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These rights are described in The Qt Company LGPL Exception ** version 1.1, included in the file LGPL_EXCEPTION.txt in this package. ** ** GNU General Public License Usage ** Alternatively, this file may be used under the terms of the GNU ** General Public License version 3.0 as published by the Free Software ** Foundation and appearing in the file LICENSE.GPL included in the ** packaging of this file. Please review the following information to ** ensure the GNU General Public License version 3.0 requirements will be ** met: http://www.gnu.org/copyleft/gpl.html. ** ** $QT_END_LICENSE$ ** ****************************************************************************/ #include #include #include #include #include #include "qtoolbararealayout_p.h" #include "qmainwindowlayout_p.h" #include "qwidgetanimator_p.h" #include "qtoolbarlayout_p.h" #include "qtoolbar_p.h" /****************************************************************************** ** QToolBarAreaLayoutItem */ #ifndef QT_NO_TOOLBAR QT_BEGIN_NAMESPACE // qmainwindow.cpp extern QMainWindowLayout *qt_mainwindow_layout(const QMainWindow *mainWindow); QSize QToolBarAreaLayoutItem::minimumSize() const { if (skip()) return QSize(0, 0); return qSmartMinSize(static_cast(widgetItem)); } QSize QToolBarAreaLayoutItem::sizeHint() const { if (skip()) return QSize(0, 0); return realSizeHint(); } //returns the real size hint not taking into account the visibility of the widget QSize QToolBarAreaLayoutItem::realSizeHint() const { QWidget *wid = widgetItem->widget(); QSize s = wid->sizeHint().expandedTo(wid->minimumSizeHint()); if (wid->sizePolicy().horizontalPolicy() == QSizePolicy::Ignored) s.setWidth(0); if (wid->sizePolicy().verticalPolicy() == QSizePolicy::Ignored) s.setHeight(0); s = s.boundedTo(wid->maximumSize()) .expandedTo(wid->minimumSize()); return s; } bool QToolBarAreaLayoutItem::skip() const { if (gap) return false; return widgetItem == 0 || widgetItem->isEmpty(); } /****************************************************************************** ** QToolBarAreaLayoutLine */ QToolBarAreaLayoutLine::QToolBarAreaLayoutLine(Qt::Orientation orientation) : o(orientation) { } QSize QToolBarAreaLayoutLine::sizeHint() const { int a = 0, b = 0; for (int i = 0; i < toolBarItems.count(); ++i) { const QToolBarAreaLayoutItem &item = toolBarItems.at(i); if (item.skip()) continue; QSize sh = item.sizeHint(); a += item.preferredSize > 0 ? item.preferredSize : pick(o, sh); b = qMax(b, perp(o, sh)); } QSize result; rpick(o, result) = a; rperp(o, result) = b; return result; } QSize QToolBarAreaLayoutLine::minimumSize() const { int a = 0, b = 0; for (int i = 0; i < toolBarItems.count(); ++i) { const QToolBarAreaLayoutItem &item = toolBarItems[i]; if (item.skip()) continue; QSize ms = item.minimumSize(); a += pick(o, ms); b = qMax(b, perp(o, ms)); } QSize result; rpick(o, result) = a; rperp(o, result) = b; return result; } void QToolBarAreaLayoutLine::fitLayout() { int last = -1; int min = pick(o, minimumSize()); int space = pick(o, rect.size()); int extra = qMax(0, space - min); for (int i = 0; i < toolBarItems.count(); ++i) { QToolBarAreaLayoutItem &item = toolBarItems[i]; if (item.skip()) continue; if (QToolBarLayout *tblayout = qobject_cast(item.widgetItem->widget()->layout())) tblayout->checkUsePopupMenu(); const int itemMin = pick(o, item.minimumSize()); //preferredSize is the default if it is set, otherwise, we take the sizehint item.size = item.preferredSize > 0 ? item.preferredSize : pick(o, item.sizeHint()); //the extraspace is the space above the item minimum sizehint const int extraSpace = qMin(item.size - itemMin, extra); item.size = itemMin + extraSpace; //that is the real size extra -= extraSpace; last = i; } // calculate the positions from the sizes int pos = 0; for (int i = 0; i < toolBarItems.count(); ++i) { QToolBarAreaLayoutItem &item = toolBarItems[i]; if (item.skip()) continue; item.pos = pos; if (i == last) // stretch the last item to the end of the line item.size = qMax(0, pick(o, rect.size()) - item.pos); pos += item.size; } } bool QToolBarAreaLayoutLine::skip() const { for (int i = 0; i < toolBarItems.count(); ++i) { if (!toolBarItems.at(i).skip()) return false; } return true; } /****************************************************************************** ** QToolBarAreaLayoutInfo */ QToolBarAreaLayoutInfo::QToolBarAreaLayoutInfo(QInternal::DockPosition pos) : dockPos(pos), dirty(false) { switch (pos) { case QInternal::LeftDock: case QInternal::RightDock: o = Qt::Vertical; break; case QInternal::TopDock: case QInternal::BottomDock: o = Qt::Horizontal; break; default: o = Qt::Horizontal; break; } } QSize QToolBarAreaLayoutInfo::sizeHint() const { int a = 0, b = 0; for (int i = 0; i < lines.count(); ++i) { const QToolBarAreaLayoutLine &l = lines.at(i); if (l.skip()) continue; QSize hint = l.sizeHint(); a = qMax(a, pick(o, hint)); b += perp(o, hint); } QSize result; rpick(o, result) = a; rperp(o, result) = b; return result; } QSize QToolBarAreaLayoutInfo::minimumSize() const { int a = 0, b = 0; for (int i = 0; i < lines.count(); ++i) { const QToolBarAreaLayoutLine &l = lines.at(i); if (l.skip()) continue; QSize m = l.minimumSize(); a = qMax(a, pick(o, m)); b += perp(o, m); } QSize result; rpick(o, result) = a; rperp(o, result) = b; return result; } void QToolBarAreaLayoutInfo::fitLayout() { dirty = false; int b = 0; bool reverse = dockPos == QInternal::RightDock || dockPos == QInternal::BottomDock; int i = reverse ? lines.count() - 1 : 0; for (;;) { if ((reverse && i < 0) || (!reverse && i == lines.count())) break; QToolBarAreaLayoutLine &l = lines[i]; if (!l.skip()) { if (o == Qt::Horizontal) { l.rect.setLeft(rect.left()); l.rect.setRight(rect.right()); l.rect.setTop(b + rect.top()); b += l.sizeHint().height(); l.rect.setBottom(b - 1 + rect.top()); } else { l.rect.setTop(rect.top()); l.rect.setBottom(rect.bottom()); l.rect.setLeft(b + rect.left()); b += l.sizeHint().width(); l.rect.setRight(b - 1 + rect.left()); } l.fitLayout(); } i += reverse ? -1 : 1; } } QLayoutItem *QToolBarAreaLayoutInfo::insertToolBar(QToolBar *before, QToolBar *toolBar) { toolBar->setOrientation(o); QLayoutItem *item = new QWidgetItemV2(toolBar); insertItem(before, item); return item; } void QToolBarAreaLayoutInfo::insertItem(QToolBar *before, QLayoutItem *item) { if (before == 0) { if (lines.isEmpty()) lines.append(QToolBarAreaLayoutLine(o)); lines.last().toolBarItems.append(item); return; } for (int j = 0; j < lines.count(); ++j) { QToolBarAreaLayoutLine &line = lines[j]; for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == before) { line.toolBarItems.insert(k, item); return; } } } } void QToolBarAreaLayoutInfo::removeToolBar(QToolBar *toolBar) { for (int j = 0; j < lines.count(); ++j) { QToolBarAreaLayoutLine &line = lines[j]; for (int k = 0; k < line.toolBarItems.count(); ++k) { QToolBarAreaLayoutItem &item = line.toolBarItems[k]; if (item.widgetItem->widget() == toolBar) { delete item.widgetItem; item.widgetItem = 0; line.toolBarItems.removeAt(k); if (line.toolBarItems.isEmpty() && j < lines.count() - 1) lines.removeAt(j); return; } } } } void QToolBarAreaLayoutInfo::insertToolBarBreak(QToolBar *before) { if (before == 0) { if (!lines.isEmpty() && lines.last().toolBarItems.isEmpty()) return; lines.append(QToolBarAreaLayoutLine(o)); return; } for (int j = 0; j < lines.count(); ++j) { QToolBarAreaLayoutLine &line = lines[j]; for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == before) { if (k == 0) return; QToolBarAreaLayoutLine newLine(o); newLine.toolBarItems = line.toolBarItems.mid(k); line.toolBarItems = line.toolBarItems.mid(0, k); lines.insert(j + 1, newLine); return; } } } } void QToolBarAreaLayoutInfo::removeToolBarBreak(QToolBar *before) { for (int j = 0; j < lines.count(); ++j) { const QToolBarAreaLayoutLine &line = lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == before) { if (k != 0) return; if (j == 0) return; lines[j - 1].toolBarItems += lines[j].toolBarItems; lines.removeAt(j); return; } } } } void QToolBarAreaLayoutInfo::moveToolBar(QToolBar *toolbar, int pos) { if (dirty) fitLayout(); dirty = true; if (o == Qt::Vertical) pos -= rect.top(); //here we actually update the preferredSize for the line containing the toolbar so that we move it for (int j = 0; j < lines.count(); ++j) { QToolBarAreaLayoutLine &line = lines[j]; int previousIndex = -1; int minPos = 0; for (int k = 0; k < line.toolBarItems.count(); ++k) { QToolBarAreaLayoutItem ¤t = line.toolBarItems[k]; if (current.widgetItem->widget() == toolbar) { int newPos = current.pos; if (previousIndex >= 0) { QToolBarAreaLayoutItem &previous = line.toolBarItems[previousIndex]; if (pos < current.pos) { newPos = qMax(pos, minPos); } else { //we check the max value for the position (until everything at the right is "compressed") int maxPos = pick(o, rect.size()); for(int l = k; l < line.toolBarItems.count(); ++l) { const QToolBarAreaLayoutItem &item = line.toolBarItems.at(l); if (!item.skip()) { maxPos -= pick(o, item.minimumSize()); } } newPos = qMin(pos, maxPos); } //extra is the number of pixels to add to the previous toolbar int extra = newPos - current.pos; //we check if the previous is near its size hint //in which case we try to stick to it const int diff = pick(o, previous.sizeHint()) - (previous.size + extra); if (qAbs(diff) < QApplication::startDragDistance()) { //we stick to the default place and size extra += diff; } //update for the current item current.extendSize(line.o, -extra); if (extra >= 0) { previous.extendSize(line.o, extra); } else { //we need to push the toolbars on the left starting with previous extra = -extra; // we just need to know the number of pixels ///at this point we need to get extra pixels from the toolbars at the left for(int l = previousIndex; l >=0; --l) { QToolBarAreaLayoutItem &item = line.toolBarItems[l]; if (!item.skip()) { const int minPreferredSize = pick(o, item.minimumSize()); const int margin = item.size - minPreferredSize; if (margin < extra) { item.resize(line.o, minPreferredSize); extra -= margin; } else { item.extendSize(line.o, -extra); extra = 0; } } } Q_ASSERT(extra == 0); } } else { //the item is the first one, it should be at position 0 } return; } else if (!current.skip()) { previousIndex = k; minPos += pick(o, current.minimumSize()); } } } } QList QToolBarAreaLayoutInfo::gapIndex(const QPoint &pos, int *minDistance) const { int p = pick(o, pos); if (rect.contains(pos)) { for (int j = 0; j < lines.count(); ++j) { const QToolBarAreaLayoutLine &line = lines.at(j); if (line.skip()) continue; if (!line.rect.contains(pos)) continue; int k = 0; for (; k < line.toolBarItems.count(); ++k) { const QToolBarAreaLayoutItem &item = line.toolBarItems.at(k); if (item.skip()) continue; int size = qMin(item.size, pick(o, item.sizeHint())); if (p > item.pos + size) continue; if (p > item.pos + size/2) ++k; break; } QList result; result << j << k; *minDistance = 0; //we found a perfect match return result; } } else { const int dist = distance(pos); //it will only return a path if the minDistance is higher than the current distance if (dist >= 0 && *minDistance > dist) { *minDistance = dist; QList result; result << lines.count() << 0; return result; } } return QList(); } bool QToolBarAreaLayoutInfo::insertGap(const QList &path, QLayoutItem *item) { Q_ASSERT(path.count() == 2); int j = path.first(); if (j == lines.count()) lines.append(QToolBarAreaLayoutLine(o)); QToolBarAreaLayoutLine &line = lines[j]; const int k = path.at(1); QToolBarAreaLayoutItem gap_item; gap_item.gap = true; gap_item.widgetItem = item; //update the previous item's preferred size for(int p = k - 1 ; p >= 0; --p) { QToolBarAreaLayoutItem &previous = line.toolBarItems[p]; if (!previous.skip()) { //we found the previous one int previousSizeHint = pick(line.o, previous.sizeHint()); int previousExtraSpace = previous.size - previousSizeHint; if (previousExtraSpace > 0) { //in this case we reset the space previous.preferredSize = -1; previous.size = previousSizeHint; gap_item.resize(o, previousExtraSpace); } break; } } line.toolBarItems.insert(k, gap_item); return true; } void QToolBarAreaLayoutInfo::clear() { lines.clear(); rect = QRect(); } QRect QToolBarAreaLayoutInfo::itemRect(const QList &path) const { Q_ASSERT(path.count() == 2); int j = path.at(0); int k = path.at(1); const QToolBarAreaLayoutLine &line = lines.at(j); const QToolBarAreaLayoutItem &item = line.toolBarItems.at(k); QRect result = line.rect; if (o == Qt::Horizontal) { result.setLeft(item.pos + line.rect.left()); result.setWidth(item.size); } else { result.setTop(item.pos + line.rect.top()); result.setHeight(item.size); } return result; } int QToolBarAreaLayoutInfo::distance(const QPoint &pos) const { switch (dockPos) { case QInternal::LeftDock: if (pos.y() < rect.bottom()) return pos.x() - rect.right(); case QInternal::RightDock: if (pos.y() < rect.bottom()) return rect.left() - pos.x(); case QInternal::TopDock: if (pos.x() < rect.right()) return pos.y() - rect.bottom(); case QInternal::BottomDock: if (pos.x() < rect.right()) return rect.top() - pos.y(); default: break; } return -1; } /****************************************************************************** ** QToolBarAreaLayout */ QToolBarAreaLayout::QToolBarAreaLayout(const QMainWindow *win) : mainWindow(win), visible(true) { for (int i = 0; i < QInternal::DockCount; ++i) { QInternal::DockPosition pos = static_cast(i); docks[i] = QToolBarAreaLayoutInfo(pos); } } QRect QToolBarAreaLayout::fitLayout() { if (!visible) return rect; QSize left_hint = docks[QInternal::LeftDock].sizeHint(); QSize right_hint = docks[QInternal::RightDock].sizeHint(); QSize top_hint = docks[QInternal::TopDock].sizeHint(); QSize bottom_hint = docks[QInternal::BottomDock].sizeHint(); QRect center = rect.adjusted(left_hint.width(), top_hint.height(), -right_hint.width(), -bottom_hint.height()); docks[QInternal::TopDock].rect = QRect(rect.left(), rect.top(), rect.width(), top_hint.height()); docks[QInternal::LeftDock].rect = QRect(rect.left(), center.top(), left_hint.width(), center.height()); docks[QInternal::RightDock].rect = QRect(center.right() + 1, center.top(), right_hint.width(), center.height()); docks[QInternal::BottomDock].rect = QRect(rect.left(), center.bottom() + 1, rect.width(), bottom_hint.height()); if (!mainWindow->unifiedTitleAndToolBarOnMac()) { docks[QInternal::TopDock].fitLayout(); } docks[QInternal::LeftDock].fitLayout(); docks[QInternal::RightDock].fitLayout(); docks[QInternal::BottomDock].fitLayout(); return center; } QSize QToolBarAreaLayout::minimumSize(const QSize ¢erMin) const { if (!visible) return centerMin; QSize result = centerMin; QSize left_min = docks[QInternal::LeftDock].minimumSize(); QSize right_min = docks[QInternal::RightDock].minimumSize(); QSize top_min = docks[QInternal::TopDock].minimumSize(); QSize bottom_min = docks[QInternal::BottomDock].minimumSize(); result.setWidth(qMax(top_min.width(), result.width())); result.setWidth(qMax(bottom_min.width(), result.width())); result.setHeight(qMax(left_min.height(), result.height())); result.setHeight(qMax(right_min.height(), result.height())); result.rwidth() += left_min.width() + right_min.width(); result.rheight() += top_min.height() + bottom_min.height(); return result; } QSize QToolBarAreaLayout::sizeHint(const QSize ¢erHint) const { if (!visible) return centerHint; QSize result = centerHint; QSize left_hint = docks[QInternal::LeftDock].sizeHint(); QSize right_hint = docks[QInternal::RightDock].sizeHint(); QSize top_hint = docks[QInternal::TopDock].sizeHint(); QSize bottom_hint = docks[QInternal::BottomDock].sizeHint(); result.setWidth(qMax(top_hint.width(), result.width())); result.setWidth(qMax(bottom_hint.width(), result.width())); result.setHeight(qMax(left_hint.height(), result.height())); result.setHeight(qMax(right_hint.height(), result.height())); result.rwidth() += left_hint.width() + right_hint.width(); result.rheight() += top_hint.height() + bottom_hint.height(); return result; } QRect QToolBarAreaLayout::rectHint(const QRect &r) const { int coef = visible ? 