/**************************************************************************** ** ** Copyright (C) 2010 Nokia Corporation and/or its subsidiary(-ies). ** All rights reserved. ** Contact: Nokia Corporation (qt-info@nokia.com) ** ** This file is part of the QtDeclarative 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 "private/qdeclarativelistview_p.h" #include "private/qdeclarativeflickable_p_p.h" #include "private/qdeclarativevisualitemmodel_p.h" #include "private/qdeclarativesmoothedanimation_p_p.h" #include #include #include #include #include QT_BEGIN_NAMESPACE void QDeclarativeViewSection::setProperty(const QString &property) { if (property != m_property) { m_property = property; emit changed(); } } void QDeclarativeViewSection::setCriteria(QDeclarativeViewSection::SectionCriteria criteria) { if (criteria != m_criteria) { m_criteria = criteria; emit changed(); } } void QDeclarativeViewSection::setDelegate(QDeclarativeComponent *delegate) { if (delegate != m_delegate) { m_delegate = delegate; emit delegateChanged(); } } QString QDeclarativeViewSection::sectionString(const QString &value) { if (m_criteria == FirstCharacter) return value.isEmpty() ? QString() : value.at(0); else return value; } //---------------------------------------------------------------------------- class FxListItem { public: FxListItem(QDeclarativeItem *i, QDeclarativeListView *v) : item(i), section(0), view(v) { attached = static_cast(qmlAttachedPropertiesObject(item)); if (attached) attached->m_view = view; } ~FxListItem() {} qreal position() const { if (section) return (view->orientation() == QDeclarativeListView::Vertical ? section->y() : section->x()); else return (view->orientation() == QDeclarativeListView::Vertical ? item->y() : item->x()); } int size() const { if (section) return (view->orientation() == QDeclarativeListView::Vertical ? item->height()+section->height() : item->width()+section->height()); else return (view->orientation() == QDeclarativeListView::Vertical ? item->height() : item->width()); } qreal endPosition() const { return (view->orientation() == QDeclarativeListView::Vertical ? item->y() + (item->height() > 0 ? item->height() : 1) : item->x() + (item->width() > 0 ? item->width() : 1)) - 1; } void setPosition(qreal pos) { if (view->orientation() == QDeclarativeListView::Vertical) { if (section) { section->setY(pos); pos += section->height(); } item->setY(pos); } else { if (section) { section->setX(pos); pos += section->width(); } item->setX(pos); } } bool contains(int x, int y) const { return (x >= item->x() && x < item->x() + item->width() && y >= item->y() && y < item->y() + item->height()); } QDeclarativeItem *item; QDeclarativeItem *section; QDeclarativeListView *view; QDeclarativeListViewAttached *attached; int index; }; //---------------------------------------------------------------------------- class QDeclarativeListViewPrivate : public QDeclarativeFlickablePrivate { Q_DECLARE_PUBLIC(QDeclarativeListView) public: QDeclarativeListViewPrivate() : currentItem(0), orient(QDeclarativeListView::Vertical) , visiblePos(0), visibleIndex(0) , averageSize(100.0), currentIndex(-1), requestedIndex(-1) , highlightRangeStart(0), highlightRangeEnd(0) , highlightComponent(0), highlight(0), trackedItem(0) , moveReason(Other), buffer(0), highlightPosAnimator(0), highlightSizeAnimator(0) , sectionCriteria(0), spacing(0.0) , highlightMoveSpeed(400), highlightResizeSpeed(400), highlightRange(QDeclarativeListView::NoHighlightRange) , snapMode(QDeclarativeListView::NoSnap), overshootDist(0.0) , footerComponent(0), footer(0), headerComponent(0), header(0) , bufferMode(NoBuffer) , ownModel(false), wrap(false), autoHighlight(true), haveHighlightRange(false) , correctFlick(true), inFlickCorrection(false), lazyRelease(false) , deferredRelease(false), layoutScheduled(false), minExtentDirty(true), maxExtentDirty(true) {} void init(); void clear(); FxListItem *createItem(int modelIndex); void releaseItem(FxListItem *item); FxListItem *visibleItem(int modelIndex) const { if (modelIndex >= visibleIndex && modelIndex < visibleIndex + visibleItems.count()) { for (int i = modelIndex - visibleIndex; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems.at(i); if (item->index == modelIndex) return item; } } return 0; } FxListItem *firstVisibleItem() const { const qreal pos = position(); for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems.at(i); if (item->index != -1 && item->endPosition() > pos) return item; } return visibleItems.count() ? visibleItems.first() : 0; } FxListItem *nextVisibleItem() const { const qreal pos = position(); bool foundFirst = false; for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems.at(i); if (item->index != -1) { if (foundFirst) return item; else if (item->position() < pos && item->endPosition() > pos) foundFirst = true; } } return 0; } qreal position() const { Q_Q(const QDeclarativeListView); return orient == QDeclarativeListView::Vertical ? q->contentY() : q->contentX(); } void setPosition(qreal pos) { Q_Q(QDeclarativeListView); if (orient == QDeclarativeListView::Vertical) q->setContentY(pos); else q->setContentX(pos); } qreal size() const { Q_Q(const QDeclarativeListView); return orient == QDeclarativeListView::Vertical ? q->height() : q->width(); } qreal startPosition() const { qreal pos = 0; if (!visibleItems.isEmpty()) { pos = (*visibleItems.constBegin())->position(); if (visibleIndex > 0) pos -= visibleIndex * (averageSize + spacing); } return pos; } qreal endPosition() const { qreal pos = 0; if (!visibleItems.isEmpty()) { int invisibleCount = visibleItems.count() - visibleIndex; for (int i = visibleItems.count()-1; i >= 0; --i) { if (visibleItems.at(i)->index != -1) { invisibleCount = model->count() - visibleItems.at(i)->index - 1; break; } } pos = (*(--visibleItems.constEnd()))->endPosition() + invisibleCount * (averageSize + spacing); } return pos; } qreal positionAt(int modelIndex) const { if (FxListItem *item = visibleItem(modelIndex)) return item->position(); if (!visibleItems.isEmpty()) { if (modelIndex < visibleIndex) { int count = visibleIndex - modelIndex; return (*visibleItems.constBegin())->position() - count * (averageSize + spacing); } else { int idx = visibleItems.count() - 1; while (idx >= 0 && visibleItems.at(idx)->index == -1) --idx; if (idx < 0) idx = visibleIndex; else idx = visibleItems.at(idx)->index; int count = modelIndex - idx - 1; return (*(--visibleItems.constEnd()))->endPosition() + spacing + count * (averageSize + spacing) + 1; } } return 0; } QString sectionAt(int modelIndex) { if (FxListItem *item = visibleItem(modelIndex)) return item->attached->section(); QString section; if (sectionCriteria) { QString propValue = model->stringValue(modelIndex, sectionCriteria->property()); section = sectionCriteria->sectionString(propValue); } return section; } bool isValid() const { return model && model->count() && model->isValid(); } int snapIndex() { int index = currentIndex; for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems[i]; if (item->index == -1) continue; qreal itemTop = item->position(); if (itemTop >= highlight->position()-item->size()/2 && itemTop < highlight->position()+item->size()/2) return item->index; } return index; } qreal snapPosAt(qreal pos) { for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems[i]; if (item->index == -1) continue; qreal itemTop = item->position(); if (itemTop+item->size()/2 >= pos && itemTop <= pos) return item->position(); } if (visibleItems.count()) { qreal firstPos = visibleItems.first()->position(); qreal endPos = visibleItems.last()->position(); if (pos < firstPos) { return firstPos - qRound((firstPos - pos) / averageSize) * averageSize; } else if (pos > endPos) return endPos + qRound((pos - endPos) / averageSize) * averageSize; } return qRound((pos - startPosition()) / averageSize) * averageSize + startPosition(); } FxListItem *snapItemAt(qreal pos) { for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems[i]; if (item->index == -1) continue; qreal itemTop = item->position(); if (item->index == model->count()-1 || (itemTop+item->size()/2 >= pos)) return item; } if (visibleItems.count() && visibleItems.first()->position() <= pos) return visibleItems.first(); return 0; } int lastVisibleIndex() const { int lastIndex = -1; for (int i = visibleItems.count()-1; i >= 0; --i) { FxListItem *listItem = visibleItems.at(i); if (listItem->index != -1) { lastIndex = listItem->index; break; } } return lastIndex; } // map a model index to visibleItems index. // These may differ if removed items are still present in the visible list, // e.g. doing a removal animation int mapFromModel(int modelIndex) const { if (modelIndex < visibleIndex || modelIndex >= visibleIndex + visibleItems.count()) return -1; for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *listItem = visibleItems.at(i); if (listItem->index == modelIndex) return i + visibleIndex; if (listItem->index > modelIndex) return -1; } return -1; // Not in visibleList } bool mapRangeFromModel(int &index, int &count) const { if (index + count < visibleIndex) return false; int lastIndex = -1; for (int i = visibleItems.count()-1; i >= 0; --i) { FxListItem *listItem = visibleItems.at(i); if (listItem->index != -1) { lastIndex = listItem->index; break; } } if (index > lastIndex) return false; int last = qMin(index + count - 1, lastIndex); index = qMax(index, visibleIndex); count = last - index + 1; return true; } void updateViewport() { Q_Q(QDeclarativeListView); if (orient == QDeclarativeListView::Vertical) { q->setContentHeight(endPosition() - startPosition() + 1); } else { q->setContentWidth(endPosition() - startPosition() + 1); } } void itemGeometryChanged(QDeclarativeItem *item, const QRectF &newGeometry, const QRectF &oldGeometry) { QDeclarativeFlickablePrivate::itemGeometryChanged(item, newGeometry, oldGeometry); if (item != viewport) { if ((orient == QDeclarativeListView::Vertical && newGeometry.height() != oldGeometry.height()) || (orient == QDeclarativeListView::Horizontal && newGeometry.width() != oldGeometry.width())) { scheduleLayout(); } } } // for debugging only void checkVisible() const { int skip = 0; for (int i = 0; i < visibleItems.count(); ++i) { FxListItem *listItem = visibleItems.at(i); if (listItem->index == -1) { ++skip; } else if (listItem->index != visibleIndex + i - skip) { qFatal("index %d %d %d", visibleIndex, i, listItem->index); } } } void refill(qreal from, qreal to, bool doBuffer = false); void scheduleLayout(); void layout(); void updateUnrequestedIndexes(); void updateUnrequestedPositions(); void updateTrackedItem(); void createHighlight(); void updateHighlight(); void createSection(FxListItem *); void updateSections(); void updateCurrentSection(); void updateCurrent(int); void updateAverage(); void updateHeader(); void updateFooter(); void fixupPosition(); virtual void fixup(AxisData &data, qreal minExtent, qreal maxExtent); virtual void flick(QDeclarativeFlickablePrivate::AxisData &data, qreal minExtent, qreal maxExtent, qreal vSize, QDeclarativeTimeLineCallback::Callback fixupCallback, qreal velocity); QDeclarativeGuard model; QVariant modelVariant; QList visibleItems; QHash unrequestedItems; FxListItem *currentItem; QDeclarativeListView::Orientation orient; int visiblePos; int visibleIndex; qreal averageSize; int currentIndex; int requestedIndex; qreal highlightRangeStart; qreal highlightRangeEnd; QDeclarativeComponent *highlightComponent; FxListItem *highlight; FxListItem *trackedItem; enum MovementReason { Other, SetIndex, Mouse }; MovementReason moveReason; int buffer; QSmoothedAnimation *highlightPosAnimator; QSmoothedAnimation *highlightSizeAnimator; QDeclarativeViewSection *sectionCriteria; QString currentSection; static const int sectionCacheSize = 3; QDeclarativeItem *sectionCache[sectionCacheSize]; qreal spacing; qreal highlightMoveSpeed; qreal highlightResizeSpeed; QDeclarativeListView::HighlightRangeMode highlightRange; QDeclarativeListView::SnapMode snapMode; qreal overshootDist; QDeclarativeComponent *footerComponent; FxListItem *footer; QDeclarativeComponent *headerComponent; FxListItem *header; enum BufferMode { NoBuffer = 0x00, BufferBefore = 0x01, BufferAfter = 0x02 }; int bufferMode; mutable qreal minExtent; mutable qreal maxExtent; bool ownModel : 1; bool wrap : 1; bool autoHighlight : 1; bool haveHighlightRange : 1; bool correctFlick : 1; bool inFlickCorrection : 1; bool lazyRelease : 1; bool deferredRelease : 1; bool layoutScheduled : 1; mutable bool minExtentDirty : 1; mutable bool maxExtentDirty : 1; }; void QDeclarativeListViewPrivate::init() { Q_Q(QDeclarativeListView); q->setFlag(QGraphicsItem::ItemIsFocusScope); addItemChangeListener(this, Geometry); QObject::connect(q, SIGNAL(movementEnded()), q, SLOT(animStopped())); q->setFlickDirection(QDeclarativeFlickable::VerticalFlick); ::memset(sectionCache, 0, sizeof(QDeclarativeItem*) * sectionCacheSize); } void QDeclarativeListViewPrivate::clear() { for (int i = 0; i < visibleItems.count(); ++i) releaseItem(visibleItems.at(i)); visibleItems.clear(); for (int i = 0; i < sectionCacheSize; ++i) { delete sectionCache[i]; sectionCache[i] = 0; } visiblePos = header ? header->size() : 0; visibleIndex = 0; releaseItem(currentItem); currentItem = 0; createHighlight(); trackedItem = 0; minExtentDirty = true; maxExtentDirty = true; } FxListItem *QDeclarativeListViewPrivate::createItem(int modelIndex) { Q_Q(QDeclarativeListView); // create object requestedIndex = modelIndex; FxListItem *listItem = 0; if (QDeclarativeItem *item = model->item(modelIndex, false)) { listItem = new FxListItem(item, q); listItem->index = modelIndex; // initialise attached properties if (sectionCriteria) { QString propValue = model->stringValue(modelIndex, sectionCriteria->property()); listItem->attached->m_section = sectionCriteria->sectionString(propValue); if (modelIndex > 0) { if (FxListItem *item = visibleItem(modelIndex-1)) listItem->attached->m_prevSection = item->attached->section(); else listItem->attached->m_prevSection = sectionAt(modelIndex-1); } } listItem->item->setZValue(1); // complete model->completeItem(); listItem->item->setParentItem(q->viewport()); QDeclarativeItemPrivate *itemPrivate = static_cast(QGraphicsItemPrivate::get(item)); itemPrivate->addItemChangeListener(this, QDeclarativeItemPrivate::Geometry); if (sectionCriteria && sectionCriteria->delegate()) { if (listItem->attached->m_prevSection != listItem->attached->m_section) createSection(listItem); } unrequestedItems.remove(listItem->item); } requestedIndex = -1; return listItem; } void QDeclarativeListViewPrivate::releaseItem(FxListItem *item) { Q_Q(QDeclarativeListView); if (!item || !model) return; if (trackedItem == item) { const char *notifier1 = orient == QDeclarativeListView::Vertical ? SIGNAL(yChanged()) : SIGNAL(xChanged()); const char *notifier2 = orient == QDeclarativeListView::Vertical ? SIGNAL(heightChanged()) : SIGNAL(widthChanged()); QObject::disconnect(trackedItem->item, notifier1, q, SLOT(trackedPositionChanged())); QObject::disconnect(trackedItem->item, notifier2, q, SLOT(trackedPositionChanged())); trackedItem = 0; } QDeclarativeItemPrivate *itemPrivate = static_cast(QGraphicsItemPrivate::get(item->item)); itemPrivate->removeItemChangeListener(this, QDeclarativeItemPrivate::Geometry); if (model->release(item->item) == 0) { // item was not destroyed, and we no longer reference it. unrequestedItems.insert(item->item, model->indexOf(item->item, q)); } if (item->section) { int i = 0; do { if (!sectionCache[i]) { sectionCache[i] = item->section; sectionCache[i]->setVisible(false); item->section = 0; break; } ++i; } while (i < sectionCacheSize); delete item->section; } delete item; } void QDeclarativeListViewPrivate::refill(qreal from, qreal to, bool doBuffer) { Q_Q(QDeclarativeListView); if (!isValid() || !q->isComponentComplete()) return; qreal bufferFrom = from - buffer; qreal bufferTo = to + buffer; qreal fillFrom = from; qreal fillTo = to; if (doBuffer && (bufferMode & BufferAfter)) fillTo = bufferTo; if (doBuffer && (bufferMode & BufferBefore)) fillFrom = bufferFrom; int modelIndex = visibleIndex; qreal itemEnd = visiblePos-1; if (!visibleItems.isEmpty()) { visiblePos = (*visibleItems.constBegin())->position(); itemEnd = (*(--visibleItems.constEnd()))->endPosition() + spacing; int i = visibleItems.count() - 1; while (i > 0 && visibleItems.at(i)->index == -1) --i; modelIndex = visibleItems.at(i)->index + 1; } bool changed = false; FxListItem *item = 0; int pos = itemEnd + 1; while (modelIndex < model->count() && pos <= fillTo) { //qDebug() << "refill: append item" << modelIndex << "pos" << pos; if (!(item = createItem(modelIndex))) break; item->setPosition(pos); pos += item->size() + spacing; visibleItems.append(item); ++modelIndex; changed = true; if (doBuffer) // never buffer more than one item per frame break; } while (visibleIndex > 0 && visibleIndex <= model->count() && visiblePos > fillFrom) { //qDebug() << "refill: prepend item" << visibleIndex-1 << "current top pos" << visiblePos; if (!(item = createItem(visibleIndex-1))) break; --visibleIndex; visiblePos -= item->size() + spacing; item->setPosition(visiblePos); visibleItems.prepend(item); changed = true; if (doBuffer) // never buffer more than one item per frame break; } if (!lazyRelease || !changed || deferredRelease) { // avoid destroying items in the same frame that we create while (visibleItems.count() > 1 && (item = visibleItems.first()) && item->endPosition() < bufferFrom) { if (item->attached->delayRemove()) break; //qDebug() << "refill: remove first" << visibleIndex << "top end pos" << item->endPosition(); if (item->index != -1) visibleIndex++; visibleItems.removeFirst(); releaseItem(item); changed = true; } while (visibleItems.count() > 1 && (item = visibleItems.last()) && item->position() > bufferTo) { if (item->attached->delayRemove()) break; //qDebug() << "refill: remove last" << visibleIndex+visibleItems.count()-1; visibleItems.removeLast(); releaseItem(item); changed = true; } deferredRelease = false; } else { deferredRelease = true; } if (changed) { minExtentDirty = true; maxExtentDirty = true; if (visibleItems.count()) visiblePos = (*visibleItems.constBegin())->position(); updateAverage(); if (sectionCriteria) updateCurrentSection(); if (header) updateHeader(); if (footer) updateFooter(); updateViewport(); updateUnrequestedPositions(); } else if (!doBuffer && buffer && bufferMode != NoBuffer) { refill(from, to, true); } lazyRelease = false; } void QDeclarativeListViewPrivate::scheduleLayout() { Q_Q(QDeclarativeListView); if (!layoutScheduled) { layoutScheduled = true; QCoreApplication::postEvent(q, new QEvent(QEvent::User), Qt::HighEventPriority); } } void QDeclarativeListViewPrivate::layout() { Q_Q(QDeclarativeListView); layoutScheduled = false; updateSections(); if (!visibleItems.isEmpty()) { int oldEnd = visibleItems.last()->endPosition(); int pos = visibleItems.first()->endPosition() + spacing + 1; for (int i=1; i < visibleItems.count(); ++i) { FxListItem *item = visibleItems.at(i); item->setPosition(pos); pos += item->size() + spacing; } // move current item if it is after the visible items. if (currentItem && currentIndex > lastVisibleIndex()) currentItem->setPosition(currentItem->position() + (visibleItems.last()->endPosition() - oldEnd)); } if (!isValid()) return; q->refill(); minExtentDirty = true; maxExtentDirty = true; updateHighlight(); fixupPosition(); q->refill(); if (header) updateHeader(); if (footer) updateFooter(); updateViewport(); } void QDeclarativeListViewPrivate::updateUnrequestedIndexes() { Q_Q(QDeclarativeListView); QHash::iterator it; for (it = unrequestedItems.begin(); it != unrequestedItems.end(); ++it) *it = model->indexOf(it.key(), q); } void QDeclarativeListViewPrivate::updateUnrequestedPositions() { Q_Q(QDeclarativeListView); if (unrequestedItems.count()) { qreal pos = position(); QHash::const_iterator it; for (it = unrequestedItems.begin(); it != unrequestedItems.end(); ++it) { QDeclarativeItem *item = it.key(); if (orient == QDeclarativeListView::Vertical) { if (item->y() + item->height() > pos && item->y() < pos + q->height()) item->setY(positionAt(*it)); } else { if (item->x() + item->width() > pos && item->x() < pos + q->width()) item->setX(positionAt(*it)); } } } } void QDeclarativeListViewPrivate::updateTrackedItem() { Q_Q(QDeclarativeListView); FxListItem *item = currentItem; if (highlight) item = highlight; FxListItem *oldTracked = trackedItem; const char *notifier1 = orient == QDeclarativeListView::Vertical ? SIGNAL(yChanged()) : SIGNAL(xChanged()); const char *notifier2 = orient == QDeclarativeListView::Vertical ? SIGNAL(heightChanged()) : SIGNAL(widthChanged()); if (trackedItem && item != trackedItem) { QObject::disconnect(trackedItem->item, notifier1, q, SLOT(trackedPositionChanged())); QObject::disconnect(trackedItem->item, notifier2, q, SLOT(trackedPositionChanged())); trackedItem = 0; } if (!trackedItem && item) { trackedItem = item; QObject::connect(trackedItem->item, notifier1, q, SLOT(trackedPositionChanged())); QObject::connect(trackedItem->item, notifier2, q, SLOT(trackedPositionChanged())); } if (trackedItem && trackedItem != oldTracked) q->trackedPositionChanged(); } void QDeclarativeListViewPrivate::createHighlight() { Q_Q(QDeclarativeListView); bool changed = false; if (highlight) { if (trackedItem == highlight) trackedItem = 0; delete highlight->item; delete highlight; highlight = 0; delete highlightPosAnimator; delete highlightSizeAnimator; highlightPosAnimator = 0; highlightSizeAnimator = 0; changed = true; } if (currentItem) { QDeclarativeItem *item = 0; if (highlightComponent) { QDeclarativeContext *highlightContext = new QDeclarativeContext(qmlContext(q)); QObject *nobj = highlightComponent->create(highlightContext); if (nobj) { QDeclarative_setParent_noEvent(highlightContext, nobj); item = qobject_cast(nobj); if (!item) delete nobj; } else { delete highlightContext; } } else { item = new QDeclarativeItem; } if (item) { QDeclarative_setParent_noEvent(item, q->viewport()); item->setParentItem(q->viewport()); highlight = new FxListItem(item, q); if (currentItem && autoHighlight) { if (orient == QDeclarativeListView::Vertical) { highlight->item->setHeight(currentItem->item->height()); } else { highlight->item->setWidth(currentItem->item->width()); } } const QLatin1String posProp(orient == QDeclarativeListView::Vertical ? "y" : "x"); highlightPosAnimator = new QSmoothedAnimation(q); highlightPosAnimator->target = QDeclarativeProperty(highlight->item, posProp); highlightPosAnimator->velocity = highlightMoveSpeed; highlightPosAnimator->restart(); const QLatin1String sizeProp(orient == QDeclarativeListView::Vertical ? "height" : "width"); highlightSizeAnimator = new QSmoothedAnimation(q); highlightSizeAnimator->velocity = highlightResizeSpeed; highlightSizeAnimator->target = QDeclarativeProperty(highlight->item, sizeProp); highlightSizeAnimator->restart(); changed = true; } } if (changed) emit q->highlightItemChanged(); } void QDeclarativeListViewPrivate::updateHighlight() { if ((!currentItem && highlight) || (currentItem && !highlight)) createHighlight(); if (currentItem && autoHighlight && highlight && !moving) { // auto-update highlight highlightPosAnimator->to = currentItem->position(); highlightSizeAnimator->to = currentItem->size(); if (orient == QDeclarativeListView::Vertical) { if (highlight->item->width() == 0) highlight->item->setWidth(currentItem->item->width()); } else { if (highlight->item->height() == 0) highlight->item->setHeight(currentItem->item->height()); } highlightPosAnimator->restart(); highlightSizeAnimator->restart(); } updateTrackedItem(); } void QDeclarativeListViewPrivate::createSection(FxListItem *listItem) { Q_Q(QDeclarativeListView); if (!sectionCriteria || !sectionCriteria->delegate()) return; if (listItem->attached->m_prevSection != listItem->attached->m_section) { if (!listItem->section) { int i = sectionCacheSize-1; while (i >= 0 && !sectionCache[i]) --i; if (i >= 0) { listItem->section = sectionCache[i]; sectionCache[i] = 0; listItem->section->setVisible(true); QDeclarativeContext *context = QDeclarativeEngine::contextForObject(listItem->section)->parentContext(); context->setContextProperty(QLatin1String("section"), listItem->attached->m_section); } else { QDeclarativeContext *context = new QDeclarativeContext(qmlContext(q)); context->setContextProperty(QLatin1String("section"), listItem->attached->m_section); QObject *nobj = sectionCriteria->delegate()->create(context); if (nobj) { QDeclarative_setParent_noEvent(context, nobj); listItem->section = qobject_cast(nobj); if (!listItem->section) { delete nobj; } else { listItem->section->setZValue(1); QDeclarative_setParent_noEvent(listItem->section, q->viewport()); listItem->section->setParentItem(q->viewport()); } } else { delete context; } } } } else if (listItem->section) { int i = 0; do { if (!sectionCache[i]) { sectionCache[i] = listItem->section; sectionCache[i]->setVisible(false); listItem->section = 0; return; } ++i; } while (i < sectionCacheSize); delete listItem->section; listItem->section = 0; } } void QDeclarativeListViewPrivate::updateSections() { if (sectionCriteria) { QString prevSection; if (visibleIndex > 0) prevSection = sectionAt(visibleIndex-1); for (int i = 0; i < visibleItems.count(); ++i) { if (visibleItems.at(i)->index != -1) { QDeclarativeListViewAttached *attached = visibleItems.at(i)->attached; attached->setPrevSection(prevSection); createSection(visibleItems.at(i)); prevSection = attached->section(); } } } } void QDeclarativeListViewPrivate::updateCurrentSection() { if (!sectionCriteria || visibleItems.isEmpty()) { currentSection = QString(); return; } int index = 0; while (visibleItems.at(index)->endPosition() < position() && index < visibleItems.count()) ++index; if (index < visibleItems.count()) currentSection = visibleItems.at(index)->attached->section(); else currentSection = visibleItems.first()->attached->section(); } void QDeclarativeListViewPrivate::updateCurrent(int modelIndex) { Q_Q(QDeclarativeListView); if (!q->isComponentComplete() || !isValid() || modelIndex < 0 || modelIndex >= model->count()) { if (currentItem) { currentItem->attached->setIsCurrentItem(false); releaseItem(currentItem); currentItem = 0; currentIndex = -1; updateHighlight(); emit q->currentIndexChanged(); } return; } if (currentItem && currentIndex == modelIndex) { updateHighlight(); return; } FxListItem *oldCurrentItem = currentItem; currentIndex = modelIndex; currentItem = createItem(modelIndex); if (oldCurrentItem && (!currentItem || oldCurrentItem->item != currentItem->item)) oldCurrentItem->attached->setIsCurrentItem(false); if (currentItem) { if (modelIndex == visibleIndex - 1) { // We can calculate exact postion in this case currentItem->setPosition(visibleItems.first()->position() - currentItem->size() - spacing); } else { // Create current item now and position as best we can. // Its position will be corrected when it becomes visible. currentItem->setPosition(positionAt(modelIndex)); } currentItem->item->setFocus(true); currentItem->attached->setIsCurrentItem(true); } updateHighlight(); emit q->currentIndexChanged(); // Release the old current item releaseItem(oldCurrentItem); } void QDeclarativeListViewPrivate::updateAverage() { if (!visibleItems.count()) return; qreal sum = 0.0; for (int i = 0; i < visibleItems.count(); ++i) sum += visibleItems.at(i)->size(); averageSize = sum / visibleItems.count(); } void QDeclarativeListViewPrivate::updateFooter() { Q_Q(QDeclarativeListView); if (!footer && footerComponent) { QDeclarativeItem *item = 0; QDeclarativeContext *context = new QDeclarativeContext(qmlContext(q)); QObject *nobj = footerComponent->create(context); if (nobj) { QDeclarative_setParent_noEvent(context, nobj); item = qobject_cast(nobj); if (!item) delete nobj; } else { delete context; } if (item) { QDeclarative_setParent_noEvent(item, q->viewport()); item->setParentItem(q->viewport()); item->setZValue(1); footer = new FxListItem(item, q); } } if (footer) { if (visibleItems.count()) { qreal endPos = endPosition(); if (lastVisibleIndex() == model->count()-1) { footer->setPosition(endPos); } else { qreal visiblePos = position() + q->height(); if (endPos <= visiblePos || footer->position() < endPos) footer->setPosition(endPos); } } else { footer->setPosition(visiblePos); } } } void QDeclarativeListViewPrivate::updateHeader() { Q_Q(QDeclarativeListView); if (!header && headerComponent) { QDeclarativeItem *item = 0; QDeclarativeContext *context = new QDeclarativeContext(qmlContext(q)); QObject *nobj = headerComponent->create(context); if (nobj) { QDeclarative_setParent_noEvent(context, nobj); item = qobject_cast(nobj); if (!item) delete nobj; } else { delete context; } if (item) { QDeclarative_setParent_noEvent(item, q->viewport()); item->setParentItem(q->viewport()); item->setZValue(1); header = new FxListItem(item, q); if (visibleItems.isEmpty()) visiblePos = header->size(); } } if (header) { if (visibleItems.count()) { qreal startPos = startPosition(); if (visibleIndex == 0) { header->setPosition(startPos - header->size()); } else { if (position() <= startPos || header->position() > startPos - header->size()) header->setPosition(startPos - header->size()); } } else { header->setPosition(0); } } } void QDeclarativeListViewPrivate::fixupPosition() { moveReason = Other; if (orient == QDeclarativeListView::Vertical) fixupY(); else fixupX(); } void QDeclarativeListViewPrivate::fixup(AxisData &data, qreal minExtent, qreal maxExtent) { Q_Q(QDeclarativeListView); if ((orient == QDeclarativeListView::Horizontal && &data == &vData) || (orient == QDeclarativeListView::Vertical && &data == &hData)) return; if ((&data == &vData && !q->yflick()) || (&data == &hData && !q->xflick()) || data.move.timeLine()) return; int oldDuration = fixupDuration; fixupDuration = moveReason == Mouse ? fixupDuration : 0; if (haveHighlightRange && highlightRange == QDeclarativeListView::StrictlyEnforceRange) { if (currentItem && currentItem->position() - position() != highlightRangeStart) { qreal pos = currentItem->position() - highlightRangeStart; timeline.reset(data.move); if (fixupDuration) { timeline.move(data.move, -pos, QEasingCurve(QEasingCurve::InOutQuad), fixupDuration/2); } else { data.move.setValue(-pos); q->viewportMoved(); } vTime = timeline.time(); } } else if (snapMode != QDeclarativeListView::NoSnap) { if (FxListItem *item = snapItemAt(position())) { qreal pos = qMin(item->position() - highlightRangeStart, -maxExtent); qreal dist = qAbs(data.move + pos); if (dist > 0) { timeline.reset(data.move); if (fixupDuration) { timeline.move(data.move, -pos, QEasingCurve(QEasingCurve::InOutQuad), fixupDuration/2); } else { data.move.setValue(-pos); q->viewportMoved(); } vTime = timeline.time(); } } } else { QDeclarativeFlickablePrivate::fixup(data, minExtent, maxExtent); } fixupDuration = oldDuration; } void QDeclarativeListViewPrivate::flick(AxisData &data, qreal minExtent, qreal maxExtent, qreal vSize, QDeclarativeTimeLineCallback::Callback fixupCallback, qreal velocity) { Q_Q(QDeclarativeListView); moveReason = Mouse; if ((!haveHighlightRange || highlightRange != QDeclarativeListView::StrictlyEnforceRange) && snapMode == QDeclarativeListView::NoSnap) { QDeclarativeFlickablePrivate::flick(data, minExtent, maxExtent, vSize, fixupCallback, velocity); return; } qreal maxDistance = 0; // -ve velocity means list is moving up/left if (velocity > 0) { if (data.move.value() < minExtent) { if (snapMode == QDeclarativeListView::SnapOneItem) { if (FxListItem *item = firstVisibleItem()) maxDistance = qAbs(item->position() + data.move.value()); } else { maxDistance = qAbs(minExtent - data.move.value()); } } if (snapMode == QDeclarativeListView::NoSnap && highlightRange != QDeclarativeListView::StrictlyEnforceRange) data.flickTarget = minExtent; } else { if (data.move.value() > maxExtent) { if (snapMode == QDeclarativeListView::SnapOneItem) { if (FxListItem *item = nextVisibleItem()) maxDistance = qAbs(item->position() + data.move.value()); } else { maxDistance = qAbs(maxExtent - data.move.value()); } } if (snapMode == QDeclarativeListView::NoSnap && highlightRange != QDeclarativeListView::StrictlyEnforceRange) data.flickTarget = maxExtent; } if (maxDistance > 0 || overShoot) { // These modes require the list to stop exactly on an item boundary. // The initial flick will estimate the boundary to stop on. // Since list items can have variable sizes, the boundary will be // reevaluated and adjusted as we approach the boundary. qreal v = velocity; if (maxVelocity != -1 && maxVelocity < qAbs(v)) { if (v < 0) v = -maxVelocity; else v = maxVelocity; } if (!flicked) { // the initial flick - estimate boundary qreal accel = deceleration; qreal v2 = v * v; overshootDist = 0.0; // + averageSize/4 to encourage moving at least one item in the flick direction qreal dist = v2 / (accel * 2.0) + averageSize/4; if (maxDistance > 0) dist = qMin(dist, maxDistance); if (v > 0) dist = -dist; if ((maxDistance > 0.0 && v2 / (2.0f * maxDistance) < accel) || snapMode == QDeclarativeListView::SnapOneItem) { data.flickTarget = -snapPosAt(-(data.move.value() - highlightRangeStart) + dist) + highlightRangeStart; if (overShoot) { if (data.flickTarget >= minExtent) { overshootDist = overShootDistance(v, vSize); data.flickTarget += overshootDist; } else if (data.flickTarget <= maxExtent) { overshootDist = overShootDistance(v, vSize); data.flickTarget -= overshootDist; } } dist = -data.flickTarget + data.move.value(); accel = v2 / (2.0f * qAbs(dist)); } else if (overShoot) { data.flickTarget = data.move.value() - dist; if (data.flickTarget >= minExtent) { overshootDist = overShootDistance(v, vSize); data.flickTarget += overshootDist; } else if (data.flickTarget <= maxExtent) { overshootDist = overShootDistance(v, vSize); data.flickTarget -= overshootDist; } } timeline.reset(data.move); timeline.accel(data.move, v, accel, maxDistance + overshootDist); timeline.callback(QDeclarativeTimeLineCallback(&data.move, fixupCallback, this)); flicked = true; emit q->flickingChanged(); emit q->flickStarted(); correctFlick = true; } else { // reevaluate the target boundary. qreal newtarget = data.flickTarget; if (snapMode != QDeclarativeListView::NoSnap || highlightRange == QDeclarativeListView::StrictlyEnforceRange) newtarget = -snapPosAt(-(data.flickTarget - highlightRangeStart)) + highlightRangeStart; if (velocity < 0 && newtarget < maxExtent) newtarget = maxExtent; else if (velocity > 0 && newtarget > minExtent) newtarget = minExtent; if (newtarget == data.flickTarget) // boundary unchanged - nothing to do return; data.flickTarget = newtarget; qreal dist = -newtarget + data.move.value(); if ((v < 0 && dist < 0) || (v > 0 && dist > 0)) { correctFlick = false; timeline.reset(data.move); fixup(data, minExtent, maxExtent); return; } timeline.reset(data.move); timeline.accelDistance(data.move, v, -dist + (v < 0 ? -overshootDist : overshootDist)); timeline.callback(QDeclarativeTimeLineCallback(&data.move, fixupCallback, this)); } } else { correctFlick = false; timeline.reset(data.move); fixup(data, minExtent, maxExtent); } } //---------------------------------------------------------------------------- /*! \qmlclass ListView QDeclarativeListView \since 4.7 \inherits Flickable \brief The ListView item provides a list view of items provided by a model. The model is typically provided by a QAbstractListModel "C++ model object", but can also be created directly in QML. The items are laid out vertically or horizontally and may be flicked to scroll. The below example creates a very simple vertical list, using a QML model. \image trivialListView.png The user interface defines a delegate to display an item, a highlight, and the ListView which uses the above. \snippet doc/src/snippets/declarative/listview/listview.qml 3 The model is defined as a ListModel using QML: \quotefile doc/src/snippets/declarative/listview/dummydata/ContactModel.qml In this case ListModel is a handy way for us to test our UI. In practice the model would be implemented in C++, or perhaps via a SQL data source. Note that views do not enable \e clip automatically. If the view is not clipped by another item or the screen, it will be necessary to set \e {clip: true} in order to have the out of view items clipped nicely. */ QDeclarativeListView::QDeclarativeListView(QDeclarativeItem *parent) : QDeclarativeFlickable(*(new QDeclarativeListViewPrivate), parent) { Q_D(QDeclarativeListView); d->init(); } QDeclarativeListView::~QDeclarativeListView() { Q_D(QDeclarativeListView); d->clear(); if (d->ownModel) delete d->model; delete d->header; delete d->footer; } /*! \qmlattachedproperty bool ListView::isCurrentItem This attached property is true if this delegate is the current item; otherwise false. It is attached to each instance of the delegate. This property may be used to adjust the appearance of the current item, for example: \snippet doc/src/snippets/declarative/listview/highlight.qml 0 */ /*! \qmlattachedproperty ListView ListView::view This attached property holds the view that manages this delegate instance. It is attached to each instance of the delegate. */ /*! \qmlattachedproperty string ListView::prevSection This attached property holds the section of the previous element. It is attached to each instance of the delegate. The section is evaluated using the \l {ListView::section.property}{section} properties. */ /*! \qmlattachedproperty string ListView::section This attached property holds the section of this element. It is attached to each instance of the delegate. The section is evaluated using the \l {ListView::section.property}{section} properties. */ /*! \qmlattachedproperty bool ListView::delayRemove This attached property holds whether the delegate may be destroyed. It is attached to each instance of the delegate. It is sometimes necessary to delay the destruction of an item until an animation completes. The example below ensures that the animation completes before the item is removed from the list. \code Component { id: myDelegate Item { id: wrapper SequentialAnimation on ListView.onRemove { PropertyAction { target: wrapper.ListView; property: "delayRemove"; value: true } NumberAnimation { target: wrapper; property: "scale"; to: 0; duration: 250; easing.type: "InOutQuad" } PropertyAction { target: wrapper.ListView; property: "delayRemove"; value: false } } } } \endcode */ /*! \qmlattachedsignal ListView::onAdd() This attached handler is called immediately after an item is added to the view. */ /*! \qmlattachedsignal ListView::onRemove() This attached handler is called immediately before an item is removed from the view. */ /*! \qmlproperty model ListView::model This property holds the model providing data for the list. The model provides a set of data that is used to create the items for the view. For large or dynamic datasets the model is usually provided by a C++ model object. The C++ model object must be a \l {QAbstractItemModel} subclass or a simple list. Models can also be created directly in QML, using a \l{ListModel}, \l{XmlListModel} or \l{VisualItemModel}. \sa {qmlmodels}{Data Models} */ QVariant QDeclarativeListView::model() const { Q_D(const QDeclarativeListView); return d->modelVariant; } void QDeclarativeListView::setModel(const QVariant &model) { Q_D(QDeclarativeListView); if (d->modelVariant == model) return; if (d->model) { disconnect(d->model, SIGNAL(itemsInserted(int,int)), this, SLOT(itemsInserted(int,int))); disconnect(d->model, SIGNAL(itemsRemoved(int,int)), this, SLOT(itemsRemoved(int,int))); disconnect(d->model, SIGNAL(itemsMoved(int,int,int)), this, SLOT(itemsMoved(int,int,int))); disconnect(d->model, SIGNAL(modelReset()), this, SLOT(modelReset())); disconnect(d->model, SIGNAL(createdItem(int, QDeclarativeItem*)), this, SLOT(createdItem(int,QDeclarativeItem*))); disconnect(d->model, SIGNAL(destroyingItem(QDeclarativeItem*)), this, SLOT(destroyingItem(QDeclarativeItem*))); } d->clear(); d->modelVariant = model; QObject *object = qvariant_cast(model); QDeclarativeVisualModel *vim = 0; if (object && (vim = qobject_cast(object))) { if (d->ownModel) { delete d->model; d->ownModel = false; } d->model = vim; } else { if (!d->ownModel) { d->model = new QDeclarativeVisualDataModel(qmlContext(this)); d->ownModel = true; } if (QDeclarativeVisualDataModel *dataModel = qobject_cast(d->model)) dataModel->setModel(model); } if (d->model) { if (isComponentComplete()) { refill(); if (d->currentIndex >= d->model->count() || d->currentIndex < 0) { setCurrentIndex(0); } else { d->moveReason = QDeclarativeListViewPrivate::SetIndex; d->updateCurrent(d->currentIndex); } } connect(d->model, SIGNAL(itemsInserted(int,int)), this, SLOT(itemsInserted(int,int))); connect(d->model, SIGNAL(itemsRemoved(int,int)), this, SLOT(itemsRemoved(int,int))); connect(d->model, SIGNAL(itemsMoved(int,int,int)), this, SLOT(itemsMoved(int,int,int))); connect(d->model, SIGNAL(modelReset()), this, SLOT(modelReset())); connect(d->model, SIGNAL(createdItem(int, QDeclarativeItem*)), this, SLOT(createdItem(int,QDeclarativeItem*))); connect(d->model, SIGNAL(destroyingItem(QDeclarativeItem*)), this, SLOT(destroyingItem(QDeclarativeItem*))); emit countChanged(); } emit modelChanged(); } /*! \qmlproperty component ListView::delegate The delegate provides a template defining each item instantiated by the view. The index is exposed as an accessible \c index property. Properties of the model are also available depending upon the type of \l {qmlmodels}{Data Model}. Note that the ListView will layout the items based on the size of the root item in the delegate. Here is an example delegate: \snippet doc/src/snippets/declarative/listview/listview.qml 0 */ QDeclarativeComponent *QDeclarativeListView::delegate() const { Q_D(const QDeclarativeListView); if (d->model) { if (QDeclarativeVisualDataModel *dataModel = qobject_cast(d->model)) return dataModel->delegate(); } return 0; } void QDeclarativeListView::setDelegate(QDeclarativeComponent *delegate) { Q_D(QDeclarativeListView); if (delegate == this->delegate()) return; if (!d->ownModel) { d->model = new QDeclarativeVisualDataModel(qmlContext(this)); d->ownModel = true; } if (QDeclarativeVisualDataModel *dataModel = qobject_cast(d->model)) { dataModel->setDelegate(delegate); if (isComponentComplete()) { for (int i = 0; i < d->visibleItems.count(); ++i) d->releaseItem(d->visibleItems.at(i)); d->visibleItems.clear(); refill(); d->moveReason = QDeclarativeListViewPrivate::SetIndex; d->updateCurrent(d->currentIndex); } } emit delegateChanged(); } /*! \qmlproperty int ListView::currentIndex \qmlproperty Item ListView::currentItem \c currentIndex holds the index of the current item. \c currentItem is the current item. Note that the position of the current item may only be approximate until it becomes visible in the view. */ int QDeclarativeListView::currentIndex() const { Q_D(const QDeclarativeListView); return d->currentIndex; } void QDeclarativeListView::setCurrentIndex(int index) { Q_D(QDeclarativeListView); if (d->requestedIndex >= 0) // currently creating item return; if (isComponentComplete() && d->isValid() && index != d->currentIndex && index < d->model->count() && index >= 0) { d->moveReason = QDeclarativeListViewPrivate::SetIndex; cancelFlick(); d->updateCurrent(index); } else if (index != d->currentIndex) { d->currentIndex = index; emit currentIndexChanged(); } } QDeclarativeItem *QDeclarativeListView::currentItem() { Q_D(QDeclarativeListView); if (!d->currentItem) return 0; return d->currentItem->item; } /*! \qmlproperty Item ListView::highlightItem \c highlightItem holds the highlight item, which was created from the \l highlight component. The highlightItem is managed by the view unless \l highlightFollowsCurrentItem is set to false. \sa highlight, highlightFollowsCurrentItem */ QDeclarativeItem *QDeclarativeListView::highlightItem() { Q_D(QDeclarativeListView); if (!d->highlight) return 0; return d->highlight->item; } /*! \qmlproperty int ListView::count This property holds the number of items in the view. */ int QDeclarativeListView::count() const { Q_D(const QDeclarativeListView); if (d->model) return d->model->count(); return 0; } /*! \qmlproperty component ListView::highlight This property holds the component to use as the highlight. An instance of the highlight component will be created for each list. The geometry of the resultant component instance will be managed by the list so as to stay with the current item, unless the highlightFollowsCurrentItem property is false. The below example demonstrates how to make a simple highlight for a vertical list. \snippet doc/src/snippets/declarative/listview/listview.qml 1 \image trivialListView.png \sa highlightItem, highlightFollowsCurrentItem */ QDeclarativeComponent *QDeclarativeListView::highlight() const { Q_D(const QDeclarativeListView); return d->highlightComponent; } void QDeclarativeListView::setHighlight(QDeclarativeComponent *highlight) { Q_D(QDeclarativeListView); if (highlight != d->highlightComponent) { d->highlightComponent = highlight; d->createHighlight(); if (d->currentItem) d->updateHighlight(); emit highlightChanged(); } } /*! \qmlproperty bool ListView::highlightFollowsCurrentItem This property holds whether the highlight is managed by the view. If highlightFollowsCurrentItem is true, the highlight will be moved smoothly to follow the current item. If highlightFollowsCurrentItem is false, the highlight will not be moved by the view, and must be implemented by the highlight. The following example creates a highlight with its motion defined by the spring \l {SpringFollow}: \snippet doc/src/snippets/declarative/listview/highlight.qml 1 Note that the highlight animation also affects the way that the view is scrolled. This is because the view moves to maintain the highlight within the preferred highlight range (or visible viewport). \sa highlight, highlightMoveSpeed */ bool QDeclarativeListView::highlightFollowsCurrentItem() const { Q_D(const QDeclarativeListView); return d->autoHighlight; } void QDeclarativeListView::setHighlightFollowsCurrentItem(bool autoHighlight) { Q_D(QDeclarativeListView); if (d->autoHighlight != autoHighlight) { d->autoHighlight = autoHighlight; d->updateHighlight(); emit highlightFollowsCurrentItemChanged(); } } //###Possibly rename these properties, since they are very useful even without a highlight? /*! \qmlproperty real ListView::preferredHighlightBegin \qmlproperty real ListView::preferredHighlightEnd \qmlproperty enumeration ListView::highlightRangeMode These properties set the preferred range of the highlight (current item) within the view. Note that this is the correct way to influence where the current item ends up when the list scrolls. For example, if you want the currently selected item to be in the middle of the list, then set the highlight range to be where the middle item would go. Then, when the list scrolls, the currently selected item will be the item at that spot. This also applies to when the currently selected item changes - it will scroll to within the preferred highlight range. Furthermore, the behaviour of the current item index will occur whether or not a highlight exists. If highlightRangeMode is set to \e ApplyRange the view will attempt to maintain the highlight within the range, however the highlight can move outside of the range at the ends of the list or due to a mouse interaction. If highlightRangeMode is set to \e StrictlyEnforceRange the highlight will never move outside of the range. This means that the current item will change if a keyboard or mouse action would cause the highlight to move outside of the range. The default value is \e NoHighlightRange. Note that a valid range requires preferredHighlightEnd to be greater than or equal to preferredHighlightBegin. */ qreal QDeclarativeListView::preferredHighlightBegin() const { Q_D(const QDeclarativeListView); return d->highlightRangeStart; } void QDeclarativeListView::setPreferredHighlightBegin(qreal start) { Q_D(QDeclarativeListView); if (d->highlightRangeStart == start) return; d->highlightRangeStart = start; d->haveHighlightRange = d->highlightRange != NoHighlightRange && d->highlightRangeStart <= d->highlightRangeEnd; emit preferredHighlightBeginChanged(); } qreal QDeclarativeListView::preferredHighlightEnd() const { Q_D(const QDeclarativeListView); return d->highlightRangeEnd; } void QDeclarativeListView::setPreferredHighlightEnd(qreal end) { Q_D(QDeclarativeListView); if (d->highlightRangeEnd == end) return; d->highlightRangeEnd = end; d->haveHighlightRange = d->highlightRange != NoHighlightRange && d->highlightRangeStart <= d->highlightRangeEnd; emit preferredHighlightEndChanged(); } QDeclarativeListView::HighlightRangeMode QDeclarativeListView::highlightRangeMode() const { Q_D(const QDeclarativeListView); return d->highlightRange; } void QDeclarativeListView::setHighlightRangeMode(HighlightRangeMode mode) { Q_D(QDeclarativeListView); if (d->highlightRange == mode) return; d->highlightRange = mode; d->haveHighlightRange = d->highlightRange != NoHighlightRange && d->highlightRangeStart <= d->highlightRangeEnd; emit highlightRangeModeChanged(); } /*! \qmlproperty real ListView::spacing This property holds the