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

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--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 "qapplication.h"
+#include "qdebug.h"
+#include "qformlayout.h"
+#include "qlabel.h"
+#include "qlayout_p.h"
+#include "qlayoutengine_p.h"
+#include "qrect.h"
+#include "qvector.h"
+#include "qwidget.h"
+QT_BEGIN_NAMESPACE
+namespace {
+// Fixed column matrix, stores items as [i11, i12, i21, i22...],
+// with FORTRAN-style index operator(r, c).
+template <class T, int NumColumns>
+class FixedColumnMatrix {
+public:
+typedef QVector<T> Storage;
+FixedColumnMatrix() { }
+void clear() { m_storage.clear(); }
+const T &operator()(int r, int c) const { return m_storage[r * NumColumns + c]; }
+T &operator()(int r, int c) { return m_storage[r * NumColumns + c]; }
+int rowCount() const { return m_storage.size() / NumColumns; }
+void addRow(const T &value);
+void insertRow(int r, const T &value);
+void removeRow(int r);
+bool find(const T &value, int *rowPtr, int *colPtr) const ;
+int count(const T &value) const { return m_storage.count(value);  }
+// Hmmpf.. Some things are faster that way.
+const Storage &storage() const { return m_storage; }
+static void storageIndexToPosition(int idx, int *rowPtr, int *colPtr);
+private:
+Storage m_storage;
+};
+template <class T, int NumColumns>
+void FixedColumnMatrix<T, NumColumns>::addRow(const T &value)
+{
+for (int i = 0; i < NumColumns; ++i)
+m_storage.append(value);
+}
+template <class T, int NumColumns>
+void FixedColumnMatrix<T, NumColumns>::insertRow(int r, const T &value)
+{
+Q_TYPENAME Storage::iterator it = m_storage.begin();
+it += r * NumColumns;
+m_storage.insert(it, NumColumns, value);
+}
+template <class T, int NumColumns>
+void FixedColumnMatrix<T, NumColumns>::removeRow(int r)
+{
+m_storage.remove(r * NumColumns, NumColumns);
+}
+template <class T, int NumColumns>
+bool FixedColumnMatrix<T, NumColumns>::find(const T &value, int *rowPtr, int *colPtr) const
+{
+const int idx = m_storage.indexOf(value);
+if (idx == -1)
+return false;
+storageIndexToPosition(idx, rowPtr, colPtr);
+return true;
+}
+template <class T, int NumColumns>
+void FixedColumnMatrix<T, NumColumns>::storageIndexToPosition(int idx, int *rowPtr, int *colPtr)
+{
+*rowPtr = idx / NumColumns;
+*colPtr = idx % NumColumns;
+}
+} // namespace
+// special values for unset fields; must not clash with values of FieldGrowthPolicy or
+// RowWrapPolicy
+const uint DefaultFieldGrowthPolicy = 255;
+const uint DefaultRowWrapPolicy = 255;
+enum { ColumnCount = 2 };
+// -- our data structure for our items
+// This owns the QLayoutItem
+struct QFormLayoutItem
+{
+QFormLayoutItem(QLayoutItem* i) : item(i), fullRow(false), isHfw(false) { }
+~QFormLayoutItem() { delete item; }
+// Wrappers
+QWidget *widget() const { return item->widget(); }
+QLayout *layout() const { return item->layout(); }
+bool hasHeightForWidth() const { return item->hasHeightForWidth(); }
+int heightForWidth(int width) const { return item->heightForWidth(width); }
+int minimumHeightForWidth(int width) const { return item->minimumHeightForWidth(width); }
+Qt::Orientations expandingDirections() const { return item->expandingDirections(); }
+QSizePolicy::ControlTypes controlTypes() const { return item->controlTypes(); }
+int vStretch() const { return widget() ? widget()->sizePolicy().verticalStretch() : 0; }
+void setGeometry(const QRect& r) { item->setGeometry(r); }
+QRect geometry() const { return item->geometry(); }
+// For use with FixedColumnMatrix
+bool operator==(const QFormLayoutItem& other) { return item == other.item; }
+QLayoutItem *item;
+bool fullRow;
+// set by updateSizes
+bool isHfw;
+QSize minSize;
+QSize sizeHint;
+QSize maxSize;
+// also set by updateSizes
+int sbsHSpace; // only used for side by side, for the field item only (not label)
+int vSpace; // This is the spacing to the item in the row above
+// set by setupVerticalLayoutData
+bool sideBySide;
+int vLayoutIndex;
+// set by setupHorizontalLayoutData
+int layoutPos;
+int layoutWidth;
+};
+class QFormLayoutPrivate : public QLayoutPrivate
+{
+Q_DECLARE_PUBLIC(QFormLayout)
+public:
+typedef FixedColumnMatrix<QFormLayoutItem *, ColumnCount> ItemMatrix;
+QFormLayoutPrivate();
+~QFormLayoutPrivate() { }
+int insertRow(int row);
+void insertRows(int row, int count);
+void setItem(int row, QFormLayout::ItemRole role, QLayoutItem *item);
+void setLayout(int row, QFormLayout::ItemRole role, QLayout *layout);
+void setWidget(int row, QFormLayout::ItemRole role, QWidget *widget);
+void arrangeWidgets(const QVector<QLayoutStruct>& layouts, QRect &rect);
+void updateSizes();
+void setupVerticalLayoutData(int width);
+void setupHorizontalLayoutData(int width);
+QStyle* getStyle() const;
+inline bool haveHfwCached(int width) const
+{
+return (hfw_width == width) || (width == sh_width && hfw_sh_height >= 0);
+}
+void recalcHFW(int w);
+void setupHfwLayoutData();
+uint fieldGrowthPolicy : 8;
+uint rowWrapPolicy : 8;
+uint has_hfw : 2;
+uint dirty : 2; // have we laid out yet?
+uint sizesDirty : 2; // have we (not) gathered layout item sizes?
+uint expandVertical : 1; // Do we expand vertically?
+uint expandHorizontal : 1; // Do we expand horizonally?
+Qt::Alignment labelAlignment;
+Qt::Alignment formAlignment;
+ItemMatrix m_matrix;
+QList<QFormLayoutItem *> m_things;
+int layoutWidth;    // the last width that we called setupVerticalLayoutData on (for vLayouts)
+int hfw_width;  // the last width we calculated HFW for
+int hfw_height; // what that height was
+int hfw_minheight;  // what that minheight was
+int hfw_sh_height;  // the hfw for sh_width
+int hfw_sh_minheight;   // the minhfw for sh_width
+int min_width;  // the width that gets turned into minSize (from updateSizes)
+int sh_width;   // the width that gets turned into prefSize (from updateSizes)
+int thresh_width; // the width that we start splitting label/field pairs at (from updateSizes)
+QSize minSize;
+QSize prefSize;
+int formMaxWidth;
+void calcSizeHints();
+QVector<QLayoutStruct> vLayouts; // set by setupVerticalLayoutData;
+int vLayoutCount;               // Number of rows we calculated in setupVerticalLayoutData
+int maxLabelWidth;              // the label width we calculated in setupVerticalLayoutData
+QVector<QLayoutStruct> hfwLayouts;
+int hSpacing;
+int vSpacing;
+};
+QFormLayoutPrivate::QFormLayoutPrivate()
+: fieldGrowthPolicy(DefaultFieldGrowthPolicy),
+rowWrapPolicy(DefaultRowWrapPolicy), has_hfw(false), dirty(true), sizesDirty(true),
+expandVertical(0), expandHorizontal(0), labelAlignment(0), formAlignment(0),
+layoutWidth(-1), hfw_width(-1), hfw_sh_height(-1), min_width(-1),
+sh_width(-1), thresh_width(QLAYOUTSIZE_MAX), hSpacing(-1), vSpacing(-1)
+{
+}
+static Qt::Alignment fixedAlignment(Qt::Alignment alignment, Qt::LayoutDirection layoutDirection)
+{
+if (layoutDirection == Qt::RightToLeft && alignment & Qt::AlignAbsolute) {
+// swap left and right, and eliminate absolute flag
+return Qt::Alignment((alignment & ~(Qt::AlignLeft | Qt::AlignRight | Qt::AlignAbsolute))
+| ((alignment & Qt::AlignRight) ? Qt::AlignLeft : 0)
+| ((alignment & Qt::AlignLeft) ? Qt::AlignRight : 0));
+} else {
+return alignment & ~Qt::AlignAbsolute;
+}
+}
+static int storageIndexFromLayoutItem(const QFormLayoutPrivate::ItemMatrix &m,
+QFormLayoutItem *item)
+{
+if (item) {
+return m.storage().indexOf(item);
+} else {
+return -1;
+}
+}
+static void updateFormLayoutItem(QFormLayoutItem *item, int userVSpacing,
+QFormLayout::FieldGrowthPolicy fieldGrowthPolicy,
+bool fullRow)
+{
+item->minSize = item->item->minimumSize();
+item->sizeHint = item->item->sizeHint();
+item->maxSize = item->item->maximumSize();
+if (!fullRow && (fieldGrowthPolicy == QFormLayout::FieldsStayAtSizeHint
+|| (fieldGrowthPolicy == QFormLayout::ExpandingFieldsGrow
+&& !(item->item->expandingDirections() & Qt::Horizontal))))
+item->maxSize.setWidth(item->sizeHint.width());
+item->isHfw = item->item->hasHeightForWidth();
+item->vSpace = userVSpacing;
+}
+/*
+Iterate over all the controls and gather their size information
+(min, sizeHint and max). Also work out what the spacing between
+pairs of controls should be, and figure out the min and sizeHint
+widths.
