/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** 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 "qglobal.h" #ifndef QT_NO_GRAPHICSVIEW #include #include "qgraphicslayoutitem.h" #include "qgridlayoutengine_p.h" #include "qstyleoption.h" #include "qvarlengtharray.h" #include QT_BEGIN_NAMESPACE template static void insertOrRemoveItems(QVector &items, int index, int delta) { int count = items.count(); if (index < count) { if (delta > 0) { items.insert(index, delta, T()); } else if (delta < 0) { items.remove(index, qMin(-delta, count - index)); } } } static qreal growthFactorBelowPreferredSize(qreal desired, qreal sumAvailable, qreal sumDesired) { Q_ASSERT(sumDesired != 0.0); return desired * ::pow(sumAvailable / sumDesired, desired / sumDesired); } static qreal fixedDescent(qreal descent, qreal ascent, qreal targetSize) { if (descent < 0.0) return -1.0; Q_ASSERT(descent >= 0.0); Q_ASSERT(ascent >= 0.0); Q_ASSERT(targetSize >= ascent + descent); qreal extra = targetSize - (ascent + descent); return descent + (extra / 2.0); } static qreal compare(const QGridLayoutBox &box1, const QGridLayoutBox &box2, int which) { qreal size1 = box1.q_sizes(which); qreal size2 = box2.q_sizes(which); if (which == MaximumSize) { return size2 - size1; } else { return size1 - size2; } } void QGridLayoutBox::add(const QGridLayoutBox &other, int stretch, qreal spacing) { Q_ASSERT(q_minimumDescent < 0.0); q_minimumSize += other.q_minimumSize + spacing; q_preferredSize += other.q_preferredSize + spacing; q_maximumSize += ((stretch == 0) ? other.q_preferredSize : other.q_maximumSize) + spacing; } void QGridLayoutBox::combine(const QGridLayoutBox &other) { q_minimumDescent = qMax(q_minimumDescent, other.q_minimumDescent); q_minimumAscent = qMax(q_minimumAscent, other.q_minimumAscent); q_minimumSize = qMax(q_minimumAscent + q_minimumDescent, qMax(q_minimumSize, other.q_minimumSize)); qreal maxMax; if (q_maximumSize == FLT_MAX && other.q_maximumSize != FLT_MAX) maxMax = other.q_maximumSize; else if (other.q_maximumSize == FLT_MAX && q_maximumSize != FLT_MAX) maxMax = q_maximumSize; else maxMax = qMax(q_maximumSize, other.q_maximumSize); q_maximumSize = qMax(q_minimumSize, maxMax); q_preferredSize = qBound(q_minimumSize, qMax(q_preferredSize, other.q_preferredSize), q_maximumSize); } void QGridLayoutBox::normalize() { q_maximumSize = qMax(qreal(0.0), q_maximumSize); q_minimumSize = qBound(qreal(0.0), q_minimumSize, q_maximumSize); q_preferredSize = qBound(q_minimumSize, q_preferredSize, q_maximumSize); q_minimumDescent = qMin(q_minimumDescent, q_minimumSize); Q_ASSERT((q_minimumDescent < 0.0) == (q_minimumAscent < 0.0)); } #ifdef QT_DEBUG void QGridLayoutBox::dump(int indent) const { qDebug("%*sBox (%g <= %g <= %g [%g/%g])", indent, "", q_minimumSize, q_preferredSize, q_maximumSize, q_minimumAscent, q_minimumDescent); } #endif bool operator==(const QGridLayoutBox &box1, const QGridLayoutBox &box2) { for (int i = 0; i < NSizes; ++i) { if (box1.q_sizes(i) != box2.q_sizes(i)) return false; } return box1.q_minimumDescent == box2.q_minimumDescent && box1.q_minimumAscent == box2.q_minimumAscent; } void QGridLayoutRowData::reset(int count) { ignore.fill(false, count); boxes.fill(QGridLayoutBox(), count); multiCellMap.clear(); stretches.fill(0, count); spacings.fill(0.0, count); hasIgnoreFlag = false; } void QGridLayoutRowData::distributeMultiCells() { MultiCellMap::const_iterator i = multiCellMap.constBegin(); for (; i != multiCellMap.constEnd(); ++i) { int start = i.key().first; int span = i.key().second; int end = start + span; const QGridLayoutBox &box = i.value().q_box; int stretch = i.value().q_stretch; QGridLayoutBox totalBox = this->totalBox(start, end); QVarLengthArray extras(span); QVarLengthArray dummy(span); QVarLengthArray newSizes(span); for (int j = 0; j < NSizes; ++j) { qreal extra = compare(totalBox, box, j); if (extra > 0.0) { calculateGeometries(start, end, totalBox.q_sizes(j), dummy.data(), newSizes.data(), 0, totalBox); for (int k = 0; k < span; ++k) extras[k].q_sizes(j) = newSizes[k]; } } for (int k = 0; k < span; ++k) { boxes[start + k].combine(extras[k]); stretches[start + k] = qMax(stretches[start + k], stretch); } } multiCellMap.clear(); } void QGridLayoutRowData::calculateGeometries(int start, int end, qreal targetSize, qreal *positions, qreal *sizes, qreal *descents, const QGridLayoutBox &totalBox) { Q_ASSERT(end > start); targetSize = qBound(totalBox.q_minimumSize, targetSize, totalBox.q_maximumSize); int n = end - start; QVarLengthArray newSizes(n); QVarLengthArray factors(n); qreal sumFactors = 0.0; int sumStretches = 0; qreal sumAvailable; for (int i = 0; i < n; ++i) { if (stretches[start + i] > 0) sumStretches += stretches[start + i]; } if (targetSize < totalBox.q_preferredSize) { stealBox(start, end, MinimumSize, positions, sizes); sumAvailable = targetSize - totalBox.q_minimumSize; if (sumAvailable > 0.0) { qreal sumDesired = totalBox.q_preferredSize - totalBox.q_minimumSize; for (int i = 0; i < n; ++i) { if (ignore.testBit(start + i)) { factors[i] = 0.0; continue; } const QGridLayoutBox &box = boxes.at(start + i); qreal desired = box.q_preferredSize - box.q_minimumSize; factors[i] = growthFactorBelowPreferredSize(desired, sumAvailable, sumDesired); sumFactors += factors[i]; } for (int i = 0; i < n; ++i) { Q_ASSERT(sumFactors > 0.0); qreal delta = sumAvailable * factors[i] / sumFactors; newSizes[i] = sizes[i] + delta; } } } else { stealBox(start, end, PreferredSize, positions, sizes); sumAvailable = targetSize - totalBox.q_preferredSize; if (sumAvailable > 0.0) { bool somethingHasAMaximumSize = false; qreal sumPreferredSizes = 0.0; for (int i = 0; i < n; ++i) sumPreferredSizes += sizes[i]; for (int i = 0; i < n; ++i) { if (ignore.testBit(start + i)) { newSizes[i] = 0.0; factors[i] = 0.0; continue; } const QGridLayoutBox &box = boxes.at(start + i); qreal desired = box.q_maximumSize - box.q_preferredSize; if (desired == 0.0) { newSizes[i] = sizes[i]; factors[i] = 0.0; } else { Q_ASSERT(desired > 0.0); int stretch = stretches[start + i]; if (sumStretches == 0) { if (hasIgnoreFlag) { factors[i] = (stretch < 0) ? 