spacing to leave between items. */ qreal QDeclarativeListView::spacing() const { Q_D(const QDeclarativeListView); return d->spacing; } void QDeclarativeListView::setSpacing(qreal spacing) { Q_D(QDeclarativeListView); if (spacing != d->spacing) { d->spacing = spacing; d->layout(); emit spacingChanged(); } } /*! \qmlproperty enumeration ListView::orientation This property holds the orientation of the list. Possible values are \c Vertical (default) and \c Horizontal. Vertical Example: \image trivialListView.png Horizontal Example: \image ListViewHorizontal.png */ QDeclarativeListView::Orientation QDeclarativeListView::orientation() const { Q_D(const QDeclarativeListView); return d->orient; } void QDeclarativeListView::setOrientation(QDeclarativeListView::Orientation orientation) { Q_D(QDeclarativeListView); if (d->orient != orientation) { d->orient = orientation; if (d->orient == QDeclarativeListView::Vertical) { setContentWidth(-1); setFlickDirection(VerticalFlick); } else { setContentHeight(-1); setFlickDirection(HorizontalFlick); } d->clear(); refill(); emit orientationChanged(); d->updateCurrent(d->currentIndex); } } /*! \qmlproperty bool ListView::keyNavigationWraps This property holds whether the list wraps key navigation If this property is true then key presses to move off of one end of the list will cause the current item to jump to the other end. */ bool QDeclarativeListView::isWrapEnabled() const { Q_D(const QDeclarativeListView); return d->wrap; } void QDeclarativeListView::setWrapEnabled(bool wrap) { Q_D(QDeclarativeListView); if (d->wrap == wrap) return; d->wrap = wrap; emit keyNavigationWrapsChanged(); } /*! \qmlproperty int ListView::cacheBuffer This property holds the number of off-screen pixels to cache. This property determines the number of pixels above the top of the list and below the bottom of the list to cache. Setting this value can make scrolling the list smoother at the expense of additional memory usage. */ int QDeclarativeListView::cacheBuffer() const { Q_D(const QDeclarativeListView); return d->buffer; } void QDeclarativeListView::setCacheBuffer(int b) { Q_D(QDeclarativeListView); if (d->buffer != b) { d->buffer = b; if (isComponentComplete()) { d->bufferMode = QDeclarativeListViewPrivate::BufferBefore | QDeclarativeListViewPrivate::BufferAfter; refill(); } emit cacheBufferChanged(); } } /*! \qmlproperty string ListView::section.property \qmlproperty enumeration ListView::section.criteria These properties hold the expression to be evaluated for the section attached property. section.property hold the name of the property to use to determine the section the item is in. section.criteria holds the criteria to use to get the section. It can be either: \list \o ViewSection.FullString (default) - section is the value of the property. \o ViewSection.FirstCharacter - section is the first character of the property value. \endlist Each item in the list has attached properties named \c ListView.section and \c ListView.prevSection. These may be used to place a section header for related items. The example below assumes that the model is sorted by size of pet. The section expression is the size property. If \c ListView.section and \c ListView.prevSection differ, the item will display a section header. \snippet examples/declarative/listview/sections.qml 0 \image ListViewSections.png */ QDeclarativeViewSection *QDeclarativeListView::sectionCriteria() { Q_D(QDeclarativeListView); if (!d->sectionCriteria) d->sectionCriteria = new QDeclarativeViewSection(this); return d->sectionCriteria; } /*! \qmlproperty string ListView::currentSection This property holds the section that is currently at the beginning of the view. */ QString QDeclarativeListView::currentSection() const { Q_D(const QDeclarativeListView); return d->currentSection; } /*! \qmlproperty real ListView::highlightMoveSpeed \qmlproperty real ListView::highlightResizeSpeed These properties hold the move and resize animation speed of the highlight delegate. highlightFollowsCurrentItem must be true for these properties to have effect. The default value for these properties is 400 pixels/second. \sa highlightFollowsCurrentItem */ qreal QDeclarativeListView::highlightMoveSpeed() const { Q_D(const QDeclarativeListView);\ return d->highlightMoveSpeed; } void QDeclarativeListView::setHighlightMoveSpeed(qreal speed) { Q_D(QDeclarativeListView);\ if (d->highlightMoveSpeed != speed) { d->highlightMoveSpeed = speed; if (d->highlightPosAnimator) d->highlightPosAnimator->velocity = d->highlightMoveSpeed; emit highlightMoveSpeedChanged(); } } qreal QDeclarativeListView::highlightResizeSpeed() const { Q_D(const QDeclarativeListView);\ return d->highlightResizeSpeed; } void QDeclarativeListView::setHighlightResizeSpeed(qreal speed) { Q_D(QDeclarativeListView);\ if (d->highlightResizeSpeed != speed) { d->highlightResizeSpeed = speed; if (d->highlightSizeAnimator) d->highlightSizeAnimator->velocity = d->highlightResizeSpeed; emit highlightResizeSpeedChanged(); } } /*! \qmlproperty enumeration ListView::snapMode This property determines where the view will settle following a drag or flick. The allowed values are: \list \o NoSnap (default) - the view will stop anywhere within the visible area. \o SnapToItem - the view will settle with an item aligned with the start of the view. \o SnapOneItem - the view will settle no more than one item away from the first visible item at the time the mouse button is released. This mode is particularly useful for moving one page at a time. \endlist snapMode does not affect the currentIndex. To update the currentIndex as the list is moved set \e highlightRangeMode to \e StrictlyEnforceRange. \sa highlightRangeMode */ QDeclarativeListView::SnapMode QDeclarativeListView::snapMode() const { Q_D(const QDeclarativeListView); return d->snapMode; } void QDeclarativeListView::setSnapMode(SnapMode mode) { Q_D(QDeclarativeListView); if (d->snapMode != mode) { d->snapMode = mode; emit snapModeChanged(); } } QDeclarativeComponent *QDeclarativeListView::footer() const { Q_D(const QDeclarativeListView); return d->footerComponent; } void QDeclarativeListView::setFooter(QDeclarativeComponent *footer) { Q_D(QDeclarativeListView); if (d->footerComponent != footer) { if (d->footer) { delete d->footer; d->footer = 0; } d->footerComponent = footer; d->minExtentDirty = true; d->maxExtentDirty = true; d->updateFooter(); d->updateViewport(); emit footerChanged(); } } QDeclarativeComponent *QDeclarativeListView::header() const { Q_D(const QDeclarativeListView); return d->headerComponent; } void QDeclarativeListView::setHeader(QDeclarativeComponent *header) { Q_D(QDeclarativeListView); if (d->headerComponent != header) { if (d->header) { delete d->header; d->header = 0; } d->headerComponent = header; d->minExtentDirty = true; d->maxExtentDirty = true; d->updateHeader(); d->updateFooter(); d->updateViewport(); emit headerChanged(); } } bool QDeclarativeListView::event(QEvent *event) { Q_D(QDeclarativeListView); if (event->type() == QEvent::User) { d->layout(); return true; } return QDeclarativeFlickable::event(event); } void QDeclarativeListView::viewportMoved() { Q_D(QDeclarativeListView); QDeclarativeFlickable::viewportMoved(); d->lazyRelease = true; refill(); if (isFlicking() || d->moving) d->moveReason = QDeclarativeListViewPrivate::Mouse; if (d->moveReason != QDeclarativeListViewPrivate::SetIndex) { if (d->haveHighlightRange && d->highlightRange == StrictlyEnforceRange && d->highlight) { // reposition highlight qreal pos = d->highlight->position(); qreal viewPos = qRound(d->position()); if (pos > viewPos + d->highlightRangeEnd - 1 - d->highlight->size()) pos = viewPos + d->highlightRangeEnd - 1 - d->highlight->size(); if (pos < viewPos + d->highlightRangeStart) pos = viewPos + d->highlightRangeStart; d->highlight->setPosition(pos); // update current index int idx = d->snapIndex(); if (idx >= 0 && idx != d->currentIndex) d->updateCurrent(idx); } } if (d->flicked && d->correctFlick && !d->inFlickCorrection) { d->inFlickCorrection = true; // Near an end and it seems that the extent has changed? // Recalculate the flick so that we don't end up in an odd position. if (yflick()) { if (d->vData.velocity > 0) { const qreal minY = minYExtent(); if ((minY - d->vData.move.value() < height()/2 || d->vData.flickTarget - d->vData.move.value() < height()/2) && minY != d->vData.flickTarget) d->flickY(-d->vData.smoothVelocity.value()); d->bufferMode = QDeclarativeListViewPrivate::BufferBefore; } else if (d->vData.velocity < 0) { const qreal maxY = maxYExtent(); if ((d->vData.move.value() - maxY < height()/2 || d->vData.move.value() - d->vData.flickTarget < height()/2) && maxY != d->vData.flickTarget) d->flickY(-d->vData.smoothVelocity.value()); d->bufferMode = QDeclarativeListViewPrivate::BufferAfter; } } if (xflick()) { if (d->hData.velocity > 0) { const qreal minX = minXExtent(); if ((minX - d->hData.move.value() < width()/2 || d->hData.flickTarget - d->hData.move.value() < width()/2) && minX != d->hData.flickTarget) d->flickX(-d->hData.smoothVelocity.value()); d->bufferMode = QDeclarativeListViewPrivate::BufferBefore; } else if (d->hData.velocity < 0) { const qreal maxX = maxXExtent(); if ((d->hData.move.value() - maxX < width()/2 || d->hData.move.value() - d->hData.flickTarget < width()/2) && maxX != d->hData.flickTarget) d->flickX(-d->hData.smoothVelocity.value()); d->bufferMode = QDeclarativeListViewPrivate::BufferAfter; } } d->inFlickCorrection = false; } } qreal QDeclarativeListView::minYExtent() const { Q_D(const QDeclarativeListView); if (d->orient == QDeclarativeListView::Horizontal) return QDeclarativeFlickable::minYExtent(); if (d->minExtentDirty) { d->minExtent = -d->startPosition(); if (d->header && d->visibleItems.count()) d->minExtent += d->header->size(); if (d->haveHighlightRange && d->highlightRange == StrictlyEnforceRange) d->minExtent += d->highlightRangeStart; d->minExtentDirty = false; } return d->minExtent; } qreal QDeclarativeListView::maxYExtent() const { Q_D(const QDeclarativeListView); if (d->orient == QDeclarativeListView::Horizontal) return height(); if (d->maxExtentDirty) { if (d->haveHighlightRange && d->highlightRange == StrictlyEnforceRange) { d->maxExtent = -(d->endPosition() - d->highlightRangeEnd); d->maxExtent = qMax(d->maxExtent, -(d->positionAt(d->model->count()-1) - d->highlightRangeStart)); } else d->maxExtent = -(d->endPosition() - height() + 1); if (d->footer) d->maxExtent -= d->footer->size(); qreal minY = minYExtent(); if (d->maxExtent > minY) d->maxExtent = minY; d->maxExtentDirty = false; } return d->maxExtent; } qreal QDeclarativeListView::minXExtent() const { Q_D(const QDeclarativeListView); if (d->orient == QDeclarativeListView::Vertical) return QDeclarativeFlickable::minXExtent(); if (d->minExtentDirty) { d->minExtent = -d->startPosition(); if (d->header) d->minExtent += d->header->size(); if (d->haveHighlightRange && d->highlightRange == StrictlyEnforceRange) d->minExtent += d->highlightRangeStart; d->minExtentDirty = false; } return d->minExtent; } qreal QDeclarativeListView::maxXExtent() const { Q_D(const QDeclarativeListView); if (d->orient == QDeclarativeListView::Vertical) return width(); if (d->maxExtentDirty) { if (d->haveHighlightRange && d->highlightRange == StrictlyEnforceRange) { d->maxExtent = -(d->endPosition() - d->highlightRangeEnd); d->maxExtent = qMax(d->maxExtent, -(d->positionAt(d->model->count()-1) - d->highlightRangeStart)); } else d->maxExtent = -(d->endPosition() - width() + 1); if (d->footer) d->maxExtent -= d->footer->size(); qreal minX = minXExtent(); if (d->maxExtent > minX) d->maxExtent = minX; d->maxExtentDirty = false; } return d->maxExtent; } void QDeclarativeListView::keyPressEvent(QKeyEvent *event) { Q_D(QDeclarativeListView); if (d->model && d->model->count() && d->interactive) { if ((d->orient == QDeclarativeListView::Horizontal && event->key() == Qt::Key_Left) || (d->orient == QDeclarativeListView::Vertical && event->key() == Qt::Key_Up)) { if (currentIndex() > 0 || (d->wrap && !event->isAutoRepeat())) { decrementCurrentIndex(); event->accept(); return; } else if (d->wrap) { event->accept(); return; } } else if ((d->orient == QDeclarativeListView::Horizontal && event->key() == Qt::Key_Right) || (d->orient == QDeclarativeListView::Vertical && event->key() == Qt::Key_Down)) { if (currentIndex() < d->model->count() - 1 || (d->wrap && !event->isAutoRepeat())) { incrementCurrentIndex(); event->accept(); return; } else if (d->wrap) { event->accept(); return; } } } QDeclarativeFlickable::keyPressEvent(event); if (event->isAccepted()) return; event->ignore(); } /*! \qmlmethod ListView::incrementCurrentIndex() Increments the current index. The current index will wrap if keyNavigationWraps is true and it is currently at the end. */ void QDeclarativeListView::incrementCurrentIndex() { Q_D(QDeclarativeListView); if (currentIndex() < d->model->count() - 1 || d->wrap) { d->moveReason = QDeclarativeListViewPrivate::SetIndex; int index = currentIndex()+1; cancelFlick(); d->updateCurrent(index < d->model->count() ? index : 0); } } /*! \qmlmethod ListView::decrementCurrentIndex() Decrements the current index. The current index will wrap if keyNavigationWraps is true and it is currently at the beginning. */ void QDeclarativeListView::decrementCurrentIndex() { Q_D(QDeclarativeListView); if (currentIndex() > 0 || d->wrap) { d->moveReason = QDeclarativeListViewPrivate::SetIndex; int index = currentIndex()-1; cancelFlick(); d->updateCurrent(index >= 0 ? index : d->model->count()-1); } } /*! \qmlmethod ListView::positionViewAtIndex(int index, PositionMode mode) Positions the view such that the \a index is at the position specified by \a mode: \list \o Beginning - position item at the top (or left for horizontal orientation) of the view. \o Center- position item in the center of the view. \o End - position item at bottom (or right for horizontal orientation) of the view. \o Visible - if any part of the item is visible then take no action, otherwise bring the item into view. \o Contain - ensure the entire item is visible. If the item is larger than the view the item is positioned at the top (or left for horizontal orientation) of the view. \endlist If positioning the view at the index would cause empty space to be displayed at the beginning or end of the view, the view will be positioned at the boundary. It is not recommended to use contentX or contentY to position the view at a particular index. This is unreliable since removing items from the start of the list does not cause all other items to be repositioned, and because the actual start of the view can vary based on the size of the delegates. The correct way to bring an item into view is with positionViewAtIndex. */ void QDeclarativeListView::positionViewAtIndex(int index, int mode) { Q_D(QDeclarativeListView); if (!d->isValid() || index < 0 || index >= d->model->count()) return; if (mode < Beginning || mode > Contain) return; qreal pos = d->position(); FxListItem *item = d->visibleItem(index); if (!item) { int itemPos = d->positionAt(index); // save the currently visible items in case any of them end up visible again QList oldVisible = d->visibleItems; d->visibleItems.clear(); d->visiblePos = itemPos; d->visibleIndex = index; d->setPosition(itemPos); // now release the reference to all the old visible items. for (int i = 0; i < oldVisible.count(); ++i) d->releaseItem(oldVisible.at(i)); item = d->visibleItem(index); } if (item) { const qreal itemPos = item->position(); switch (mode) { case Beginning: pos = itemPos; break; case Center: pos = itemPos - (d->size() - item->size())/2; break; case End: pos = itemPos - d->size() + item->size(); break; case Visible: if (itemPos > pos + d->size()) pos = itemPos - d->size() + item->size(); else if (item->endPosition() < pos) pos = itemPos; break; case Contain: if (item->endPosition() > pos + d->size()) pos = itemPos - d->size() + item->size(); if (itemPos < pos) pos = itemPos; } qreal maxExtent = d->orient == QDeclarativeListView::Vertical ? -maxYExtent() : -maxXExtent(); pos = qMin(pos, maxExtent); qreal minExtent = d->orient == QDeclarativeListView::Vertical ? -minYExtent() : -minXExtent(); pos = qMax(pos, minExtent); d->setPosition(pos); } d->fixupPosition(); } /*! \qmlmethod int ListView::indexAt(int x, int y) Returns the index of the visible item containing the point \a x, \a y in content coordinates. If there is no item at the point specified, or the item is not visible -1 is returned. If the item is outside the visible area, -1 is returned, regardless of whether an item will exist at that point when scrolled into view. */ int QDeclarativeListView::indexAt(int x, int y) const { Q_D(const QDeclarativeListView); for (int i = 0; i < d->visibleItems.count(); ++i) { const FxListItem *listItem = d->visibleItems.at(i); if(listItem->contains(x, y)) return listItem->index; } return -1; } void QDeclarativeListView::componentComplete() { Q_D(QDeclarativeListView); QDeclarativeFlickable::componentComplete(); refill(); d->moveReason = QDeclarativeListViewPrivate::SetIndex; if (d->currentIndex < 0) d->updateCurrent(0); else d->updateCurrent(d->currentIndex); d->fixupPosition(); } void QDeclarativeListView::refill() { Q_D(QDeclarativeListView); d->refill(d->position(), d->position()+d->size()-1); } void QDeclarativeListView::trackedPositionChanged() { Q_D(QDeclarativeListView); if (!d->trackedItem || !d->currentItem) return; if (!isFlicking() && !d->moving && d->moveReason == QDeclarativeListViewPrivate::SetIndex) { const qreal trackedPos = d->trackedItem->position(); const qreal viewPos = d->position(); if (d->haveHighlightRange) { if (d->highlightRange == StrictlyEnforceRange) { qreal pos = viewPos; if (trackedPos > pos + d->highlightRangeEnd - d->trackedItem->size()) pos = trackedPos - d->highlightRangeEnd + d->trackedItem->size(); if (trackedPos < pos + d->highlightRangeStart) pos = trackedPos - d->highlightRangeStart; d->setPosition(pos); } else { qreal pos = viewPos; if (trackedPos < d->startPosition() + d->highlightRangeStart) { pos = d->startPosition(); } else if (d->trackedItem->endPosition() > d->endPosition() - d->size() + d->highlightRangeEnd) { pos = d->endPosition() - d->size(); if (pos < d->startPosition()) pos = d->startPosition(); } else { if (trackedPos < viewPos + d->highlightRangeStart) { pos = trackedPos - d->highlightRangeStart; } else if (trackedPos > viewPos + d->highlightRangeEnd - d->trackedItem->size()) { pos = trackedPos - d->highlightRangeEnd + d->trackedItem->size(); } } d->setPosition(pos); } } else { if (trackedPos < viewPos && d->currentItem->position() < viewPos) { d->setPosition(d->currentItem->position() < trackedPos ? trackedPos : d->currentItem->position()); } else if (d->trackedItem->endPosition() > viewPos + d->size() && d->currentItem->endPosition() > viewPos + d->size()) { qreal pos; if (d->trackedItem->endPosition() < d->currentItem->endPosition()) { pos = d->trackedItem->endPosition() - d->size(); if (d->trackedItem->size() > d->size()) pos = trackedPos; } else { pos = d->currentItem->endPosition() - d->size(); if (d->currentItem->size() > d->size()) pos = d->currentItem->position(); } d->setPosition(pos); } } } } void QDeclarativeListView::itemsInserted(int modelIndex, int count) { Q_D(QDeclarativeListView); if (!isComponentComplete()) return; d->updateUnrequestedIndexes(); d->moveReason = QDeclarativeListViewPrivate::Other; if (!d->visibleItems.count() || d->model->count() <= 1) { d->scheduleLayout(); if (d->currentIndex >= modelIndex) { // adjust current item index d->currentIndex += count; if (d->currentItem) d->currentItem->index = d->currentIndex; emit currentIndexChanged(); } else if (d->currentIndex < 0) { d->updateCurrent(0); } emit countChanged(); return; } int overlapCount = count; if (!d->mapRangeFromModel(modelIndex, overlapCount)) { int i = d->visibleItems.count() - 1; while (i > 0 && d->visibleItems.at(i)->index == -1) --i; if (d->visibleItems.at(i)->index + 1 == modelIndex && d->visibleItems.at(i)->endPosition() < d->buffer+d->position()+d->size()-1) { // Special case of appending an item to the model. modelIndex = d->visibleIndex + d->visibleItems.count(); } else { if (modelIndex < d->visibleIndex) { // Insert before visible items d->visibleIndex += count; for (int i = 0; i < d->visibleItems.count(); ++i) { FxListItem *listItem = d->visibleItems.at(i); if (listItem->index != -1 && listItem->index >= modelIndex) listItem->index += count; } } if (d->currentIndex >= modelIndex) { // adjust current item index d->currentIndex += count; if (d->currentItem) d->currentItem->index = d->currentIndex; emit currentIndexChanged(); } d->scheduleLayout(); emit countChanged(); return; } } // At least some of the added items will be visible int index = modelIndex - d->visibleIndex; // index can be the next item past the end of the visible items list (i.e. appended) int pos = index < d->visibleItems.count() ? d->visibleItems.at(index)->position() : d->visibleItems.at(index-1)->endPosition()+d->spacing+1; int initialPos = pos; int diff = 0; QList added; bool addedVisible = false; FxListItem *firstVisible = d->firstVisibleItem(); if (firstVisible && pos < firstVisible->position()) { // Insert items before the visible item. int insertionIdx = index; int i = 0; int from = d->position() - d->buffer; for (i = count-1; i >= 0 && pos > from; --i) { if (!addedVisible) { d->scheduleLayout(); addedVisible = true; } FxListItem *item = d->createItem(modelIndex + i); d->visibleItems.insert(insertionIdx, item); pos -= item->size() + d->spacing; item->setPosition(pos); index++; } if (i >= 0) { // If we didn't insert all our new items - anything // before the current index is not visible - remove it. while (insertionIdx--) { FxListItem *item = d->visibleItems.takeFirst(); if (item->index != -1) d->visibleIndex++; d->releaseItem(item); } } else { // adjust pos of items before inserted items. for (int i = insertionIdx-1; i >= 0; i--) { FxListItem *listItem = d->visibleItems.at(i); listItem->setPosition(listItem->position() - (initialPos - pos)); } } } else { int i = 0; int to = d->buffer+d->position()+d->size()-1; for (i = 0; i < count && pos <= to; ++i) { if (!addedVisible) { d->scheduleLayout(); addedVisible = true; } FxListItem *item = d->createItem(modelIndex + i); d->visibleItems.insert(index, item); item->setPosition(pos); added.append(item); pos += item->size() + d->spacing; ++index; } if (i != count) { // We didn't insert all our new items, which means anything // beyond the current index is not visible - remove it. while (d->visibleItems.count() > index) d->releaseItem(d->visibleItems.takeLast()); } diff = pos - initialPos; } if (d->currentIndex >= modelIndex) { // adjust current item index d->currentIndex += count; if (d->currentItem) { d->currentItem->index = d->currentIndex; d->currentItem->setPosition(d->currentItem->position() + diff); } emit currentIndexChanged(); } // Update the indexes of the following visible items. for (; index < d->visibleItems.count(); ++index) { FxListItem *listItem = d->visibleItems.at(index); if (d->currentItem && listItem->item != d->currentItem->item) listItem->setPosition(listItem->position() + diff); if (listItem->index != -1) listItem->index += count; } // everything is in order now - emit add() signal for (int j = 0; j < added.count(); ++j) added.at(j)->attached->emitAdd(); emit countChanged(); } void QDeclarativeListView::itemsRemoved(int modelIndex, int count) { Q_D(QDeclarativeListView); if (!isComponentComplete()) return; d->moveReason = QDeclarativeListViewPrivate::Other; d->updateUnrequestedIndexes(); FxListItem *firstVisible = d->firstVisibleItem(); int preRemovedSize = 0; bool removedVisible = false; // Remove the items from the visible list, skipping anything already marked for removal QList::Iterator it = d->visibleItems.begin(); while (it != d->visibleItems.end()) { FxListItem *item = *it; if (item->index == -1 || item->index < modelIndex) { // already removed, or before removed items ++it; } else if (item->index >= modelIndex + count) { // after removed items item->index -= count; ++it; } else { // removed item if (!removedVisible) { d->scheduleLayout(); removedVisible = true; } item->attached->emitRemove(); if (item->attached->delayRemove()) { item->index = -1; connect(item->attached, SIGNAL(delayRemoveChanged()), this, SLOT(destroyRemoved()), Qt::QueuedConnection); ++it; } else { if (item == firstVisible) firstVisible = 0; if (firstVisible && item->position() < firstVisible->position()) preRemovedSize += item->size(); it = d->visibleItems.erase(it); d->releaseItem(item); } } } if (firstVisible && d->visibleItems.first() != firstVisible) d->visibleItems.first()->setPosition(d->visibleItems.first()->position() + preRemovedSize); // fix current if (d->currentIndex >= modelIndex + count) { d->currentIndex -= count; if (d->currentItem) d->currentItem->index -= count; emit currentIndexChanged(); } else if (d->currentIndex >= modelIndex && d->currentIndex < modelIndex + count) { // current item has been removed. d->currentItem->attached->setIsCurrentItem(false); d->releaseItem(d->currentItem); d->currentItem = 0; d->currentIndex = -1; d->updateCurrent(qMin(modelIndex, d->model->count()-1)); } // update visibleIndex for (it = d->visibleItems.begin(); it != d->visibleItems.end(); ++it) { if ((*it)->index != -1) { d->visibleIndex = (*it)->index; break; } } if (removedVisible && d->visibleItems.isEmpty()) { d->visibleIndex = 0; d->visiblePos = d->header ? d->header->size() : 0; d->timeline.clear(); d->setPosition(0); if (d->model->count() == 0) update(); } emit countChanged(); } void QDeclarativeListView::destroyRemoved() { Q_D(QDeclarativeListView); for (QList::Iterator it = d->visibleItems.begin(); it != d->visibleItems.end();) { FxListItem *listItem = *it; if (listItem->index == -1 && listItem->attached->delayRemove() == false) { d->releaseItem(listItem); it = d->visibleItems.erase(it); } else { ++it; } } // Correct the positioning of the items d->layout(); } void QDeclarativeListView::itemsMoved(int from, int to, int count) { Q_D(QDeclarativeListView); if (!isComponentComplete()) return; d->updateUnrequestedIndexes(); if (d->visibleItems.isEmpty()) { refill(); return; } d->moveReason = QDeclarativeListViewPrivate::Other; FxListItem *firstVisible = d->firstVisibleItem(); qreal firstItemPos = firstVisible->position(); QHash moved; int moveBy = 0; QList::Iterator it = d->visibleItems.begin(); while (it != d->visibleItems.end()) { FxListItem *item = *it; if (item->index >= from && item->index < from + count) { // take the items that are moving item->index += (to-from); moved.insert(item->index, item); if (item->position() < firstItemPos) moveBy += item->size(); it = d->visibleItems.erase(it); } else { // move everything after the moved items. if (item->index > from && item->index != -1) item->index -= count; ++it; } } int remaining = count; int endIndex = d->visibleIndex; it = d->visibleItems.begin(); while (it != d->visibleItems.end()) { FxListItem *item = *it; if (remaining && item->index >= to && item->index < to + count) { // place items in the target position, reusing any existing items FxListItem *movedItem = moved.take(item->index); if (!movedItem) movedItem = d->createItem(item->index); if (item->index <= firstVisible->index) moveBy -= movedItem->size(); it = d->visibleItems.insert(it, movedItem); ++it; --remaining; } else { if (item->index != -1) { if (item->index >= to) { // update everything after the moved items. item->index += count; } endIndex = item->index; } ++it; } } // If we have moved items to the end of the visible items // then add any existing moved items that we have while (FxListItem *item = moved.take(endIndex+1)) { d->visibleItems.append(item); ++endIndex; } // update visibleIndex for (it = d->visibleItems.begin(); it != d->visibleItems.end(); ++it) { if ((*it)->index != -1) { d->visibleIndex = (*it)->index; break; } } // Fix current index if (d->currentIndex >= 0 && d->currentItem) { int oldCurrent = d->currentIndex; d->currentIndex = d->model->indexOf(d->currentItem->item, this); if (oldCurrent != d->currentIndex) { d->currentItem->index = d->currentIndex; emit currentIndexChanged(); } } // Whatever moved items remain are no longer visible items. while (moved.count()) { int idx = moved.begin().key(); FxListItem *item = moved.take(idx); if (item->item == d->currentItem->item) item->setPosition(d->positionAt(idx)); d->releaseItem(item); } // Ensure we don't cause an ugly list scroll. d->visibleItems.first()->setPosition(d->visibleItems.first()->position() + moveBy); d->layout(); } void QDeclarativeListView::modelReset() { Q_D(QDeclarativeListView); d->clear(); refill(); d->moveReason = QDeclarativeListViewPrivate::SetIndex; d->updateCurrent(d->currentIndex); emit countChanged(); } void QDeclarativeListView::createdItem(int index, QDeclarativeItem *item) { Q_D(QDeclarativeListView); if (d->requestedIndex != index) { item->setParentItem(viewport()); d->unrequestedItems.insert(item, index); if (d->orient == QDeclarativeListView::Vertical) item->setY(d->positionAt(index)); else item->setX(d->positionAt(index)); } } void QDeclarativeListView::destroyingItem(QDeclarativeItem *item) { Q_D(QDeclarativeListView); d->unrequestedItems.remove(item); } void QDeclarativeListView::animStopped() { Q_D(QDeclarativeListView); d->bufferMode = QDeclarativeListViewPrivate::NoBuffer; } QDeclarativeListViewAttached *QDeclarativeListView::qmlAttachedProperties(QObject *obj) { return new QDeclarativeListViewAttached(obj); } QT_END_NAMESPACE