+*/
+void QFormLayoutPrivate::updateSizes()
+{
+Q_Q(QFormLayout);
+if (sizesDirty) {
+QFormLayout::RowWrapPolicy wrapPolicy = q->rowWrapPolicy();
+bool wrapAllRows = (wrapPolicy == QFormLayout::WrapAllRows);
+bool dontWrapRows = (wrapPolicy == QFormLayout::DontWrapRows);
+int rr = m_matrix.rowCount();
+has_hfw = false;
+// If any control can expand, so can this layout
+// Wrapping doesn't affect expansion, though, just the minsize
+bool expandH = false;
+bool expandV = false;
+QFormLayoutItem *prevLbl = 0;
+QFormLayoutItem *prevFld = 0;
+QWidget *parent = q->parentWidget();
+QStyle *style = parent ? parent->style() : 0;
+int userVSpacing = q->verticalSpacing();
+int userHSpacing = wrapAllRows ? 0 : q->horizontalSpacing();
+int maxMinLblWidth = 0;
+int maxMinFldWidth = 0; // field with label
+int maxMinIfldWidth = 0; // independent field
+int maxShLblWidth = 0;
+int maxShFldWidth = 0;
+int maxShIfldWidth = 0;
+for (int i = 0; i < rr; ++i) {
+QFormLayoutItem *label = m_matrix(i, 0);
+QFormLayoutItem *field = m_matrix(i, 1);
+// Skip empty rows
+if (!label && !field)
+continue;
+if (label) {
+updateFormLayoutItem(label, userVSpacing, q->fieldGrowthPolicy(), false);
+if (label->isHfw)
+has_hfw = true;
+Qt::Orientations o = label->expandingDirections();
+if (o & Qt::Vertical)
+expandV = true;
+if (o & Qt::Horizontal)
+expandH = true;
+}
+if (field) {
+updateFormLayoutItem(field, userVSpacing, q->fieldGrowthPolicy(), !label && field->fullRow);
+field->sbsHSpace = (!label && field->fullRow) ? 0 : userHSpacing;
+if (field->isHfw)
+has_hfw = true;
+Qt::Orientations o = field->expandingDirections();
+if (o & Qt::Vertical)
+expandV = true;
+if (o & Qt::Horizontal)
+expandH = true;
+}
+// See if we need to calculate default spacings
+if ((userHSpacing < 0 || userVSpacing < 0) && style) {
+QSizePolicy::ControlTypes lbltypes =
+QSizePolicy::ControlTypes(label ? label->controlTypes() : QSizePolicy::DefaultType);
+QSizePolicy::ControlTypes fldtypes =
+QSizePolicy::ControlTypes(field ? field->controlTypes() : QSizePolicy::DefaultType);
+// VSpacing
+if (userVSpacing < 0) {
+if (wrapAllRows) {
+// label spacing is to a previous item
+QFormLayoutItem *lbltop = prevFld ? prevFld : prevLbl;
+// field spacing is to the label (or a previous item)
+QFormLayoutItem *fldtop = label ? label : lbltop;
+QSizePolicy::ControlTypes lbltoptypes =
+QSizePolicy::ControlTypes(lbltop ? lbltop->controlTypes() : QSizePolicy::DefaultType);
+QSizePolicy::ControlTypes fldtoptypes =
+QSizePolicy::ControlTypes(fldtop ? fldtop->controlTypes() : QSizePolicy::DefaultType);
+if (label && lbltop)
+label->vSpace = style->combinedLayoutSpacing(lbltoptypes, lbltypes, Qt::Vertical, 0, parent);
+if (field && fldtop)
+field->vSpace = style->combinedLayoutSpacing(fldtoptypes, fldtypes, Qt::Vertical, 0, parent);
+} else {
+// Side by side..  we have to also consider the spacings to empty cells, which can strangely be more than
+// non empty cells..
+QFormLayoutItem *lbltop = prevLbl ? prevLbl : prevFld;
+QFormLayoutItem *fldtop = prevFld;
+QSizePolicy::ControlTypes lbltoptypes =
+QSizePolicy::ControlTypes(lbltop ? lbltop->controlTypes() : QSizePolicy::DefaultType);
+QSizePolicy::ControlTypes fldtoptypes =
+QSizePolicy::ControlTypes(fldtop ? fldtop->controlTypes() : QSizePolicy::DefaultType);
+// To be compatible to QGridLayout, we have to compare solitary labels & fields with both predecessors
+if (label) {
+if (!field) {
+int lblspacing = style->combinedLayoutSpacing(lbltoptypes, lbltypes, Qt::Vertical, 0, parent);
+int fldspacing = style->combinedLayoutSpacing(fldtoptypes, lbltypes, Qt::Vertical, 0, parent);
+label->vSpace = qMax(lblspacing, fldspacing);
+} else
+label->vSpace = style->combinedLayoutSpacing(lbltoptypes, lbltypes, Qt::Vertical, 0, parent);
+}
+if (field) {
+// check spacing against both the previous label and field
+if (!label) {
+int lblspacing = style->combinedLayoutSpacing(lbltoptypes, fldtypes, Qt::Vertical, 0, parent);
+int fldspacing = style->combinedLayoutSpacing(fldtoptypes, fldtypes, Qt::Vertical, 0, parent);
+field->vSpace = qMax(lblspacing, fldspacing);
+} else
+field->vSpace = style->combinedLayoutSpacing(fldtoptypes, fldtypes, Qt::Vertical, 0, parent);
+}
+}
+}
+// HSpacing
+// hard-coded the left and right control types so that all the rows have the same
+// inter-column spacing (otherwise the right column isn't always left aligned)
+if (userHSpacing < 0 && !wrapAllRows && (label || !field->fullRow) && field)
+field->sbsHSpace = style->combinedLayoutSpacing(QSizePolicy::Label, QSizePolicy::LineEdit, Qt::Horizontal, 0, parent);
+}
+// Now update our min/sizehint widths
+// We choose to put the spacing in the field side in sbs, so
+// the right edge of the labels will align, but fields may
+// be a little ragged.. since different controls may have
+// different appearances, a slight raggedness in the left
+// edges of fields can be tolerated.
+// (Note - field->sbsHSpace is 0 for WrapAllRows mode)
+if (label) {
+maxMinLblWidth = qMax(maxMinLblWidth, label->minSize.width());
+maxShLblWidth = qMax(maxShLblWidth, label->sizeHint.width());
+if (field) {
+maxMinFldWidth = qMax(maxMinFldWidth, field->minSize.width() + field->sbsHSpace);
+maxShFldWidth = qMax(maxShFldWidth, field->sizeHint.width() + field->sbsHSpace);
+}
+} else if (field) {
+maxMinIfldWidth = qMax(maxMinIfldWidth, field->minSize.width());
+maxShIfldWidth = qMax(maxShIfldWidth, field->sizeHint.width());
+}
+prevLbl = label;
+prevFld = field;
+}
+// Now, finally update the min/sizeHint widths
+if (wrapAllRows) {
+sh_width = qMax(maxShLblWidth, qMax(maxShIfldWidth, maxShFldWidth));
+min_width = qMax(maxMinLblWidth, qMax(maxMinIfldWidth, maxMinFldWidth));
+// in two line, we don't care as much about the threshold width
+thresh_width = 0;
+} else if (dontWrapRows) {
+// This is just the max widths glommed together
+sh_width = qMax(maxShLblWidth + maxShFldWidth, maxShIfldWidth);
+min_width = qMax(maxMinLblWidth + maxMinFldWidth, maxMinIfldWidth);
+thresh_width = QWIDGETSIZE_MAX;
+} else {
+// This is just the max widths glommed together
+sh_width = qMax(maxShLblWidth + maxShFldWidth, maxShIfldWidth);
+// min width needs to be the min when everything is wrapped,
+// otherwise we'll never get set with a width that causes wrapping
+min_width = qMax(maxMinLblWidth, qMax(maxMinIfldWidth, maxMinFldWidth));
+// We split a pair at label sh + field min (### for now..)
