#include "kfileitemmodel.h"
-#include <KDirModel>
#include <KGlobalSettings>
#include <KLocale>
#include <KStringHandler>
QHash<QByteArray, QVariant> KFileItemModel::data(int index) const
{
if (index >= 0 && index < count()) {
- return m_itemData.at(index)->values;
+ ItemData* data = m_itemData.at(index);
+ if (data->values.isEmpty()) {
+ data->values = retrieveData(data->item, data->parent);
+ }
+
+ return data->values;
}
return QHash<QByteArray, QVariant>();
}
return false;
}
- QHash<QByteArray, QVariant> currentValues = m_itemData.at(index)->values;
+ QHash<QByteArray, QVariant> currentValues = data(index);
// Determine which roles have been changed
QSet<QByteArray> changedRoles;
m_itemData[index]->item.setUrl(url);
}
- emit itemsChanged(KItemRangeList() << KItemRange(index, 1), changedRoles);
-
- if (changedRoles.contains(sortRole())) {
- m_resortAllItemsTimer->start();
- }
+ emitItemsChangedAndTriggerResorting(KItemRangeList() << KItemRange(index, 1), changedRoles);
return true;
}
return m_dirLister->dirOnlyMode();
}
-QMimeData* KFileItemModel::createMimeData(const QSet<int>& indexes) const
+QMimeData* KFileItemModel::createMimeData(const KItemSet& indexes) const
{
QMimeData* data = new QMimeData();
KUrl::List urls;
KUrl::List mostLocalUrls;
bool canUseMostLocalUrls = true;
+ const ItemData* lastAddedItem = 0;
- QSetIterator<int> it(indexes);
- while (it.hasNext()) {
- const int index = it.next();
- const KFileItem item = fileItem(index);
+ foreach (int index, indexes) {
+ const ItemData* itemData = m_itemData.at(index);
+ const ItemData* parent = itemData->parent;
+
+ while (parent && parent != lastAddedItem) {
+ parent = parent->parent;
+ }
+
+ if (parent && parent == lastAddedItem) {
+ // A parent of 'itemData' has been added already.
+ continue;
+ }
+
+ lastAddedItem = itemData;
+ const KFileItem& item = itemData->item;
if (!item.isNull()) {
urls << item.targetUrl();
}
const bool different = canUseMostLocalUrls && mostLocalUrls != urls;
- urls = KDirModel::simplifiedUrlList(urls); // TODO: Check if we still need KDirModel for this in KDE 5.0
if (different) {
- mostLocalUrls = KDirModel::simplifiedUrlList(mostLocalUrls);
urls.populateMimeData(mostLocalUrls, data);
} else {
urls.populateMimeData(data);
{
startFromIndex = qMax(0, startFromIndex);
for (int i = startFromIndex; i < count(); ++i) {
- if (data(i)["text"].toString().startsWith(text, Qt::CaseInsensitive)) {
+ if (fileItem(i).text().startsWith(text, Qt::CaseInsensitive)) {
return i;
}
}
for (int i = 0; i < startFromIndex; ++i) {
- if (data(i)["text"].toString().startsWith(text, Qt::CaseInsensitive)) {
+ if (fileItem(i).text().startsWith(text, Qt::CaseInsensitive)) {
return i;
}
}
kWarning() << "TODO: Emitting itemsChanged() with no information what has changed!";
emit itemsChanged(KItemRangeList() << KItemRange(0, count()), QSet<QByteArray>());
}
+
+ // Clear the 'values' of all filtered items. They will be re-populated with the
+ // correct roles the next time 'values' will be accessed via data(int).
