[dolphin.git] / src / kitemviews / kfileitemmodel.cpp

/*****************************************************************************
 *   Copyright (C) 2011 by Peter Penz <peter.penz19@gmail.com>               *
 *   Copyright (C) 2013 by Frank Reininghaus <frank78ac@googlemail.com>      *
 *   Copyright (C) 2013 by Emmanuel Pescosta <emmanuelpescosta099@gmail.com> *
 *                                                                           *
 *   This program is free software; you can redistribute it and/or modify    *
 *   it under the terms of the GNU General Public License as published by    *
 *   the Free Software Foundation; either version 2 of the License, or       *
 *   (at your option) any later version.                                     *
 *                                                                           *
 *   This program is distributed in the hope that it will be useful,         *
 *   but WITHOUT ANY WARRANTY; without even the implied warranty of          *
 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the           *
 *   GNU General Public License for more details.                            *
 *                                                                           *
 *   You should have received a copy of the GNU General Public License       *
 *   along with this program; if not, write to the                           *
 *   Free Software Foundation, Inc.,                                         *
 *   51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA              *
 *****************************************************************************/

#include "kfileitemmodel.h"

#include <KGlobalSettings>
#include <KLocalizedString>
#include <KStringHandler>
#include <KDebug>
#include <kstringhandler_deprecated.h> //TODO: port to QCollator

#include "private/kfileitemmodelsortalgorithm.h"
#include "private/kfileitemmodeldirlister.h"

#include <QMimeData>
#include <QTimer>
#include <QWidget>

#include <algorithm>
#include <vector>

// #define KFILEITEMMODEL_DEBUG

KFileItemModel::KFileItemModel(QObject* parent) :
    KItemModelBase("text", parent),
    m_dirLister(0),
    m_naturalSorting(KGlobalSettings::naturalSorting()),
    m_sortDirsFirst(true),
    m_sortRole(NameRole),
    m_sortingProgressPercent(-1),
    m_roles(),
    m_caseSensitivity(Qt::CaseInsensitive),
    m_itemData(),
    m_items(),
    m_filter(),
    m_filteredItems(),
    m_requestRole(),
    m_maximumUpdateIntervalTimer(0),
    m_resortAllItemsTimer(0),
    m_pendingItemsToInsert(),
    m_groups(),
    m_expandedDirs(),
    m_urlsToExpand()
{
    m_dirLister = new KFileItemModelDirLister(this);
    m_dirLister->setDelayedMimeTypes(true);

    const QWidget* parentWidget = qobject_cast<QWidget*>(parent);
    if (parentWidget) {
        m_dirLister->setMainWindow(parentWidget->window());
    }

    connect(m_dirLister, &KFileItemModelDirLister::started, this, &KFileItemModel::directoryLoadingStarted);
    connect(m_dirLister, static_cast<void(KFileItemModelDirLister::*)()>(&KFileItemModelDirLister::canceled), this, &KFileItemModel::slotCanceled);
    connect(m_dirLister, static_cast<void(KFileItemModelDirLister::*)(const QUrl&)>(&KFileItemModelDirLister::completed), this, &KFileItemModel::slotCompleted);
    connect(m_dirLister, &KFileItemModelDirLister::itemsAdded, this, &KFileItemModel::slotItemsAdded);
    connect(m_dirLister, &KFileItemModelDirLister::itemsDeleted, this, &KFileItemModel::slotItemsDeleted);
    connect(m_dirLister, &KFileItemModelDirLister::refreshItems, this, &KFileItemModel::slotRefreshItems);
    connect(m_dirLister, static_cast<void(KFileItemModelDirLister::*)()>(&KFileItemModelDirLister::clear), this, &KFileItemModel::slotClear);
    connect(m_dirLister, &KFileItemModelDirLister::infoMessage, this, &KFileItemModel::infoMessage);
    connect(m_dirLister, &KFileItemModelDirLister::errorMessage, this, &KFileItemModel::errorMessage);
    connect(m_dirLister, static_cast<void(KFileItemModelDirLister::*)(const QUrl&, const QUrl&)>(&KFileItemModelDirLister::redirection), this, &KFileItemModel::directoryRedirection);
    connect(m_dirLister, &KFileItemModelDirLister::urlIsFileError, this, &KFileItemModel::urlIsFileError);

    // Apply default roles that should be determined
    resetRoles();
    m_requestRole[NameRole] = true;
    m_requestRole[IsDirRole] = true;
    m_requestRole[IsLinkRole] = true;
    m_roles.insert("text");
    m_roles.insert("isDir");
    m_roles.insert("isLink");

    // For slow KIO-slaves like used for searching it makes sense to show results periodically even
    // before the completed() or canceled() signal has been emitted.
    m_maximumUpdateIntervalTimer = new QTimer(this);
    m_maximumUpdateIntervalTimer->setInterval(2000);
    m_maximumUpdateIntervalTimer->setSingleShot(true);
    connect(m_maximumUpdateIntervalTimer, &QTimer::timeout, this, &KFileItemModel::dispatchPendingItemsToInsert);

    // When changing the value of an item which represents the sort-role a resorting must be
    // triggered. Especially in combination with KFileItemModelRolesUpdater this might be done
    // for a lot of items within a quite small timeslot. To prevent expensive resortings the
    // resorting is postponed until the timer has been exceeded.
    m_resortAllItemsTimer = new QTimer(this);
    m_resortAllItemsTimer->setInterval(500);
    m_resortAllItemsTimer->setSingleShot(true);
    connect(m_resortAllItemsTimer, &QTimer::timeout, this, &KFileItemModel::resortAllItems);

    connect(KGlobalSettings::self(), &KGlobalSettings::naturalSortingChanged,
            this, &KFileItemModel::slotNaturalSortingChanged);
}

KFileItemModel::~KFileItemModel()
{
    qDeleteAll(m_itemData);
    qDeleteAll(m_filteredItems.values());
    qDeleteAll(m_pendingItemsToInsert);
}

void KFileItemModel::loadDirectory(const KUrl& url)
{
    m_dirLister->openUrl(url);
}

void KFileItemModel::refreshDirectory(const KUrl& url)
{
    // Refresh all expanded directories first (Bug 295300)
    QHashIterator<KUrl, KUrl> expandedDirs(m_expandedDirs);
    while (expandedDirs.hasNext()) {
        expandedDirs.next();
        m_dirLister->openUrl(expandedDirs.value(), KDirLister::Reload);
    }

    m_dirLister->openUrl(url, KDirLister::Reload);
}

KUrl KFileItemModel::directory() const
{
    return m_dirLister->url();
}

void KFileItemModel::cancelDirectoryLoading()
{
    m_dirLister->stop();
}

int KFileItemModel::count() const
{
    return m_itemData.count();
}

QHash<QByteArray, QVariant> KFileItemModel::data(int index) const
{
    if (index >= 0 && index < count()) {
        ItemData* data = m_itemData.at(index);
        if (data->values.isEmpty()) {
            data->values = retrieveData(data->item, data->parent);
        }

        return data->values;
    }
    return QHash<QByteArray, QVariant>();
}

bool KFileItemModel::setData(int index, const QHash<QByteArray, QVariant>& values)
{
    if (index < 0 || index >= count()) {
        return false;
    }

    QHash<QByteArray, QVariant> currentValues = data(index);

    // Determine which roles have been changed
    QSet<QByteArray> changedRoles;
    QHashIterator<QByteArray, QVariant> it(values);
    while (it.hasNext()) {
        it.next();
        const QByteArray role = sharedValue(it.key());
        const QVariant value = it.value();

        if (currentValues[role] != value) {
            currentValues[role] = value;
            changedRoles.insert(role);
        }
    }

    if (changedRoles.isEmpty()) {
        return false;
    }

    m_itemData[index]->values = currentValues;
    if (changedRoles.contains("text")) {
        KUrl url = m_itemData[index]->item.url();
        url.setFileName(currentValues["text"].toString());
        m_itemData[index]->item.setUrl(url);
    }

    emitItemsChangedAndTriggerResorting(KItemRangeList() << KItemRange(index, 1), changedRoles);

    return true;
}

void KFileItemModel::setSortDirectoriesFirst(bool dirsFirst)
{
    if (dirsFirst != m_sortDirsFirst) {
        m_sortDirsFirst = dirsFirst;
        resortAllItems();
    }
}

bool KFileItemModel::sortDirectoriesFirst() const
{
    return m_sortDirsFirst;
}

void KFileItemModel::setShowHiddenFiles(bool show)
{
    m_dirLister->setShowingDotFiles(show);
    m_dirLister->emitChanges();
    if (show) {
        dispatchPendingItemsToInsert();
    }
}

bool KFileItemModel::showHiddenFiles() const
{
    return m_dirLister->showingDotFiles();
}

void KFileItemModel::setShowDirectoriesOnly(bool enabled)
{
    m_dirLister->setDirOnlyMode(enabled);
}

bool KFileItemModel::showDirectoriesOnly() const
{
    return m_dirLister->dirOnlyMode();
}