+thresh_width = maxShLblWidth + maxMinFldWidth;
+}
+// Update the expansions
+expandVertical = expandV;
+expandHorizontal = expandH;
+}
+sizesDirty = false;
+}
+void QFormLayoutPrivate::recalcHFW(int w)
+{
+setupHfwLayoutData();
+int h = 0;
+int mh = 0;
+for (int r = 0; r < vLayoutCount; ++r) {
+int spacing = hfwLayouts.at(r).spacing;
+h += hfwLayouts.at(r).sizeHint + spacing;
+mh += hfwLayouts.at(r).minimumSize + spacing;
+}
+if (sh_width > 0 && sh_width == w) {
+hfw_sh_height = qMin(QLAYOUTSIZE_MAX, h);
+hfw_sh_minheight = qMin(QLAYOUTSIZE_MAX, mh);
+} else {
+hfw_width = w;
+hfw_height = qMin(QLAYOUTSIZE_MAX, h);
+hfw_minheight = qMin(QLAYOUTSIZE_MAX, mh);
+}
+}
+void QFormLayoutPrivate::setupHfwLayoutData()
+{
+// setupVerticalLayoutData must be called before this
+// setupHorizontalLayoutData must also be called before this
+// copies non hfw data into hfw
+// then updates size and min
+// Note: QGridLayout doesn't call minimumHeightForWidth,
+// but instead uses heightForWidth for both min and sizeHint.
+// For the common case where minimumHeightForWidth just calls
+// heightForWidth, we do the calculation twice, which can be
+// very expensive for word wrapped QLabels/QTextEdits, for example.
+// So we just use heightForWidth as well.
+int i;
+int rr = m_matrix.rowCount();
+hfwLayouts.clear();
+hfwLayouts.resize(vLayoutCount);
+for (i = 0; i < vLayoutCount; ++i)
+hfwLayouts[i] = vLayouts.at(i);
+for (i = 0; i < rr; ++i) {
+QFormLayoutItem *label = m_matrix(i, 0);
+QFormLayoutItem *field = m_matrix(i, 1);
+if (label) {
+if (label->isHfw) {
+// We don't check sideBySide here, since a label is only
+// ever side by side with its field
+int hfw = label->heightForWidth(label->layoutWidth);
+hfwLayouts[label->vLayoutIndex].minimumSize = hfw;
+hfwLayouts[label->vLayoutIndex].sizeHint = hfw;
+} else {
+// Reset these here, so the field can do a qMax below (the previous value may have
+// been the fields non-hfw values, which are often larger than hfw)
+hfwLayouts[label->vLayoutIndex].sizeHint = label->sizeHint.height();
+hfwLayouts[label->vLayoutIndex].minimumSize = label->minSize.height();
+}
+}
+if (field) {
+int hfw = field->isHfw ? field->heightForWidth(field->layoutWidth) : 0;
+int h = field->isHfw ? hfw : field->sizeHint.height();
+int mh = field->isHfw ? hfw : field->minSize.height();
+if (field->sideBySide) {
+int oh = hfwLayouts.at(field->vLayoutIndex).sizeHint;
+int omh = hfwLayouts.at(field->vLayoutIndex).minimumSize;
+hfwLayouts[field->vLayoutIndex].sizeHint = qMax(h, oh);
+hfwLayouts[field->vLayoutIndex].minimumSize = qMax(mh, omh);
+} else {
+hfwLayouts[field->vLayoutIndex].sizeHint = h;
+hfwLayouts[field->vLayoutIndex].minimumSize = mh;
+}
+}
+}
+}
+/*
+Given up to four items involved in a vertical spacing calculation
+(two rows * two columns), return the max vertical spacing for the
+row containing item1 (which may also include item2)
+We assume parent and item1 are not null.
+If a particular row is split, then the spacings for that row and
+the following row are affected, and this function should be
+called with recalculate = true for both rows (note: only rows with both
+a label and a field can be split).
+In particular:
+1) the split label's row vspace needs to be changed to qMax(label/prevLabel, label/prevField)
+[call with item1 = label, item2 = null, prevItem1 & prevItem2 as before]
+2) the split field's row vspace needs to be changed to the label/field spacing
+[call with item1 = field, item2 = null, prevItem1 = label, prevItem2 = null]
+[if the next row has one item, 'item']
+3a) the following row's vspace needs to be changed to item/field spacing (would
+previously been the qMax(item/label, item/field) spacings)
+[call with item1 = item, item2 = null, prevItem1 = field, prevItem2 = null]
+[if the next row has two items, 'label2' and 'field2']
+3b) the following row's vspace needs to be changed to be qMax(field/label2, field/field2) spacing
+[call with item1 = label2, item2 = field2, prevItem1 = field, prevItem2 = null]
+In the (common) non split case, we can just use the precalculated vspace (possibly qMaxed between
+label and field).
+If recalculate is true, we expect:
+-  parent != null
+-  item1 != null
+-  item2 can be null
+-  prevItem1 can be null
+-  if item2 is not null, prevItem2 will be null (e.g. steps 1 or 3 above)
+-  if prevItem1 is null, prevItem2 will be null
+*/
+static inline int spacingHelper(QWidget* parent, QStyle *style, int userVSpacing, bool recalculate, QFormLayoutItem* item1, QFormLayoutItem* item2, QFormLayoutItem* prevItem1, QFormLayoutItem *prevItem2)
+{
+int spacing = userVSpacing;
+if (spacing < 0) {
+if (!recalculate) {
+if (item1)
+spacing = item1->vSpace;
+if (item2)
+spacing = qMax(spacing, item2->vSpace);
+} else {
+if (style && prevItem1) {
+QSizePolicy::ControlTypes itemtypes =
+QSizePolicy::ControlTypes(item1 ? item1->controlTypes() : QSizePolicy::DefaultType);
+int spacing2 = 0;
+spacing = style->combinedLayoutSpacing(itemtypes, prevItem1->controlTypes(), Qt::Vertical, 0, parent);
+// At most of one of item2 and prevItem2 will be nonnull
+if (item2)
+spacing2 = style->combinedLayoutSpacing(item2->controlTypes(), prevItem1->controlTypes(), Qt::Vertical, 0, parent);
+else if (prevItem2)
+spacing2 = style->combinedLayoutSpacing(itemtypes, prevItem2->controlTypes(), Qt::Vertical, 0, parent);
+spacing = qMax(spacing, spacing2);
+}
+}
+} else {
+if (prevItem1) {
+QWidget *wid = prevItem1->item->widget();
+if (wid)
+spacing = qMax(spacing, prevItem1->geometry().top() - wid->geometry().top() );
+}
+if (prevItem2) {
+QWidget *wid = prevItem2->item->widget();
+if (wid)
+spacing = qMax(spacing, prevItem2->geometry().top() - wid->geometry().top() );
+}
+}
+return spacing;
+}
+static inline void initLayoutStruct(QLayoutStruct& sl, QFormLayoutItem* item)
+{
+sl.init(item->vStretch(), item->minSize.height());
+sl.sizeHint = item->sizeHint.height();
+sl.maximumSize = item->maxSize.height();
+sl.expansive = (item->expandingDirections() & Qt::Vertical);
+sl.empty = false;
+}
+void QFormLayoutPrivate::setupVerticalLayoutData(int width)
+{
+Q_Q(QFormLayout);
+// Early out if we have no changes that would cause a change in vertical layout
+if ((width == layoutWidth || (width >= thresh_width && layoutWidth >= thresh_width)) && !dirty && !sizesDirty)
+return;
+layoutWidth = width;
+int rr = m_matrix.rowCount();
+int vidx = 1;
+QFormLayout::RowWrapPolicy rowWrapPolicy = q->rowWrapPolicy();
+bool wrapAllRows = (rowWrapPolicy == QFormLayout::WrapAllRows);
+bool addTopBottomStretch = true;
+vLayouts.clear();
+vLayouts.resize((2 * rr) + 2); // a max, some may be unused
+QStyle *style = 0;
+int userVSpacing = q->verticalSpacing();
+if (userVSpacing < 0) {
+if (QWidget *widget = q->parentWidget())
+style = widget->style();
+}
+// make sure our sizes are up to date
+updateSizes();
+// Grab the widest label width here
+// This might be different from the value computed during
+// sizeHint/minSize, since we don't count label/field pairs that
+// are split.
