/**************************************************************************** ** ** Copyright (C) 2009 Nokia Corporation and/or its subsidiary(-ies). ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the Qt Designer 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 "qdesigner_widgetitem_p.h" #include "qdesigner_widget_p.h" #include "widgetfactory_p.h" #include #include #include #include #include #include #include #include #include #include #include #include #include QT_BEGIN_NAMESPACE enum { DebugWidgetItem = 0 }; enum { MinimumLength = 10 }; // Widget item creation function to be registered as factory method with // QLayoutPrivate static QWidgetItem *createDesignerWidgetItem(const QLayout *layout, QWidget *widget) { Qt::Orientations orientations; if (qdesigner_internal::QDesignerWidgetItem::check(layout, widget, &orientations)) { if (DebugWidgetItem) qDebug() << "QDesignerWidgetItem: Creating on " << layout << widget << orientations; return new qdesigner_internal::QDesignerWidgetItem(layout, widget, orientations); } if (DebugWidgetItem) qDebug() << "QDesignerWidgetItem: Noncontainer: " << layout << widget; return 0; } static QString sizePolicyToString(const QSizePolicy &p) { QString rc; { QTextStream str(&rc); str << "Control=" << p.controlType() << " expdirs=" << p.expandingDirections() << " hasHeightForWidth=" << p.hasHeightForWidth() << " H: Policy=" << p.horizontalPolicy() << " stretch=" << p.horizontalStretch() << " V: Policy=" << p.verticalPolicy() << " stretch=" << p.verticalStretch(); } return rc; } // Find the layout the item is contained in, recursing over // child layouts static const QLayout *findLayoutOfItem(const QLayout *haystack, const QLayoutItem *needle) { const int count = haystack->count(); for (int i = 0; i < count; i++) { QLayoutItem *item = haystack->itemAt(i); if (item == needle) return haystack; if (QLayout *childLayout = item->layout()) if (const QLayout *containing = findLayoutOfItem(childLayout, needle)) return containing; } return 0; } namespace qdesigner_internal { // ------------------ QDesignerWidgetItem QDesignerWidgetItem::QDesignerWidgetItem(const QLayout *containingLayout, QWidget *w, Qt::Orientations o) : QWidgetItemV2(w), m_orientations(o), m_nonLaidOutMinSize(w->minimumSizeHint()), m_nonLaidOutSizeHint(w->sizeHint()), m_cachedContainingLayout(containingLayout) { // Initialize the minimum size to prevent nonlaid-out frames/widgets // from being slammed to zero const QSize minimumSize = w->minimumSize(); if (!minimumSize.isEmpty()) m_nonLaidOutMinSize = minimumSize; expand(&m_nonLaidOutMinSize); expand(&m_nonLaidOutSizeHint); w->installEventFilter(this); connect(containingLayout, SIGNAL(destroyed()), this, SLOT(layoutChanged())); if (DebugWidgetItem ) qDebug() << "QDesignerWidgetItem" << w << sizePolicyToString(w->sizePolicy()) << m_nonLaidOutMinSize << m_nonLaidOutSizeHint; } void QDesignerWidgetItem::expand(QSize *s) const { // Expand the size if its too small if (m_orientations & Qt::Horizontal && s->width() <= 0) s->setWidth(MinimumLength); if (m_orientations & Qt::Vertical && s->height() <= 0) s->setHeight(MinimumLength); } QSize QDesignerWidgetItem::minimumSize() const { // Just track the size in case we are laid-out or stretched. const QSize baseMinSize = QWidgetItemV2::minimumSize(); QWidget * w = constWidget(); if (w->layout() || subjectToStretch(containingLayout(), w)) { m_nonLaidOutMinSize = baseMinSize; return baseMinSize; } // Nonlaid out: Maintain last laid-out size const QSize rc = baseMinSize.expandedTo(m_nonLaidOutMinSize); if (DebugWidgetItem > 1) qDebug() << "minimumSize" << constWidget() << baseMinSize << rc; return rc; } QSize QDesignerWidgetItem::sizeHint() const { // Just track the size in case we are laid-out or stretched. const QSize baseSizeHint = QWidgetItemV2::sizeHint(); QWidget * w = constWidget(); if (w->layout() || subjectToStretch(containingLayout(), w)) { m_nonLaidOutSizeHint = baseSizeHint; return baseSizeHint; } // Nonlaid out: Maintain last laid-out size const QSize rc = baseSizeHint.expandedTo(m_nonLaidOutSizeHint); if (DebugWidgetItem > 1) qDebug() << "sizeHint" << constWidget() << baseSizeHint << rc; return rc; } bool QDesignerWidgetItem::subjectToStretch(const QLayout *layout, QWidget *w) { if (!layout) return false; // Are we under some stretch factor? if (const QBoxLayout *bl = qobject_cast(layout)) { const int index = bl->indexOf(w); Q_ASSERT(index != -1); return bl->stretch(index) != 0; } if (const