QMimeData* KFileItemModel::createMimeData(const KItemSet& indexes) const
{
    QMimeData* data = new QMimeData();

    // The following code has been taken from KDirModel::mimeData()
    // (kdelibs/kio/kio/kdirmodel.cpp)
    // Copyright (C) 2006 David Faure <faure@kde.org>
    KUrl::List urls;
    KUrl::List mostLocalUrls;
    bool canUseMostLocalUrls = true;
    const ItemData* lastAddedItem = 0;

    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();

            bool isLocal;
            mostLocalUrls << item.mostLocalUrl(isLocal);
            if (!isLocal) {
                canUseMostLocalUrls = false;
            }
        }
    }

    const bool different = canUseMostLocalUrls && mostLocalUrls != urls;
    if (different) {
        urls.populateMimeData(mostLocalUrls, data);
    } else {
        urls.populateMimeData(data);
    }

    return data;
}

int KFileItemModel::indexForKeyboardSearch(const QString& text, int startFromIndex) const
{
    startFromIndex = qMax(0, startFromIndex);
    for (int i = startFromIndex; i < count(); ++i) {
        if (fileItem(i).text().startsWith(text, Qt::CaseInsensitive)) {
            return i;
        }
    }
    for (int i = 0; i < startFromIndex; ++i) {
        if (fileItem(i).text().startsWith(text, Qt::CaseInsensitive)) {
            return i;
        }
    }
    return -1;
}

bool KFileItemModel::supportsDropping(int index) const
{
    const KFileItem item = fileItem(index);
    return !item.isNull() && (item.isDir() || item.isDesktopFile());
}

QString KFileItemModel::roleDescription(const QByteArray& role) const
{
    static QHash<QByteArray, QString> description;
    if (description.isEmpty()) {
        int count = 0;
        const RoleInfoMap* map = rolesInfoMap(count);
        for (int i = 0; i < count; ++i) {
            description.insert(map[i].role, i18nc(map[i].roleTranslationContext, map[i].roleTranslation));
        }
    }

    return description.value(role);
}

QList<QPair<int, QVariant> > KFileItemModel::groups() const
{
    if (!m_itemData.isEmpty() && m_groups.isEmpty()) {
#ifdef KFILEITEMMODEL_DEBUG
        QElapsedTimer timer;
        timer.start();
#endif
        switch (typeForRole(sortRole())) {
        case NameRole:        m_groups = nameRoleGroups(); break;
        case SizeRole:        m_groups = sizeRoleGroups(); break;
        case DateRole:        m_groups = dateRoleGroups(); break;
        case PermissionsRole: m_groups = permissionRoleGroups(); break;
        case RatingRole:      m_groups = ratingRoleGroups(); break;
        default:              m_groups = genericStringRoleGroups(sortRole()); break;
        }

#ifdef KFILEITEMMODEL_DEBUG
        kDebug() << "[TIME] Calculating groups for" << count() << "items:" << timer.elapsed();
#endif
    }

    return m_groups;
}

KFileItem KFileItemModel::fileItem(int index) const
{
    if (index >= 0 && index < count()) {
        return m_itemData.at(index)->item;
    }

    return KFileItem();
}

KFileItem KFileItemModel::fileItem(const KUrl& url) const
{
    const int indexForUrl = index(url);
    if (indexForUrl >= 0) {
        return m_itemData.at(indexForUrl)->item;
    }
    return KFileItem();
}

int KFileItemModel::index(const KFileItem& item) const
{
    return index(KUrl(item.url()));
}

int KFileItemModel::index(const KUrl& url) const
{
    KUrl urlToFind = url;
    urlToFind.adjustPath(KUrl::RemoveTrailingSlash);

    const int itemCount = m_itemData.count();
    int itemsInHash = m_items.count();

    int index = m_items.value(urlToFind, -1);
    while (index < 0 && itemsInHash < itemCount) {
        // Not all URLs are stored yet in m_items. We grow m_items until either
        // urlToFind is found, or all URLs have been stored in m_items.
        // Note that we do not add the URLs to m_items one by one, but in
        // larger blocks. After each block, we check if urlToFind is in
        // m_items. We could in principle compare urlToFind with each URL while
        // we are going through m_itemData, but comparing two QUrls will,
        // unlike calling qHash for the URLs, trigger a parsing of the URLs
        // which costs both CPU cycles and memory.
        const int blockSize = 1000;
        const int currentBlockEnd = qMin(itemsInHash + blockSize, itemCount);
        for (int i = itemsInHash; i < currentBlockEnd; ++i) {
            const KUrl nextUrl = m_itemData.at(i)->item.url();
            m_items.insert(nextUrl, i);
        }

        itemsInHash = currentBlockEnd;
        index = m_items.value(urlToFind, -1);
    }

    if (index < 0) {
        // The item could not be found, even though all items from m_itemData
        // should be in m_items now. We print some diagnostic information which
        // might help to find the cause of the problem, but only once. This
        // prevents that obtaining and printing the debugging information
        // wastes CPU cycles and floods the shell or .xsession-errors.
        static bool printDebugInfo = true;

        if (m_items.count() != m_itemData.count() && printDebugInfo) {
            printDebugInfo = false;

            kWarning() << "The model is in an inconsistent state.";
            kWarning() << "m_items.count()    ==" << m_items.count();
            kWarning() << "m_itemData.count() ==" << m_itemData.count();

            // Check if there are multiple items with the same URL.
            QMultiHash<KUrl, int> indexesForUrl;
            for (int i = 0; i < m_itemData.count(); ++i) {
                indexesForUrl.insert(m_itemData.at(i)->item.url(), i);
            }

            foreach (const KUrl& url, indexesForUrl.uniqueKeys()) {
                if (indexesForUrl.count(url) > 1) {
                    kWarning() << "Multiple items found with the URL" << url;
                    foreach (int index, indexesForUrl.values(url)) {
                        const ItemData* data = m_itemData.at(index);
                        kWarning() << "index" << index << ":" << data->item;
                        if (data->parent) {
                            kWarning() << "parent" << data->parent->item;
                        }
                    }
                }
            }
        }
    }

    return index;
}

KFileItem KFileItemModel::rootItem() const
{
    return m_dirLister->rootItem();
}

void KFileItemModel::clear()
{
    slotClear();
}

void KFileItemModel::setRoles(const QSet<QByteArray>& roles)
{
    if (m_roles == roles) {
        return;
    }

    const QSet<QByteArray> changedRoles = (roles - m_roles) + (m_roles - roles);
    m_roles = roles;

    if (count() > 0) {
        const bool supportedExpanding = m_requestRole[ExpandedParentsCountRole];
        const bool willSupportExpanding = roles.contains("expandedParentsCount");
        if (supportedExpanding && !willSupportExpanding) {
            // No expanding is supported anymore. Take care to delete all items that have an expansion level
            // that is not 0 (and hence are part of an expanded item).
            removeExpandedItems();
        }
    }

    m_groups.clear();
    resetRoles();

    QSetIterator<QByteArray> it(roles);
    while (it.hasNext()) {
        const QByteArray& role = it.next();
        m_requestRole[typeForRole(role)] = true;
    }

    if (count() > 0) {
        // Update m_data with the changed requested roles
        const int maxIndex = count() - 1;
        for (int i = 0; i <= maxIndex; ++i) {
            m_itemData[i]->values = retrieveData(m_itemData.at(i)->item, m_itemData.at(i)->parent);
        }

        emit itemsChanged(KItemRangeList() << KItemRange(0, count()), changedRoles);
    }