+maxLabelWidth = 0;
+if (!wrapAllRows) {
+for (int i = 0; i < rr; ++i) {
+const QFormLayoutItem *label = m_matrix(i, 0);
+const QFormLayoutItem *field = m_matrix(i, 1);
+if (label && (label->sizeHint.width() + (field ? field->minSize.width() : 0) <= width))
+maxLabelWidth = qMax(maxLabelWidth, label->sizeHint.width());
+}
+} else {
+maxLabelWidth = width;
+}
+QFormLayoutItem *prevItem1 = 0;
+QFormLayoutItem *prevItem2 = 0;
+bool prevRowSplit = false;
+for (int i = 0; i < rr; ++i) {
+QFormLayoutItem *label =  m_matrix(i, 0);
+QFormLayoutItem *field = m_matrix(i, 1);
+// Totally ignore empty rows...
+if (!label && !field)
+continue;
+QSize min1;
+QSize min2;
+QSize sh1;
+QSize sh2;
+if (label) {
+min1 = label->minSize;
+sh1 = label->sizeHint;
+}
+if (field) {
+min2 = field->minSize;
+sh2 = field->sizeHint;
+}
+// In separate lines, we make a vLayout for everything that isn't null
+// in side by side, we only separate label/field if we're going to wrap it
+bool splitSideBySide = (rowWrapPolicy == QFormLayout::WrapLongRows)
+&& ((maxLabelWidth < sh1.width()) || (width < (maxLabelWidth + min2.width())));
+if (wrapAllRows || splitSideBySide) {
+if (label) {
+initLayoutStruct(vLayouts[vidx], label);
+if (vidx > 1)
+vLayouts[vidx - 1].spacing = spacingHelper(q->parentWidget(), style, userVSpacing, splitSideBySide || prevRowSplit, label, 0, prevItem1, prevItem2);
+label->vLayoutIndex = vidx;
+label->sideBySide = false;
+prevItem1 = label;
+prevItem2 = 0;
+if (vLayouts[vidx].stretch > 0)
+addTopBottomStretch = false;
+++vidx;
+}
+if (field) {
+initLayoutStruct(vLayouts[vidx], field);
+if (vidx > 1)
+vLayouts[vidx - 1].spacing = spacingHelper(q->parentWidget(), style, userVSpacing, splitSideBySide || prevRowSplit, field, 0, prevItem1, prevItem2);
+field->vLayoutIndex = vidx;
+field->sideBySide = false;
+prevItem1 = field;
+prevItem2 = 0;
+if (vLayouts[vidx].stretch > 0)
+addTopBottomStretch = false;
+++vidx;
+}
+prevRowSplit = splitSideBySide;
+} else {
+// we're in side by side mode, and we have enough space to do that
+QSize max1(QWIDGETSIZE_MAX, QWIDGETSIZE_MAX);
+QSize max2(QWIDGETSIZE_MAX, QWIDGETSIZE_MAX);
+int stretch1 = 0;
+int stretch2 = 0;
+bool expanding = false;
+if (label) {
+max1 = label->maxSize;
+if (label->expandingDirections() & Qt::Vertical)
+expanding = true;
+label->sideBySide = (field != 0);
+label->vLayoutIndex = vidx;
+stretch1 = label->vStretch();
+}
+if (field) {
+max2 = field->maxSize;
+if (field->expandingDirections() & Qt::Vertical)
+expanding = true;
+field->sideBySide = (label || !field->fullRow);
+field->vLayoutIndex = vidx;
+stretch2 = field->vStretch();
+}
+vLayouts[vidx].init(qMax(stretch1, stretch2), qMax(min1.height(), min2.height()));
+vLayouts[vidx].sizeHint = qMax(sh1.height(), sh2.height());
+vLayouts[vidx].maximumSize = qMin(max1.height(), max2.height());
+vLayouts[vidx].expansive = expanding || (vLayouts[vidx].stretch > 0);
+vLayouts[vidx].empty = false;
+if (vLayouts[vidx].stretch > 0)
+addTopBottomStretch = false;
+if (vidx > 1)
+vLayouts[vidx - 1].spacing = spacingHelper(q->parentWidget(), style, userVSpacing, prevRowSplit, label, field, prevItem1, prevItem2);
+if (label) {
+prevItem1 = label;
+prevItem2 = field;
+} else {
+prevItem1 = field;
+prevItem2 = 0;
+}
+prevRowSplit = false;
+++vidx;
+}
+}
+if (addTopBottomStretch) {
+Qt::Alignment formAlignment = q->formAlignment();
+if (!(formAlignment & Qt::AlignBottom)) {
+// AlignTop (default if unspecified) or AlignVCenter: We add a stretch at the bottom
+vLayouts[vidx].init(1, 0);
+vLayouts[vidx].expansive = true;
+++vidx;
+}
+if (formAlignment & (Qt::AlignVCenter | Qt::AlignBottom)) {
+// AlignVCenter or AlignBottom: We add a stretch at the top
+vLayouts[0].init(1, 0);
+vLayouts[0].expansive = true;
+} else {
+vLayouts[0].init(0, 0);
+}
+} else {
+vLayouts[0].init(0, 0);
+}
+vLayoutCount = vidx;
+dirty = false;
+}
+void QFormLayoutPrivate::setupHorizontalLayoutData(int width)
+{
+Q_Q(QFormLayout);
+// requires setupVerticalLayoutData to be called first
+int fieldMaxWidth = 0;
+int rr = m_matrix.rowCount();
+bool wrapAllRows = (q->rowWrapPolicy() == QFormLayout::WrapAllRows);
+for (int i = 0; i < rr; ++i) {
+QFormLayoutItem *label = m_matrix(i, 0);
+QFormLayoutItem *field = m_matrix(i, 1);
+// Totally ignore empty rows...