1.0 : 0.0; } else { factors[i] = (stretch < 0) ? sizes[i] : 0.0; } } else if (stretch == sumStretches) { factors[i] = 1.0; } else if (stretch <= 0) { factors[i] = 0.0; } else { qreal ultimatePreferredSize; qreal ultimateSumPreferredSizes; qreal x = ((stretch * sumPreferredSizes) - (sumStretches * box.q_preferredSize)) / (sumStretches - stretch); if (x >= 0.0) { ultimatePreferredSize = box.q_preferredSize + x; ultimateSumPreferredSizes = sumPreferredSizes + x; } else { ultimatePreferredSize = box.q_preferredSize; ultimateSumPreferredSizes = (sumStretches * box.q_preferredSize) / stretch; } /* We multiply these by 1.5 to give some space for a smooth transition (at the expense of the stretch factors, which are not fully respected during the transition). */ ultimatePreferredSize = ultimatePreferredSize * 3 / 2; ultimateSumPreferredSizes = ultimateSumPreferredSizes * 3 / 2; qreal ultimateFactor = (stretch * ultimateSumPreferredSizes / sumStretches) - (box.q_preferredSize); qreal transitionalFactor = sumAvailable * (ultimatePreferredSize - box.q_preferredSize) / (ultimateSumPreferredSizes - sumPreferredSizes); qreal alpha = qMin(sumAvailable, ultimateSumPreferredSizes - sumPreferredSizes); qreal beta = ultimateSumPreferredSizes - sumPreferredSizes; factors[i] = ((alpha * ultimateFactor) + ((beta - alpha) * transitionalFactor)) / beta; } sumFactors += factors[i]; if (desired < sumAvailable) somethingHasAMaximumSize = true; newSizes[i] = -1.0; } } bool keepGoing = somethingHasAMaximumSize; while (keepGoing) { keepGoing = false; for (int i = 0; i < n; ++i) { if (newSizes[i] >= 0.0) continue; const QGridLayoutBox &box = boxes.at(start + i); qreal avail = sumAvailable * factors[i] / sumFactors; if (sizes[i] + avail >= box.q_maximumSize) { newSizes[i] = box.q_maximumSize; sumAvailable -= box.q_maximumSize - sizes[i]; sumFactors -= factors[i]; keepGoing = (sumAvailable > 0.0); if (!keepGoing) break; } } } for (int i = 0; i < n; ++i) { if (newSizes[i] < 0.0) { qreal delta = (sumFactors == 0.0) ? 0.0 : sumAvailable * factors[i] / sumFactors; newSizes[i] = sizes[i] + delta; } } } } if (sumAvailable > 0) { qreal offset = 0; for (int i = 0; i < n; ++i) { qreal delta = newSizes[i] - sizes[i]; positions[i] += offset; sizes[i] += delta; offset += delta; } #if 0 // some "pixel allocation" int surplus = targetSize - (positions[n - 1] + sizes[n - 1]); Q_ASSERT(surplus >= 0 && surplus <= n); int prevSurplus = -1; while (surplus > 0 && surplus != prevSurplus) { prevSurplus = surplus; int offset = 0; for (int i = 0; i < n; ++i) { const QGridLayoutBox &box = boxes.at(start + i); int delta = (!ignore.testBit(start + i) && surplus > 0 && factors[i] > 0 && sizes[i] < box.q_maximumSize) ? 1 : 0; positions[i] += offset; sizes[i] += delta; offset += delta; surplus -= delta; } } Q_ASSERT(surplus == 0); #endif } if (descents) { for (int i = 0; i < n; ++i) { if (ignore.testBit(start + i)) continue; const QGridLayoutBox &box = boxes.at(start + i); descents[i] = fixedDescent(box.q_minimumDescent, box.q_minimumAscent, sizes[i]); } } } QGridLayoutBox QGridLayoutRowData::totalBox(int start, int end) const { QGridLayoutBox result; if (start < end) { result.q_maximumSize = 0.0; qreal nextSpacing = 0.0; for (int i = start; i < end; ++i) { result.add(boxes.at(i), stretches.at(i), nextSpacing); nextSpacing = spacings.at(i); } } return result; } void QGridLayoutRowData::stealBox(int start, int end, int which, qreal *positions, qreal *sizes) { qreal offset = 0.0; qreal nextSpacing = 0.0; for (int i = start; i < end; ++i) { qreal avail = 0.0; if (!ignore.testBit(i)) { const QGridLayoutBox &box = boxes.at(i); avail = box.q_sizes(which); offset += nextSpacing; nextSpacing = spacings.at(i); } *positions++ = offset; *sizes++ = avail; offset += avail; } } #ifdef QT_DEBUG void QGridLayoutRowData::dump(int indent) const { qDebug("%*sData", indent, ""); for (int i = 0; i < ignore.count(); ++i) { qDebug("%*s Row %d (stretch %d, spacing %g)", indent, "", i, stretches.at(i), spacings.at(i)); if (ignore.testBit(i)) qDebug("%*s Ignored", indent, ""); boxes.at(i).dump(indent + 2); } MultiCellMap::const_iterator it = multiCellMap.constBegin(); while (it != multiCellMap.constEnd()) { qDebug("%*s Multi-cell entry <%d, %d> (stretch %d)", indent, "", it.key().first, it.key().second, it.value().q_stretch); it.value().q_box.dump(indent + 2); } } #endif QGridLayoutItem::QGridLayoutItem(QGridLayoutEngine *engine, QGraphicsLayoutItem *layoutItem, int row, int column, int rowSpan, int columnSpan, Qt::Alignment alignment, int