+ QHash<KFileItem, ItemData*>::iterator filteredIt = m_filteredItems.begin();
+ const QHash<KFileItem, ItemData*>::iterator filteredEnd = m_filteredItems.end();
+ while (filteredIt != filteredEnd) {
+ (*filteredIt)->values.clear();
+ ++filteredIt;
+ }
}
QSet<QByteArray> KFileItemModel::roles() const
if (expanded) {
m_expandedDirs.insert(targetUrl, url);
m_dirLister->openUrl(url, KDirLister::Keep);
+
+ const KUrl::List previouslyExpandedChildren = m_itemData.at(index)->values.value("previouslyExpandedChildren").value<KUrl::List>();
+ foreach (const KUrl& url, previouslyExpandedChildren) {
+ m_urlsToExpand.insert(url);
+ }
} else {
m_expandedDirs.remove(targetUrl);
m_dirLister->stop(url);
- removeFilteredChildren(KFileItemList() << item);
+ const int parentLevel = expandedParentsCount(index);
+ const int itemCount = m_itemData.count();
+ const int firstChildIndex = index + 1;
+
+ KUrl::List expandedChildren;
+
+ int childIndex = firstChildIndex;
+ while (childIndex < itemCount && expandedParentsCount(childIndex) > parentLevel) {
+ ItemData* itemData = m_itemData.at(childIndex);
+ if (itemData->values.value("isExpanded").toBool()) {
+ const KUrl targetUrl = itemData->item.targetUrl();
+ m_expandedDirs.remove(targetUrl);
+ expandedChildren.append(targetUrl);
+ }
+ ++childIndex;
+ }
+ const int childrenCount = childIndex - firstChildIndex;
+
+ removeFilteredChildren(KItemRangeList() << KItemRange(index, 1 + childrenCount));
+ removeItems(KItemRangeList() << KItemRange(firstChildIndex, childrenCount), DeleteItemData);
- const KFileItemList itemsToRemove = childItems(item);
- removeFilteredChildren(itemsToRemove);
- removeItems(itemsToRemove, DeleteItemData);
+ m_itemData.at(index)->values.insert("previouslyExpandedChildren", expandedChildren);
}
return true;
bool KFileItemModel::isExpandable(int index) const
{
if (index >= 0 && index < count()) {
- return m_itemData.at(index)->values.value("isExpandable").toBool();
+ // Call data (instead of accessing m_itemData directly)
+ // to ensure that the value is initialized.
+ return data(index).value("isExpandable").toBool();
}
return false;
}
int KFileItemModel::expandedParentsCount(int index) const
{
if (index >= 0 && index < count()) {
- const int parentsCount = m_itemData.at(index)->values.value("expandedParentsCount").toInt();
- if (parentsCount > 0) {
- return parentsCount;
- }
+ return expandedParentsCount(m_itemData.at(index));
}
return 0;
}
{
// Check which shown items from m_itemData must get
// hidden and hence moved to m_filteredItems.
- KFileItemList newFilteredItems;
+ QVector<int> newFilteredIndexes;
+
+ const int itemCount = m_itemData.count();
+ for (int index = 0; index < itemCount; ++index) {
+ ItemData* itemData = m_itemData.at(index);
- foreach (ItemData* itemData, m_itemData) {
// Only filter non-expanded items as child items may never
// exist without a parent item
if (!itemData->values.value("isExpanded").toBool()) {
const KFileItem item = itemData->item;
if (!m_filter.matches(item)) {
- newFilteredItems.append(item);
+ newFilteredIndexes.append(index);
m_filteredItems.insert(item, itemData);
}
}
}
- removeItems(newFilteredItems, KeepItemData);
+ const KItemRangeList removedRanges = KItemRangeList::fromSortedContainer(newFilteredIndexes);
+ removeItems(removedRanges, KeepItemData);
// Check which hidden items from m_filteredItems should
// get visible again and hence removed from m_filteredItems.
insertItems(newVisibleItems);
}
-void KFileItemModel::removeFilteredChildren(const KFileItemList& parentsList)
+void KFileItemModel::removeFilteredChildren(const KItemRangeList& itemRanges)
{
- if (m_filteredItems.isEmpty()) {
+ if (m_filteredItems.isEmpty() || !m_requestRole[ExpandedParentsCountRole]) {
+ // There are either no filtered items, or it is not possible to expand
+ // folders -> there cannot be any filtered children.
return;
}
- // First, we put the parent items into a set to provide fast lookup
- // while iterating over m_filteredItems and prevent quadratic
- // complexity if there are N parents and N filtered items.