    // 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
{
    return m_roles;
}

bool KFileItemModel::setExpanded(int index, bool expanded)
{
    if (!isExpandable(index) || isExpanded(index) == expanded) {
        return false;
    }

    QHash<QByteArray, QVariant> values;
    values.insert(sharedValue("isExpanded"), expanded);
    if (!setData(index, values)) {
        return false;
    }

    const KFileItem item = m_itemData.at(index)->item;
    const KUrl url = item.url();
    const KUrl targetUrl = item.targetUrl();
    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 {
        // Note that there might be (indirect) children of the folder which is to be collapsed in
        // m_pendingItemsToInsert. To prevent that they will be inserted into the model later,
        // possibly without a parent, which might result in a crash, we insert all pending items
        // right now. All new items which would be without a parent will then be removed.
        dispatchPendingItemsToInsert();

        // Check if the index of the collapsed folder has changed. If that is the case, then items
        // were inserted before the collapsed folder, and its index needs to be updated.
        if (m_itemData.at(index)->item != item) {
            index = this->index(item);
        }

        m_expandedDirs.remove(targetUrl);
        m_dirLister->stop(url);

        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();
                const KUrl url = itemData->item.url();
                m_expandedDirs.remove(targetUrl);
                m_dirLister->stop(url);     // TODO: try to unit-test this, see https://bugs.kde.org/show_bug.cgi?id=332102#c11
                expandedChildren.append(targetUrl);
            }
            ++childIndex;
        }
        const int childrenCount = childIndex - firstChildIndex;

        removeFilteredChildren(KItemRangeList() << KItemRange(index, 1 + childrenCount));
        removeItems(KItemRangeList() << KItemRange(firstChildIndex, childrenCount), DeleteItemData);

        m_itemData.at(index)->values.insert("previouslyExpandedChildren", expandedChildren);
    }

    return true;
}

bool KFileItemModel::isExpanded(int index) const
{
    if (index >= 0 && index < count()) {
        return m_itemData.at(index)->values.value("isExpanded").toBool();
    }
    return false;
}

bool KFileItemModel::isExpandable(int index) const
{
    if (index >= 0 && index < count()) {
        // 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()) {
        return expandedParentsCount(m_itemData.at(index));
    }
    return 0;
}

QSet<KUrl> KFileItemModel::expandedDirectories() const
{
    return m_expandedDirs.values().toSet();
}

void KFileItemModel::restoreExpandedDirectories(const QSet<KUrl>& urls)
{
    m_urlsToExpand = urls;
}

void KFileItemModel::expandParentDirectories(const KUrl& url)
{
    const int pos = m_dirLister->url().path().length();

    // Assure that each sub-path of the URL that should be
    // expanded is added to m_urlsToExpand. KDirLister
    // does not care whether the parent-URL has already been
    // expanded.
    KUrl urlToExpand = m_dirLister->url();
    const QStringList subDirs = url.path().mid(pos).split(QDir::separator());
    for (int i = 0; i < subDirs.count() - 1; ++i) {
        urlToExpand.addPath(subDirs.at(i));
        m_urlsToExpand.insert(urlToExpand);
    }

    // KDirLister::open() must called at least once to trigger an initial
    // loading. The pending URLs that must be restored are handled
    // in slotCompleted().
    QSetIterator<KUrl> it2(m_urlsToExpand);
    while (it2.hasNext()) {
        const int idx = index(it2.next());
        if (idx >= 0 && !isExpanded(idx)) {
            setExpanded(idx, true);
            break;
        }
    }
}

void KFileItemModel::setNameFilter(const QString& nameFilter)
{
    if (m_filter.pattern() != nameFilter) {
        dispatchPendingItemsToInsert();
        m_filter.setPattern(nameFilter);
        applyFilters();
    }
}

QString KFileItemModel::nameFilter() const
{
    return m_filter.pattern();
}

void KFileItemModel::setMimeTypeFilters(const QStringList& filters)
{
    if (m_filter.mimeTypes() != filters) {
        dispatchPendingItemsToInsert();
        m_filter.setMimeTypes(filters);
        applyFilters();
    }
}

QStringList KFileItemModel::mimeTypeFilters() const
{
    return m_filter.mimeTypes();
}


void KFileItemModel::applyFilters()
{
    // Check which shown items from m_itemData must get
    // hidden and hence moved to m_filteredItems.
    QVector<int> newFilteredIndexes;

    const int itemCount = m_itemData.count();
    for (int index = 0; index < itemCount; ++index) {
        ItemData* itemData = m_itemData.at(index);

        // 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)) {
                newFilteredIndexes.append(index);
                m_filteredItems.insert(item, itemData);
            }
        }
    }

    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.
    QList<ItemData*> newVisibleItems;

    QHash<KFileItem, ItemData*>::iterator it = m_filteredItems.begin();
    while (it != m_filteredItems.end()) {
        if (m_filter.matches(it.key())) {
            newVisibleItems.append(it.value());
            it = m_filteredItems.erase(it);
        } else {
            ++it;
        }
    }

    insertItems(newVisibleItems);
}

void KFileItemModel::removeFilteredChildren(const KItemRangeList& itemRanges)
{
    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;
    }

    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()) {
        if (parents.contains(it.value()->parent)) {
            delete it.value();
            it = m_filteredItems.erase(it);
        } else {
            ++it;
        }
    }
}

QList<KFileItemModel::RoleInfo> KFileItemModel::rolesInformation()
{
    static QList<RoleInfo> rolesInfo;
    if (rolesInfo.isEmpty()) {
        int count = 0;
        const RoleInfoMap* map = rolesInfoMap(count);
        for (int i = 0; i < count; ++i) {
            if (map[i].roleType != NoRole) {
                RoleInfo info;
                info.role = map[i].role;
                info.translation = i18nc(map[i].roleTranslationContext, map[i].roleTranslation);
                if (map[i].groupTranslation) {
                    info.group = i18nc(map[i].groupTranslationContext, map[i].groupTranslation);
                } else {
                    // For top level roles, groupTranslation is 0. We must make sure that
                    // info.group is an empty string then because the code that generates
                    // menus tries to put the actions into sub menus otherwise.
                    info.group = QString();
                }
                info.requiresBaloo = map[i].requiresBaloo;
                info.requiresIndexer = map[i].requiresIndexer;
                rolesInfo.append(info);
            }
        }
    }

    return rolesInfo;
}

void KFileItemModel::onGroupedSortingChanged(bool current)
{
    Q_UNUSED(current);
    m_groups.clear();
}

void KFileItemModel::onSortRoleChanged(const QByteArray& current, const QByteArray& previous)
{
    Q_UNUSED(previous);
    m_sortRole = typeForRole(current);

    if (!m_requestRole[m_sortRole]) {
        QSet<QByteArray> newRoles = m_roles;
        newRoles << current;
        setRoles(newRoles);
    }

    resortAllItems();
}

void KFileItemModel::onSortOrderChanged(Qt::SortOrder current, Qt::SortOrder previous)
{
    Q_UNUSED(current);
    Q_UNUSED(previous);
    resortAllItems();
}

void KFileItemModel::resortAllItems()
{
    m_resortAllItemsTimer->stop();

    const int itemCount = count();
    if (itemCount <= 0) {
        return;
    }

#ifdef KFILEITEMMODEL_DEBUG
    QElapsedTimer timer;
    timer.start();
    kDebug() << "===========================================================";
    kDebug() << "Resorting" << itemCount << "items";
#endif

    // Remember the order of the current URLs so
    // that it can be determined which indexes have
    // been moved because of the resorting.
    QList<KUrl> oldUrls;
    oldUrls.reserve(itemCount);
    foreach (const ItemData* itemData, m_itemData) {
        oldUrls.append(itemData->item.url());
    }

    m_items.clear();
    m_items.reserve(itemCount);

    // Resort the items
    sort(m_itemData.begin(), m_itemData.end());
    for (int i = 0; i < itemCount; ++i) {
        m_items.insert(m_itemData.at(i)->item.url(), i);
    }