itemAtIndex) : q_engine(engine), q_layoutItem(layoutItem), q_alignment(alignment) { q_firstRows[Hor] = column; q_firstRows[Ver] = row; q_rowSpans[Hor] = columnSpan; q_rowSpans[Ver] = rowSpan; q_stretches[Hor] = -1; q_stretches[Ver] = -1; q_engine->insertItem(this, itemAtIndex); } int QGridLayoutItem::firstRow(Qt::Orientation orientation) const { return q_firstRows[orientation == Qt::Vertical]; } int QGridLayoutItem::firstColumn(Qt::Orientation orientation) const { return q_firstRows[orientation == Qt::Horizontal]; } int QGridLayoutItem::lastRow(Qt::Orientation orientation) const { return firstRow(orientation) + rowSpan(orientation) - 1; } int QGridLayoutItem::lastColumn(Qt::Orientation orientation) const { return firstColumn(orientation) + columnSpan(orientation) - 1; } int QGridLayoutItem::rowSpan(Qt::Orientation orientation) const { return q_rowSpans[orientation == Qt::Vertical]; } int QGridLayoutItem::columnSpan(Qt::Orientation orientation) const { return q_rowSpans[orientation == Qt::Horizontal]; } void QGridLayoutItem::setFirstRow(int row, Qt::Orientation orientation) { q_firstRows[orientation == Qt::Vertical] = row; } void QGridLayoutItem::setRowSpan(int rowSpan, Qt::Orientation orientation) { q_rowSpans[orientation == Qt::Vertical] = rowSpan; } int QGridLayoutItem::stretchFactor(Qt::Orientation orientation) const { int stretch = q_stretches[orientation == Qt::Vertical]; if (stretch >= 0) return stretch; QSizePolicy::Policy policy = sizePolicy(orientation); if (policy & QSizePolicy::ExpandFlag) { return 1; } else if (policy & QSizePolicy::GrowFlag) { return -1; // because we max it up } else { return 0; } } void QGridLayoutItem::setStretchFactor(int stretch, Qt::Orientation orientation) { Q_ASSERT(stretch >= 0); // ### deal with too big stretches q_stretches[orientation == Qt::Vertical] = stretch; } QSizePolicy::Policy QGridLayoutItem::sizePolicy(Qt::Orientation orientation) const { QSizePolicy sizePolicy(q_layoutItem->sizePolicy()); return (orientation == Qt::Horizontal) ? sizePolicy.horizontalPolicy() : sizePolicy.verticalPolicy(); } QSizePolicy::ControlTypes QGridLayoutItem::controlTypes(LayoutSide /* side */) const { return q_layoutItem->sizePolicy().controlType(); } QSizeF QGridLayoutItem::sizeHint(Qt::SizeHint which, const QSizeF &constraint) const { return q_layoutItem->effectiveSizeHint(which, constraint); } QGridLayoutBox QGridLayoutItem::box(Qt::Orientation orientation, qreal constraint) const { QGridLayoutBox result; QSizePolicy::Policy policy = sizePolicy(orientation); if (orientation == Qt::Horizontal) { QSizeF constraintSize(-1.0, constraint); result.q_preferredSize = sizeHint(Qt::PreferredSize, constraintSize).width(); if (policy & QSizePolicy::ShrinkFlag) { result.q_minimumSize = sizeHint(Qt::MinimumSize, constraintSize).width(); } else { result.q_minimumSize = result.q_preferredSize; } if (policy & (QSizePolicy::GrowFlag | QSizePolicy::ExpandFlag)) { result.q_maximumSize = sizeHint(Qt::MaximumSize, constraintSize).width(); } else { result.q_maximumSize = result.q_preferredSize; } } else { QSizeF constraintSize(constraint, -1.0); result.q_preferredSize = sizeHint(Qt::PreferredSize, constraintSize).height(); if (policy & QSizePolicy::ShrinkFlag) { result.q_minimumSize = sizeHint(Qt::MinimumSize, constraintSize).height(); } else { result.q_minimumSize = result.q_preferredSize; } if (policy & (QSizePolicy::GrowFlag | QSizePolicy::ExpandFlag)) { result.q_maximumSize = sizeHint(Qt::MaximumSize, constraintSize).height(); } else { result.q_maximumSize = result.q_preferredSize; } result.q_minimumDescent = sizeHint(Qt::MinimumDescent, constraintSize).height(); if (result.q_minimumDescent >= 0.0) result.q_minimumAscent = result.q_minimumSize - result.q_minimumDescent; } if (policy & QSizePolicy::IgnoreFlag) result.q_preferredSize = result.q_minimumSize; return result; } QRectF QGridLayoutItem::geometryWithin(qreal x, qreal y, qreal width, qreal height, qreal rowDescent) const { rowDescent = -1.0; // ### This disables the descent QGridLayoutBox vBox = box(Qt::Vertical); if (vBox.q_minimumDescent < 0.0 || rowDescent < 0.0) { qreal cellWidth = width; qreal cellHeight = height; QSizeF size = effectiveMaxSize().boundedTo(QSizeF(cellWidth, cellHeight)); width = size.width(); height = size.height(); Qt::Alignment align = q_engine->effectiveAlignment(this); switch (align & Qt::AlignHorizontal_Mask) { case Qt::AlignHCenter: x += (cellWidth - width)/2; break; case Qt::AlignRight: x += cellWidth - width; break; default: break; } switch (align & Qt::AlignVertical_Mask) { case Qt::AlignVCenter: y += (cellHeight - height)/2; break; case Qt::AlignBottom: y += cellHeight - height; break; default: break; } return QRectF(x, y, width, height); } else { qreal descent = vBox.q_minimumDescent; qreal ascent = vBox.q_minimumSize - descent; return QRectF(x, y + height - rowDescent - ascent, width, ascent + descent); } } void QGridLayoutItem::setGeometry(const QRectF &rect) { q_layoutItem->setGeometry(rect); } void QGridLayoutItem::transpose() { qSwap(q_firstRows[Hor], q_firstRows[Ver]); qSwap(q_rowSpans[Hor], q_rowSpans[Ver]); qSwap(q_stretches[Hor], q_stretches[Ver]); } void QGridLayoutItem::insertOrRemoveRows(int row, int delta, Qt::Orientation orientation) { int oldFirstRow = firstRow(orientation); if (oldFirstRow >= row) { setFirstRow(oldFirstRow + delta, orientation); } else if (lastRow(orientation) >= row) { setRowSpan(rowSpan(orientation) + delta, orientation); } } /*! \internal returns the effective maximumSize, will take the sizepolicy into consideration. (i.e. if sizepolicy does not have QSizePolicy::Grow, then maxSizeHint will be the preferredSize) Note that effectiveSizeHint does not take sizePolicy into consideration, (since it only evaluates the hints, as the name implies) */ QSizeF QGridLayoutItem::effectiveMaxSize() const { QSizeF size; bool vGrow = (sizePolicy(Qt::Vertical) & QSizePolicy::GrowFlag) == QSizePolicy::GrowFlag; bool hGrow = (sizePolicy(Qt::Horizontal) & QSizePolicy::GrowFlag) == QSizePolicy::GrowFlag; if (!vGrow || !hGrow) { QSizeF pref = layoutItem()->effectiveSizeHint(Qt::PreferredSize); if (!vGrow) size.setHeight(pref.height()); if (!hGrow) size.setWidth(pref.width()); } if (!size.isValid()) { QSizeF maxSize = layoutItem()->effectiveSizeHint(Qt::MaximumSize); if (size.width() == -1) size.setWidth(maxSize.width()); if (size.height() == -1) size.setHeight(maxSize.height()); } return size; } #ifdef QT_DEBUG void QGridLayoutItem::dump(int indent) const { qDebug("%*s%p (%d, %d) %d x %d", indent, "", q_layoutItem, firstRow(), firstColumn(), rowSpan(), columnSpan()); if (q_stretches[Hor] >= 0) qDebug("%*s Horizontal stretch: %d", indent, "", q_stretches[Hor]); if (q_stretches[Ver] >= 0) qDebug("%*s Vertical stretch: %d", indent, "", q_stretches[Ver]); if (q_alignment != 0) qDebug("%*s Alignment: %x", indent, "", uint(q_alignment)); qDebug("%*s Horizontal size policy: %x Vertical size policy: %x", indent, "", sizePolicy(Qt::Horizontal), sizePolicy(Qt::Vertical)); } #endif void QGridLayoutRowInfo::insertOrRemoveRows(int row, int delta) { count += delta; insertOrRemoveItems(stretches, row, delta); insertOrRemoveItems(spacings, row, delta); insertOrRemoveItems(alignments, row, delta); insertOrRemoveItems(boxes, row, delta); } #ifdef QT_DEBUG void QGridLayoutRowInfo::dump(int indent) const { qDebug("%*sInfo (count: %d)", indent, "", count); for (int i = 0; i < count; ++i) { QString message; if (stretches.value(i).value() >= 0) message += QString::fromAscii(" stretch %1").arg(stretches.value(i).value()); if (spacings.value(i).value() >= 0.0) message += QString::fromAscii(" spacing %1").arg(spacings.value(i).value()); if (alignments.value(i) != 0) message += QString::fromAscii(" alignment %1").arg(int(alignments.value(i)), 16); if (!message.isEmpty() || boxes.value(i) != QGridLayoutBox()) { qDebug("%*s Row %d:%s", indent, "", i, qPrintable(message)); if (boxes.value(i) != QGridLayoutBox()) boxes.value(i).dump(indent + 1); } } } #endif QGridLayoutEngine::QGridLayoutEngine() { m_visualDirection = Qt::LeftToRight; invalidate(); } int QGridLayoutEngine::rowCount(Qt::Orientation orientation) const { return q_infos[orientation == Qt::Vertical].count; } int QGridLayoutEngine::columnCount(Qt::Orientation orientation) const { return q_infos[orientation == Qt::Horizontal].count; } int QGridLayoutEngine::itemCount() const { return q_items.count(); } QGridLayoutItem *QGridLayoutEngine::itemAt(int index) const { Q_ASSERT(index >= 0 && index < itemCount()); return q_items.at(index); } int QGridLayoutEngine::effectiveFirstRow(Qt::Orientation orientation) const { ensureEffectiveFirstAndLastRows(); return q_cachedEffectiveFirstRows[orientation == Qt::Vertical]; } int QGridLayoutEngine::effectiveLastRow(Qt::Orientation orientation) const { ensureEffectiveFirstAndLastRows(); return q_cachedEffectiveLastRows[orientation == Qt::Vertical]; } void QGridLayoutEngine::setSpacing(qreal spacing, Qt::Orientations orientations) { Q_ASSERT(spacing >= 0.0); if (orientations & Qt::Horizontal) q_defaultSpacings[Hor].setUserValue(spacing); if (orientations & Qt::Vertical) q_defaultSpacings[Ver].setUserValue(spacing); invalidate(); } qreal QGridLayoutEngine::spacing(const QLayoutStyleInfo &styleInfo, Qt::Orientation orientation) const { if (q_defaultSpacings[orientation == Qt::Vertical].isDefault()) { QStyle *style = styleInfo.style(); QStyleOption option; option.initFrom(styleInfo.widget()); qreal defaultSpacing = (qreal)style->pixelMetric(orientation == Qt::Vertical ? QStyle::PM_LayoutVerticalSpacing : QStyle::PM_LayoutHorizontalSpacing, &option, styleInfo.widget()); q_defaultSpacings[orientation == Qt::Vertical].setCachedValue(defaultSpacing); } return q_defaultSpacings[orientation == Qt::Vertical].value(); } void QGridLayoutEngine::setRowSpacing(int row, qreal spacing, Qt::Orientation orientation) { Q_ASSERT(row >= 0); QGridLayoutRowInfo &rowInfo = q_infos[orientation == Qt::Vertical]; if (row >= rowInfo.spacings.count()) rowInfo.spacings.resize(row + 1); if (spacing >= 0) rowInfo.spacings[row].setUserValue(spacing); else rowInfo.spacings[row] = QLayoutParameter(); invalidate(); } qreal QGridLayoutEngine::rowSpacing(int row, Qt::Orientation orientation) const { QLayoutParameter spacing = q_infos[orientation == Qt::Vertical].spacings.value(row); if (!spacing.isDefault()) return spacing.value(); return q_defaultSpacings[orientation == Qt::Vertical].value(); } void QGridLayoutEngine::setRowStretchFactor(int row, int stretch, Qt::Orientation orientation) { Q_ASSERT(row >= 0); Q_ASSERT(stretch >= 0); maybeExpandGrid(row, -1, orientation); QGridLayoutRowInfo &rowInfo = q_infos[orientation == Qt::Vertical]; if (row >= rowInfo.stretches.count()) rowInfo.stretches.resize(row + 1); rowInfo.stretches[row].setUserValue(stretch); } int QGridLayoutEngine::rowStretchFactor(int row, Qt::Orientation orientation) const { QStretchParameter stretch = q_infos[orientation == Qt::Vertical].stretches.value(row); if (!stretch.isDefault()) return stretch.value(); return 0; } void QGridLayoutEngine::setStretchFactor(QGraphicsLayoutItem *layoutItem, int stretch, Qt::Orientation orientation) { Q_ASSERT(stretch >= 0); if (QGridLayoutItem *item = findLayoutItem(layoutItem)) item->setStretchFactor(stretch, orientation); } int QGridLayoutEngine::stretchFactor(QGraphicsLayoutItem *layoutItem, Qt::Orientation orientation) const { if (QGridLayoutItem *item = findLayoutItem(layoutItem)) return item->stretchFactor(orientation); return 0; } void QGridLayoutEngine::setRowSizeHint(Qt::SizeHint which, int row, qreal size, Qt::Orientation orientation) { Q_ASSERT(row >= 0); Q_ASSERT(size >= 0.0); maybeExpandGrid(row, -1, orientation); QGridLayoutRowInfo &rowInfo = q_infos[orientation == Qt::Vertical]; if (row >= rowInfo.boxes.count()) rowInfo.boxes.resize(row + 1); rowInfo.boxes[row].q_sizes(which) = size; } qreal QGridLayoutEngine::rowSizeHint(Qt::SizeHint which, int row, Qt::Orientation orientation) const { return q_infos[orientation == Qt::Vertical].boxes.value(row).q_sizes(which); } void QGridLayoutEngine::setRowAlignment(int row, Qt::Alignment alignment, Qt::Orientation orientation) { Q_ASSERT(row >= 0); maybeExpandGrid(row, -1, orientation); QGridLayoutRowInfo &rowInfo = q_infos[orientation == Qt::Vertical]; if (row >= rowInfo.alignments.count()) rowInfo.alignments.resize(row + 1); rowInfo.alignments[row] = alignment; } Qt::Alignment QGridLayoutEngine::rowAlignment(int row, Qt::Orientation orientation) const { Q_ASSERT(row >= 0); return q_infos[orientation == Qt::Vertical].alignments.value(row); } void QGridLayoutEngine::setAlignment(QGraphicsLayoutItem *layoutItem, Qt::Alignment alignment) { if (QGridLayoutItem *item = findLayoutItem(layoutItem)) item->setAlignment(alignment); invalidate(); } Qt::Alignment QGridLayoutEngine::alignment(QGraphicsLayoutItem *layoutItem) const { if (QGridLayoutItem *item = findLayoutItem(layoutItem)) return item->alignment(); return 0; } Qt::Alignment QGridLayoutEngine::effectiveAlignment(const QGridLayoutItem *layoutItem) const { Qt::Alignment align = layoutItem->alignment(); if (!(align & Qt::AlignVertical_Mask)) { // no vertical alignment, respect the row alignment int y = layoutItem->firstRow(); align |= (rowAlignment(y, Qt::Vertical) & Qt::AlignVertical_Mask); } if (!(align & Qt::AlignHorizontal_Mask)) { // no horizontal alignment, respect the column alignment int x = layoutItem->firstColumn(); align |= (rowAlignment(x, Qt::Horizontal) & Qt::AlignHorizontal_Mask); } return align; } /*! \internal The \a index is only used by QGraphicsLinearLayout to ensure that itemAt() reflects the order of visual arrangement. Strictly speaking it does not have to, but most people expect it to. (And if it didn't we would have to add itemArrangedAt(int index) or something..) */ void QGridLayoutEngine::insertItem(QGridLayoutItem *item, int index) { maybeExpandGrid(item->lastRow(), item->lastColumn()); if (index == -1) q_items.append(item); else q_items.insert(index, item); for (int i = item->firstRow(); i <= item->lastRow(); ++i) { for (int j = item->firstColumn(); j <= item->lastColumn(); ++j) { if (itemAt(i, j)) qWarning("QGridLayoutEngine::addItem: Cell (%d, %d) already taken", i, j); setItemAt(i, j, item); } } } void QGridLayoutEngine::addItem(QGridLayoutItem *item) { insertItem(item, -1); } void QGridLayoutEngine::removeItem(QGridLayoutItem *item) { Q_ASSERT(q_items.contains(item)); invalidate(); for (int i = item->firstRow(); i <= item->lastRow(); ++i) { for (int j = item->firstColumn(); j <= item->lastColumn(); ++j) { if (itemAt(i, j) == item) setItemAt(i, j, 0); } } q_items.removeAll(item); } QGridLayoutItem *QGridLayoutEngine::findLayoutItem(QGraphicsLayoutItem *layoutItem) const { for (int i = q_items.count() - 1; i >= 0; --i) { QGridLayoutItem *item = q_items.at(i); if (item->layoutItem() == layoutItem) return item; } return 0; } QGridLayoutItem *QGridLayoutEngine::itemAt(int row, int column, Qt::Orientation orientation) const { if (orientation == Qt::Horizontal) qSwap(row, column); if (uint(row) >= uint(rowCount()) || uint(column) >= uint(columnCount())) return 0; return q_grid.at((row * internalGridColumnCount()) + column); } void QGridLayoutEngine::invalidate() { q_cachedEffectiveFirstRows[Hor] = -1; q_cachedEffectiveFirstRows[Ver] = -1; q_cachedEffectiveLastRows[Hor] = -1; q_cachedEffectiveLastRows[Ver] = -1; q_cachedDataForStyleInfo.invalidate(); q_cachedSize = QSizeF(); } static void visualRect(QRectF *geom, Qt::LayoutDirection dir, const QRectF &contentsRect) { if (dir == Qt::RightToLeft) geom->moveRight(contentsRect.right() - (geom->left() - contentsRect.left())); } void QGridLayoutEngine::setGeometries(const QLayoutStyleInfo &styleInfo, const QRectF &contentsGeometry) { if (rowCount() < 1 || columnCount() < 1) return; ensureGeometries(styleInfo, contentsGeometry.size()); for (int i = q_items.count() - 1; i >= 0; --i) { QGridLayoutItem *item = q_items.at(i); qreal x = q_xx[item->firstColumn()]; qreal y = q_yy[item->firstRow()]; qreal width = q_widths[item->lastColumn()]; qreal height = q_heights[item->lastRow()]; if (item->columnSpan() != 1) width += q_xx[item->lastColumn()] - x; if (item->rowSpan() != 1) height += q_yy[item->lastRow()] - y; QRectF geom = item->geometryWithin(contentsGeometry.x() + x, contentsGeometry.y() + y, width, height, q_descents[item->lastRow()]); visualRect(&geom, visualDirection(), contentsGeometry); item->setGeometry(geom); } } // ### candidate for deletion QRectF QGridLayoutEngine::cellRect(const QLayoutStyleInfo &styleInfo, const QRectF &contentsGeometry, int row, int column, int rowSpan, int columnSpan) const { if (uint(row) >= uint(rowCount()) || uint(column) >= uint(columnCount()) || rowSpan < 1 || columnSpan < 1) return QRectF(); ensureGeometries(styleInfo, contentsGeometry.size()); int lastColumn = qMax(column + columnSpan, columnCount()) - 1; int lastRow = qMax(row + rowSpan, rowCount()) - 1; qreal x = q_xx[column]; qreal y = q_yy[row]; qreal width = q_widths[lastColumn]; qreal height = q_heights[lastRow]; if (columnSpan != 1) width += q_xx[lastColumn] - x; if (rowSpan != 1) height += q_yy[lastRow] - y; return QRectF(contentsGeometry.x() + x, contentsGeometry.y() + y, width, height); } QSizeF QGridLayoutEngine::sizeHint(const QLayoutStyleInfo &styleInfo, Qt::SizeHint which, const QSizeF & /* constraint */) const { ensureColumnAndRowData(styleInfo); switch (which) { case Qt::MinimumSize: return QSizeF(q_totalBoxes[Hor].q_minimumSize, q_totalBoxes[Ver].q_minimumSize); case Qt::PreferredSize: return QSizeF(q_totalBoxes[Hor].q_preferredSize, q_totalBoxes[Ver].q_preferredSize); case Qt::MaximumSize: return QSizeF(q_totalBoxes[Hor].q_maximumSize, q_totalBoxes[Ver].q_maximumSize); case Qt::MinimumDescent: return QSizeF(-1.0, q_totalBoxes[Hor].q_minimumDescent); // ### doesn't work default: break; } return QSizeF(); } QSizePolicy::ControlTypes QGridLayoutEngine::controlTypes(LayoutSide side) const { Qt::Orientation orientation = (side == Top || side == Bottom) ? Qt::Vertical : Qt::Horizontal; int row = (side == Top || side == Left) ? effectiveFirstRow(orientation) : effectiveLastRow(orientation); QSizePolicy::ControlTypes result = 0; for (int column = columnCount(orientation) - 1; column >= 0; --column) { if (QGridLayoutItem *item = itemAt(row, column, orientation)) result |= item->controlTypes(side); } return result; } void QGridLayoutEngine::transpose() { invalidate(); for (int i = q_items.count() - 1; i >= 0; --i) q_items.at(i)->transpose(); qSwap(q_defaultSpacings[Hor], q_defaultSpacings[Ver]); qSwap(q_infos[Hor], q_infos[Ver]); regenerateGrid(); } void QGridLayoutEngine::setVisualDirection(Qt::LayoutDirection direction) { m_visualDirection = direction; } Qt::LayoutDirection QGridLayoutEngine::visualDirection() const { return m_visualDirection; } #ifdef QT_DEBUG void QGridLayoutEngine::dump(int indent) const { qDebug("%*sEngine", indent, ""); qDebug("%*s Items (%d)", indent, "", q_items.count()); int i; for (i = 0; i < q_items.count(); ++i) q_items.at(i)->dump(indent + 2); qDebug("%*s Grid (%d x %d)", indent, "", internalGridRowCount(), internalGridColumnCount()); for (int row = 0; row < internalGridRowCount(); ++row) { QString message = QLatin1String("[ "); for (int column = 0; column < internalGridColumnCount(); ++column) { message += QString::number(q_items.indexOf(itemAt(row, column))).rightJustified(3); message += QLatin1Char(' '); } message += QLatin1Char(']'); qDebug("%*s %s", indent, "", qPrintable(message)); } if (q_defaultSpacings[Hor].value() >= 0.0 || q_defaultSpacings[Ver].value() >= 0.0) qDebug("%*s Default spacings: %g %g", indent, "", q_defaultSpacings[Hor].value(), q_defaultSpacings[Ver].value()); qDebug("%*s Column and row info", indent, ""); q_infos[Hor].dump(indent + 2); q_infos[Ver].dump(indent + 2); qDebug("%*s Column and row data", indent, ""); q_columnData.dump(indent + 2); q_rowData.dump(indent + 2); qDebug("%*s Geometries output", indent, ""); QVector *cellPos = &q_yy; for (int pass = 0; pass < 2; ++pass) { QString message; for (i = 0; i < cellPos->count(); ++i) { message += QLatin1String((message.isEmpty() ? "[" : ", ")); message += QString::number(cellPos->at(i)); } message += QLatin1Char(']'); qDebug("%*s %s %s", indent, "", (pass == 0 ? "rows:" : "columns:"), qPrintable(message)); cellPos = &q_xx; } } #endif void QGridLayoutEngine::maybeExpandGrid(int row, int column, Qt::Orientation orientation) { invalidate(); // ### move out of here? if (orientation == Qt::Horizontal) qSwap(row, column); if (row < rowCount() && column < columnCount()) return; int oldGridRowCount = internalGridRowCount(); int oldGridColumnCount = internalGridColumnCount(); q_infos[Ver].count = qMax(row + 1, rowCount()); q_infos[Hor].count = qMax(column + 1, columnCount()); int newGridRowCount = internalGridRowCount(); int newGridColumnCount = internalGridColumnCount(); int newGridSize = newGridRowCount * newGridColumnCount; if (newGridSize != q_grid.count()) { q_grid.resize(newGridSize); if (newGridColumnCount != oldGridColumnCount) { for (int i = oldGridRowCount - 1; i >= 1; --i) { for (int j = oldGridColumnCount - 1; j >= 0; --j) { int oldIndex = (i * oldGridColumnCount) + j; int newIndex = (i * newGridColumnCount) + j; Q_ASSERT(newIndex > oldIndex); q_grid[newIndex] = q_grid[oldIndex]; q_grid[oldIndex] = 0; } } } } } void