- const QSet<KFileItem> parents = parentsList.toSet();
+ QSet<ItemData*> parents;
+ foreach (const KItemRange& range, itemRanges) {
+ for (int index = range.index; index < range.index + range.count; ++index) {
+ parents.insert(m_itemData.at(index));
+ }
+ }
QHash<KFileItem, ItemData*>::iterator it = m_filteredItems.begin();
while (it != m_filteredItems.end()) {
- const ItemData* parent = it.value()->parent;
-
- if (parent && parents.contains(parent->item)) {
+ if (parents.contains(it.value()->parent)) {
delete it.value();
it = m_filteredItems.erase(it);
} else {
// menus tries to put the actions into sub menus otherwise.
info.group = QString();
}
- info.requiresNepomuk = map[i].requiresNepomuk;
+ info.requiresBaloo = map[i].requiresBaloo;
info.requiresIndexer = map[i].requiresIndexer;
rolesInfo.append(info);
}
oldUrls.append(itemData->item.url());
}
- m_groups.clear();
m_items.clear();
// Resort the items
m_items.insert(m_itemData.at(i)->item.url(), i);
}
- // Determine the indexes that have been moved
- QList<int> movedToIndexes;
- movedToIndexes.reserve(itemCount);
- for (int i = 0; i < itemCount; i++) {
- const int newIndex = m_items.value(oldUrls.at(i));
- movedToIndexes.append(newIndex);
+ // Determine the first index that has been moved.
+ int firstMovedIndex = 0;
+ while (firstMovedIndex < itemCount
+ && firstMovedIndex == m_items.value(oldUrls.at(firstMovedIndex))) {
+ ++firstMovedIndex;
}
- // Don't check whether items have really been moved and always emit a
- // itemsMoved() signal after resorting: In case of grouped items
- // the groups might change even if the items themselves don't change their
- // position. Let the receiver of the signal decide whether a check for moved
- // items makes sense.
- emit itemsMoved(KItemRange(0, itemCount), movedToIndexes);
+ const bool itemsHaveMoved = firstMovedIndex < itemCount;
+ if (itemsHaveMoved) {
+ m_groups.clear();
+
+ int lastMovedIndex = itemCount - 1;
+ while (lastMovedIndex > firstMovedIndex
+ && lastMovedIndex == m_items.value(oldUrls.at(lastMovedIndex))) {
+ --lastMovedIndex;
+ }
+
+ Q_ASSERT(firstMovedIndex <= lastMovedIndex);
+
+ // Create a list movedToIndexes, which has the property that
+ // movedToIndexes[i] is the new index of the item with the old index
+ // firstMovedIndex + i.
+ const int movedItemsCount = lastMovedIndex - firstMovedIndex + 1;
+ QList<int> movedToIndexes;
+ movedToIndexes.reserve(movedItemsCount);
+ for (int i = firstMovedIndex; i <= lastMovedIndex; ++i) {
+ const int newIndex = m_items.value(oldUrls.at(i));
+ movedToIndexes.append(newIndex);
+ }
+
+ emit itemsMoved(KItemRange(firstMovedIndex, movedItemsCount), movedToIndexes);
+ } else if (groupedSorting()) {
+ // The groups might have changed even if the order of the items has not.
+ const QList<QPair<int, QVariant> > oldGroups = m_groups;
+ m_groups.clear();
+ if (groups() != oldGroups) {
+ emit groupsChanged();
+ }
+ }
#ifdef KFILEITEMMODEL_DEBUG
kDebug() << "[TIME] Resorting of" << itemCount << "items:" << timer.elapsed();
{
dispatchPendingItemsToInsert();
- KFileItemList itemsToRemove = items;
- if (m_requestRole[ExpandedParentsCountRole]) {
- // Assure that removing a parent item also results in removing all children
- foreach (const KFileItem& item, items) {
- itemsToRemove.append(childItems(item));
- }
- }
+ QVector<int> indexesToRemove;
+ indexesToRemove.reserve(items.count());
- if (!m_filteredItems.isEmpty()) {
- foreach (const KFileItem& item, itemsToRemove) {
+ foreach (const KFileItem& item, items) {
+ const KUrl url = item.url();
+ const int index = m_items.value(url, -1);
+ if (index >= 0) {
+ indexesToRemove.append(index);
+ } else {
+ // Probably the item has been filtered.