    // Determine the first index that has been moved.
    int firstMovedIndex = 0;
    while (firstMovedIndex < itemCount
           && firstMovedIndex == m_items.value(oldUrls.at(firstMovedIndex))) {
        ++firstMovedIndex;
    }

    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();
#endif
}

void KFileItemModel::slotCompleted()
{
    dispatchPendingItemsToInsert();

    if (!m_urlsToExpand.isEmpty()) {
        // Try to find a URL that can be expanded.
        // Note that the parent folder must be expanded before any of its subfolders become visible.
        // Therefore, some URLs in m_restoredExpandedUrls might not be visible yet
        // -> we expand the first visible URL we find in m_restoredExpandedUrls.
        foreach (const KUrl& url, m_urlsToExpand) {
            const int indexForUrl = index(url);
            if (indexForUrl >= 0) {
                m_urlsToExpand.remove(url);
                if (setExpanded(indexForUrl, true)) {
                    // The dir lister has been triggered. This slot will be called
                    // again after the directory has been expanded.
                    return;
                }
            }
        }

        // None of the URLs in m_restoredExpandedUrls could be found in the model. This can happen
        // if these URLs have been deleted in the meantime.
        m_urlsToExpand.clear();
    }

    emit directoryLoadingCompleted();
}

void KFileItemModel::slotCanceled()
{
    m_maximumUpdateIntervalTimer->stop();
    dispatchPendingItemsToInsert();

    emit directoryLoadingCanceled();
}

void KFileItemModel::slotItemsAdded(const KUrl& directoryUrl, const KFileItemList& items)
{
    Q_ASSERT(!items.isEmpty());

    KUrl parentUrl;
    if (m_expandedDirs.contains(directoryUrl)) {
        parentUrl = m_expandedDirs.value(directoryUrl);
    } else {
        parentUrl = directoryUrl;
        parentUrl.adjustPath(KUrl::RemoveTrailingSlash);
    }

    if (m_requestRole[ExpandedParentsCountRole]) {
        // If the expanding of items is enabled, the call
        // dirLister->openUrl(url, KDirLister::Keep) in KFileItemModel::setExpanded()
        // might result in emitting the same items twice due to the Keep-parameter.
        // This case happens if an item gets expanded, collapsed and expanded again
        // before the items could be loaded for the first expansion.
        if (index(KUrl(items.first().url())) >= 0) {
            // The items are already part of the model.
            return;
        }

        if (directoryUrl != directory()) {
            // To be able to compare whether the new items may be inserted as children
            // of a parent item the pending items must be added to the model first.
            dispatchPendingItemsToInsert();
        }

        // KDirLister keeps the children of items that got expanded once even if
        // they got collapsed again with KFileItemModel::setExpanded(false). So it must be
        // checked whether the parent for new items is still expanded.
        const int parentIndex = index(parentUrl);
        if (parentIndex >= 0 && !m_itemData[parentIndex]->values.value("isExpanded").toBool()) {
            // The parent is not expanded.
            return;
        }
    }

    QList<ItemData*> itemDataList = createItemDataList(parentUrl, items);

    if (!m_filter.hasSetFilters()) {
        m_pendingItemsToInsert.append(itemDataList);
    } else {
        // The name or type filter is active. Hide filtered items
        // before inserting them into the model and remember
        // the filtered items in m_filteredItems.
        foreach (ItemData* itemData, itemDataList) {
            if (m_filter.matches(itemData->item)) {
                m_pendingItemsToInsert.append(itemData);
            } else {
                m_filteredItems.insert(itemData->item, itemData);
            }
        }
    }

    if (useMaximumUpdateInterval() && !m_maximumUpdateIntervalTimer->isActive()) {
        // Assure that items get dispatched if no completed() or canceled() signal is
        // emitted during the maximum update interval.
        m_maximumUpdateIntervalTimer->start();
    }
}

void KFileItemModel::slotItemsDeleted(const KFileItemList& items)
{
    dispatchPendingItemsToInsert();

    QVector<int> indexesToRemove;
    indexesToRemove.reserve(items.count());

    foreach (const KFileItem& item, items) {
        const int indexForItem = index(item);
        if (indexForItem >= 0) {
            indexesToRemove.append(indexForItem);
        } 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] && !m_expandedDirs.isEmpty()) {
        // Assure that removing a parent item also results in removing all children
        QVector<int> indexesToRemoveWithChildren;
        indexesToRemoveWithChildren.reserve(m_itemData.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;
    }

    const KItemRangeList itemRanges = KItemRangeList::fromSortedContainer(indexesToRemove);
    removeFilteredChildren(itemRanges);
    removeItems(itemRanges, DeleteItemData);
}

void KFileItemModel::slotRefreshItems(const QList<QPair<KFileItem, KFileItem> >& items)
{
    Q_ASSERT(!items.isEmpty());
#ifdef KFILEITEMMODEL_DEBUG
    kDebug() << "Refreshing" << items.count() << "items";
#endif

    // Get the indexes of all items that have been refreshed
    QList<int> indexes;
    indexes.reserve(items.count());

    QSet<QByteArray> changedRoles;

    QListIterator<QPair<KFileItem, KFileItem> > it(items);
    while (it.hasNext()) {
        const QPair<KFileItem, KFileItem>& itemPair = it.next();
        const KFileItem& oldItem = itemPair.first;
        const KFileItem& newItem = itemPair.second;
        const int indexForItem = index(oldItem);
        if (indexForItem >= 0) {
            m_itemData[indexForItem]->item = newItem;

            // Keep old values as long as possible if they could not retrieved synchronously yet.
            // The update of the values will be done asynchronously by KFileItemModelRolesUpdater.
            QHashIterator<QByteArray, QVariant> it(retrieveData(newItem, m_itemData.at(indexForItem)->parent));
            QHash<QByteArray, QVariant>& values = m_itemData[indexForItem]->values;
            while (it.hasNext()) {
                it.next();
                const QByteArray& role = it.key();
                if (values.value(role) != it.value()) {
                    values.insert(role, it.value());
                    changedRoles.insert(role);
                }
            }

            m_items.remove(oldItem.url());
            m_items.insert(newItem.url(), indexForItem);
            indexes.append(indexForItem);
        } 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);
            }
        }
    }

    // If the changed items have been created recently, they might not be in m_items yet.
    // In that case, the list 'indexes' might be empty.
    if (indexes.isEmpty()) {
        return;
    }

    // Extract the item-ranges out of the changed indexes
    qSort(indexes);
    const KItemRangeList itemRangeList = KItemRangeList::fromSortedContainer(indexes);
    emitItemsChangedAndTriggerResorting(itemRangeList, changedRoles);
}

void KFileItemModel::slotClear()
{
#ifdef KFILEITEMMODEL_DEBUG
    kDebug() << "Clearing all items";
#endif

    qDeleteAll(m_filteredItems.values());
    m_filteredItems.clear();
    m_groups.clear();

    m_maximumUpdateIntervalTimer->stop();
    m_resortAllItemsTimer->stop();

    qDeleteAll(m_pendingItemsToInsert);
    m_pendingItemsToInsert.clear();

    const int removedCount = m_itemData.count();
    if (removedCount > 0) {
        qDeleteAll(m_itemData);
        m_itemData.clear();
        m_items.clear();
        emit itemsRemoved(KItemRangeList() << KItemRange(0, removedCount));
    }

    m_expandedDirs.clear();
}

void KFileItemModel::slotNaturalSortingChanged()
{
    m_naturalSorting = KGlobalSettings::naturalSorting();
    resortAllItems();
}

void KFileItemModel::dispatchPendingItemsToInsert()
{
    if (!m_pendingItemsToInsert.isEmpty()) {
        insertItems(m_pendingItemsToInsert);
        m_pendingItemsToInsert.clear();
    }
}

void KFileItemModel::insertItems(QList<ItemData*>& newItems)
{
    if (newItems.isEmpty()) {
        return;
    }

#ifdef KFILEITEMMODEL_DEBUG
    QElapsedTimer timer;
    timer.start();
    kDebug() << "===========================================================";
    kDebug() << "Inserting" << newItems.count() << "items";
#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());

#ifdef KFILEITEMMODEL_DEBUG
    kDebug() << "[TIME] Sorting:" << timer.elapsed();
#endif