QGridLayoutEngine::regenerateGrid() { q_grid.fill(0); for (int i = q_items.count() - 1; i >= 0; --i) { QGridLayoutItem *item = q_items.at(i); for (int j = item->firstRow(); j <= item->lastRow(); ++j) { for (int k = item->firstColumn(); k <= item->lastColumn(); ++k) { setItemAt(j, k, item); } } } } void QGridLayoutEngine::setItemAt(int row, int column, QGridLayoutItem *item) { Q_ASSERT(row >= 0 && row < rowCount()); Q_ASSERT(column >= 0 && column < columnCount()); q_grid[(row * internalGridColumnCount()) + column] = item; } void QGridLayoutEngine::insertOrRemoveRows(int row, int delta, Qt::Orientation orientation) { int oldRowCount = rowCount(orientation); Q_ASSERT(uint(row) <= uint(oldRowCount)); invalidate(); // appending rows (or columns) is easy if (row == oldRowCount && delta > 0) { maybeExpandGrid(oldRowCount + delta - 1, -1, orientation); return; } q_infos[orientation == Qt::Vertical].insertOrRemoveRows(row, delta); for (int i = q_items.count() - 1; i >= 0; --i) q_items.at(i)->insertOrRemoveRows(row, delta, orientation); q_grid.resize(internalGridRowCount() * internalGridColumnCount()); regenerateGrid(); } void QGridLayoutEngine::fillRowData(QGridLayoutRowData *rowData, const QLayoutStyleInfo &styleInfo, Qt::Orientation orientation) const { const int ButtonMask = QSizePolicy::ButtonBox | QSizePolicy::PushButton; const QGridLayoutRowInfo &rowInfo = q_infos[orientation == Qt::Vertical]; const QGridLayoutRowInfo &columnInfo = q_infos[orientation == Qt::Horizontal]; LayoutSide top = (orientation == Qt::Vertical) ? Top : Left; LayoutSide bottom = (orientation == Qt::Vertical) ? Bottom : Right; QStyle *style = styleInfo.style(); QStyleOption option; option.initFrom(styleInfo.widget()); const QLayoutParameter &defaultSpacing = q_defaultSpacings[orientation == Qt::Vertical]; qreal innerSpacing = 0.0; if (style) innerSpacing = (qreal)style->pixelMetric(orientation == Qt::Vertical ? QStyle::PM_LayoutVerticalSpacing : QStyle::PM_LayoutHorizontalSpacing, &option, styleInfo.widget()); if (innerSpacing >= 0.0) defaultSpacing.setCachedValue(innerSpacing); for (int row = 0; row < rowInfo.count; ++row) { bool rowIsEmpty = true; bool rowIsIdenticalToPrevious = (row > 0); for (int column = 0; column < columnInfo.count; ++column) { QGridLayoutItem *item = itemAt(row, column, orientation); if (rowIsIdenticalToPrevious && item != itemAt(row - 1, column, orientation)) rowIsIdenticalToPrevious = false; if (item) rowIsEmpty = false; } if ((rowIsEmpty || rowIsIdenticalToPrevious) && rowInfo.spacings.value(row).isDefault() && rowInfo.stretches.value(row).isDefault() && rowInfo.boxes.value(row) == QGridLayoutBox()) rowData->ignore.setBit(row, true); if (rowInfo.spacings.value(row).isUser()) { rowData->spacings[row] = rowInfo.spacings.at(row).value(); } else if (!defaultSpacing.isDefault()) { rowData->spacings[row] = defaultSpacing.value(); } rowData->stretches[row] = rowInfo.stretches.value(row).value(); } struct RowAdHocData { int q_row; unsigned int q_hasButtons : 8; unsigned int q_hasNonButtons : 8; inline RowAdHocData() : q_row(-1), q_hasButtons(false), q_hasNonButtons(false) {} inline void init(int row) { this->q_row = row; q_hasButtons = false; q_hasNonButtons = false; } inline bool hasOnlyButtons() const { return q_hasButtons && !q_hasNonButtons; } inline bool hasOnlyNonButtons() const { return q_hasNonButtons && !q_hasButtons; } }; RowAdHocData lastRowAdHocData; RowAdHocData nextToLastRowAdHocData; RowAdHocData nextToNextToLastRowAdHocData; rowData->hasIgnoreFlag = false; for (int row = 0; row < rowInfo.count; ++row) { if (rowData->ignore.testBit(row)) continue; QGridLayoutBox &rowBox = rowData->boxes[row]; if (option.state & QStyle::State_Window) { nextToNextToLastRowAdHocData = nextToLastRowAdHocData; nextToLastRowAdHocData = lastRowAdHocData; lastRowAdHocData.init(row); } bool userRowStretch = rowInfo.stretches.value(row).isUser(); int &rowStretch = rowData->stretches[row]; bool hasIgnoreFlag = true; for (int column = 0; column < columnInfo.count; ++column) { QGridLayoutItem *item = itemAt(row, column, orientation); if (item) { int itemRow = item->firstRow(orientation); int itemColumn = item->firstColumn(orientation); if (itemRow == row && itemColumn == column) { int itemStretch = item->stretchFactor(orientation); if (!(item->sizePolicy(orientation) & QSizePolicy::IgnoreFlag)) hasIgnoreFlag = false; int itemRowSpan = item->rowSpan(orientation); int effectiveRowSpan = 1; for (int i = 1; i < itemRowSpan; ++i) { if (!rowData->ignore.testBit(i)) ++effectiveRowSpan; } QGridLayoutBox *box; if (effectiveRowSpan == 1) { box = &rowBox; if (!userRowStretch) rowStretch = qMax(rowStretch, itemStretch); } else { QGridLayoutMultiCellData &multiCell = rowData->multiCellMap[qMakePair(row, effectiveRowSpan)]; box = &multiCell.q_box; multiCell.q_stretch = itemStretch; } box->combine(item->box(orientation)); if (effectiveRowSpan == 1) { QSizePolicy::ControlTypes controls = item->controlTypes(top); if (controls & ButtonMask) lastRowAdHocData.q_hasButtons = true; if (controls & ~ButtonMask) lastRowAdHocData.q_hasNonButtons = true; } } } } if (row < rowInfo.boxes.count()) { QGridLayoutBox rowBoxInfo = rowInfo.boxes.at(row); rowBoxInfo.normalize(); rowBox.q_minimumSize = qMax(rowBox.q_minimumSize, rowBoxInfo.q_minimumSize); rowBox.q_maximumSize = qMax(rowBox.q_minimumSize, (rowBoxInfo.q_maximumSize != FLT_MAX ? rowBoxInfo.q_maximumSize : rowBox.q_maximumSize)); rowBox.q_preferredSize = qBound(rowBox.q_minimumSize, qMax(rowBox.q_preferredSize, rowBoxInfo.q_preferredSize), rowBox.q_maximumSize); } if (hasIgnoreFlag) rowData->hasIgnoreFlag = true; } /* Heuristic: Detect button boxes that don't use QSizePolicy::ButtonBox. This is somewhat ad hoc but it usually does the trick. */ bool lastRowIsButtonBox = (lastRowAdHocData.hasOnlyButtons() && nextToLastRowAdHocData.hasOnlyNonButtons()); bool lastTwoRowsIsButtonBox = (lastRowAdHocData.hasOnlyButtons() && nextToLastRowAdHocData.hasOnlyButtons() && nextToNextToLastRowAdHocData.hasOnlyNonButtons() && orientation == Qt::Vertical); if (defaultSpacing.isDefault()) { int prevRow = -1; for (int row = 0; row < rowInfo.count; ++row) { if (rowData->ignore.testBit(row)) continue; if (prevRow != -1 && !rowInfo.spacings.value(prevRow).isUser()) { qreal &rowSpacing = rowData->spacings[prevRow]; for (int column = 0; column < columnInfo.count; ++column) { QGridLayoutItem *item1 = itemAt(prevRow, column, orientation); QGridLayoutItem *item2 = itemAt(row, column, orientation); if (item1 && item2 && item1 != item2) { QSizePolicy::ControlTypes controls1 = item1->controlTypes(bottom); QSizePolicy::ControlTypes controls2 = item2->controlTypes(top); if (controls2 & QSizePolicy::PushButton) { if ((row == nextToLastRowAdHocData.q_row && lastTwoRowsIsButtonBox) || (row == lastRowAdHocData.q_row && lastRowIsButtonBox)) { controls2 &= ~QSizePolicy::PushButton; controls2 |= QSizePolicy::ButtonBox; } } qreal spacing = style->combinedLayoutSpacing(controls1, controls2, orientation, &option, styleInfo.widget()); if (orientation == Qt::Horizontal) { qreal width1 = rowData->boxes.at(prevRow).q_minimumSize; qreal width2 = rowData->boxes.at(row).q_minimumSize; QRectF rect1 = item1->geometryWithin(0.0, 0.0, width1, FLT_MAX, -1.0); QRectF rect2 = item2->geometryWithin(0.0, 0.0, width2, FLT_MAX, -1.0); spacing -= (width1 - (rect1.x() + rect1.width())) + rect2.x(); } else { const QGridLayoutBox &box1 = rowData->boxes.at(prevRow); const QGridLayoutBox &box2 = rowData->boxes.at(row); qreal height1 = box1.q_minimumSize; qreal height2 = box2.q_minimumSize; qreal rowDescent1 = fixedDescent(box1.q_minimumDescent, box1.q_minimumAscent, height1); qreal rowDescent2 = fixedDescent(box2.q_minimumDescent, box2.q_minimumAscent, height2); QRectF rect1 = item1->geometryWithin(0.0, 0.0, FLT_MAX, height1, rowDescent1); QRectF rect2 = item2->geometryWithin(0.0, 0.0, FLT_MAX, height2, rowDescent2); spacing -= (height1 - (rect1.y() + rect1.height())) + rect2.y(); } rowSpacing = qMax(spacing, rowSpacing); } } } prevRow = row; } } else if (lastRowIsButtonBox || lastTwoRowsIsButtonBox) { /* Even for styles that define a uniform spacing, we cheat a bit and use the window margin as the spacing. This significantly improves the look of dialogs. */ int prevRow = lastRowIsButtonBox ? nextToLastRowAdHocData.q_row : nextToNextToLastRowAdHocData.q_row; if (!defaultSpacing.isUser() && !rowInfo.spacings.value(prevRow).isUser()) { qreal windowMargin = style->pixelMetric(orientation == Qt::Vertical ? QStyle::PM_LayoutBottomMargin : QStyle::PM_LayoutRightMargin, &option, styleInfo.widget()); qreal &rowSpacing = rowData->spacings[prevRow]; rowSpacing = qMax(windowMargin, rowSpacing); } } } void QGridLayoutEngine::ensureEffectiveFirstAndLastRows() const { if (q_cachedEffectiveFirstRows[Hor] == -1 && !q_items.isEmpty()) { int rowCount = this->rowCount(); int columnCount = this->columnCount(); q_cachedEffectiveFirstRows[Ver] = rowCount; q_cachedEffectiveFirstRows[Hor] = columnCount; q_cachedEffectiveLastRows[Ver] = -1; q_cachedEffectiveLastRows[Hor] = -1; for (int i = q_items.count() - 1; i >= 0; --i) { const QGridLayoutItem *item = q_items.at(i); for (int j = 0; j < NOrientations; ++j) { Qt::Orientation orientation = (j == Hor) ? Qt::Horizontal : Qt::Vertical; if (item->firstRow(orientation) < q_cachedEffectiveFirstRows[j]) q_cachedEffectiveFirstRows[j] = item->firstRow(orientation); if (item->lastRow(orientation) > q_cachedEffectiveLastRows[j]) q_cachedEffectiveLastRows[j] = item->lastRow(orientation); } } } } void QGridLayoutEngine::ensureColumnAndRowData(const QLayoutStyleInfo &styleInfo) const { if (q_cachedDataForStyleInfo == styleInfo) return; q_columnData.reset(columnCount()); q_rowData.reset(rowCount()); fillRowData(&q_columnData, styleInfo, Qt::Horizontal); fillRowData(&q_rowData, styleInfo, Qt::Vertical); q_columnData.distributeMultiCells(); q_rowData.distributeMultiCells(); q_totalBoxes[Hor] = q_columnData.totalBox(0, columnCount()); q_totalBoxes[Ver] = q_rowData.totalBox(0, rowCount()); q_cachedDataForStyleInfo = styleInfo; } void QGridLayoutEngine::ensureGeometries(const QLayoutStyleInfo &styleInfo, const QSizeF &size) const { ensureColumnAndRowData(styleInfo); if (q_cachedSize == size) return; q_xx.resize(columnCount()); q_yy.resize(rowCount()); q_widths.resize(columnCount()); q_heights.resize(rowCount()); q_descents.resize(rowCount()); q_columnData.calculateGeometries(0, columnCount(), size.width(), q_xx.data(), q_widths.data(), 0, q_totalBoxes[Hor]); q_rowData.calculateGeometries(0, rowCount(), size.height(), q_yy.data(), q_heights.data(), q_descents.data(), q_totalBoxes[Ver]); q_cachedSize = size; } QT_END_NAMESPACE #endif //QT_NO_GRAPHICSVIEW