QHash<KFileItem, ItemData*>::iterator it = m_filteredItems.find(item);
if (it != m_filteredItems.end()) {
delete it.value();
m_filteredItems.erase(it);
}
}
+ }
+
+ std::sort(indexesToRemove.begin(), indexesToRemove.end());
- if (m_requestRole[ExpandedParentsCountRole]) {
- removeFilteredChildren(itemsToRemove);
+ if (m_requestRole[ExpandedParentsCountRole] && !m_expandedDirs.isEmpty()) {
+ // Assure that removing a parent item also results in removing all children
+ QVector<int> indexesToRemoveWithChildren;
+ indexesToRemoveWithChildren.reserve(m_items.count());
+
+ const int itemCount = m_itemData.count();
+ foreach (int index, indexesToRemove) {
+ indexesToRemoveWithChildren.append(index);
+
+ const int parentLevel = expandedParentsCount(index);
+ int childIndex = index + 1;
+ while (childIndex < itemCount && expandedParentsCount(childIndex) > parentLevel) {
+ indexesToRemoveWithChildren.append(childIndex);
+ ++childIndex;
+ }
}
+
+ indexesToRemove = indexesToRemoveWithChildren;
}
- removeItems(itemsToRemove, DeleteItemData);
+ const KItemRangeList itemRanges = KItemRangeList::fromSortedContainer(indexesToRemove);
+ removeFilteredChildren(itemRanges);
+ removeItems(itemRanges, DeleteItemData);
}
void KFileItemModel::slotRefreshItems(const QList<QPair<KFileItem, KFileItem> >& items)
m_items.remove(oldItem.url());
m_items.insert(newItem.url(), index);
indexes.append(index);
+ } else {
+ // Check if 'oldItem' is one of the filtered items.
+ QHash<KFileItem, ItemData*>::iterator it = m_filteredItems.find(oldItem);
+ if (it != m_filteredItems.end()) {
+ ItemData* itemData = it.value();
+ itemData->item = newItem;
+
+ // The data stored in 'values' might have changed. Therefore, we clear
+ // 'values' and re-populate it the next time it is requested via data(int).
+ itemData->values.clear();
+
+ m_filteredItems.erase(it);
+ m_filteredItems.insert(newItem, itemData);
+ }
}
}
// Extract the item-ranges out of the changed indexes
qSort(indexes);
-
- KItemRangeList itemRangeList;
- int previousIndex = indexes.at(0);
- int rangeIndex = previousIndex;
- int rangeCount = 1;
-
- const int maxIndex = indexes.count() - 1;
- for (int i = 1; i <= maxIndex; ++i) {
- const int currentIndex = indexes.at(i);
- if (currentIndex == previousIndex + 1) {
- ++rangeCount;
- } else {
- itemRangeList.append(KItemRange(rangeIndex, rangeCount));
-
- rangeIndex = currentIndex;
- rangeCount = 1;
- }
- previousIndex = currentIndex;
- }
-
- if (rangeCount > 0) {
- itemRangeList.append(KItemRange(rangeIndex, rangeCount));
- }
-
- emit itemsChanged(itemRangeList, changedRoles);
-
- if (changedRoles.contains(sortRole())) {
- resortAllItems();
- }
+ const KItemRangeList itemRangeList = KItemRangeList::fromSortedContainer(indexes);
+ emitItemsChangedAndTriggerResorting(itemRangeList, changedRoles);
}
void KFileItemModel::slotClear()
#endif
m_groups.clear();
+ prepareItemsForSorting(newItems);
+
+ if (m_sortRole == NameRole && m_naturalSorting) {
+ // Natural sorting of items can be very slow. However, it becomes much
+ // faster if the input sequence is already mostly sorted. Therefore, we
+ // first sort 'newItems' according to the QStrings returned by
+ // KFileItem::text() using QString::operator<(), which is quite fast.
