#include "filtermodels.h" #include "mainwindow.h" #include "models.h" #include "divelistview.h" #include "display.h" #define CREATE_INSTANCE_METHOD( CLASS ) \ CLASS *CLASS::instance() \ { \ static CLASS *self = new CLASS(); \ return self; \ } #define CREATE_MODEL_SET_DATA_METHOD( CLASS ) \ bool CLASS::setData(const QModelIndex &index, const QVariant &value, int role) \ { \ if (role == Qt::CheckStateRole) { \ checkState[index.row()] = value.toBool(); \ anyChecked = false; \ for (int i = 0; i < rowCount(); i++) { \ if (checkState[i] == true) { \ anyChecked = true; \ break; \ } \ } \ dataChanged(index, index); \ return true; \ } \ return false; \ } #define CREATE_CLEAR_FILTER_METHOD( CLASS ) \ void CLASS::clearFilter() \ { \ memset(checkState, false, rowCount()); \ checkState[rowCount() - 1] = false; \ anyChecked = false; \ emit dataChanged(createIndex(0,0), createIndex(rowCount()-1, 0)); \ } #define CREATE_FLAGS_METHOD( CLASS ) \ Qt::ItemFlags CLASS::flags(const QModelIndex &index) const \ { \ return QStringListModel::flags(index) | Qt::ItemIsUserCheckable; \ } #define CREATE_DATA_METHOD( CLASS, COUNTER_FUNCTION ) \ QVariant CLASS::data(const QModelIndex &index, int role) const \ { \ if (role == Qt::CheckStateRole) { \ return checkState[index.row()] ? Qt::Checked : Qt::Unchecked; \ } else if (role == Qt::DisplayRole) { \ QString value = stringList()[index.row()]; \ int count = COUNTER_FUNCTION((index.row() == rowCount() - 1) ? "" : value.toUtf8().data()); \ return value + QString(" (%1)").arg(count); \ } \ return QVariant(); \ } #define CREATE_COMMON_METHODS_FOR_FILTER( CLASS, COUNTER_FUNCTION ) \ CREATE_FLAGS_METHOD( CLASS ); \ CREATE_CLEAR_FILTER_METHOD( CLASS ); \ CREATE_MODEL_SET_DATA_METHOD( CLASS ); \ CREATE_INSTANCE_METHOD( CLASS ); \ CREATE_DATA_METHOD( CLASS, COUNTER_FUNCTION ) CREATE_COMMON_METHODS_FOR_FILTER(TagFilterModel, count_dives_with_tag) CREATE_COMMON_METHODS_FOR_FILTER(BuddyFilterModel, count_dives_with_person) CREATE_COMMON_METHODS_FOR_FILTER(LocationFilterModel, count_dives_with_location) CREATE_COMMON_METHODS_FOR_FILTER(SuitsFilterModel, count_dives_with_suit) CREATE_INSTANCE_METHOD(MultiFilterSortModel) SuitsFilterModel::SuitsFilterModel(QObject *parent) : QStringListModel(parent) { } bool SuitsFilterModel::doFilter(dive *d, QModelIndex &index0, QAbstractItemModel *sourceModel) const { if (!anyChecked) { return true; } // Checked means 'Show', Unchecked means 'Hide'. QString suit(d->suit); // only show empty suit dives if the user checked that. if (suit.isEmpty()) { if (rowCount() > 0) return checkState[rowCount() - 1]; else return true; } // there is a suit selected QStringList suitList = stringList(); if (!suitList.isEmpty()) { suitList.removeLast(); // remove the "Show Empty Suits"; for (int i = 0; i < rowCount(); i++) { if (checkState[i] && (suit.indexOf(stringList()[i]) != -1)) { return true; } } } return false; } void SuitsFilterModel::repopulate() { QStringList list; struct dive *dive; int i = 0; for_each_dive (i, dive) { QString suit(dive->suit); if (!suit.isEmpty() && !list.contains(suit)) { list.append(suit); } } qSort(list); list << tr("No suit set"); setStringList(list); delete[] checkState; checkState = new bool[list.count()]; memset(checkState, false, list.count()); checkState[list.count() - 1] = false; anyChecked = false; } TagFilterModel::TagFilterModel(QObject *parent) : QStringListModel(parent) { } void TagFilterModel::repopulate() { if (g_tag_list == NULL) return; QStringList list; struct tag_entry *current_tag_entry = g_tag_list; while (current_tag_entry != NULL) { if (count_dives_with_tag(current_tag_entry->tag->name) > 0) list.append(QString(current_tag_entry->tag->name)); current_tag_entry = current_tag_entry->next; } qSort(list); list << tr("Empty tags"); setStringList(list); delete[] checkState; checkState = new bool[list.count()]; memset(checkState, false, list.count()); checkState[list.count() - 1] = false; anyChecked = false; } bool TagFilterModel::doFilter(dive *d, QModelIndex &index0, QAbstractItemModel *sourceModel) const { // If there's nothing checked, this should show everything if (!anyChecked) { return true; } // Checked means 'Show', Unchecked means 'Hide'. struct tag_entry *head = d->tag_list; if (!head) { // last tag means "Show empty tags"; if (rowCount() > 0) return checkState[rowCount() - 1]; else return true; } // have at least one tag. QStringList tagList = stringList(); if (!tagList.isEmpty()) { tagList.removeLast(); // remove the "Show Empty Tags"; while (head) { QString tagName(head->tag->name); int index = tagList.indexOf(tagName); if (checkState[index]) return true; head = head->next; } } return false; } BuddyFilterModel::BuddyFilterModel(QObject *parent) : QStringListModel(parent) { } bool BuddyFilterModel::doFilter(dive *d, QModelIndex &index0, QAbstractItemModel *sourceModel) const { // If there's nothing checked, this should show everything if (!anyChecked) { return true; } // Checked means 'Show', Unchecked means 'Hide'. QString diveBuddy(d->buddy); QString divemaster(d->divemaster); // only show empty buddie dives if the