+if (!label && !field)
+continue;
+if (label) {
+// if there is a field, and we're side by side, we use maxLabelWidth
+// otherwise we just use the sizehint
+label->layoutWidth = (field && label->sideBySide) ? maxLabelWidth : label->sizeHint.width();
+label->layoutPos = 0;
+}
+if (field) {
+// This is the default amount allotted to fields in sbs
+int fldwidth = width - maxLabelWidth - field->sbsHSpace;
+// If we've split a row, we still decide to align
+// the field with all the other field if it will fit
+// Fields in sbs mode get the remnants of the maxLabelWidth
+if (!field->sideBySide) {
+if (wrapAllRows || (!label && field->fullRow) || field->sizeHint.width() > fldwidth) {
+field->layoutWidth = width;
+field->layoutPos = 0;
+} else {
+field->layoutWidth = fldwidth;
+field->layoutPos = width - fldwidth;
+}
+} else {
+// We're sbs, so we should have a label
+field->layoutWidth = fldwidth;
+field->layoutPos = width - fldwidth;
+}
+fieldMaxWidth = qMax(fieldMaxWidth, field->maxSize.width());
+}
+}
+formMaxWidth = maxLabelWidth + fieldMaxWidth;
+}
+void QFormLayoutPrivate::calcSizeHints()
+{
+Q_Q(QFormLayout);
+int leftMargin, topMargin, rightMargin, bottomMargin;
+q->getContentsMargins(&leftMargin, &topMargin, &rightMargin, &bottomMargin);
+updateSizes();
+setupVerticalLayoutData(QLAYOUTSIZE_MAX);
+// Don't need to call setupHorizontal here
+int h = topMargin + bottomMargin;
+int mh = topMargin + bottomMargin;
+// The following are set in updateSizes
+int w = sh_width + leftMargin + rightMargin;
+int mw = min_width + leftMargin + rightMargin;
+for (int i = 0; i < vLayoutCount; ++i) {
+int spacing = vLayouts.at(i).spacing;
+h += vLayouts.at(i).sizeHint + spacing;
+mh += vLayouts.at(i).minimumSize + spacing;
+}
+minSize.rwidth() = qMin(mw, QLAYOUTSIZE_MAX);
+minSize.rheight() = qMin(mh, QLAYOUTSIZE_MAX);
+prefSize.rwidth() = qMin(w, QLAYOUTSIZE_MAX);
+prefSize.rheight() = qMin(h, QLAYOUTSIZE_MAX);
+}
+int QFormLayoutPrivate::insertRow(int row)
+{
+int rowCnt = m_matrix.rowCount();
+if (uint(row) > uint(rowCnt))
+row = rowCnt;
+insertRows(row, 1);
+return row;
+}
+void QFormLayoutPrivate::insertRows(int row, int count)
+{
+while (count > 0) {
+m_matrix.insertRow(row, 0);
+--count;
+}
+}
+void QFormLayoutPrivate::setItem(int row, QFormLayout::ItemRole role, QLayoutItem *item)
+{
+const bool fullRow = role == QFormLayout::SpanningRole;
+const int column =  role == QFormLayout::SpanningRole ? 1 : static_cast<int>(role);
+if (uint(row) >= uint(m_matrix.rowCount()) || uint(column) > 1U) {
+qWarning("QFormLayoutPrivate::setItem: Invalid cell (%d, %d)", row, column);
+return;
+}
+if (!item)
+return;
+if (m_matrix(row, column)) {
+qWarning("QFormLayoutPrivate::setItem: Cell (%d, %d) already occupied", row, column);
+return;
+}
+QFormLayoutItem *i = new QFormLayoutItem(item);
+i->fullRow = fullRow;
+m_matrix(row, column) = i;
+m_things.append(i);
+}
+void QFormLayoutPrivate::setLayout(int row, QFormLayout::ItemRole role, QLayout *layout)
+{
+if (layout) {
+Q_Q(QFormLayout);
+q->addChildLayout(layout);
+setItem(row, role, layout);
+}
+}
+void QFormLayoutPrivate::setWidget(int row, QFormLayout::ItemRole role, QWidget *widget)
+{
+if (widget) {
+Q_Q(QFormLayout);
+q->addChildWidget(widget);
+setItem(row, role, QLayoutPrivate::createWidgetItem(q, widget));
+}
+}
+QStyle* QFormLayoutPrivate::getStyle() const
+{
+Q_Q(const QFormLayout);
+// ### cache
+if (QWidget *parentWidget = q->parentWidget())
+return parentWidget->style();
+else
+return QApplication::style();
+}
+/*!
+\class QFormLayout
+\since 4.4
+\brief The QFormLayout class manages forms of input widgets and their associated labels.
+\ingroup geomanagement
+QFormLayout is a convenience layout class that lays out its
+children in a two-column form. The left column consists of labels
+and the right column consists of "field" widgets (line editors,
+spin boxes, etc.).
+Traditionally, such two-column form layouts were achieved using
+QGridLayout. QFormLayout is a higher-level alternative that
+provides the following advantages:
+\list
+\o \bold{Adherence to the different platform's look and feel guidelines.}
+For example, the
+\l{Mac OS X Aqua} and KDE guidelines specify that the
+labels should be right-aligned, whereas Windows and GNOME
+applications normally use left-alignment.
+\o \bold{Support for wrapping long rows.}
+For devices with small displays, QFormLayout can be set to
+\l{WrapLongRows}{wrap long rows}, or even to
+\l{WrapAllRows}{wrap all rows}.
+\o \bold{Convenient API for creating label--field pairs.}
+The addRow() overload that takes a QString and a QWidget *
+creates a QLabel behind the scenes and automatically set up
+its buddy. We can then write code like this:
+\snippet doc/src/snippets/code/src_gui_kernel_qformlayout.cpp 0
+Compare this with the following code, written using QGridLayout:
+\snippet doc/src/snippets/code/src_gui_kernel_qformlayout.cpp 1
+\endlist
+The table below shows the default appearance in different styles.
+\table
+\header
+\o QCommonStyle derived styles (except QPlastiqueStyle)
+\o QMacStyle
+\o QPlastiqueStyle
+\o Qt Extended styles
+\row
+\o \inlineimage qformlayout-win.png
+\o \inlineimage qformlayout-mac.png
+\o \inlineimage qformlayout-kde.png
+\o \inlineimage qformlayout-qpe.png
+\row
+\o Traditional style used for Windows, GNOME, and earlier
+versions of KDE. Labels are left aligned, and expanding
+fields grow to fill the available space. (This normally
+corresponds to what we would get using a two-column
+QGridLayout.)
+\o Style based on the
+\l{Mac OS X Aqua} guidelines. Labels are right-aligned,
+the fields don't grow beyond their size hint, and the
+form is horizontally centered.
+\o Recommended style for
+\l{KDE applications}. Similar to MacStyle, except that the form
+is left-aligned and all fields grow to fill the available
+space.
+\o Default style for Qt Extended styles. Labels are right-aligned,
+expanding fields grow to fill the available space, and row
+wrapping is enabled for long lines.
+\endtable
+The form styles can be also be overridden individually by calling
+setLabelAlignment(), setFormAlignment(), setFieldGrowthPolicy(),
+and setRowWrapPolicy().  For example, to simulate the form layout
+appearance of QMacStyle on all platforms, but with left-aligned
+labels, you could write:
+\snippet doc/src/snippets/code/src_gui_kernel_qformlayout.cpp 2
+\sa QGridLayout, QBoxLayout, QStackedLayout
+*/
+/*!
+\enum QFormLayout::FieldGrowthPolicy
+This enum specifies the different policies that can be used to
+control the way in which the form's fields grow.
+\value FieldsStayAtSizeHint
+The fields never grow beyond their
+\l{QWidgetItem::sizeHint()}{effective size hint}. This is
+the default for QMacStyle.
+\value ExpandingFieldsGrow
+Fields with an horizontal \l{QSizePolicy}{size policy} of
+\l{QSizePolicy::}{Expanding} or
+\l{QSizePolicy::}{MinimumExpanding} will grow to fill the
+available space. The other fields will not grow beyond
+their effective size hint. This is the default policy for
+Plastique.
+\value AllNonFixedFieldsGrow
+All fields with a size policy that allows them to grow
+will grow to fill the available space. This is the default
+policy for most styles.
+\sa fieldGrowthPolicy
+*/
+/*!
+\enum QFormLayout::RowWrapPolicy
+This enum specifies the different policies that can be used to
+control the way in which the form's rows wrap.
+\value DontWrapRows
+Fields are always laid out next to their label.  This is
+the default policy for all styles except Qt Extended styles.
+\value WrapLongRows
+Labels are given enough horizontal space to fit the widest label,
+and the rest of the space is given to the fields. If the minimum
+size of a field pair is wider than the available space, the field
+is wrapped to the next line.  This is the default policy for
+Qt Extended styles.
+\value WrapAllRows
+Fields are always laid out below their label.
+\sa rowWrapPolicy
+*/
+/*!
+\enum QFormLayout::ItemRole
+This enum specifies the types of widgets (or other layout items)
+that may appear in a row.
+\value LabelRole A label widget.
+\value FieldRole A field widget.
+\value SpanningRole A widget that spans label and field columns.
+\sa itemAt(), getItemPosition()
+*/
+/*!
+Constructs a new form layout with the given \a parent widget.
+\sa QWidget::setLayout()
+*/
+QFormLayout::QFormLayout(QWidget *parent)
+: QLayout(*new QFormLayoutPrivate, 0, parent)
+{
+}
+/*!
+Destroys the form layout.
+*/
+QFormLayout::~QFormLayout()
+{
+Q_D(QFormLayout);
+/*
+The clearing and destruction order here is important. We start by clearing
+m_things so that QLayout and the rest of the world know that we don't babysit
+the layout items anymore and don't care if they are destroyed.
+*/
+d->m_things.clear();
+qDeleteAll(d->m_matrix.storage());
+d->m_matrix.clear();
+}
+/*!
+Adds a new row to the bottom of this form layout, with the given
+\a label and \a field.
+\sa insertRow()
+*/
+void QFormLayout::addRow(QWidget *label, QWidget *field)
+{
+insertRow(-1, label, field);
+}
+/*!
+\overload
+*/
+void QFormLayout::addRow(QWidget *label, QLayout *field)
+{
+insertRow(-1, label, field);
+}
+/*!
+\overload
+This overload automatically creates a QLabel behind the scenes
+with \a labelText as its text. The \a field is set as the new
+QLabel's \l{QLabel::setBuddy()}{buddy}.