    KItemRangeList itemRanges;
    const int existingItemCount = m_itemData.count();
    const int newItemCount = newItems.count();
    const int totalItemCount = existingItemCount + newItemCount;

    if (existingItemCount == 0) {
        // Optimization for the common special case that there are no
        // items in the model yet. Happens, e.g., when entering a folder.
        m_itemData = newItems;
        itemRanges << KItemRange(0, newItemCount);
    } else {
        m_itemData.reserve(totalItemCount);
        for (int i = existingItemCount; i < totalItemCount; ++i) {
            m_itemData.append(0);
        }

        // We build the new list m_itemData in reverse order to minimize
        // the number of moves and guarantee O(N) complexity.
        int targetIndex = totalItemCount - 1;
        int sourceIndexExistingItems = existingItemCount - 1;
        int sourceIndexNewItems = newItemCount - 1;

        int rangeCount = 0;

        while (sourceIndexNewItems >= 0) {
            ItemData* newItem = newItems.at(sourceIndexNewItems);
            if (sourceIndexExistingItems >= 0 && lessThan(newItem, m_itemData.at(sourceIndexExistingItems))) {
                // Move an existing item to its new position. If any new items
                // are behind it, push the item range to itemRanges.
                if (rangeCount > 0) {
                    itemRanges << KItemRange(sourceIndexExistingItems + 1, rangeCount);
                    rangeCount = 0;
                }

                m_itemData[targetIndex] = m_itemData.at(sourceIndexExistingItems);
                --sourceIndexExistingItems;
            } else {
                // Insert a new item into the list.
                ++rangeCount;
                m_itemData[targetIndex] = newItem;
                --sourceIndexNewItems;
            }
            --targetIndex;
        }

        // Push the final item range to itemRanges.
        if (rangeCount > 0) {
            itemRanges << KItemRange(sourceIndexExistingItems + 1, rangeCount);
        }

        // Note that itemRanges is still sorted in reverse order.
        std::reverse(itemRanges.begin(), itemRanges.end());
    }

    // The indexes in m_items are not correct anymore. Therefore, we clear m_items.
    // It will be re-populated with the updated indices if index(const KUrl&) is called.
    m_items.clear();

    emit itemsInserted(itemRanges);

#ifdef KFILEITEMMODEL_DEBUG
    kDebug() << "[TIME] Inserting of" << newItems.count() << "items:" << timer.elapsed();
#endif
}

void KFileItemModel::removeItems(const KItemRangeList& itemRanges, RemoveItemsBehavior behavior)
{
    if (itemRanges.isEmpty()) {
        return;
    }

    m_groups.clear();

    // Step 1: Remove the items from m_itemData, 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) {
            if (behavior == DeleteItemData) {
                delete m_itemData.at(index);
            }

            m_itemData[index] = 0;
        }
    }

    // Step 2: Remove the ItemData pointers from the list m_itemData.
    int target = itemRanges.at(0).index;
    int source = itemRanges.at(0).index + itemRanges.at(0).count;
    int nextRange = 1;

    const int oldItemDataCount = m_itemData.count();
    while (source < oldItemDataCount) {
        m_itemData[target] = m_itemData[source];
        ++target;
        ++source;

        if (nextRange < itemRanges.count() && source == itemRanges.at(nextRange).index) {
            // Skip the items in the next removed range.
            source += itemRanges.at(nextRange).count;
            ++nextRange;
        }
    }

    m_itemData.erase(m_itemData.end() - removedItemsCount, m_itemData.end());

    // The indexes in m_items are not correct anymore. Therefore, we clear m_items.
    // It will be re-populated with the updated indices if index(const KUrl&) is called.
    m_items.clear();

    emit itemsRemoved(itemRanges);
}

QList<KFileItemModel::ItemData*> KFileItemModel::createItemDataList(const KUrl& parentUrl, const KFileItemList& items) const
{
    if (m_sortRole == TypeRole) {
        // Try to resolve the MIME-types synchronously to prevent a reordering of
        // the items when sorting by type (per default MIME-types are resolved
        // asynchronously by KFileItemModelRolesUpdater).
        determineMimeTypes(items, 200);
    }

    const int parentIndex = index(parentUrl);
    ItemData* parentItem = parentIndex < 0 ? 0 : m_itemData.at(parentIndex);

    QList<ItemData*> itemDataList;
    itemDataList.reserve(items.count());

    foreach (const KFileItem& item, items) {
        ItemData* itemData = new ItemData();
        itemData->item = item;
        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()
{
    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->parent) {
            indexesToRemove.append(i);
        }
    }

    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()
{
    for (int i = 0; i < RolesCount; ++i) {
        m_requestRole[i] = false;
    }
}

KFileItemModel::RoleType KFileItemModel::typeForRole(const QByteArray& role) const
{
    static QHash<QByteArray, RoleType> roles;
    if (roles.isEmpty()) {
        // Insert user visible roles that can be accessed with
        // KFileItemModel::roleInformation()
        int count = 0;
        const RoleInfoMap* map = rolesInfoMap(count);
        for (int i = 0; i < count; ++i) {
            roles.insert(map[i].role, map[i].roleType);
        }

        // Insert internal roles (take care to synchronize the implementation
        // with KFileItemModel::roleForType() in case if a change is done).
        roles.insert("isDir", IsDirRole);
        roles.insert("isLink", IsLinkRole);
        roles.insert("isExpanded", IsExpandedRole);
        roles.insert("isExpandable", IsExpandableRole);
        roles.insert("expandedParentsCount", ExpandedParentsCountRole);

        Q_ASSERT(roles.count() == RolesCount);
    }

    return roles.value(role, NoRole);
}

QByteArray KFileItemModel::roleForType(RoleType roleType) const
{
    static QHash<RoleType, QByteArray> roles;
    if (roles.isEmpty()) {
        // Insert user visible roles that can be accessed with
        // KFileItemModel::roleInformation()
        int count = 0;
        const RoleInfoMap* map = rolesInfoMap(count);
        for (int i = 0; i < count; ++i) {
            roles.insert(map[i].roleType, map[i].role);
        }

        // Insert internal roles (take care to synchronize the implementation
        // with KFileItemModel::typeForRole() in case if a change is done).
        roles.insert(IsDirRole, "isDir");
        roles.insert(IsLinkRole, "isLink");
        roles.insert(IsExpandedRole, "isExpanded");
        roles.insert(IsExpandableRole, "isExpandable");
        roles.insert(ExpandedParentsCountRole, "expandedParentsCount");

        Q_ASSERT(roles.count() == RolesCount);
    };

    return roles.value(roleType);
}

QHash<QByteArray, QVariant> KFileItemModel::retrieveData(const KFileItem& item, const ItemData* parent) const
{
    // It is important to insert only roles that are fast to retrieve. E.g.
    // KFileItem::iconName() can be very expensive if the MIME-type is unknown
    // and hence will be retrieved asynchronously by KFileItemModelRolesUpdater.
    QHash<QByteArray, QVariant> data;
    data.insert(sharedValue("url"), item.url());

    const bool isDir = item.isDir();
    if (m_requestRole[IsDirRole] && isDir) {
        data.insert(sharedValue("isDir"), true);
    }

    if (m_requestRole[IsLinkRole] && item.isLink()) {
        data.insert(sharedValue("isLink"), true);
    }

    if (m_requestRole[NameRole]) {
        data.insert(sharedValue("text"), item.text());
    }

    if (m_requestRole[SizeRole] && !isDir) {
        data.insert(sharedValue("size"), item.size());
    }

    if (m_requestRole[DateRole]) {
        // Don't use KFileItem::timeString() as this is too expensive when
        // having several thousands of items. Instead the formatting of the
        // date-time will be done on-demand by the view when the date will be shown.
        const QDateTime dateTime = item.time(KFileItem::ModificationTime);
        data.insert(sharedValue("date"), dateTime);
    }

    if (m_requestRole[PermissionsRole]) {
        data.insert(sharedValue("permissions"), item.permissionsString());
    }

    if (m_requestRole[OwnerRole]) {
        data.insert(sharedValue("owner"), item.user());
    }

