*/
+QT_END_NAMESPACE

changeset 0	1918ee327afb
child 4	3b1da2848fc7