+*/
+void QFormLayout::addRow(const QString &labelText, QWidget *field)
+{
+insertRow(-1, labelText, field);
+}
+/*!
+\overload
+This overload automatically creates a QLabel behind the scenes
+with \a labelText as its text.
+*/
+void QFormLayout::addRow(const QString &labelText, QLayout *field)
+{
+insertRow(-1, labelText, field);
+}
+/*!
+\overload
+Adds the specified \a widget at the end of this form layout. The
+\a widget spans both columns.
+*/
+void QFormLayout::addRow(QWidget *widget)
+{
+insertRow(-1, widget);
+}
+/*!
+\overload
+Adds the specified \a layout at the end of this form layout. The
+\a layout spans both columns.
+*/
+void QFormLayout::addRow(QLayout *layout)
+{
+insertRow(-1, layout);
+}
+/*!
+Inserts a new row at position \a row in this form layout, with
+the given \a label and \a field. If \a row is out of bounds, the
+new row is added at the end.
+\sa addRow()
+*/
+void QFormLayout::insertRow(int row, QWidget *label, QWidget *field)
+{
+Q_D(QFormLayout);
+row = d->insertRow(row);
+if (label)
+d->setWidget(row, LabelRole, label);
+if (field)
+d->setWidget(row, FieldRole, field);
+invalidate();
+}
+/*!
+\overload
+*/
+void QFormLayout::insertRow(int row, QWidget *label, QLayout *field)
+{
+Q_D(QFormLayout);
+row = d->insertRow(row);
+if (label)
+d->setWidget(row, LabelRole, label);
+if (field)
+d->setLayout(row, FieldRole, field);
+invalidate();
+}
+/*!
+\overload
+This overload automatically creates a QLabel behind the scenes
+with \a labelText as its text. The \a field is set as the new
+QLabel's \l{QLabel::setBuddy()}{buddy}.
+*/
+void QFormLayout::insertRow(int row, const QString &labelText, QWidget *field)
+{
+QLabel *label = 0;
+if (!labelText.isEmpty()) {
+label = new QLabel(labelText);
+#ifndef QT_NO_SHORTCUT
+label->setBuddy(field);
+#endif
+}
+insertRow(row, label, field);
+}
+/*!
+\overload
+This overload automatically creates a QLabel behind the scenes
+with \a labelText as its text.
+*/
+void QFormLayout::insertRow(int row, const QString &labelText, QLayout *field)
+{
+insertRow(row, labelText.isEmpty() ? 0 : new QLabel(labelText), field);
+}
+/*!
+\overload
+Inserts the specified \a widget at position \a row in this form
+layout. The \a widget spans both columns. If \a row is out of
+bounds, the widget is added at the end.
+*/
+void QFormLayout::insertRow(int row, QWidget *widget)
+{
+Q_D(QFormLayout);
+if (!widget) {
+qWarning("QFormLayout: Cannot add null field to %s", qPrintable(objectName()));
+return;
+}
+row = d->insertRow(row);
+d->setWidget(row, SpanningRole, widget);
+invalidate();
+}
+/*!
+\overload
+Inserts the specified \a layout at position \a row in this form
+layout. The \a layout spans both columns. If \a row is out of
+bounds, the widget is added at the end.
+*/
+void QFormLayout::insertRow(int row, QLayout *layout)
+{
+Q_D(QFormLayout);
+if (!layout) {
+qWarning("QFormLayout: Cannot add null field to %s", qPrintable(objectName()));
+return;
+}
+row = d->insertRow(row);
+d->setLayout(row, SpanningRole, layout);
+invalidate();
+}
+/*!
+\reimp
+*/
+void QFormLayout::addItem(QLayoutItem *item)
+{
+Q_D(QFormLayout);
+int row = d->insertRow(d->m_matrix.rowCount());
+d->setItem(row, FieldRole, item);
+invalidate();
+}
+/*!
+\reimp
+*/
+int QFormLayout::count() const
+{
+Q_D(const QFormLayout);
+return d->m_things.count();
+}
+/*!
+\reimp
+*/
+QLayoutItem *QFormLayout::itemAt(int index) const
+{
+Q_D(const QFormLayout);
+if (QFormLayoutItem *formItem = d->m_things.value(index))
+return formItem->item;
+return 0;
+}
+/*!
+\reimp
+*/
+QLayoutItem *QFormLayout::takeAt(int index)
+{
+Q_D(QFormLayout);
+const int storageIndex = storageIndexFromLayoutItem(d->m_matrix, d->m_things.value(index));
+if (storageIndex == -1) {
+qWarning("QFormLayout::takeAt: Invalid index %d", index);
+return 0;
+}
+int row, col;
+QFormLayoutPrivate::ItemMatrix::storageIndexToPosition(storageIndex, &row, &col);
+Q_ASSERT(d->m_matrix(row, col));
+QFormLayoutItem *item = d->m_matrix(row, col);
+Q_ASSERT(item);
+d->m_things.removeAt(index);
+d->m_matrix(row, col) = 0;
+invalidate();
+// grab ownership back from the QFormLayoutItem
+QLayoutItem *i = item->item;
+item->item = 0;
+delete item;
+return i;
+}
+/*!
+\reimp
+*/
+Qt::Orientations QFormLayout::expandingDirections() const
+{
+Q_D(const QFormLayout);
+QFormLayoutPrivate *e = const_cast<QFormLayoutPrivate *>(d);
+e->updateSizes();
+Qt::Orientations o = 0;
+if (e->expandHorizontal)
+o = Qt::Horizontal;
+if (e->expandVertical)
+o |= Qt::Vertical;
+return o;
+}
+/*!
+\reimp
+*/
+bool QFormLayout::hasHeightForWidth() const
+{
+Q_D(const QFormLayout);
+QFormLayoutPrivate *e = const_cast<QFormLayoutPrivate *>(d);
+e->updateSizes();
+return (d->has_hfw || rowWrapPolicy() == WrapLongRows);
+}
+/*!
+\reimp
+*/
+int QFormLayout::heightForWidth(int width) const
+{
+Q_D(const QFormLayout);
+if (!hasHeightForWidth())
+return -1;
+int leftMargin, topMargin, rightMargin, bottomMargin;
+getContentsMargins(&leftMargin, &topMargin, &rightMargin, &bottomMargin);
+int targetWidth = width - leftMargin - rightMargin;
+if (!d->haveHfwCached(targetWidth)) {
+QFormLayoutPrivate *dat = const_cast<QFormLayoutPrivate *>(d);
+dat->setupVerticalLayoutData(targetWidth);
+dat->setupHorizontalLayoutData(targetWidth);
+dat->recalcHFW(targetWidth);
+}
+if (targetWidth == d->sh_width)
+return d->hfw_sh_height + topMargin + bottomMargin;
+else
+return d->hfw_height + topMargin + bottomMargin;
+}
+/*!
+\reimp
+*/
+void QFormLayout::setGeometry(const QRect &rect)
+{
+Q_D(QFormLayout);
+if (d->dirty || rect != geometry()) {
+QRect cr = rect;
+int leftMargin, topMargin, rightMargin, bottomMargin;
+getContentsMargins(&leftMargin, &topMargin, &rightMargin, &bottomMargin);
+cr.adjust(+leftMargin, +topMargin, -rightMargin, -bottomMargin);
+bool hfw = hasHeightForWidth();
+d->setupVerticalLayoutData(cr.width());
+d->setupHorizontalLayoutData(cr.width());
+if (hfw && (!d->haveHfwCached(cr.width()) || d->hfwLayouts.size() != d->vLayoutCount))
+d->recalcHFW(cr.width());
+if (hfw) {
+qGeomCalc(d->hfwLayouts, 0, d->vLayoutCount, cr.y(), cr.height());
+d->arrangeWidgets(d->hfwLayouts, cr);
+} else {
+qGeomCalc(d->vLayouts, 0, d->vLayoutCount, cr.y(), cr.height());
+d->arrangeWidgets(d->vLayouts, cr);
+}
+QLayout::setGeometry(rect);
+}
+}
+/*!
+\reimp
+*/
+QSize QFormLayout::sizeHint() const
+{
+Q_D(const QFormLayout);
+if (!d->prefSize.isValid()) {
+QFormLayoutPrivate *dat = const_cast<QFormLayoutPrivate *>(d);
+dat->calcSizeHints();
+}
+return d->prefSize;
+}
+/*!