    if (m_requestRole[GroupRole]) {
        data.insert(sharedValue("group"), item.group());
    }

    if (m_requestRole[DestinationRole]) {
        QString destination = item.linkDest();
        if (destination.isEmpty()) {
            destination = QLatin1String("-");
        }
        data.insert(sharedValue("destination"), destination);
    }

    if (m_requestRole[PathRole]) {
        QString path;
        if (item.url().scheme() == QLatin1String("trash")) {
            path = item.entry().stringValue(KIO::UDSEntry::UDS_EXTRA);
        } else {
            // For performance reasons cache the home-path in a static QString
            // (see QDir::homePath() for more details)
            static QString homePath;
            if (homePath.isEmpty()) {
                homePath = QDir::homePath();
            }

            path = item.localPath();
            if (path.startsWith(homePath)) {
                path.replace(0, homePath.length(), QLatin1Char('~'));
            }
        }

        const int index = path.lastIndexOf(item.text());
        path = path.mid(0, index - 1);
        data.insert(sharedValue("path"), path);
    }

    if (m_requestRole[IsExpandableRole] && isDir) {
        data.insert(sharedValue("isExpandable"), true);
    }

    if (m_requestRole[ExpandedParentsCountRole]) {
        if (parent) {
            const int level = expandedParentsCount(parent) + 1;
            data.insert(sharedValue("expandedParentsCount"), level);
        }
    }

    if (item.isMimeTypeKnown()) {
        data.insert(sharedValue("iconName"), item.iconName());

        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;
}

bool KFileItemModel::lessThan(const ItemData* a, const ItemData* b) const
{
    int result = 0;

    if (a->parent != b->parent) {
        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.
        for (int i = expansionLevelB; i > expansionLevelA; --i) {
            if (b->parent == a) {
                return true;
            }
            b = b->parent;
        }

        // If a has a higher expansion level than a, check if b is a parent
        // of a, and make sure that both expansion levels are equal otherwise.
        for (int i = expansionLevelA; i > expansionLevelB; --i) {
            if (a->parent == b) {
                return false;
            }
            a = a->parent;
        }

        Q_ASSERT(expandedParentsCount(a) == expandedParentsCount(b));

        // Compare the last parents of a and b which are different.
        while (a->parent != b->parent) {
            a = a->parent;
            b = b->parent;
        }
    }

    if (m_sortDirsFirst || m_sortRole == SizeRole) {
        const bool isDirA = a->item.isDir();
        const bool isDirB = b->item.isDir();
        if (isDirA && !isDirB) {
            return true;
        } else if (!isDirA && isDirB) {
            return false;
        }
    }

    result = sortRoleCompare(a, b);

    return (sortOrder() == Qt::AscendingOrder) ? result < 0 : result > 0;
}

/**
 * Helper class for KFileItemModel::sort().
 */
class KFileItemModelLessThan
{
public:
    KFileItemModelLessThan(const KFileItemModel* model) :
        m_model(model)
    {
    }

    bool operator()(const KFileItemModel::ItemData* a, const KFileItemModel::ItemData* b) const
    {
        return m_model->lessThan(a, b);
    }

private:
    const KFileItemModel* m_model;
};

void KFileItemModel::sort(QList<KFileItemModel::ItemData*>::iterator begin,
                          QList<KFileItemModel::ItemData*>::iterator end) const
{
    KFileItemModelLessThan lessThan(this);

    if (m_sortRole == NameRole) {
        // Sorting by name can be expensive, in particular if natural sorting is
        // enabled. Use all CPU cores to speed up the sorting process.
        static const int numberOfThreads = QThread::idealThreadCount();
        parallelMergeSort(begin, end, lessThan, numberOfThreads);
    } else {
        // Sorting by other roles is quite fast. Use only one thread to prevent
        // problems caused by non-reentrant comparison functions, see
        // https://bugs.kde.org/show_bug.cgi?id=312679
        mergeSort(begin, end, lessThan);
    }
}

int KFileItemModel::sortRoleCompare(const ItemData* a, const ItemData* b) const
{
    const KFileItem& itemA = a->item;
    const KFileItem& itemB = b->item;

    int result = 0;

    switch (m_sortRole) {
    case NameRole:
        // The name role is handled as default fallback after the switch
        break;

    case SizeRole: {
        if (itemA.isDir()) {
            // See "if (m_sortFoldersFirst || m_sortRole == SizeRole)" in KFileItemModel::lessThan():
            Q_ASSERT(itemB.isDir());

            const QVariant valueA = a->values.value("size");
            const QVariant valueB = b->values.value("size");
            if (valueA.isNull() && valueB.isNull()) {
                result = 0;
            } else if (valueA.isNull()) {
                result = -1;
            } else if (valueB.isNull()) {
                result = +1;
            } else {
                result = valueA.toInt() - valueB.toInt();
            }
        } else {
            // See "if (m_sortFoldersFirst || m_sortRole == SizeRole)" in KFileItemModel::lessThan():
            Q_ASSERT(!itemB.isDir());
            const KIO::filesize_t sizeA = itemA.size();
            const KIO::filesize_t sizeB = itemB.size();
            if (sizeA > sizeB) {
                result = +1;
            } else if (sizeA < sizeB) {
                result = -1;
            } else {
                result = 0;
            }
        }
        break;
    }

    case DateRole: {
        const QDateTime dateTimeA = itemA.time(KFileItem::ModificationTime);
        const QDateTime dateTimeB = itemB.time(KFileItem::ModificationTime);
        if (dateTimeA < dateTimeB) {
            result = -1;
        } else if (dateTimeA > dateTimeB) {
            result = +1;
        }
        break;
    }

    case RatingRole: {
        result = a->values.value("rating").toInt() - b->values.value("rating").toInt();
        break;
    }

    case ImageSizeRole: {
        // Alway use a natural comparing to interpret the numbers of a string like
        // "1600 x 1200" for having a correct sorting.
        result = KStringHandler::naturalCompare(a->values.value("imageSize").toString(),
                                                b->values.value("imageSize").toString(),
                                                Qt::CaseSensitive);
        break;
    }

    default: {
        const QByteArray role = roleForType(m_sortRole);
        result = QString::compare(a->values.value(role).toString(),
                                  b->values.value(role).toString());
        break;
    }

    }

    if (result != 0) {
        // The current sort role was sufficient to define an order
        return result;
    }

    // Fallback #1: Compare the text of the items
    result = stringCompare(itemA.text(), itemB.text());
    if (result != 0) {
        return result;
    }

    // Fallback #2: KFileItem::text() may not be unique in case UDS_DISPLAY_NAME is used
    result = stringCompare(itemA.name(m_caseSensitivity == Qt::CaseInsensitive),
                           itemB.name(m_caseSensitivity == Qt::CaseInsensitive));
    if (result != 0) {
        return result;
    }

    // Fallback #3: It must be assured that the sort order is always unique even if two values have been
    // equal. In this case a comparison of the URL is done which is unique in all cases
    // within KDirLister.
    return QString::compare(itemA.url().url(), itemB.url().url(), Qt::CaseSensitive);
}

int KFileItemModel::stringCompare(const QString& a, const QString& b) const
{
    // Taken from KDirSortFilterProxyModel (kdelibs/kfile/kdirsortfilterproxymodel.*)
    // Copyright (C) 2006 by Peter Penz <peter.penz@gmx.at>
    // Copyright (C) 2006 by Dominic Battre <dominic@battre.de>
    // Copyright (C) 2006 by Martin Pool <mbp@canonical.com>

    if (m_caseSensitivity == Qt::CaseInsensitive) {
        const int result = m_naturalSorting ? KStringHandler::naturalCompare(a, b, Qt::CaseInsensitive)
                                            : QString::compare(a, b, Qt::CaseInsensitive);
        if (result != 0) {
            // Only return the result, if the strings are not equal. If they are equal by a case insensitive
            // comparison, still a deterministic sort order is required. A case sensitive
            // comparison is done as fallback.
            return result;
        }
    }

    return m_naturalSorting ? KStringHandler::naturalCompare(a, b, Qt::CaseSensitive)
                            : QString::compare(a, b, Qt::CaseSensitive);
}

bool KFileItemModel::useMaximumUpdateInterval() const
{
    return !m_dirLister->url().isLocalFile();
}

static bool localeAwareLessThan(const QChar& c1, const QChar& c2)
{
    return QString::localeAwareCompare(c1, c2) < 0;
}