user checked that. if (diveBuddy.isEmpty() && divemaster.isEmpty()) { if (rowCount() > 0) return checkState[rowCount() - 1]; else return true; } // have at least one buddy QStringList buddyList = stringList(); if (!buddyList.isEmpty()) { buddyList.removeLast(); // remove the "Show Empty Tags"; for (int i = 0; i < rowCount(); i++) { if (checkState[i] && (diveBuddy.indexOf(stringList()[i]) != -1 || divemaster.indexOf(stringList()[i]) != -1)) { return true; } } } return false; } void BuddyFilterModel::repopulate() { QStringList list; struct dive *dive; int i = 0; for_each_dive (i, dive) { QString persons = QString(dive->buddy) + "," + QString(dive->divemaster); Q_FOREACH (const QString &person, persons.split(',', QString::SkipEmptyParts)) { // Remove any leading spaces if (!list.contains(person.trimmed())) { list.append(person.trimmed()); } } } qSort(list); list << tr("No buddies"); setStringList(list); delete[] checkState; checkState = new bool[list.count()]; memset(checkState, false, list.count()); checkState[list.count() - 1] = false; anyChecked = false; } LocationFilterModel::LocationFilterModel(QObject *parent) : QStringListModel(parent) { } bool LocationFilterModel::doFilter(struct dive *d, QModelIndex &index0, QAbstractItemModel *sourceModel) const { if (!anyChecked) { return true; } // Checked means 'Show', Unchecked means 'Hide'. QString location(get_dive_location(d)); // only show empty location dives if the user checked that. if (location.isEmpty()) { if (rowCount() > 0) return checkState[rowCount() - 1]; else return true; } // there is a location selected QStringList locationList = stringList(); if (!locationList.isEmpty()) { locationList.removeLast(); // remove the "Show Empty Tags"; for (int i = 0; i < rowCount(); i++) { if (checkState[i] && (location.indexOf(stringList()[i]) != -1)) { return true; } } } return false; } void LocationFilterModel::repopulate() { QStringList list; struct dive *dive; int i = 0; for_each_dive (i, dive) { QString location(get_dive_location(dive)); if (!location.isEmpty() && !list.contains(location)) { list.append(location); } } qSort(list); list << tr("No location set"); setStringList(list); delete[] checkState; checkState = new bool[list.count()]; memset(checkState, false, list.count()); checkState[list.count() - 1] = false; anyChecked = false; } MultiFilterSortModel::MultiFilterSortModel(QObject *parent) : QSortFilterProxyModel(parent), justCleared(false) { } bool MultiFilterSortModel::filterAcceptsRow(int source_row, const QModelIndex &source_parent) const { if (justCleared || models.isEmpty()) return true; bool shouldShow = true; QModelIndex index0 = sourceModel()->index(source_row, 0, source_parent); QVariant diveVariant = sourceModel()->data(index0, DiveTripModel::DIVE_ROLE); struct dive *d = (struct dive *)diveVariant.value(); if (!d) { // It's a trip, only show the ones that have dives to be shown. bool showTrip = false; for (int i = 0; i < sourceModel()->rowCount(index0); i++) { if (filterAcceptsRow(i, index0)) showTrip = true; // do not shortcircuit the loop or the counts will be wrong } return showTrip; } Q_FOREACH (MultiFilterInterface *model, models) { if (!model->doFilter(d, index0, sourceModel())) shouldShow = false; } filter_dive(d, shouldShow); return shouldShow; } void MultiFilterSortModel::myInvalidate() { int i; struct dive *d; DiveListView *dlv = MainWindow::instance()->dive_list(); divesDisplayed = 0; invalidate(); // first make sure the trips are no longer shown as selected // (but without updating the selection state of the dives... this just cleans // up an oddity in the filter handling) // TODO: This should go internally to DiveList, to be triggered after a filter is due. dlv->clearTripSelection(); // if we have no more selected dives, clean up the display - this later triggers us // to pick one of the dives that are shown in the list as selected dive which is the // natural behavior if (amount_selected == 0) { MainWindow::instance()->cleanUpEmpty(); } else { // otherwise find the dives that should still be selected (the filter above unselected any // dive that's no longer visible) and select them again QList curSelectedDives; for_each_dive (i, d) { if (d->selected) curSelectedDives.append(get_divenr(d)); } dlv->selectDives(curSelectedDives); } for_each_dive (i,d) { if (!d->hidden_by_filter) divesDisplayed++; } emit filterFinished(); } void MultiFilterSortModel::addFilterModel(MultiFilterInterface *model) { QAbstractItemModel *itemModel = dynamic_cast(model); Q_ASSERT(itemModel); models.append(model); connect(itemModel, SIGNAL(dataChanged(QModelIndex, QModelIndex)), this, SLOT(myInvalidate())); } void MultiFilterSortModel::removeFilterModel(MultiFilterInterface *model) { QAbstractItemModel *itemModel = dynamic_cast(model); Q_ASSERT(itemModel); models.removeAll(model); disconnect(itemModel, SIGNAL(dataChanged(QModelIndex, QModelIndex)), this, SLOT(myInvalidate())); } void MultiFilterSortModel::clearFilter() { justCleared = true; Q_FOREACH (MultiFilterInterface *iface, models) { iface->clearFilter(); } justCleared = false; myInvalidate(); }