+\reimp
+*/
+QSize QFormLayout::minimumSize() const
+{
+// ### fix minimumSize if hfw
+Q_D(const QFormLayout);
+if (!d->minSize.isValid()) {
+QFormLayoutPrivate *dat = const_cast<QFormLayoutPrivate *>(d);
+dat->calcSizeHints();
+}
+return d->minSize;
+}
+/*!
+\reimp
+*/
+void QFormLayout::invalidate()
+{
+Q_D(QFormLayout);
+d->dirty = true;
+d->sizesDirty = true;
+d->minSize = QSize();
+d->prefSize = QSize();
+d->formMaxWidth = -1;
+d->hfw_width = -1;
+d->sh_width = -1;
+d->layoutWidth = -1;
+d->hfw_sh_height = -1;
+QLayout::invalidate();
+}
+/*!
+Returns the number of rows in the form.
+\sa QLayout::count()
+*/
+int QFormLayout::rowCount() const
+{
+Q_D(const QFormLayout);
+return d->m_matrix.rowCount();
+}
+/*!
+Returns the layout item in the given \a row with the specified \a
+role (column). Returns 0 if there is no such item.
+\sa QLayout::itemAt(), setItem()
+*/
+QLayoutItem *QFormLayout::itemAt(int row, ItemRole role) const
+{
+Q_D(const QFormLayout);
+if (uint(row) >= uint(d->m_matrix.rowCount()))
+return 0;
+switch (role) {
+case SpanningRole:
+if (QFormLayoutItem *item = d->m_matrix(row, 1))
+if (item->fullRow)
+return item->item;
+break;
+case LabelRole:
+case FieldRole:
+if (QFormLayoutItem *item = d->m_matrix(row, (role == LabelRole) ? 0 : 1))
+return item->item;
+break;
+}
+return 0;
+}
+/*!
+Retrieves the row and role (column) of the item at the specified
+\a index. If \a index is out of bounds, *\a rowPtr is set to -1;
+otherwise the row is stored in *\a rowPtr and the role is stored
+in *\a rolePtr.
+\sa itemAt(), count(), getLayoutPosition(), getWidgetPosition()
+*/
+void QFormLayout::getItemPosition(int index, int *rowPtr, ItemRole *rolePtr) const
+{
+Q_D(const QFormLayout);
+int col = -1;
+int row = -1;
+const int storageIndex = storageIndexFromLayoutItem(d->m_matrix, d->m_things.value(index));
+if (storageIndex != -1)
+QFormLayoutPrivate::ItemMatrix::storageIndexToPosition(storageIndex, &row, &col);
+if (rowPtr)
+*rowPtr = row;
+if (rolePtr && col != -1) {
+const bool spanning = col == 1 && d->m_matrix(row, col)->fullRow;
+if (spanning) {
+*rolePtr = SpanningRole;
+} else {
+*rolePtr = ItemRole(col);
+}
+}
+}
+/*!
+Retrieves the row and role (column) of the specified child \a
+layout. If \a layout is not in the form layout, *\a rowPtr is set
+to -1; otherwise the row is stored in *\a rowPtr and the role is stored
+in *\a rolePtr.
+*/
+void QFormLayout::getLayoutPosition(QLayout *layout, int *rowPtr, ItemRole *rolePtr) const
+{
+int n = count();
+int index = 0;
+while (index < n) {
+if (itemAt(index) == layout)
+break;
+++index;
+}
+getItemPosition(index, rowPtr, rolePtr);
+}
+/*!
+Retrieves the row and role (column) of the specified \a widget in
+the layout. If \a widget is not in the layout, *\a rowPtr is set
+to -1; otherwise the row is stored in *\a rowPtr and the role is stored
+in *\a rolePtr.
+\sa getItemPosition(), itemAt()
+*/
+void QFormLayout::getWidgetPosition(QWidget *widget, int *rowPtr, ItemRole *rolePtr) const
+{
+getItemPosition(indexOf(widget), rowPtr, rolePtr);
+}
+// ### eliminate labelForField()
+/*!
+Returns the label associated with the given \a field.
+\sa itemAt()
+*/
+QWidget *QFormLayout::labelForField(QWidget *field) const
+{
+Q_D(const QFormLayout);
+int row;
+ItemRole role;
+getWidgetPosition(field, &row, &role);
+if (row != -1 && role == FieldRole) {
+if (QFormLayoutItem *label = d->m_matrix(row, LabelRole))
+return label->widget();
+}
+return 0;
+}
+/*!
+\overload
+*/
+QWidget *QFormLayout::labelForField(QLayout *field) const
+{
+Q_D(const QFormLayout);
+int row;
+ItemRole role;
+getLayoutPosition(field, &row, &role);
+if (row != -1 && role == FieldRole) {
+if (QFormLayoutItem *label = d->m_matrix(row, LabelRole))
+return label->widget();
+}
+return 0;
+}
+/*!
+\property QFormLayout::fieldGrowthPolicy
+\brief the way in which the form's fields grow
+The default value depends on the widget or application style. For
+QMacStyle, the default is FieldsStayAtSizeHint; for QCommonStyle
+derived styles (like Plastique and Windows), the default
+is ExpandingFieldsGrow; for Qt Extended styles, the default is
+AllNonFixedFieldsGrow.
+If none of the fields can grow and the form is resized, extra
+space is distributed according to the current
+\l{formAlignment}{form alignment}.
+\sa formAlignment, rowWrapPolicy
+*/
+void QFormLayout::setFieldGrowthPolicy(FieldGrowthPolicy policy)
+{
+Q_D(QFormLayout);
+if (FieldGrowthPolicy(d->fieldGrowthPolicy) != policy) {
+d->fieldGrowthPolicy = policy;
+invalidate();
+}
+}
+QFormLayout::FieldGrowthPolicy QFormLayout::fieldGrowthPolicy() const
+{
+Q_D(const QFormLayout);
+if (d->fieldGrowthPolicy == DefaultFieldGrowthPolicy) {
+return QFormLayout::FieldGrowthPolicy(d->getStyle()->styleHint(QStyle::SH_FormLayoutFieldGrowthPolicy));
+} else {
+return QFormLayout::FieldGrowthPolicy(d->fieldGrowthPolicy);
+}
+}
+/*!
+\property QFormLayout::rowWrapPolicy
+\brief the way in which the form's rows wrap
+The default value depends on the widget or application style. For
+Qt Extended styles, the default is WrapLongRows; for the other styles,
+the default is DontWrapRows.
+If you want to display each label above its associated field
+(instead of next to it), set this property to WrapAllRows.
+\sa fieldGrowthPolicy
+*/
+void QFormLayout::setRowWrapPolicy(RowWrapPolicy policy)
+{
+Q_D(QFormLayout);
+if (RowWrapPolicy(d->rowWrapPolicy) != policy) {
+d->rowWrapPolicy = policy;
+invalidate();
+}
+}
+QFormLayout::RowWrapPolicy QFormLayout::rowWrapPolicy() const
+{
+Q_D(const QFormLayout);
+if (d->rowWrapPolicy == DefaultRowWrapPolicy) {
+return QFormLayout::RowWrapPolicy(d->getStyle()->styleHint(QStyle::SH_FormLayoutWrapPolicy));
+} else {
+return QFormLayout::RowWrapPolicy(d->rowWrapPolicy);
+}
+}
+/*!
+\property QFormLayout::labelAlignment
+\brief the horizontal alignment of the labels
+The default value depends on the widget or application style. For
+QCommonStyle derived styles, except for QPlastiqueStyle, the
+default is Qt::AlignLeft; for the other styles, the default is
+Qt::AlignRight.
+\sa formAlignment
+*/
+void QFormLayout::setLabelAlignment(Qt::Alignment alignment)
+{
+Q_D(QFormLayout);
+if (d->labelAlignment != alignment) {
+d->labelAlignment = alignment;
+invalidate();
+}
+}
+Qt::Alignment QFormLayout::labelAlignment() const
+{
+Q_D(const QFormLayout);
+if (!d->labelAlignment) {
+return Qt::Alignment(d->getStyle()->styleHint(QStyle::SH_FormLayoutLabelAlignment));
+} else {
+return d->labelAlignment;
+}
+}
+/*!
+\property QFormLayout::formAlignment
+\brief the alignment of the form layout's contents within the layout's geometry
+The default value depends on the widget or application style. For
+QMacStyle, the default is Qt::AlignHCenter | Qt::AlignTop; for the
+other styles, the default is Qt::AlignLeft | Qt::AlignTop.