+ parallelMergeSort(newItems.begin(), newItems.end(), nameLessThan, QThread::idealThreadCount());
+ }
sort(newItems.begin(), newItems.end());
#endif
}
-static KItemRangeList sortedIndexesToKItemRangeList(const QList<int>& sortedNumbers)
+void KFileItemModel::removeItems(const KItemRangeList& itemRanges, RemoveItemsBehavior behavior)
{
- if (sortedNumbers.empty()) {
- return KItemRangeList();
- }
-
- KItemRangeList result;
-
- QList<int>::const_iterator it = sortedNumbers.begin();
- int index = *it;
- int count = 1;
-
- ++it;
-
- QList<int>::const_iterator end = sortedNumbers.end();
- while (it != end) {
- if (*it == index + count) {
- ++count;
- } else {
- result << KItemRange(index, count);
- index = *it;
- count = 1;
- }
- ++it;
+ if (itemRanges.isEmpty()) {
+ return;
}
- result << KItemRange(index, count);
- return result;
-}
-
-void KFileItemModel::removeItems(const KFileItemList& items, RemoveItemsBehavior behavior)
-{
-#ifdef KFILEITEMMODEL_DEBUG
- kDebug() << "Removing " << items.count() << "items";
-#endif
-
m_groups.clear();
- // Step 1: Determine the indexes of the removed items, remove them from
- // the hash m_items, and free the ItemData.
- QList<int> indexesToRemove;
- indexesToRemove.reserve(items.count());
- foreach (const KFileItem& item, items) {
- const KUrl url = item.url();
- const int index = m_items.value(url, -1);
- if (index >= 0) {
- indexesToRemove.append(index);
+ // Step 1: Remove the items from the hash m_items, and free the ItemData.
+ int removedItemsCount = 0;
+ foreach (const KItemRange& range, itemRanges) {
+ removedItemsCount += range.count;
+
+ for (int index = range.index; index < range.index + range.count; ++index) {
+ const KUrl url = m_itemData.at(index)->item.url();
// Prevent repeated expensive rehashing by using QHash::erase(),
// rather than QHash::remove().
}
}
- if (indexesToRemove.isEmpty()) {
- return;
- }
-
- std::sort(indexesToRemove.begin(), indexesToRemove.end());
-
// Step 2: Remove the ItemData pointers from the list m_itemData.
- const KItemRangeList itemRanges = sortedIndexesToKItemRangeList(indexesToRemove);
int target = itemRanges.at(0).index;
int source = itemRanges.at(0).index + itemRanges.at(0).count;
int nextRange = 1;
}
}
- m_itemData.erase(m_itemData.end() - indexesToRemove.count(), m_itemData.end());
+ m_itemData.erase(m_itemData.end() - removedItemsCount, m_itemData.end());
// Step 3: Adjust indexes in the hash m_items, starting from the
// index of the first removed item.
foreach (const KFileItem& item, items) {
ItemData* itemData = new ItemData();
itemData->item = item;
- itemData->values = retrieveData(item, parentItem);
itemData->parent = parentItem;
itemDataList.append(itemData);
}
return itemDataList;
}
+void KFileItemModel::prepareItemsForSorting(QList<ItemData*>& itemDataList)
+{
+ switch (m_sortRole) {
+ case PermissionsRole:
+ case OwnerRole:
+ case GroupRole:
+ case DestinationRole:
+ case PathRole:
+ // These roles can be determined with retrieveData, and they have to be stored
+ // in the QHash "values" for the sorting.
+ foreach (ItemData* itemData, itemDataList) {
+ if (itemData->values.isEmpty()) {
+ itemData->values = retrieveData(itemData->item, itemData->parent);
+ }
+ }
+ break;
+
+ case TypeRole:
+ // At least store the data including the file type for items with known MIME type.