QList<QPair<int, QVariant> > KFileItemModel::nameRoleGroups() const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    QString groupValue;
    QChar firstChar;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }

        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();
        if (newFirstChar == QLatin1Char('~') && name.length() > 1) {
            newFirstChar = name.at(1).toUpper();
        }

        if (firstChar != newFirstChar) {
            QString newGroupValue;
            if (newFirstChar.isLetter()) {
                // Try to find a matching group in the range 'A' to 'Z'.
                static std::vector<QChar> lettersAtoZ;
                if (lettersAtoZ.empty()) {
                    for (char c = 'A'; c <= 'Z'; ++c) {
                        lettersAtoZ.push_back(QLatin1Char(c));
                    }
                }

                std::vector<QChar>::iterator it = std::lower_bound(lettersAtoZ.begin(), lettersAtoZ.end(), newFirstChar, localeAwareLessThan);
                if (it != lettersAtoZ.end()) {
                    if (localeAwareLessThan(newFirstChar, *it) && it != lettersAtoZ.begin()) {
                        // newFirstChar belongs to the group preceding *it.
                        // Example: for an umlaut 'A' in the German locale, *it would be 'B' now.
                        --it;
                    }
                    newGroupValue = *it;
                } else {
                    newGroupValue = newFirstChar;
                }
            } else if (newFirstChar >= QLatin1Char('0') && newFirstChar <= QLatin1Char('9')) {
                // Apply group '0 - 9' for any name that starts with a digit
                newGroupValue = i18nc("@title:group Groups that start with a digit", "0 - 9");
            } else {
                newGroupValue = i18nc("@title:group", "Others");
            }

            if (newGroupValue != groupValue) {
                groupValue = newGroupValue;
                groups.append(QPair<int, QVariant>(i, newGroupValue));
            }

            firstChar = newFirstChar;
        }
    }
    return groups;
}

QList<QPair<int, QVariant> > KFileItemModel::sizeRoleGroups() const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    QString groupValue;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }

        const KFileItem& item = m_itemData.at(i)->item;
        const KIO::filesize_t fileSize = !item.isNull() ? item.size() : ~0U;
        QString newGroupValue;
        if (!item.isNull() && item.isDir()) {
            newGroupValue = i18nc("@title:group Size", "Folders");
        } else if (fileSize < 5 * 1024 * 1024) {
            newGroupValue = i18nc("@title:group Size", "Small");
        } else if (fileSize < 10 * 1024 * 1024) {
            newGroupValue = i18nc("@title:group Size", "Medium");
        } else {
            newGroupValue = i18nc("@title:group Size", "Big");
        }

        if (newGroupValue != groupValue) {
            groupValue = newGroupValue;
            groups.append(QPair<int, QVariant>(i, newGroupValue));
        }
    }

    return groups;
}

QList<QPair<int, QVariant> > KFileItemModel::dateRoleGroups() const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    const QDate currentDate = QDate::currentDate();

    QDate previousModifiedDate;
    QString groupValue;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }

        const QDateTime modifiedTime = m_itemData.at(i)->item.time(KFileItem::ModificationTime);
        const QDate modifiedDate = modifiedTime.date();
        if (modifiedDate == previousModifiedDate) {
            // The current item is in the same group as the previous item
            continue;
        }
        previousModifiedDate = modifiedDate;

        const int daysDistance = modifiedDate.daysTo(currentDate);

        QString newGroupValue;
        if (currentDate.year() == modifiedDate.year() && currentDate.month() == modifiedDate.month()) {
            switch (daysDistance / 7) {
            case 0:
                switch (daysDistance) {
                case 0:  newGroupValue = i18nc("@title:group Date", "Today"); break;
                case 1:  newGroupValue = i18nc("@title:group Date", "Yesterday"); break;
                default: newGroupValue = modifiedTime.toString(i18nc("@title:group The week day name: %A", "%A"));
                }
                break;
            case 1:
                newGroupValue = i18nc("@title:group Date", "One Week Ago");
                break;
            case 2:
                newGroupValue = i18nc("@title:group Date", "Two Weeks Ago");
                break;
            case 3:
                newGroupValue = i18nc("@title:group Date", "Three Weeks Ago");
                break;
            case 4:
            case 5:
                newGroupValue = i18nc("@title:group Date", "Earlier this Month");
                break;
            default:
                Q_ASSERT(false);
            }
        } else {
            const QDate lastMonthDate = currentDate.addMonths(-1);
            if  (lastMonthDate.year() == modifiedDate.year() && lastMonthDate.month() == modifiedDate.month()) {
                if (daysDistance == 1) {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group Date: %B is full month name in current locale, and %Y is full year number", "Yesterday (%B, %Y)"));
                } else if (daysDistance <= 7) {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group The week day name: %A, %B is full month name in current locale, and %Y is full year number", "%A (%B, %Y)"));
                } else if (daysDistance <= 7 * 2) {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group Date: %B is full month name in current locale, and %Y is full year number", "One Week Ago (%B, %Y)"));
                } else if (daysDistance <= 7 * 3) {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group Date: %B is full month name in current locale, and %Y is full year number", "Two Weeks Ago (%B, %Y)"));
                } else if (daysDistance <= 7 * 4) {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group Date: %B is full month name in current locale, and %Y is full year number", "Three Weeks Ago (%B, %Y)"));
                } else {
                    newGroupValue = modifiedTime.toString(i18nc("@title:group Date: %B is full month name in current locale, and %Y is full year number", "Earlier on %B, %Y"));
                }
            } else {
                newGroupValue = modifiedTime.toString(i18nc("@title:group The month and year: %B is full month name in current locale, and %Y is full year number", "%B, %Y"));
            }
        }

        if (newGroupValue != groupValue) {
            groupValue = newGroupValue;
            groups.append(QPair<int, QVariant>(i, newGroupValue));
        }
    }

    return groups;
}

QList<QPair<int, QVariant> > KFileItemModel::permissionRoleGroups() const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    QString permissionsString;
    QString groupValue;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }

        const ItemData* itemData = m_itemData.at(i);
        const QString newPermissionsString = itemData->values.value("permissions").toString();
        if (newPermissionsString == permissionsString) {
            continue;
        }
        permissionsString = newPermissionsString;

        const QFileInfo info(itemData->item.url().toLocalFile());

        // Set user string
        QString user;
        if (info.permission(QFile::ReadUser)) {
            user = i18nc("@item:intext Access permission, concatenated", "Read, ");
        }
        if (info.permission(QFile::WriteUser)) {
            user += i18nc("@item:intext Access permission, concatenated", "Write, ");
        }
        if (info.permission(QFile::ExeUser)) {
            user += i18nc("@item:intext Access permission, concatenated", "Execute, ");
        }
        user = user.isEmpty() ? i18nc("@item:intext Access permission, concatenated", "Forbidden") : user.mid(0, user.count() - 2);

        // Set group string
        QString group;
        if (info.permission(QFile::ReadGroup)) {
            group = i18nc("@item:intext Access permission, concatenated", "Read, ");
        }
        if (info.permission(QFile::WriteGroup)) {
            group += i18nc("@item:intext Access permission, concatenated", "Write, ");
        }
        if (info.permission(QFile::ExeGroup)) {
            group += i18nc("@item:intext Access permission, concatenated", "Execute, ");
        }
        group = group.isEmpty() ? i18nc("@item:intext Access permission, concatenated", "Forbidden") : group.mid(0, group.count() - 2);

