/* * maintab.cpp * * classes for the "notebook" area of the main window of Subsurface * */ #include "maintab.h" #include "mainwindow.h" #include "../helpers.h" #include "../statistics.h" #include "divelistview.h" #include "modeldelegates.h" #include "globe.h" #include "completionmodels.h" #include "diveplanner.h" #include "divelist.h" #include "qthelper.h" #include #include #include #include #include #include #include #include MainTab::MainTab(QWidget *parent) : QTabWidget(parent), weightModel(new WeightModel()), cylindersModel(CylindersModel::instance()), editMode(NONE) { ui.setupUi(this); ui.cylinders->setModel(cylindersModel); ui.weights->setModel(weightModel); closeMessage(); QAction *action = new QAction(tr("Save"), this); connect(action, SIGNAL(triggered(bool)), this, SLOT(acceptChanges())); addMessageAction(action); action = new QAction(tr("Cancel"), this); connect(action, SIGNAL(triggered(bool)), this, SLOT(rejectChanges())); addMessageAction(action); if (qApp->style()->objectName() == "oxygen") setDocumentMode(true); else setDocumentMode(false); // we start out with the fields read-only; once things are // filled from a dive, they are made writeable setEnabled(false); ui.location->installEventFilter(this); ui.coordinates->installEventFilter(this); ui.divemaster->installEventFilter(this); ui.buddy->installEventFilter(this); ui.suit->installEventFilter(this); ui.notes->viewport()->installEventFilter(this); ui.rating->installEventFilter(this); ui.visibility->installEventFilter(this); ui.airtemp->installEventFilter(this); ui.watertemp->installEventFilter(this); ui.dateTimeEdit->installEventFilter(this); ui.tagWidget->installEventFilter(this); QList statisticsTabWidgets = ui.statisticsTab->children(); Q_FOREACH(QObject* obj, statisticsTabWidgets) { QLabel* label = qobject_cast(obj); if (label) label->setAlignment(Qt::AlignHCenter); } ui.cylinders->setTitle(tr("Cylinders")); ui.cylinders->setBtnToolTip(tr("Add Cylinder")); connect(ui.cylinders, SIGNAL(addButtonClicked()), this, SLOT(addCylinder_clicked())); ui.weights->setTitle(tr("Weights")); ui.weights->setBtnToolTip(tr("Add Weight System")); connect(ui.weights, SIGNAL(addButtonClicked()), this, SLOT(addWeight_clicked())); connect(ui.cylinders->view(), SIGNAL(clicked(QModelIndex)), this, SLOT(editCylinderWidget(QModelIndex))); connect(ui.weights->view(), SIGNAL(clicked(QModelIndex)), this, SLOT(editWeightWidget(QModelIndex))); ui.cylinders->view()->setItemDelegateForColumn(CylindersModel::TYPE, new TankInfoDelegate()); ui.weights->view()->setItemDelegateForColumn(WeightModel::TYPE, new WSInfoDelegate()); ui.cylinders->view()->setColumnHidden(CylindersModel::DEPTH, true); completers.buddy = new QCompleter(BuddyCompletionModel::instance(), ui.buddy); completers.divemaster = new QCompleter(DiveMasterCompletionModel::instance(), ui.divemaster); completers.location = new QCompleter(LocationCompletionModel::instance(), ui.location); completers.suit = new QCompleter(SuitCompletionModel::instance(), ui.suit); completers.tags = new QCompleter(TagCompletionModel::instance(), ui.tagWidget); completers.tags->setCaseSensitivity(Qt::CaseInsensitive); ui.buddy->setCompleter(completers.buddy); ui.divemaster->setCompleter(completers.divemaster); ui.location->setCompleter(completers.location); ui.suit->setCompleter(completers.suit); ui.tagWidget->setCompleter(completers.tags); setMinimumHeight(0); setMinimumWidth(0); // Current display of things on Gnome3 looks like shit, so // let`s fix that. if (isGnome3Session()) { QPalette p; p.setColor(QPalette::Window, QColor(Qt::white)); ui.scrollArea->viewport()->setPalette(p); ui.scrollArea_2->viewport()->setPalette(p); ui.scrollArea_3->viewport()->setPalette(p); ui.scrollArea_4->viewport()->setPalette(p); // GroupBoxes in Gnome3 looks like I'v drawn them... static const QString gnomeCss( "QGroupBox {" " background-color: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1," " stop: 