+ foreach (ItemData* itemData, itemDataList) {
+ if (itemData->values.isEmpty()) {
+ const KFileItem item = itemData->item;
+ if (item.isDir() || item.isMimeTypeKnown()) {
+ itemData->values = retrieveData(itemData->item, itemData->parent);
+ }
+ }
+ }
+ break;
+
+ default:
+ // The other roles are either resolved by KFileItemModelRolesUpdater
+ // (this includes the SizeRole for directories), or they do not need
+ // to be stored in the QHash "values" for sorting because the data can
+ // be retrieved directly from the KFileItem (NameRole, SizeRole for files,
+ // DateRole).
+ break;
+ }
+}
+
+int KFileItemModel::expandedParentsCount(const ItemData* data)
+{
+ // The hash 'values' is only guaranteed to contain the key "expandedParentsCount"
+ // if the corresponding item is expanded, and it is not a top-level item.
+ const ItemData* parent = data->parent;
+ if (parent) {
+ if (parent->parent) {
+ Q_ASSERT(parent->values.contains("expandedParentsCount"));
+ return parent->values.value("expandedParentsCount").toInt() + 1;
+ } else {
+ return 1;
+ }
+ } else {
+ return 0;
+ }
+}
+
void KFileItemModel::removeExpandedItems()
{
- KFileItemList expandedItems;
+ QVector<int> indexesToRemove;
const int maxIndex = m_itemData.count() - 1;
for (int i = 0; i <= maxIndex; ++i) {
const ItemData* itemData = m_itemData.at(i);
- if (itemData->values.value("expandedParentsCount").toInt() > 0) {
- expandedItems.append(itemData->item);
+ if (itemData->parent) {
+ indexesToRemove.append(i);
}
}
- // The m_expandedParentsCountRoot may not get reset before all items with
- // a bigger count have been removed.
- removeItems(expandedItems, DeleteItemData);
-
+ removeItems(KItemRangeList::fromSortedContainer(indexesToRemove), DeleteItemData);
m_expandedDirs.clear();
+
+ // Also remove all filtered items which have a parent.
+ QHash<KFileItem, ItemData*>::iterator it = m_filteredItems.begin();
+ const QHash<KFileItem, ItemData*>::iterator end = m_filteredItems.end();
+
+ while (it != end) {
+ if (it.value()->parent) {
+ delete it.value();
+ it = m_filteredItems.erase(it);
+ } else {
+ ++it;
+ }
+ }
+}
+
+void KFileItemModel::emitItemsChangedAndTriggerResorting(const KItemRangeList& itemRanges, const QSet<QByteArray>& changedRoles)
+{
+ emit itemsChanged(itemRanges, changedRoles);
+
+ // Trigger a resorting if necessary. Note that this can happen even if the sort
+ // role has not changed at all because the file name can be used as a fallback.
+ if (changedRoles.contains(sortRole()) || changedRoles.contains(roleForType(NameRole))) {
+ foreach (const KItemRange& range, itemRanges) {
+ bool needsResorting = false;
+
+ const int first = range.index;
+ const int last = range.index + range.count - 1;
+
+ // Resorting the model is necessary if
+ // (a) The first item in the range is "lessThan" its predecessor,
+ // (b) the successor of the last item is "lessThan" the last item, or
+ // (c) the internal order of the items in the range is incorrect.
+ if (first > 0
+ && lessThan(m_itemData.at(first), m_itemData.at(first - 1))) {
+ needsResorting = true;
+ } else if (last < count() - 1
+ && lessThan(m_itemData.at(last + 1), m_itemData.at(last))) {
+ needsResorting = true;
+ } else {
+ for (int index = first; index < last; ++index) {
+ if (lessThan(m_itemData.at(index + 1), m_itemData.at(index))) {
+ needsResorting = true;
+ break;
+ }
+ }
+ }
+
+ if (needsResorting) {
+ m_resortAllItemsTimer->start();
+ return;
+ }
+ }
+ }
+
+ if (groupedSorting() && changedRoles.contains(sortRole())) {
+ // The position is still correct, but the groups might have changed
+ // if the changed item is either the first or the last item in a
+ // group.
+ // In principle, we could try to find out if the item really is the
+ // first or last one in its group and then update the groups
+ // (possibly with a delayed timer to make sure that we don't
+ // re-calculate the groups very often if items are updated one by
+ // one), but starting m_resortAllItemsTimer is easier.