1 : -1; QRect result = r; QSize left_hint = docks[QInternal::LeftDock].sizeHint(); QSize right_hint = docks[QInternal::RightDock].sizeHint(); QSize top_hint = docks[QInternal::TopDock].sizeHint(); QSize bottom_hint = docks[QInternal::BottomDock].sizeHint(); result.adjust(-left_hint.width()*coef, -top_hint.height()*coef, right_hint.width()*coef, bottom_hint.height()*coef); return result; } QLayoutItem *QToolBarAreaLayout::itemAt(int *x, int index) const { Q_ASSERT(x != 0); for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { if ((*x)++ == index) return line.toolBarItems.at(k).widgetItem; } } } return 0; } QLayoutItem *QToolBarAreaLayout::takeAt(int *x, int index) { Q_ASSERT(x != 0); for (int i = 0; i < QInternal::DockCount; ++i) { QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { QToolBarAreaLayoutLine &line = dock.lines[j]; for (int k = 0; k < line.toolBarItems.count(); ++k) { if ((*x)++ == index) { QLayoutItem *result = line.toolBarItems.takeAt(k).widgetItem; if (line.toolBarItems.isEmpty()) dock.lines.removeAt(j); return result; } } } } return 0; } void QToolBarAreaLayout::deleteAllLayoutItems() { for (int i = 0; i < QInternal::DockCount; ++i) { QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { QToolBarAreaLayoutLine &line = dock.lines[j]; for (int k = 0; k < line.toolBarItems.count(); ++k) { QToolBarAreaLayoutItem &item = line.toolBarItems[k]; if (!item.gap) delete item.widgetItem; item.widgetItem = 0; } } } } QInternal::DockPosition QToolBarAreaLayout::findToolBar(QToolBar *toolBar) const { for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == toolBar) return static_cast(i); } } } return QInternal::DockCount; } QLayoutItem *QToolBarAreaLayout::insertToolBar(QToolBar *before, QToolBar *toolBar) { QInternal::DockPosition pos = findToolBar(before); if (pos == QInternal::DockCount) return 0; return docks[pos].insertToolBar(before, toolBar); } void QToolBarAreaLayout::removeToolBar(QToolBar *toolBar) { QInternal::DockPosition pos = findToolBar(toolBar); if (pos == QInternal::DockCount) return; docks[pos].removeToolBar(toolBar); } QLayoutItem *QToolBarAreaLayout::addToolBar(QInternal::DockPosition pos, QToolBar *toolBar) { return docks[pos].insertToolBar(0, toolBar); } void QToolBarAreaLayout::insertToolBarBreak(QToolBar *before) { QInternal::DockPosition pos = findToolBar(before); if (pos == QInternal::DockCount) return; docks[pos].insertToolBarBreak(before); } void QToolBarAreaLayout::removeToolBarBreak(QToolBar *before) { QInternal::DockPosition pos = findToolBar(before); if (pos == QInternal::DockCount) return; docks[pos].removeToolBarBreak(before); } void QToolBarAreaLayout::addToolBarBreak(QInternal::DockPosition pos) { docks[pos].insertToolBarBreak(0); } void QToolBarAreaLayout::moveToolBar(QToolBar *toolbar, int p) { QInternal::DockPosition pos = findToolBar(toolbar); if (pos == QInternal::DockCount) return; docks[pos].moveToolBar(toolbar, p); } void QToolBarAreaLayout::insertItem(QInternal::DockPosition pos, QLayoutItem *item) { if (docks[pos].lines.isEmpty()) docks[pos].lines.append(QToolBarAreaLayoutLine(docks[pos].o)); docks[pos].lines.last().toolBarItems.append(item); } void QToolBarAreaLayout::insertItem(QToolBar *before, QLayoutItem *item) { QInternal::DockPosition pos = findToolBar(before); if (pos == QInternal::DockCount) return; docks[pos].insertItem(before, item); } void QToolBarAreaLayout::apply(bool animate) { QMainWindowLayout *layout = qt_mainwindow_layout(mainWindow); Q_ASSERT(layout != 0); Qt::LayoutDirection dir = mainWindow->layoutDirection(); for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); if (line.skip()) continue; for (int k = 0; k < line.toolBarItems.count(); ++k) { const QToolBarAreaLayoutItem &item = line.toolBarItems.at(k); if (item.skip() || item.gap) continue; QRect geo; if (visible) { if (line.o == Qt::Horizontal) { geo.setTop(line.rect.top()); geo.setBottom(line.rect.bottom()); geo.setLeft(line.rect.left() + item.pos); geo.setRight(line.rect.left() + item.pos + item.size - 1); } else { geo.setLeft(line.rect.left()); geo.setRight(line.rect.right()); geo.setTop(line.rect.top() + item.pos); geo.setBottom(line.rect.top() + item.pos + item.size - 1); } } QWidget *widget = item.widgetItem->widget(); if (QToolBar *toolBar = qobject_cast(widget)) { QToolBarLayout *tbl = qobject_cast(toolBar->layout()); if (tbl->expanded) { QPoint tr = geo.topRight(); QSize size = tbl->expandedSize(geo.size()); geo.setSize(size); geo.moveTopRight(tr); if (geo.bottom() > rect.bottom()) geo.moveBottom(rect.bottom()); if (geo.right() > rect.right()) geo.moveRight(rect.right()); if (geo.left() < 0) geo.moveLeft(0); if (geo.top() < 0) geo.moveTop(0); } } if (visible && dock.o == Qt::Horizontal) geo = QStyle::visualRect(dir, line.rect, geo); layout->widgetAnimator.animate(widget, geo, animate); } } } } bool QToolBarAreaLayout::toolBarBreak(QToolBar *toolBar) const { for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == toolBar) return j > 0 && k == 0; } } } return false; } void QToolBarAreaLayout::getStyleOptionInfo(QStyleOptionToolBar *option, QToolBar *toolBar) const { for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { if (line.toolBarItems.at(k).widgetItem->widget() == toolBar) { if (line.toolBarItems.count() == 1) option->positionWithinLine = QStyleOptionToolBar::OnlyOne; else if (k == 0) option->positionWithinLine = QStyleOptionToolBar::Beginning; else if (k == line.toolBarItems.count() - 1) option->positionWithinLine = QStyleOptionToolBar::End; else option->positionWithinLine = QStyleOptionToolBar::Middle; if (dock.lines.count() == 1) option->positionOfLine = QStyleOptionToolBar::OnlyOne; else if (j == 0) option->positionOfLine = QStyleOptionToolBar::Beginning; else if (j == dock.lines.count() - 1) option->positionOfLine = QStyleOptionToolBar::End; else option->positionOfLine = QStyleOptionToolBar::Middle; return; } } } } } QList QToolBarAreaLayout::indexOf(QWidget *toolBar) const { QList result; bool found = false; for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); for (int k = 0; k < line.toolBarItems.count(); ++k) { const QToolBarAreaLayoutItem &item = line.toolBarItems.at(k); if (!item.gap && item.widgetItem->widget() == toolBar) { found = true; result.prepend(k); break; } } if (found) { result.prepend(j); break; } } if (found) { result.prepend(i); break; } } return result; } //this functions returns the path to the possible gapindex for the position pos QList QToolBarAreaLayout::gapIndex(const QPoint &pos) const { Qt::LayoutDirection dir = mainWindow->layoutDirection(); int minDistance = 80; // when a dock area is empty, how "wide" is it? QList ret; //return value for (int i = 0; i < QInternal::DockCount; ++i) { QPoint p = pos; if (docks[i].o == Qt::Horizontal) p = QStyle::visualPos(dir, docks[i].rect, p); QList result = docks[i].gapIndex(p, &minDistance); if (!result.isEmpty()) { result.prepend(i); ret = result; } } return ret; } QList QToolBarAreaLayout::currentGapIndex() const { for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines[j]; for (int k = 0; k < line.toolBarItems.count(); k++) { if (line.toolBarItems[k].gap) { QList result; result << i << j << k; return result; } } } } return QList(); } bool QToolBarAreaLayout::insertGap(const QList &path, QLayoutItem *item) { Q_ASSERT(path.count() == 3); const int i = path.first(); Q_ASSERT(i >= 0 && i < QInternal::DockCount); return docks[i].insertGap(path.mid(1), item); } void QToolBarAreaLayout::remove(const QList &path) { Q_ASSERT(path.count() == 