0 #E0E0E0, stop: 1 #FFFFFF);" " border: 2px solid gray;" " border-radius: 5px;" " margin-top: 1ex;" "}" "QGroupBox::title {" " subcontrol-origin: margin;" " subcontrol-position: top center;" " padding: 0 3px;" " background-color: qlineargradient(x1: 0, y1: 0, x2: 0, y2: 1," " stop: 0 #E0E0E0, stop: 1 #FFFFFF);" "}"); Q_FOREACH(QGroupBox *box, findChildren()){ box->setStyleSheet(gnomeCss); } } ui.cylinders->view()->horizontalHeader()->setContextMenuPolicy(Qt::ActionsContextMenu); QSettings s; s.beginGroup("cylinders_dialog"); for(int i = 0; i < CylindersModel::COLUMNS; i++){ if ((i == CylindersModel::REMOVE) || (i == CylindersModel::TYPE)) continue; bool checked = s.value(QString("column%1_hidden").arg(i)).toBool(); QAction *action = new QAction(cylindersModel->headerData(i, Qt::Horizontal, Qt::DisplayRole).toString(), ui.cylinders->view()); action->setCheckable(true); action->setData(i); action->setChecked(!checked); connect(action, SIGNAL(triggered(bool)), this, SLOT(toggleTriggeredColumn())); ui.cylinders->view()->setColumnHidden(i, checked); ui.cylinders->view()->horizontalHeader()->addAction(action); } } MainTab::~MainTab() { QSettings s; s.beginGroup("cylinders_dialog"); for(int i = 0; i < CylindersModel::COLUMNS; i++){ if ((i == CylindersModel::REMOVE) || (i == CylindersModel::TYPE)) continue; s.setValue(QString("column%1_hidden").arg(i), ui.cylinders->view()->isColumnHidden(i)); } } void MainTab::toggleTriggeredColumn() { QAction *action = qobject_cast(sender()); int col = action->data().toInt(); QTableView *view = ui.cylinders->view(); if(action->isChecked()){ view->showColumn(col); if(view->columnWidth(col) <= 15) view->setColumnWidth(col, 80); } else view->hideColumn(col); } void MainTab::addDiveStarted() { enableEdition(); editMode = ADD; } void MainTab::addMessageAction(QAction* action) { ui.diveEquipmentMessage->addAction(action); ui.diveNotesMessage->addAction(action); ui.diveInfoMessage->addAction(action); ui.diveStatisticsMessage->addAction(action); } void MainTab::hideMessage() { ui.diveNotesMessage->animatedHide(); ui.diveEquipmentMessage->animatedHide(); ui.diveInfoMessage->animatedHide(); ui.diveStatisticsMessage->animatedHide(); } void MainTab::closeMessage() { hideMessage(); ui.diveNotesMessage->setCloseButtonVisible(false); ui.diveEquipmentMessage->setCloseButtonVisible(false); ui.diveInfoMessage->setCloseButtonVisible(false); ui.diveStatisticsMessage->setCloseButtonVisible(false); } void MainTab::displayMessage(QString str) { ui.diveNotesMessage->setText(str); ui.diveNotesMessage->animatedShow(); ui.diveEquipmentMessage->setText(str); ui.diveEquipmentMessage->animatedShow(); ui.diveInfoMessage->setText(str); ui.diveInfoMessage->animatedShow(); ui.diveStatisticsMessage->setText(str); ui.diveStatisticsMessage->animatedShow(); } void MainTab::enableEdition(EditMode newEditMode) { if (selected_dive < 0 || editMode != NONE) return; mainWindow()->dive_list()->setEnabled(false); mainWindow()->globe()->prepareForGetDiveCoordinates(); // We may be editing one or more dives here. backup everything. notesBackup.clear(); if (mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1) { // we are editing trip location and notes displayMessage(tr("This trip is being edited.")); notesBackup[NULL].notes = ui.notes->toPlainText(); notesBackup[NULL].location = ui.location->text(); editMode = TRIP; } else { if (amount_selected > 1) { displayMessage(tr("Multiple dives are being edited.")); } else { displayMessage(tr("This dive is being edited.")); } // We may be editing one or more dives here. backup everything. struct dive *mydive; for (int i = 0; i < dive_table.nr; i++) { mydive = get_dive(i); if (!mydive) continue; if (!mydive->selected) continue; notesBackup[mydive].buddy = QString(mydive->buddy); notesBackup[mydive].suit = QString(mydive->suit); notesBackup[mydive].notes = QString(mydive->notes); notesBackup[mydive].divemaster = QString(mydive->divemaster); notesBackup[mydive].location = QString(mydive->location); notesBackup[mydive].rating = mydive->rating; notesBackup[mydive].visibility = mydive->visibility; notesBackup[mydive].latitude = mydive->latitude; notesBackup[mydive].longitude = mydive->longitude; notesBackup[mydive].coordinates = ui.coordinates->text(); notesBackup[mydive].airtemp = get_temperature_string(mydive->airtemp, true); notesBackup[mydive].watertemp = get_temperature_string(mydive->watertemp, true); notesBackup[mydive].datetime = QDateTime::fromTime_t(mydive->when).toUTC().toString(); char buf[1024]; taglist_get_tagstring(mydive->tag_list, buf, 1024); notesBackup[mydive].tags = QString(buf); // maybe this is a place for memset? for (int i = 0; i < MAX_CYLINDERS; i++) { notesBackup[mydive].cylinders[i] = mydive->cylinder[i]; } for (int i = 0; i < MAX_WEIGHTSYSTEMS; i++) { notesBackup[mydive].weightsystem[i] = mydive->weightsystem[i]; } } editMode = newEditMode != NONE ? newEditMode : DIVE; } } bool MainTab::eventFilter(QObject* object, QEvent* event) { // we want to prevent the user from accidentally enabling editMode: // for the tagWidget we ignore FocusIn - that's both a click and starting the scroll wheel // this means a click by itself won't start edit mode - but typing something will if (isEnabled() && editMode == NONE && object->objectName() == "tagWidget" && event->type() == QEvent::FocusIn) return true; // for the dateTimeEdit widget we need to ignore Wheel events as well (as long as we aren't editing) if (isEnabled() && editMode == NONE && object->objectName() == "dateTimeEdit" && (event->type() == QEvent::FocusIn || event->type() == QEvent::Wheel)) return true; // MouseButtonPress in any widget (not all will ever get this), KeyPress in the dateTimeEdit, // FocusIn for the starWidgets or RequestSoftwareInputPanel for tagWidget start the editing if (isEnabled() && editMode == NONE && (event->type() == QEvent::MouseButtonPress) || (event->type() == QEvent::KeyPress && object == ui.dateTimeEdit) || (event->type() == QEvent::FocusIn && (object == ui.rating || object == ui.visibility)) || (event->type() == QEvent::RequestSoftwareInputPanel && object == ui.tagWidget)) { tabBar()->setTabIcon(currentIndex(), QIcon(":warning")); enableEdition(); } return false; // don't "eat" the event. } void MainTab::clearEquipment() { cylindersModel->clear(); weightModel->clear(); } void MainTab::clearInfo() { ui.sacText->clear(); ui.otuText->clear(); ui.oxygenHeliumText->clear(); ui.gasUsedText->clear(); ui.dateText->clear(); ui.diveTimeText->clear(); ui.surfaceIntervalText->clear(); ui.maximumDepthText->clear(); ui.averageDepthText->clear(); ui.waterTemperatureText->clear(); ui.airTemperatureText->clear(); ui.airPressureText->clear(); ui.salinityText->clear(); ui.tagWidget->clear(); } void MainTab::clearStats() { ui.depthLimits->clear(); ui.sacLimits->clear(); ui.divesAllText->clear(); ui.tempLimits->clear(); ui.totalTimeAllText->clear(); ui.timeLimits->clear(); } #define UPDATE_TEXT(d, field) \ if (!d || !d->field) \ ui.field->setText(""); \ else \ ui.field->setText(d->field) #define UPDATE_TEMP(d, field) \ if (!d || d->field.mkelvin == 0) \ ui.field->setText(""); \ else \ ui.field->setText(get_temperature_string(d->field, TRUE)) bool MainTab::isEditing() { return editMode != NONE; } void MainTab::updateDiveInfo(int dive) { // don't execute this while adding a dive if (editMode == ADD) return; if (!isEnabled() && dive != -1) setEnabled(true); if (isEnabled() && dive == -1) setEnabled(false); editMode = NONE; // This method updates ALL tabs whenever a new dive or trip is // selected. // If exactly one trip has been selected, we show the location / notes // for the trip in the Info tab, otherwise we show the info of the // selected_dive temperature_t temp; struct dive *prevd; struct dive *d = get_dive(dive); process_selected_dives(); process_all_dives(d, &prevd); UPDATE_TEXT(d, notes); UPDATE_TEXT(d, location); UPDATE_TEXT(d, suit); UPDATE_TEXT(d, divemaster); UPDATE_TEXT(d, buddy); UPDATE_TEMP(d, airtemp); UPDATE_TEMP(d, watertemp); if (d) { updateGpsCoordinates(d); ui.dateTimeEdit->setDateTime(QDateTime::fromTime_t(d->when).toUTC()); if (mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1) { setTabText(0, tr("Trip Notes")); // only use trip relevant fields ui.coordinates->setVisible(false); ui.CoordinatedLabel->setVisible(false); ui.divemaster->setVisible(false); ui.DivemasterLabel->setVisible(false); ui.buddy->setVisible(false); ui.BuddyLabel->setVisible(false); ui.suit->setVisible(false); ui.SuitLabel->setVisible(false); ui.rating->setVisible(false); ui.RatingLabel->setVisible(false); ui.visibility->setVisible(false); ui.visibilityLabel->setVisible(false); ui.tagWidget->setVisible(false); ui.TagLabel->setVisible(false); ui.airTempLabel->setVisible(false); ui.airtemp->setVisible(false); ui.waterTempLabel->setVisible(false); ui.watertemp->setVisible(false); // rename the remaining fields and fill data from selected trip dive_trip_t *currentTrip = *mainWindow()->dive_list()->selectedTrips().begin(); ui.LocationLabel->setText(tr("Trip Location")); ui.location->setText(currentTrip->location); ui.NotesLabel->setText(tr("Trip Notes")); ui.notes->setText(currentTrip->notes); } else { setTabText(0, tr("Dive Notes")); // make all the fields visible writeable ui.coordinates->setVisible(true); ui.CoordinatedLabel->setVisible(true); ui.divemaster->setVisible(true); ui.buddy->setVisible(true); ui.suit->setVisible(true); ui.SuitLabel->setVisible(true); ui.rating->setVisible(true); ui.RatingLabel->setVisible(true); ui.visibility->setVisible(true); ui.visibilityLabel->setVisible(true); ui.BuddyLabel->setVisible(true); ui.DivemasterLabel->setVisible(true); ui.TagLabel->setVisible(true); ui.tagWidget->setVisible(true); ui.airTempLabel->setVisible(true); ui.airtemp->setVisible(true); ui.waterTempLabel->setVisible(true); ui.watertemp->setVisible(true); /* and fill them from the dive */ ui.rating->setCurrentStars(d->rating); ui.visibility->setCurrentStars(d->visibility); // reset labels in case we last displayed trip notes ui.LocationLabel->setText(tr("Location")); ui.NotesLabel->setText(tr("Notes")); } ui.maximumDepthText->setText(get_depth_string(d->maxdepth, TRUE)); ui.averageDepthText->setText(get_depth_string(d->meandepth, TRUE)); ui.otuText->setText(QString("%1").arg(d->otu)); ui.waterTemperatureText->setText(get_temperature_string(d->watertemp, TRUE)); ui.airTemperatureText->setText(get_temperature_string(d->airtemp, TRUE)); volume_t gases[MAX_CYLINDERS] = {}; get_gas_used(d, gases); QString volumes = get_volume_string(gases[0], TRUE); int mean[MAX_CYLINDERS], duration[MAX_CYLINDERS]; per_cylinder_mean_depth(d, select_dc(&d->dc), mean, duration); volume_t sac; QString SACs; if (mean[0] && duration[0]) { sac.mliter = gases[0].mliter * 1000.0 / (depth_to_mbar(mean[0], d) * duration[0] / 60.0); SACs = get_volume_string(sac, TRUE).append(tr("/min")); } else { SACs = QString(tr("unknown")); } for(int i=1; i < MAX_CYLINDERS && gases[i].mliter != 0; i++) { volumes.append("\n" + get_volume_string(gases[i], TRUE)); if (duration[i]) { sac.mliter = gases[i].mliter * 1000.0 / (depth_to_mbar(mean[i], d) * duration[i] / 60); SACs.append("\n" + get_volume_string(sac, TRUE).append(tr("/min"))); } else { SACs.append("\n"); } } ui.gasUsedText->setText(volumes); ui.oxygenHeliumText->setText(get_gaslist(d)); ui.dateText->setText(get_short_dive_date_string(d->when)); ui.diveTimeText->setText(QString::number((int)((d->duration.seconds + 30) / 60))); if (prevd) ui.surfaceIntervalText->setText(get_time_string(d->when - (prevd->when + prevd->duration.seconds), 4)); else ui.surfaceIntervalText->clear(); if (mean[0]) ui.sacText->setText(SACs); else ui.sacText->clear(); if (d->surface_pressure.mbar) /* this is ALWAYS displayed in mbar */ ui.airPressureText->setText(QString("%1mbar").arg(d->surface_pressure.mbar)); else