QGridLayout *cgl = qobject_cast(layout)) { QGridLayout *gl = const_cast(cgl); const int index = cgl->indexOf(w); Q_ASSERT(index != -1); int row, column, rowSpan, columnSpan; gl->getItemPosition (index, &row, &column, &rowSpan, &columnSpan); const int rend = row + rowSpan; const int cend = column + columnSpan; for (int r = row; r < rend; r++) if (cgl->rowStretch(r) != 0) return true; for (int c = column; c < cend; c++) if (cgl->columnStretch(c) != 0) return true; } return false; } /* Return the orientations mask for a layout, specifying * in which directions squeezing should be prevented. */ static Qt::Orientations layoutOrientation(const QLayout *layout) { if (const QBoxLayout *bl = qobject_cast(layout)) { const QBoxLayout::Direction direction = bl->direction(); return direction == QBoxLayout::LeftToRight || direction == QBoxLayout::RightToLeft ? Qt::Horizontal : Qt::Vertical; } if (qobject_cast(layout)) return Qt::Vertical; return Qt::Horizontal|Qt::Vertical; } // Check for a non-container extension container bool QDesignerWidgetItem::isContainer(const QDesignerFormEditorInterface *core, QWidget *w) { if (!WidgetFactory::isFormEditorObject(w)) return false; const QDesignerWidgetDataBaseInterface *wdb = core->widgetDataBase(); const int widx = wdb->indexOfObject(w); if (widx == -1 || !wdb->item(widx)->isContainer()) return false; if (qt_extension(core->extensionManager(), w)) return false; return true; } bool QDesignerWidgetItem::check(const QLayout *layout, QWidget *w, Qt::Orientations *ptrToOrientations) { // Check for form-editor non-containerextension-containers (QFrame, etc) // within laid-out form editor widgets. No check for managed() here as we // want container pages and widgets in the process of being morphed as // well. Avoid nested layouts (as the effective stretch cannot be easily // computed and may mess things up). Won't work for Q3 Group boxes. if (ptrToOrientations) *ptrToOrientations = 0; const QObject *layoutParent = layout->parent(); if (!layoutParent || !layoutParent->isWidgetType() || !WidgetFactory::isFormEditorObject(layoutParent)) return false; QDesignerFormWindowInterface *fw = QDesignerFormWindowInterface::findFormWindow(w); if (!fw || !isContainer(fw->core(), w)) return false; // If it is a box, restrict to its orientation if (ptrToOrientations) *ptrToOrientations = layoutOrientation(layout); return true; } QSize QDesignerWidgetItem::nonLaidOutMinSize() const { return m_nonLaidOutMinSize; } void QDesignerWidgetItem::setNonLaidOutMinSize(const QSize &s) { if (DebugWidgetItem > 1) qDebug() << "setNonLaidOutMinSize" << constWidget() << s; m_nonLaidOutMinSize = s; } QSize QDesignerWidgetItem::nonLaidOutSizeHint() const { return m_nonLaidOutSizeHint; } void QDesignerWidgetItem::setNonLaidOutSizeHint(const QSize &s) { if (DebugWidgetItem > 1) qDebug() << "setNonLaidOutSizeHint" << constWidget() << s; m_nonLaidOutSizeHint = s; } void QDesignerWidgetItem::install() { QLayoutPrivate::widgetItemFactoryMethod = createDesignerWidgetItem; } void QDesignerWidgetItem::deinstall() { QLayoutPrivate::widgetItemFactoryMethod = 0; } const QLayout *QDesignerWidgetItem::containingLayout() const { if (!m_cachedContainingLayout) { if (QWidget *parentWidget = constWidget()->parentWidget()) if (QLayout *parentLayout = parentWidget->layout()) { m_cachedContainingLayout = findLayoutOfItem(parentLayout, this); if (m_cachedContainingLayout) connect(m_cachedContainingLayout, SIGNAL(destroyed()), this, SLOT(layoutChanged())); } if (DebugWidgetItem) qDebug() << Q_FUNC_INFO << " found " << m_cachedContainingLayout << " after reparenting " << constWidget(); } return m_cachedContainingLayout; } void QDesignerWidgetItem::layoutChanged() { if (DebugWidgetItem) qDebug() << Q_FUNC_INFO; m_cachedContainingLayout = 0; } bool QDesignerWidgetItem::eventFilter(QObject * /* watched */, QEvent *event) { if (event->type() == QEvent::ParentChange) layoutChanged(); return false; } // ------------------ QDesignerWidgetItemInstaller int QDesignerWidgetItemInstaller::m_instanceCount = 0; QDesignerWidgetItemInstaller::QDesignerWidgetItemInstaller() { if (m_instanceCount++ == 0) { if (DebugWidgetItem) qDebug() << "QDesignerWidgetItemInstaller: installing"; QDesignerWidgetItem::install(); } } QDesignerWidgetItemInstaller::~QDesignerWidgetItemInstaller() { if (--m_instanceCount == 0) { if (DebugWidgetItem) qDebug() << "QDesignerWidgetItemInstaller: deinstalling"; QDesignerWidgetItem::deinstall(); } } } QT_END_NAMESPACE