3); docks[path.at(0)].lines[path.at(1)].toolBarItems.removeAt(path.at(2)); } void QToolBarAreaLayout::remove(QLayoutItem *item) { for (int i = 0; i < QInternal::DockCount; ++i) { QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { QToolBarAreaLayoutLine &line = dock.lines[j]; for (int k = 0; k < line.toolBarItems.count(); k++) { if (line.toolBarItems[k].widgetItem == item) { line.toolBarItems.removeAt(k); if (line.toolBarItems.isEmpty()) dock.lines.removeAt(j); return; } } } } } void QToolBarAreaLayout::clear() { for (int i = 0; i < QInternal::DockCount; ++i) docks[i].clear(); rect = QRect(); } QToolBarAreaLayoutItem *QToolBarAreaLayout::item(const QList &path) { Q_ASSERT(path.count() == 3); if (path.at(0) < 0 || path.at(0) >= QInternal::DockCount) return 0; QToolBarAreaLayoutInfo &info = docks[path.at(0)]; if (path.at(1) < 0 || path.at(1) >= info.lines.count()) return 0; QToolBarAreaLayoutLine &line = info.lines[path.at(1)]; if (path.at(2) < 0 || path.at(2) >= line.toolBarItems.count()) return 0; return &(line.toolBarItems[path.at(2)]); } QRect QToolBarAreaLayout::itemRect(const QList &path) const { const int i = path.first(); QRect r = docks[i].itemRect(path.mid(1)); if (docks[i].o == Qt::Horizontal) r = QStyle::visualRect(mainWindow->layoutDirection(), docks[i].rect, r); return r; } QLayoutItem *QToolBarAreaLayout::plug(const QList &path) { QToolBarAreaLayoutItem *item = this->item(path); if (!item) { qWarning() << Q_FUNC_INFO << "No item at" << path; return 0; } Q_ASSERT(item->gap); Q_ASSERT(item->widgetItem != 0); item->gap = false; return item->widgetItem; } QLayoutItem *QToolBarAreaLayout::unplug(const QList &path, QToolBarAreaLayout *other) { //other needs to be update as well Q_ASSERT(path.count() == 3); QToolBarAreaLayoutItem *item = this->item(path); Q_ASSERT(item); //update the leading space here QToolBarAreaLayoutInfo &info = docks[path.at(0)]; QToolBarAreaLayoutLine &line = info.lines[path.at(1)]; if (item->size != pick(line.o, item->realSizeHint())) { //the item doesn't have its default size //so we'll give this to the next item int newExtraSpace = 0; //let's iterate over the siblings of the current item that pare placed before it //we need to find just the one before for (int i = path.at(2) - 1; i >= 0; --i) { QToolBarAreaLayoutItem &previous = line.toolBarItems[i]; if (!previous.skip()) { //we need to check if it has a previous element and a next one //the previous will get its size changed for (int j = path.at(2) + 1; j < line.toolBarItems.count(); ++j) { const QToolBarAreaLayoutItem &next = line.toolBarItems.at(j); if (!next.skip()) { newExtraSpace = next.pos - previous.pos - pick(line.o, previous.sizeHint()); previous.resize(line.o, next.pos - previous.pos); break; } } break; } } if (other) { QToolBarAreaLayoutInfo &info = other->docks[path.at(0)]; QToolBarAreaLayoutLine &line = info.lines[path.at(1)]; for (int i = path.at(2) - 1; i >= 0; --i) { QToolBarAreaLayoutItem &previous = line.toolBarItems[i]; if (!previous.skip()) { previous.resize(line.o, pick(line.o, previous.sizeHint()) + newExtraSpace); break; } } } } Q_ASSERT(!item->gap); item->gap = true; return item->widgetItem; } static QRect unpackRect(uint geom0, uint geom1, bool *floating) { *floating = geom0 & 1; if (!*floating) return QRect(); geom0 >>= 1; int x = (int)(geom0 & 0x0000ffff) - 0x7FFF; int y = (int)(geom1 & 0x0000ffff) - 0x7FFF; geom0 >>= 16; geom1 >>= 16; int w = geom0 & 0x0000ffff; int h = geom1 & 0x0000ffff; return QRect(x, y, w, h); } static void packRect(uint *geom0, uint *geom1, const QRect &rect, bool floating) { *geom0 = 0; *geom1 = 0; if (!floating) return; // The 0x7FFF is half of 0xFFFF. We add it so we can handle negative coordinates on // dual monitors. It's subtracted when unpacking. *geom0 |= qMax(0, rect.width()) & 0x0000ffff; *geom1 |= qMax(0, rect.height()) & 0x0000ffff; *geom0 <<= 16; *geom1 <<= 16; *geom0 |= qMax(0, rect.x() + 0x7FFF) & 0x0000ffff; *geom1 |= qMax(0, rect.y() + 0x7FFF) & 