ui.airPressureText->clear(); if (d->salinity) ui.salinityText->setText(QString("%1g/l").arg(d->salinity/10.0)); else ui.salinityText->clear(); ui.depthLimits->setMaximum(get_depth_string(stats_selection.max_depth, TRUE)); ui.depthLimits->setMinimum(get_depth_string(stats_selection.min_depth, TRUE)); ui.depthLimits->setAverage(get_depth_string(stats_selection.avg_depth, TRUE)); ui.sacLimits->setMaximum(get_volume_string(stats_selection.max_sac, TRUE).append(tr("/min"))); ui.sacLimits->setMinimum(get_volume_string(stats_selection.min_sac, TRUE).append(tr("/min"))); ui.sacLimits->setAverage(get_volume_string(stats_selection.avg_sac, TRUE).append(tr("/min"))); ui.divesAllText->setText(QString::number(stats_selection.selection_size)); temp.mkelvin = stats_selection.max_temp; ui.tempLimits->setMaximum(get_temperature_string(temp, TRUE)); temp.mkelvin = stats_selection.min_temp; ui.tempLimits->setMinimum(get_temperature_string(temp, TRUE)); if (stats_selection.combined_temp && stats_selection.combined_count) { const char *unit; get_temp_units(0, &unit); ui.tempLimits->setAverage(QString("%1%2").arg(stats_selection.combined_temp / stats_selection.combined_count, 0, 'f', 1).arg(unit)); } ui.totalTimeAllText->setText(get_time_string(stats_selection.total_time.seconds, 0)); int seconds = stats_selection.total_time.seconds; if (stats_selection.selection_size) seconds /= stats_selection.selection_size; ui.timeLimits->setAverage(get_time_string(seconds, 0)); ui.timeLimits->setMaximum(get_time_string(stats_selection.longest_time.seconds, 0)); ui.timeLimits->setMinimum(get_time_string(stats_selection.shortest_time.seconds, 0)); char buf[1024]; taglist_get_tagstring(d->tag_list, buf, 1024); ui.tagWidget->setText(QString(buf)); multiEditEquipmentPlaceholder = *d; cylindersModel->setDive(&multiEditEquipmentPlaceholder); weightModel->setDive(&multiEditEquipmentPlaceholder); } else { /* clear the fields */ clearInfo(); clearStats(); clearEquipment(); ui.rating->setCurrentStars(0); ui.coordinates->clear(); ui.visibility->setCurrentStars(0); /* turns out this is non-trivial for a dateTimeEdit... this is a partial hack */ QLineEdit *le = ui.dateTimeEdit->findChild(); le->setText(""); } } void MainTab::addCylinder_clicked() { if(editMode == NONE) enableEdition(); cylindersModel->add(); } void MainTab::addWeight_clicked() { if(editMode == NONE) enableEdition(); weightModel->add(); } void MainTab::reload() { SuitCompletionModel::instance()->updateModel(); BuddyCompletionModel::instance()->updateModel(); LocationCompletionModel::instance()->updateModel(); DiveMasterCompletionModel::instance()->updateModel(); TagCompletionModel::instance()->updateModel(); } void MainTab::acceptChanges() { mainWindow()->dive_list()->setEnabled(true); tabBar()->setTabIcon(0, QIcon()); // Notes tabBar()->setTabIcon(1, QIcon()); // Equipment hideMessage(); /* now figure out if things have changed */ if (mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1) { if (notesBackup[NULL].notes != ui.notes->toPlainText() || notesBackup[NULL].location != ui.location->text()) mark_divelist_changed(TRUE); } else { struct dive *curr = current_dive; //Reset coordinates field, in case it contains garbage. updateGpsCoordinates(curr); if (notesBackup[curr].buddy != ui.buddy->text() || notesBackup[curr].suit != ui.suit->text() || notesBackup[curr].notes != ui.notes->toPlainText() || notesBackup[curr].divemaster != ui.divemaster->text() || notesBackup[curr].location != ui.location->text() || notesBackup[curr].coordinates != ui.coordinates->text() || notesBackup[curr].rating != ui.visibility->currentStars() || notesBackup[curr].airtemp != ui.airtemp->text() || notesBackup[curr].watertemp != ui.watertemp->text() || notesBackup[curr].datetime != ui.dateTimeEdit->dateTime().toString() || notesBackup[curr].visibility != ui.rating->currentStars() || notesBackup[curr].tags != ui.tagWidget->text()) { mark_divelist_changed(TRUE); } if (notesBackup[curr].location != ui.location->text() || notesBackup[curr].coordinates != ui.coordinates->text()) { mainWindow()->globe()->reload(); } if (notesBackup[curr].tags != ui.tagWidget->text()) saveTags(); if (editMode == MANUALLY_ADDED_DIVE) { DivePlannerPointsModel::instance()->copyCylinders(curr); } else if (editMode != ADD && cylindersModel->changed) { mark_divelist_changed(TRUE); Q_FOREACH (dive *d, notesBackup.keys()) { for (int i = 0; i < MAX_CYLINDERS; i++) { d->cylinder[i] = multiEditEquipmentPlaceholder.cylinder[i]; } } } if (weightModel->changed) { mark_divelist_changed(TRUE); Q_FOREACH (dive *d, notesBackup.keys()) { for (int i = 0; i < MAX_WEIGHTSYSTEMS; i++) { d->weightsystem[i] = multiEditEquipmentPlaceholder.weightsystem[i]; } } } } if (current_dive->divetrip) { current_dive->divetrip->when = current_dive->when; find_new_trip_start_time(current_dive->divetrip); } if (editMode == ADD || editMode == MANUALLY_ADDED_DIVE) { // clean up the dive data (get duration, depth information from samples) fixup_dive(current_dive); if (dive_table.nr == 1) current_dive->number = 1; else if (selected_dive == dive_table.nr - 1 && get_dive(dive_table.nr - 2)->number) current_dive->number = get_dive(dive_table.nr - 2)->number + 1; DivePlannerPointsModel::instance()->cancelPlan(); mainWindow()->showProfile(); mark_divelist_changed(TRUE); DivePlannerPointsModel::instance()->setPlanMode(DivePlannerPointsModel::NOTHING); } // each dive that was selected might have had the temperatures in its active divecomputer changed // so re-populate the temperatures - easiest way to do this is by calling fixup_dive Q_FOREACH(dive *d, notesBackup.keys()) { if (d) fixup_dive(d); } int scrolledBy = mainWindow()->dive_list()->verticalScrollBar()->sliderPosition(); resetPallete(); if(editMode == ADD || editMode == MANUALLY_ADDED_DIVE){ mainWindow()->dive_list()->unselectDives(); struct dive *d = get_dive(dive_table.nr -1 ); // mark the dive as remembered (abusing the selected flag) // and then clear that flag out on the other side of the sort_table() d->selected = true; sort_table(&dive_table); int i = 0; for_each_dive(i,d){ if (d->selected) { d->selected = false; break; } } editMode = NONE; mainWindow()->refreshDisplay(); mainWindow()->dive_list()->selectDive( i, true ); } else { editMode = NONE; mainWindow()->dive_list()->rememberSelection(); sort_table(&dive_table); mainWindow()->refreshDisplay(); mainWindow()->dive_list()->restoreSelection(); } mainWindow()->dive_list()->verticalScrollBar()->setSliderPosition(scrolledBy); } void MainTab::resetPallete() { QPalette p; ui.buddy->setPalette(p); ui.notes->setPalette(p); ui.location->setPalette(p); ui.coordinates->setPalette(p); ui.divemaster->setPalette(p); ui.suit->setPalette(p); ui.airtemp->setPalette(p); ui.watertemp->setPalette(p); ui.dateTimeEdit->setPalette(p); ui.tagWidget->setPalette(p); } #define EDIT_TEXT2(what, text) \ textByteArray = text.toLocal8Bit(); \ free(what);\ what = strdup(textByteArray.data()); #define EDIT_TEXT(what, text) \ QByteArray textByteArray = text.toLocal8Bit(); \ free(what);\ what = strdup(textByteArray.data()); void MainTab::rejectChanges() { EditMode lastMode = editMode; tabBar()->setTabIcon(0, QIcon()); // Notes tabBar()->setTabIcon(1, QIcon()); // Equipment mainWindow()->dive_list()->setEnabled(true); if (mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1){ ui.notes->setText(notesBackup[NULL].notes ); ui.location->setText(notesBackup[NULL].location); } else { if (lastMode == ADD) { // clean up DivePlannerPointsModel::instance()->cancelPlan(); } else if (lastMode == MANUALLY_ADDED_DIVE ) { // when we tried to edit a manually added dive, we destroyed // the dive we edited, so let's just restore it from backup DivePlannerPointsModel::instance()->restoreBackupDive(); } struct dive *curr = current_dive; ui.notes->setText(notesBackup[curr].notes ); ui.location->setText(notesBackup[curr].location); ui.buddy->setText(notesBackup[curr].buddy); ui.suit->setText(notesBackup[curr].suit); ui.divemaster->setText(notesBackup[curr].divemaster); ui.rating->setCurrentStars(notesBackup[curr].rating); ui.visibility->setCurrentStars(notesBackup[curr].visibility); ui.airtemp->setText(notesBackup[curr].airtemp); ui.watertemp->setText(notesBackup[curr].watertemp); ui.tagWidget->setText(notesBackup[curr].tags); // it's a little harder to do the right thing for the date time widget if (curr) { ui.dateTimeEdit->setDateTime(QDateTime::fromString(notesBackup[curr].datetime)); } else { QLineEdit *le = ui.dateTimeEdit->findChild(); le->setText(""); } struct dive *mydive; for (int i = 0; i < dive_table.nr; i++) { mydive = get_dive(i); if (!mydive) continue; if (!mydive->selected) continue; QByteArray textByteArray; EDIT_TEXT2(mydive->buddy, notesBackup[mydive].buddy); EDIT_TEXT2(mydive->suit, notesBackup[mydive].suit); EDIT_TEXT2(mydive->notes, notesBackup[mydive].notes); EDIT_TEXT2(mydive->divemaster, notesBackup[mydive].divemaster); EDIT_TEXT2(mydive->location, notesBackup[mydive].location); mydive->latitude = notesBackup[mydive].latitude; mydive->longitude = notesBackup[mydive].longitude; mydive->rating = notesBackup[mydive].rating; mydive->visibility = notesBackup[mydive].visibility; // maybe this is a place for memset? for (int i = 0; i < MAX_CYLINDERS; i++) { mydive->cylinder[i] = notesBackup[mydive].cylinders[i]; } for (int i = 0; i < MAX_WEIGHTSYSTEMS; i++) { mydive->weightsystem[i] = notesBackup[mydive].weightsystem[i]; } } updateGpsCoordinates(curr); if (lastMode == ADD) { delete_single_dive(selected_dive); mainWindow()->dive_list()->reload(DiveTripModel::CURRENT); mainWindow()->dive_list()->restoreSelection(); } if (selected_dive >= 0) { multiEditEquipmentPlaceholder = *get_dive(selected_dive); cylindersModel->setDive(&multiEditEquipmentPlaceholder); weightModel->setDive(&multiEditEquipmentPlaceholder); } else { cylindersModel->clear(); weightModel->clear(); setEnabled(false); } } hideMessage(); mainWindow()->dive_list()->setEnabled(true); notesBackup.clear(); resetPallete(); editMode = NONE; mainWindow()->globe()->reload(); if (lastMode == ADD || lastMode == MANUALLY_ADDED_DIVE) { // more clean up updateDiveInfo(selected_dive); mainWindow()->showProfile(); // we already reloaded the divelist above, so don't recreate it or we'll lose the selection mainWindow()->refreshDisplay(false); DivePlannerPointsModel::instance()->setPlanMode(DivePlannerPointsModel::NOTHING); } } #undef EDIT_TEXT2 #define EDIT_SELECTED_DIVES( WHAT ) do { \ if (editMode == NONE) \ return; \ \ for (int i = 0; i < dive_table.nr; i++) { \ struct dive *mydive = get_dive(i); \ if (!mydive) \ continue; \ if (!mydive->selected) \ continue; \ \ WHAT; \ } \ } while(0) void markChangedWidget(QWidget *w){ QPalette p; p.setBrush(QPalette::Base, QColor(Qt::yellow).lighter()); w->setPalette(p); } void MainTab::on_buddy_textChanged(const QString& text) { EDIT_SELECTED_DIVES( EDIT_TEXT(mydive->buddy, text) ); markChangedWidget(ui.buddy); } void MainTab::on_divemaster_textChanged(const QString& text) { EDIT_SELECTED_DIVES( EDIT_TEXT(mydive->divemaster, text) ); markChangedWidget(ui.divemaster); } void MainTab::on_airtemp_textChanged(const QString& text) { EDIT_SELECTED_DIVES( select_dc(&mydive->dc)->airtemp.mkelvin = parseTemperatureToMkelvin(text) ); markChangedWidget(ui.airtemp); } void MainTab::on_watertemp_textChanged(const QString& text) { EDIT_SELECTED_DIVES( select_dc(&mydive->dc)->watertemp.mkelvin = parseTemperatureToMkelvin(text) ); markChangedWidget(ui.watertemp); } void MainTab::on_dateTimeEdit_dateTimeChanged(const QDateTime& datetime) { QDateTime dateTimeUtc(datetime); dateTimeUtc.setTimeSpec(Qt::UTC); EDIT_SELECTED_DIVES( mydive->when = dateTimeUtc.toTime_t() ); markChangedWidget(ui.dateTimeEdit); } void MainTab::saveTags() { EDIT_SELECTED_DIVES( QString tag; taglist_clear(mydive->tag_list); foreach (tag, ui.tagWidget->getBlockStringList()) taglist_add_tag(mydive->tag_list, tag.toAscii().data()); ); } void MainTab::on_tagWidget_textChanged() { markChangedWidget(ui.tagWidget); } void MainTab::on_location_textChanged(const QString& text) { if (editMode == NONE) return; if (editMode == TRIP && mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1) { // we are editing a trip dive_trip_t *currentTrip = *mainWindow()->dive_list()->selectedTrips().begin(); EDIT_TEXT(currentTrip->location, text); } else if (editMode == DIVE || editMode == ADD){ if (!ui.coordinates->isModified() || ui.coordinates->text().trimmed().isEmpty()) { struct dive* dive; int i = 0; for_each_dive(i, dive){ QString location(dive->location); if (location == text && (dive->latitude.udeg || dive->longitude.udeg)) { EDIT_SELECTED_DIVES( mydive->latitude = dive->latitude ); EDIT_SELECTED_DIVES( mydive->longitude = dive->longitude ); //Don't use updateGpsCoordinates() since we don't want to set modified state yet ui.coordinates->setText(printGPSCoords(dive->latitude.udeg, dive->longitude.udeg)); markChangedWidget(ui.coordinates); break; } } } EDIT_SELECTED_DIVES( EDIT_TEXT(mydive->location, text) ); mainWindow()->globe()->repopulateLabels(); } markChangedWidget(ui.location); } void MainTab::on_suit_textChanged(const QString& text) { EDIT_SELECTED_DIVES( EDIT_TEXT(mydive->suit, text) ); markChangedWidget(ui.suit); } void MainTab::on_notes_textChanged() { if (editMode == NONE) return; if (editMode == TRIP && mainWindow() && mainWindow()->dive_list()->selectedTrips().count() == 1) { // we are editing a trip dive_trip_t *currentTrip = *mainWindow()->dive_list()->selectedTrips().begin(); EDIT_TEXT(currentTrip->notes, ui.notes->toPlainText()); } else if (editMode == DIVE || editMode == ADD) { EDIT_SELECTED_DIVES( EDIT_TEXT(mydive->notes, ui.notes->toPlainText()) ); } markChangedWidget(ui.notes); } #undef EDIT_TEXT void MainTab::on_coordinates_textChanged(const QString& text) { bool gpsChanged = FALSE; EDIT_SELECTED_DIVES(gpsChanged |= gpsHasChanged(mydive, NULL, text)); if (gpsChanged) { markChangedWidget(ui.coordinates); } else { QPalette p; p.setBrush(QPalette::Base, QColor(Qt::red).lighter()); ui.coordinates->setPalette(p); } } void MainTab::on_rating_valueChanged(int value) { EDIT_SELECTED_DIVES(mydive->rating = value ); } void MainTab::on_visibility_valueChanged(int value) { EDIT_SELECTED_DIVES( mydive->visibility = value ); } void MainTab::editCylinderWidget(const QModelIndex& index) { if (editMode == NONE) enableEdition(); if (index.isValid() && index.column() != CylindersModel::REMOVE) ui.cylinders->edit(index); } void MainTab::editWeightWidget(const QModelIndex& index) { if (editMode == NONE) enableEdition(); if (index.isValid() && index.column() != WeightModel::REMOVE) ui.weights->edit(index); } QString MainTab::printGPSCoords(int lat, int lon) { unsigned int latdeg, londeg; unsigned int ilatmin, ilonmin; QString lath, lonh, result; if (!lat && !lon) return QString(""); lath = lat >= 0 ? tr("N") : tr("S"); lonh = lon >= 0 ? tr("E") : tr("W"); lat = abs(lat); lon = abs(lon); latdeg = lat / 1000000; londeg = lon / 1000000; ilatmin = (lat % 1000000) * 60; ilonmin = (lon % 1000000) * 60; result.sprintf("%s%u%s %2d.%05d\' , %s%u%s %2d.%05d\'", lath.toLocal8Bit().data(), latdeg, UTF8_DEGREE, ilatmin / 1000000, (ilatmin % 1000000) / 10, lonh.toLocal8Bit().data(), londeg, UTF8_DEGREE, ilonmin / 1000000, (ilonmin % 1000000) / 10); return result; } void MainTab::updateCoordinatesText(qreal lat, qreal lon) { int ulat = rint(lat * 1000000); int ulon = rint(lon * 1000000); ui.coordinates->setText(printGPSCoords(ulat, ulon)); } void MainTab::updateGpsCoordinates(const struct dive *dive) { if (dive) { ui.coordinates->setText(printGPSCoords(dive->latitude.udeg, dive->longitude.udeg)); ui.coordinates->setModified(dive->latitude.udeg || dive->longitude.udeg); } else { ui.coordinates->clear(); } }