+\sa labelAlignment, rowWrapPolicy
+*/
+void QFormLayout::setFormAlignment(Qt::Alignment alignment)
+{
+Q_D(QFormLayout);
+if (d->formAlignment != alignment) {
+d->formAlignment = alignment;
+invalidate();
+}
+}
+Qt::Alignment QFormLayout::formAlignment() const
+{
+Q_D(const QFormLayout);
+if (!d->formAlignment) {
+return Qt::Alignment(d->getStyle()->styleHint(QStyle::SH_FormLayoutFormAlignment));
+} else {
+return d->formAlignment;
+}
+}
+/*!
+\property QFormLayout::horizontalSpacing
+\brief the spacing between widgets that are laid out side by side
+By default, 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 QFormLayout::setHorizontalSpacing(int spacing)
+{
+Q_D(QFormLayout);
+if (spacing != d->hSpacing) {
+d->hSpacing = spacing;
+invalidate();
+}
+}
+int QFormLayout::horizontalSpacing() const
+{
+Q_D(const QFormLayout);
+if (d->hSpacing >= 0) {
+return d->hSpacing;
+} else {
+return qSmartSpacing(this, QStyle::PM_LayoutHorizontalSpacing);
+}
+}
+/*!
+\property QFormLayout::verticalSpacing
+\brief the spacing between widgets that are laid out vertically
+By default, 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 QFormLayout::setVerticalSpacing(int spacing)
+{
+Q_D(QFormLayout);
+if (spacing != d->vSpacing) {
+d->vSpacing = spacing;
+invalidate();
+}
+}
+int QFormLayout::verticalSpacing() const
+{
+Q_D(const QFormLayout);
+if (d->vSpacing >= 0) {
+return d->vSpacing;
+} else {
+return qSmartSpacing(this, QStyle::PM_LayoutVerticalSpacing);
+}
+}
+/*!
+This function sets both the vertical and horizontal spacing to
+\a spacing.
+\sa setVerticalSpacing(), setHorizontalSpacing()
+*/
+void QFormLayout::setSpacing(int spacing)
+{
+Q_D(QFormLayout);
+d->vSpacing = d->hSpacing = spacing;
+invalidate();
+}
+/*!
+If the vertical spacing is equal to the horizontal spacing,
+this function returns that value; otherwise it returns -1.
+\sa setSpacing(), verticalSpacing(), horizontalSpacing()
+*/
+int QFormLayout::spacing() const
+{
+int hSpacing = horizontalSpacing();
+if (hSpacing == verticalSpacing()) {
+return hSpacing;
+} else {
+return -1;
+}
+}
+void QFormLayoutPrivate::arrangeWidgets(const QVector<QLayoutStruct>& layouts, QRect &rect)
+{
+Q_Q(QFormLayout);
+int i;
+const int rr = m_matrix.rowCount();
+QWidget *w = q->parentWidget();
+Qt::LayoutDirection layoutDirection = w ? w->layoutDirection() : QApplication::layoutDirection();
+Qt::Alignment formAlignment = fixedAlignment(q->formAlignment(), layoutDirection);
+int leftOffset = 0;
+int delta = rect.width() - formMaxWidth;
+if (formAlignment & (Qt::AlignHCenter | Qt::AlignRight) && delta > 0) {
+leftOffset = delta;
+if (formAlignment & Qt::AlignHCenter)
+leftOffset >>= 1;
+}
+for (i = 0; i < rr; ++i) {
+QFormLayoutItem *label = m_matrix(i, 0);
+QFormLayoutItem *field = m_matrix(i, 1);
+if (label) {
+int height = layouts.at(label->vLayoutIndex).size;
+if ((label->expandingDirections() & Qt::Vertical) == 0) {
+/*
+If the field on the right-hand side is tall,
+we want the label to be top-aligned, but not too
+much. So we introduce a 5 / 4 factor so that it
+gets a few extra pixels at the top.
+*/
+height = qMin(height,
+qMin(label->sizeHint.height() * 5 / 4,
+label->maxSize.height()));
+}
+QSize sz(qMin(label->layoutWidth, label->sizeHint.width()), height);
+int x = leftOffset + rect.x() + label->layoutPos;
+if (fixedAlignment(q->labelAlignment(), layoutDirection) & Qt::AlignRight)
+x += label->layoutWidth - sz.width();
+QPoint p(x, layouts.at(label->vLayoutIndex).pos);
+// ### expansion & sizepolicy stuff
+label->setGeometry(QStyle::visualRect(layoutDirection, rect, QRect(p, sz)));
+}
+if (field) {
+QSize sz(field->layoutWidth, layouts.at(field->vLayoutIndex).size);
+QPoint p(field->layoutPos + leftOffset + rect.x(), layouts.at(field->vLayoutIndex).pos);
+/*
+if ((field->widget() && field->widget()->sizePolicy().horizontalPolicy() & (QSizePolicy::GrowFlag | QSizePolicy::ExpandFlag | QSizePolicy::IgnoreFlag))
+|| (field->layout() && sz.width() < field->maxSize.width())) {
+sz.rwidth() = field->layoutWidth;
+}
+*/
+if (field->maxSize.isValid())
+sz = sz.boundedTo(field->maxSize);
+field->setGeometry(QStyle::visualRect(layoutDirection, rect, QRect(p, sz)));
+}
+}
+}
+/*!
+Sets the widget in the given \a row for the given \a role to \a widget, extending the
+layout with empty rows if necessary.
+If the cell is already occupied, the \a widget is not inserted and an error message is
+sent to the console.
+\bold{Note:} For most applications, addRow() or insertRow() should be used instead of setWidget().
+\sa setLayout()
+*/
+void QFormLayout::setWidget(int row, ItemRole role, QWidget *widget)
+{
+Q_D(QFormLayout);
+int rowCnt = rowCount();
+if (row >= rowCnt)
+d->insertRows(rowCnt, row - rowCnt + 1);
+d->setWidget(row, role, widget);
+}
+/*!
+Sets the sub-layout in the given \a row for the given \a role to \a layout, extending the
+form layout with empty rows if necessary.
+If the cell is already occupied, the \a layout is not inserted and an error message is
+sent to the console.
+\bold{Note:} For most applications, addRow() or insertRow() should be used instead of setLayout().
+\sa setWidget()
+*/
+void QFormLayout::setLayout(int row, ItemRole role, QLayout *layout)
+{
+Q_D(QFormLayout);
+int rowCnt = rowCount();
+if (row >= rowCnt)
+d->insertRows(rowCnt, row - rowCnt + 1);
+d->setLayout(row, role, layout);
+}
+/*!
+Sets the item in the given \a row for the given \a role to \a item, extending the
+layout with empty rows if necessary.
+If the cell is already occupied, the \a item is not inserted and an error message is
+sent to the console.
+The \a item spans both columns.
+\warning Do not use this function to add child layouts or child
+widget items. Use setLayout() or setWidget() instead.
+\sa setLayout()
+*/
+void QFormLayout::setItem(int row, ItemRole role, QLayoutItem *item)
+{
+Q_D(QFormLayout);
+int rowCnt = rowCount();
+if (row >= rowCnt)
+d->insertRows(rowCnt, row - rowCnt + 1);
+d->setItem(row, role, item);
+}
+/*!
+\internal
+*/
+void QFormLayout::resetFieldGrowthPolicy()
+{
+Q_D(QFormLayout);
+d->fieldGrowthPolicy = DefaultFieldGrowthPolicy;
+}
+/*!
+\internal
+*/
+void QFormLayout::resetRowWrapPolicy()
+{
+Q_D(QFormLayout);
+d->rowWrapPolicy = DefaultRowWrapPolicy;
+}
+/*!
+\internal
+*/
+void QFormLayout::resetFormAlignment()
+{
+Q_D(QFormLayout);
+d->formAlignment = 0;
+}
+/*!
+\internal
+*/
+void QFormLayout::resetLabelAlignment()
+{
+Q_D(QFormLayout);
+d->labelAlignment = 0;
+}
+#if 0
+void QFormLayout::dump() const
+{
+Q_D(const QFormLayout);
+for (int i = 0; i < rowCount(); ++i) {
+for (int j = 0; j < 2; ++j) {
+qDebug("m_matrix(%d, %d) = %p", i, j, d->m_matrix(i, j));
+}
+}
+for (int i = 0; i < d->m_things.count(); ++i)
+qDebug("m_things[%d] = %p", i, d->m_things.at(i));
+}
+#endif
+QT_END_NAMESPACE

changeset 0	1918ee327afb
child 3	41300fa6a67c