0x0000ffff; // yeah, we chop one bit off the width, but it still has a range up to 32512 *geom0 <<= 1; *geom0 |= 1; } void QToolBarAreaLayout::saveState(QDataStream &stream) const { // save toolbar state stream << (uchar) ToolBarStateMarkerEx; int lineCount = 0; for (int i = 0; i < QInternal::DockCount; ++i) lineCount += docks[i].lines.count(); stream << lineCount; for (int i = 0; i < QInternal::DockCount; ++i) { const QToolBarAreaLayoutInfo &dock = docks[i]; for (int j = 0; j < dock.lines.count(); ++j) { const QToolBarAreaLayoutLine &line = dock.lines.at(j); stream << i << line.toolBarItems.count(); for (int k = 0; k < line.toolBarItems.count(); ++k) { const QToolBarAreaLayoutItem &item = line.toolBarItems.at(k); QWidget *widget = const_cast(item.widgetItem)->widget(); QString objectName = widget->objectName(); if (objectName.isEmpty()) { qWarning("QMainWindow::saveState(): 'objectName' not set for QToolBar %p '%s'", widget, widget->windowTitle().toLocal8Bit().constData()); } stream << objectName; // we store information as: // 1st bit: 1 if shown // 2nd bit: 1 if orientation is vertical (default is horizontal) uchar shownOrientation = (uchar)!widget->isHidden(); if (QToolBar * tb= qobject_cast(widget)) { if (tb->orientation() == Qt::Vertical) shownOrientation |= 2; } stream << shownOrientation; stream << item.pos; //we store the preferred size. If the use rdidn't resize the toolbars it will be -1 stream << item.preferredSize; uint geom0, geom1; packRect(&geom0, &geom1, widget->geometry(), widget->isWindow()); stream << geom0 << geom1; } } } } static inline int getInt(QDataStream &stream, Qt::Orientation o, bool pre43) { if (pre43) { QPoint p; stream >> p; return pick(o, p); } else { int x; stream >> x; return x; } } bool QToolBarAreaLayout::restoreState(QDataStream &stream, const QList &_toolBars, uchar tmarker, bool pre43, bool testing) { QList toolBars = _toolBars; int lines; stream >> lines; if (!testing) testing = mainWindow->unifiedTitleAndToolBarOnMac(); for (int j = 0; j < lines; ++j) { int pos; stream >> pos; if (pos < 0 || pos >= QInternal::DockCount) return false; int cnt; stream >> cnt; QToolBarAreaLayoutInfo &dock = docks[pos]; const bool applyingLayout = !testing && !(pos == QInternal::TopDock && mainWindow->unifiedTitleAndToolBarOnMac()); QToolBarAreaLayoutLine line(dock.o); for (int k = 0; k < cnt; ++k) { QToolBarAreaLayoutItem item; QString objectName; stream >> objectName; uchar shown; stream >> shown; item.pos = getInt(stream, dock.o, pre43); item.size = getInt(stream, dock.o, pre43); /* 4.3.0 added floating toolbars, but failed to add the ability to restore them. We need to store there geometry (four ints). We cannot change the format in a patch release (4.3.1) by adding ToolBarStateMarkerEx2 to signal extra data. So for now we'll pack it in the two legacy ints we no longer used in Qt4.3.0. In 4.4, we should add ToolBarStateMarkerEx2 and fix this properly. */ QRect rect; bool floating = false; uint geom0, geom1; geom0 = getInt(stream, dock.o, pre43); if (tmarker == ToolBarStateMarkerEx) { geom1 = getInt(stream, dock.o, pre43); rect = unpackRect(geom0, geom1, &floating); } QToolBar *toolBar = 0; for (int x = 0; x < toolBars.count(); ++x) { if (toolBars.at(x)->objectName() == objectName) { toolBar = toolBars.takeAt(x); break; } } if (toolBar == 0) { continue; } if (applyingLayout) { item.widgetItem = new QWidgetItemV2(toolBar); toolBar->setOrientation(floating ? ((shown & 2) ? Qt::Vertical : Qt::Horizontal) : dock.o); toolBar->setVisible(shown & 1); toolBar->d_func()->setWindowState(floating, true, rect); item.preferredSize = item.size; line.toolBarItems.append(item); } } if (applyingLayout) { dock.lines.append(line); } } return stream.status() == QDataStream::Ok; } bool QToolBarAreaLayout::isEmpty() const { for (int i = 0; i < QInternal::DockCount; ++i) { if (!docks[i].lines.isEmpty()) return false; } return true; } QT_END_NAMESPACE #endif // QT_NO_TOOLBAR