        // Set others string
        QString others;
        if (info.permission(QFile::ReadOther)) {
            others = i18nc("@item:intext Access permission, concatenated", "Read, ");
        }
        if (info.permission(QFile::WriteOther)) {
            others += i18nc("@item:intext Access permission, concatenated", "Write, ");
        }
        if (info.permission(QFile::ExeOther)) {
            others += i18nc("@item:intext Access permission, concatenated", "Execute, ");
        }
        others = others.isEmpty() ? i18nc("@item:intext Access permission, concatenated", "Forbidden") : others.mid(0, others.count() - 2);

        const QString newGroupValue = i18nc("@title:group Files and folders by permissions", "User: %1 | Group: %2 | Others: %3", user, group, others);
        if (newGroupValue != groupValue) {
            groupValue = newGroupValue;
            groups.append(QPair<int, QVariant>(i, newGroupValue));
        }
    }

    return groups;
}

QList<QPair<int, QVariant> > KFileItemModel::ratingRoleGroups() const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    int groupValue = -1;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }
        const int newGroupValue = m_itemData.at(i)->values.value("rating", 0).toInt();
        if (newGroupValue != groupValue) {
            groupValue = newGroupValue;
            groups.append(QPair<int, QVariant>(i, newGroupValue));
        }
    }

    return groups;
}

QList<QPair<int, QVariant> > KFileItemModel::genericStringRoleGroups(const QByteArray& role) const
{
    Q_ASSERT(!m_itemData.isEmpty());

    const int maxIndex = count() - 1;
    QList<QPair<int, QVariant> > groups;

    bool isFirstGroupValue = true;
    QString groupValue;
    for (int i = 0; i <= maxIndex; ++i) {
        if (isChildItem(i)) {
            continue;
        }
        const QString newGroupValue = m_itemData.at(i)->values.value(role).toString();
        if (newGroupValue != groupValue || isFirstGroupValue) {
            groupValue = newGroupValue;
            groups.append(QPair<int, QVariant>(i, newGroupValue));
            isFirstGroupValue = false;
        }
    }

    return groups;
}

void KFileItemModel::emitSortProgress(int resolvedCount)
{
    // Be tolerant against a resolvedCount with a wrong range.
    // Although there should not be a case where KFileItemModelRolesUpdater
    // (= caller) provides a wrong range, it is important to emit
    // a useful progress information even if there is an unexpected
    // implementation issue.

    const int itemCount = count();
    if (resolvedCount >= itemCount) {
        m_sortingProgressPercent = -1;
        if (m_resortAllItemsTimer->isActive()) {
            m_resortAllItemsTimer->stop();
            resortAllItems();
        }

        emit directorySortingProgress(100);
    } else if (itemCount > 0) {
        resolvedCount = qBound(0, resolvedCount, itemCount);

        const int progress = resolvedCount * 100 / itemCount;
        if (m_sortingProgressPercent != progress) {
            m_sortingProgressPercent = progress;
            emit directorySortingProgress(progress);
        }
    }
}

const KFileItemModel::RoleInfoMap* KFileItemModel::rolesInfoMap(int& count)
{
    static const RoleInfoMap rolesInfoMap[] = {
    //  | 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 },
        { "date",        DateRole,        I18N_NOOP2_NOSTRIP("@label", "Date"),             0, 0,                                     false, false },
        { "type",        TypeRole,        I18N_NOOP2_NOSTRIP("@label", "Type"),             0, 0,                                     false, false },
        { "rating",      RatingRole,      I18N_NOOP2_NOSTRIP("@label", "Rating"),           0, 0,                                     true,  false },
        { "tags",        TagsRole,        I18N_NOOP2_NOSTRIP("@label", "Tags"),             0, 0,                                     true,  false },
        { "comment",     CommentRole,     I18N_NOOP2_NOSTRIP("@label", "Comment"),          0, 0,                                     true,  false },
        { "wordCount",   WordCountRole,   I18N_NOOP2_NOSTRIP("@label", "Word Count"),       I18N_NOOP2_NOSTRIP("@label", "Document"), true,  true  },
        { "lineCount",   LineCountRole,   I18N_NOOP2_NOSTRIP("@label", "Line Count"),       I18N_NOOP2_NOSTRIP("@label", "Document"), true,  true  },
        { "imageSize",   ImageSizeRole,   I18N_NOOP2_NOSTRIP("@label", "Image Size"),       I18N_NOOP2_NOSTRIP("@label", "Image"),    true,  true  },
        { "orientation", OrientationRole, I18N_NOOP2_NOSTRIP("@label", "Orientation"),      I18N_NOOP2_NOSTRIP("@label", "Image"),    true,  true  },
        { "artist",      ArtistRole,      I18N_NOOP2_NOSTRIP("@label", "Artist"),           I18N_NOOP2_NOSTRIP("@label", "Audio"),    true,  true  },
        { "album",       AlbumRole,       I18N_NOOP2_NOSTRIP("@label", "Album"),            I18N_NOOP2_NOSTRIP("@label", "Audio"),    true,  true  },
        { "duration",    DurationRole,    I18N_NOOP2_NOSTRIP("@label", "Duration"),         I18N_NOOP2_NOSTRIP("@label", "Audio"),    true,  true  },
        { "track",       TrackRole,       I18N_NOOP2_NOSTRIP("@label", "Track"),            I18N_NOOP2_NOSTRIP("@label", "Audio"),    true,  true  },
        { "path",        PathRole,        I18N_NOOP2_NOSTRIP("@label", "Path"),             I18N_NOOP2_NOSTRIP("@label", "Other"),    false, false },
        { "destination", DestinationRole, I18N_NOOP2_NOSTRIP("@label", "Link Destination"), I18N_NOOP2_NOSTRIP("@label", "Other"),    false, false },
        { "copiedFrom",  CopiedFromRole,  I18N_NOOP2_NOSTRIP("@label", "Copied From"),      I18N_NOOP2_NOSTRIP("@label", "Other"),    true,  false },
        { "permissions", PermissionsRole, I18N_NOOP2_NOSTRIP("@label", "Permissions"),      I18N_NOOP2_NOSTRIP("@label", "Other"),    false, false },
        { "owner",       OwnerRole,       I18N_NOOP2_NOSTRIP("@label", "Owner"),            I18N_NOOP2_NOSTRIP("@label", "Other"),    false, false },
        { "group",       GroupRole,       I18N_NOOP2_NOSTRIP("@label", "User Group"),       I18N_NOOP2_NOSTRIP("@label", "Other"),    false, false },
    };

    count = sizeof(rolesInfoMap) / sizeof(RoleInfoMap);
    return rolesInfoMap;
}

void KFileItemModel::determineMimeTypes(const KFileItemList& items, int timeout)
{
    QElapsedTimer timer;
    timer.start();
    foreach (const KFileItem& item, items) { // krazy:exclude=foreach
        // 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.
            return;
        }
    }
}

QByteArray KFileItemModel::sharedValue(const QByteArray& value)
{
    static QSet<QByteArray> pool;
    const QSet<QByteArray>::const_iterator it = pool.constFind(value);

    if (it != pool.constEnd()) {
        return *it;
    } else {
        pool.insert(value);
        return value;
    }
}

bool KFileItemModel::isConsistent() const
{
    // m_items may contain less items than m_itemData because m_items
    // is populated lazily, see KFileItemModel::index(const KUrl& url).
    if (m_items.count() > m_itemData.count()) {
        return false;
    }

    for (int i = 0; i < count(); ++i) {
        // Check if m_items and m_itemData are consistent.
        const KFileItem item = fileItem(i);
        if (item.isNull()) {
            qWarning() << "Item" << i << "is null";
            return false;
        }

        const int itemIndex = index(item);
        if (itemIndex != i) {
            qWarning() << "Item" << i << "has a wrong index:" << itemIndex;
            return false;
        }

        // Check if the items are sorted correctly.
        if (i > 0 && !lessThan(m_itemData.at(i - 1), m_itemData.at(i))) {
            qWarning() << "The order of items" << i - 1 << "and" << i << "is wrong:"
                << fileItem(i - 1) << fileItem(i);
            return false;
        }

        // Check if all parent-child relationships are consistent.
        const ItemData* data = m_itemData.at(i);
        const ItemData* parent = data->parent;
        if (parent) {
            if (expandedParentsCount(data) != expandedParentsCount(parent) + 1) {
                qWarning() << "expandedParentsCount is inconsistent for parent" << parent->item << "and child" << data->item;
                return false;
            }

            const int parentIndex = index(parent->item);
            if (parentIndex >= i) {
                qWarning() << "Index" << parentIndex << "of parent" << parent->item << "is not smaller than index" << i << "of child" << data->item;
                return false;
            }
        }
    }

    return true;
}