+ m_resortAllItemsTimer->start();
+ }
}
void KFileItemModel::resetRoles()
if (m_requestRole[ExpandedParentsCountRole]) {
if (parent) {
- const int level = parent->values["expandedParentsCount"].toInt() + 1;
+ const int level = expandedParentsCount(parent) + 1;
data.insert(sharedValue("expandedParentsCount"), level);
}
}
if (m_requestRole[TypeRole]) {
data.insert(sharedValue("type"), item.mimeComment());
}
+ } else if (m_requestRole[TypeRole] && isDir) {
+ static const QString folderMimeType = item.mimeComment();
+ data.insert(sharedValue("type"), folderMimeType);
}
return data;
int result = 0;
if (a->parent != b->parent) {
- const int expansionLevelA = a->values.value("expandedParentsCount").toInt();
- const int expansionLevelB = b->values.value("expandedParentsCount").toInt();
+ const int expansionLevelA = expandedParentsCount(a);
+ const int expansionLevelB = expandedParentsCount(b);
// If b has a higher expansion level than a, check if a is a parent
// of b, and make sure that both expansion levels are equal otherwise.
a = a->parent;
}
- Q_ASSERT(a->values.value("expandedParentsCount").toInt() == b->values.value("expandedParentsCount").toInt());
+ Q_ASSERT(expandedParentsCount(a) == expandedParentsCount(b));
// Compare the last parents of a and b which are different.
while (a->parent != b->parent) {
continue;
}
- const QString name = m_itemData.at(i)->values.value("text").toString();
+ const QString name = m_itemData.at(i)->item.text();
// Use the first character of the name as group indication
QChar newFirstChar = name.at(0).toUpper();
return groups;
}
-KFileItemList KFileItemModel::childItems(const KFileItem& item) const
-{
- KFileItemList items;
-
- int index = m_items.value(item.url(), -1);
- if (index >= 0) {
- const int parentLevel = m_itemData.at(index)->values.value("expandedParentsCount").toInt();
- ++index;
- while (index < m_itemData.count() && m_itemData.at(index)->values.value("expandedParentsCount").toInt() > parentLevel) {
- items.append(m_itemData.at(index)->item);
- ++index;
- }
- }
-
- return items;
-}
-
void KFileItemModel::emitSortProgress(int resolvedCount)
{
// Be tolerant against a resolvedCount with a wrong range.
const KFileItemModel::RoleInfoMap* KFileItemModel::rolesInfoMap(int& count)
{
static const RoleInfoMap rolesInfoMap[] = {
- // | role | roleType | role translation | group translation | requires Nepomuk | requires indexer
+ // | role | roleType | role translation | group translation | requires Baloo | requires indexer
{ 0, NoRole, 0, 0, 0, 0, false, false },
{ "text", NameRole, I18N_NOOP2_NOSTRIP("@label", "Name"), 0, 0, false, false },
{ "size", SizeRole, I18N_NOOP2_NOSTRIP("@label", "Size"), 0, 0, false, false },
QElapsedTimer timer;
timer.start();
foreach (const KFileItem& item, items) { // krazy:exclude=foreach
- item.determineMimeType();
+ // Only determine mime types for files here. For directories,
+ // KFileItem::determineMimeType() reads the .directory file inside to
+ // load the icon, but this is not necessary at all if we just need the
+ // type. Some special code for setting the correct mime type for
+ // directories is in retrieveData().
+ if (!item.isDir()) {
+ item.determineMimeType();
+ }
+
if (timer.elapsed() > timeout) {
// Don't block the user interface, let the remaining items
// be resolved asynchronously.
const ItemData* data = m_itemData.at(i);
const ItemData* parent = data->parent;
if (parent) {
- if (data->values.value("expandedParentsCount").toInt() != parent->values.value("expandedParentsCount").toInt() + 1) {
+ if (expandedParentsCount(data) != expandedParentsCount(parent) + 1) {
qWarning() << "expandedParentsCount is inconsistent for parent" << parent->item << "and child" << data->item;
return false;
}
projects / dolphin.git / blobdiff