diff --git a/src/view/keytreeview.cpp b/src/view/keytreeview.cpp index 2b07aa21c..da18cc6e9 100644 --- a/src/view/keytreeview.cpp +++ b/src/view/keytreeview.cpp @@ -1,458 +1,457 @@ /* -*- mode: c++; c-basic-offset:4 -*- view/keytreeview.cpp This file is part of Kleopatra, the KDE keymanager Copyright (c) 2009 Klarälvdalens Datakonsult AB Kleopatra 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. Kleopatra 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 In addition, as a special exception, the copyright holders give permission to link the code of this program with any edition of the Qt library by Trolltech AS, Norway (or with modified versions of Qt that use the same license as Qt), and distribute linked combinations including the two. You must obey the GNU General Public License in all respects for all of the code used other than Qt. If you modify this file, you may extend this exception to your version of the file, but you are not obligated to do so. If you do not wish to do so, delete this exception statement from your version. */ #include #include "keytreeview.h" #include #include #include #include #include #include #include #include "kleopatra_debug.h" #include #include #include #include #include using namespace Kleo; using namespace GpgME; namespace { class TreeView : public QTreeView { public: explicit TreeView(QWidget *parent = nullptr) : QTreeView(parent) {} QSize minimumSizeHint() const override { const QSize min = QTreeView::minimumSizeHint(); return QSize(min.width(), min.height() + 5 * fontMetrics().height()); } }; } // anon namespace KeyTreeView::KeyTreeView(QWidget *parent) : QWidget(parent), m_proxy(new KeyListSortFilterProxyModel(this)), m_additionalProxy(nullptr), m_view(new TreeView(this)), m_flatModel(nullptr), m_hierarchicalModel(nullptr), m_stringFilter(), m_keyFilter(), m_isHierarchical(true) { init(); } KeyTreeView::KeyTreeView(const KeyTreeView &other) : QWidget(nullptr), m_proxy(new KeyListSortFilterProxyModel(this)), m_additionalProxy(other.m_additionalProxy ? other.m_additionalProxy->clone() : nullptr), m_view(new TreeView(this)), m_flatModel(other.m_flatModel), m_hierarchicalModel(other.m_hierarchicalModel), m_stringFilter(other.m_stringFilter), m_keyFilter(other.m_keyFilter), m_isHierarchical(other.m_isHierarchical) { init(); setColumnSizes(other.columnSizes()); setSortColumn(other.sortColumn(), other.sortOrder()); } KeyTreeView::KeyTreeView(const QString &text, const std::shared_ptr &kf, AbstractKeyListSortFilterProxyModel *proxy, QWidget *parent) : QWidget(parent), m_proxy(new KeyListSortFilterProxyModel(this)), m_additionalProxy(proxy), m_view(new TreeView(this)), m_flatModel(nullptr), m_hierarchicalModel(nullptr), m_stringFilter(text), m_keyFilter(kf), m_isHierarchical(true) { init(); } void KeyTreeView::setColumnSizes(const std::vector &sizes) { if (sizes.empty()) { return; } Q_ASSERT(m_view); Q_ASSERT(m_view->header()); Q_ASSERT(qobject_cast(m_view->header()) == static_cast(m_view->header())); if (HeaderView *const hv = static_cast(m_view->header())) { hv->setSectionSizes(sizes); } } void KeyTreeView::setSortColumn(int sortColumn, Qt::SortOrder sortOrder) { Q_ASSERT(m_view); m_view->sortByColumn(sortColumn, sortOrder); } int KeyTreeView::sortColumn() const { Q_ASSERT(m_view); Q_ASSERT(m_view->header()); return m_view->header()->sortIndicatorSection(); } Qt::SortOrder KeyTreeView::sortOrder() const { Q_ASSERT(m_view); Q_ASSERT(m_view->header()); return m_view->header()->sortIndicatorOrder(); } std::vector KeyTreeView::columnSizes() const { Q_ASSERT(m_view); Q_ASSERT(m_view->header()); Q_ASSERT(qobject_cast(m_view->header()) == static_cast(m_view->header())); if (HeaderView *const hv = static_cast(m_view->header())) { return hv->sectionSizes(); } else { return std::vector(); } } void KeyTreeView::init() { KDAB_SET_OBJECT_NAME(m_proxy); KDAB_SET_OBJECT_NAME(m_view); if (m_additionalProxy && m_additionalProxy->objectName().isEmpty()) { KDAB_SET_OBJECT_NAME(m_additionalProxy); } QLayout *layout = new QVBoxLayout(this); KDAB_SET_OBJECT_NAME(layout); layout->setMargin(0); layout->addWidget(m_view); HeaderView *headerView = new HeaderView(Qt::Horizontal); KDAB_SET_OBJECT_NAME(headerView); m_view->setHeader(headerView); m_view->setSelectionBehavior(QAbstractItemView::SelectRows); m_view->setSelectionMode(QAbstractItemView::ExtendedSelection); //m_view->setAlternatingRowColors( true ); m_view->setAllColumnsShowFocus(true); m_view->setSortingEnabled(true); - qDebug() << model(); if (model()) { if (m_additionalProxy) { m_additionalProxy->setSourceModel(model()); } else { m_proxy->setSourceModel(model()); } } if (m_additionalProxy) { m_proxy->setSourceModel(m_additionalProxy); if (!m_additionalProxy->parent()) { m_additionalProxy->setParent(this); } } m_proxy->setFilterFixedString(m_stringFilter); m_proxy->setKeyFilter(m_keyFilter); m_proxy->setSortCaseSensitivity(Qt::CaseInsensitive); KeyRearrangeColumnsProxyModel *rearangingModel = new KeyRearrangeColumnsProxyModel(this); rearangingModel->setSourceModel(m_proxy); /* TODO: Make this configurable by the user. E.g. kdepim/src/todo/todoview.cpp */ rearangingModel->setSourceColumns(QVector() << KeyListModelInterface::PrettyName << KeyListModelInterface::PrettyEMail << KeyListModelInterface::Validity << KeyListModelInterface::ValidFrom << KeyListModelInterface::ValidUntil << KeyListModelInterface::TechnicalDetails << KeyListModelInterface::ShortKeyID); m_view->setModel(rearangingModel); std::vector defaultSizes; defaultSizes.push_back(280); defaultSizes.push_back(280); defaultSizes.push_back(120); defaultSizes.push_back(100); defaultSizes.push_back(100); defaultSizes.push_back(80); defaultSizes.push_back(80); setColumnSizes(defaultSizes); } KeyTreeView::~KeyTreeView() {} static QAbstractProxyModel *find_last_proxy(QAbstractProxyModel *pm) { Q_ASSERT(pm); while (QAbstractProxyModel *const sm = qobject_cast(pm->sourceModel())) { pm = sm; } return pm; } void KeyTreeView::setFlatModel(AbstractKeyListModel *model) { if (model == m_flatModel) { return; } m_flatModel = model; if (!m_isHierarchical) // TODO: this fails when called after setHierarchicalView( false )... { find_last_proxy(m_proxy)->setSourceModel(model); } } void KeyTreeView::setHierarchicalModel(AbstractKeyListModel *model) { if (model == m_hierarchicalModel) { return; } m_hierarchicalModel = model; if (m_isHierarchical) { find_last_proxy(m_proxy)->setSourceModel(model); m_view->expandAll(); for (int column = 0; column < m_view->header()->count(); ++column) { m_view->header()->resizeSection(column, qMax(m_view->header()->sectionSize(column), m_view->header()->sectionSizeHint(column))); } } } void KeyTreeView::setStringFilter(const QString &filter) { if (filter == m_stringFilter) { return; } m_stringFilter = filter; m_proxy->setFilterFixedString(filter); Q_EMIT stringFilterChanged(filter); } void KeyTreeView::setKeyFilter(const std::shared_ptr &filter) { if (filter == m_keyFilter || (filter && m_keyFilter && filter->id() == m_keyFilter->id())) { return; } m_keyFilter = filter; m_proxy->setKeyFilter(filter); Q_EMIT keyFilterChanged(filter); } static QItemSelection itemSelectionFromKeys(const std::vector &keys, const KeyListSortFilterProxyModel &proxy) { QItemSelection result; for (const Key &key : keys) { const QModelIndex mi = proxy.index(key); if (mi.isValid()) { result.merge(QItemSelection(mi, mi), QItemSelectionModel::Select); } } return result; } void KeyTreeView::selectKeys(const std::vector &keys) { m_view->selectionModel()->select(itemSelectionFromKeys(keys, *m_proxy), QItemSelectionModel::ClearAndSelect | QItemSelectionModel::Rows); } std::vector KeyTreeView::selectedKeys() const { return m_proxy->keys(m_view->selectionModel()->selectedRows()); } void KeyTreeView::setHierarchicalView(bool on) { if (on == m_isHierarchical) { return; } if (on && !hierarchicalModel()) { qCWarning(KLEOPATRA_LOG) << "hierarchical view requested, but no hierarchical model set"; return; } if (!on && !flatModel()) { qCWarning(KLEOPATRA_LOG) << "flat view requested, but no flat model set"; return; } const std::vector selectedKeys = m_proxy->keys(m_view->selectionModel()->selectedRows()); const Key currentKey = m_proxy->key(m_view->currentIndex()); m_isHierarchical = on; find_last_proxy(m_proxy)->setSourceModel(model()); if (on) { m_view->expandAll(); } selectKeys(selectedKeys); if (!currentKey.isNull()) { const QModelIndex currentIndex = m_proxy->index(currentKey); if (currentIndex.isValid()) { m_view->selectionModel()->setCurrentIndex(m_proxy->index(currentKey), QItemSelectionModel::NoUpdate); m_view->scrollTo(currentIndex); } } Q_EMIT hierarchicalChanged(on); } void KeyTreeView::setKeys(const std::vector &keys) { std::vector sorted = keys; _detail::sort_by_fpr(sorted); _detail::remove_duplicates_by_fpr(sorted); m_keys = sorted; if (m_flatModel) { m_flatModel->setKeys(sorted); } if (m_hierarchicalModel) { m_hierarchicalModel->setKeys(sorted); } if (!sorted.empty()) if (QHeaderView *const hv = m_view ? m_view->header() : nullptr) { hv->resizeSections(QHeaderView::ResizeToContents); } } void KeyTreeView::addKeysImpl(const std::vector &keys, bool select) { if (keys.empty()) { return; } if (m_keys.empty()) { setKeys(keys); return; } std::vector sorted = keys; _detail::sort_by_fpr(sorted); _detail::remove_duplicates_by_fpr(sorted); std::vector newKeys = _detail::union_by_fpr(sorted, m_keys); m_keys.swap(newKeys); if (m_flatModel) { m_flatModel->addKeys(sorted); } if (m_hierarchicalModel) { m_hierarchicalModel->addKeys(sorted); } if (select) { selectKeys(sorted); } } void KeyTreeView::addKeysSelected(const std::vector &keys) { addKeysImpl(keys, true); } void KeyTreeView::addKeysUnselected(const std::vector &keys) { addKeysImpl(keys, false); } void KeyTreeView::removeKeys(const std::vector &keys) { if (keys.empty()) { return; } std::vector sorted = keys; _detail::sort_by_fpr(sorted); _detail::remove_duplicates_by_fpr(sorted); std::vector newKeys; newKeys.reserve(m_keys.size()); std::set_difference(m_keys.begin(), m_keys.end(), sorted.begin(), sorted.end(), std::back_inserter(newKeys), _detail::ByFingerprint()); m_keys.swap(newKeys); if (m_flatModel) { std::for_each(sorted.cbegin(), sorted.cend(), [this](const Key &key) { m_flatModel->removeKey(key); }); } if (m_hierarchicalModel) { std::for_each(sorted.cbegin(), sorted.cend(), [this](const Key &key) { m_hierarchicalModel->removeKey(key); }); } } static const struct { const char *signal; const char *slot; } connections[] = { { SIGNAL(stringFilterChanged(QString)), SLOT(setStringFilter(QString)) }, { SIGNAL(keyFilterChanged(std::shared_ptr)), SLOT(setKeyFilter(std::shared_ptr)) }, }; static const unsigned int numConnections = sizeof connections / sizeof * connections; void KeyTreeView::disconnectSearchBar(const QObject *bar) { for (unsigned int i = 0; i < numConnections; ++i) { disconnect(this, connections[i].signal, bar, connections[i].slot); disconnect(bar, connections[i].signal, this, connections[i].slot); } } bool KeyTreeView::connectSearchBar(const QObject *bar) { for (unsigned int i = 0; i < numConnections; ++i) if (!connect(this, connections[i].signal, bar, connections[i].slot) || !connect(bar, connections[i].signal, this, connections[i].slot)) { return false; } return true; }