subsurface/profile-widget/profilewidget2.cpp
Berthold Stoeger e237f29fb2 core: fold event-related functions into event class
Not strictly necessary, but more idiomatic C++ and less
polution of the global namespace. This one is so trivial
that there seems to be no reason not to do it.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2024-08-13 19:28:30 +02:00

1404 lines
49 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "profile-widget/profilewidget2.h"
#include "profile-widget/profilescene.h"
#include "core/device.h"
#include "core/event.h"
#include "core/eventtype.h"
#include "core/subsurface-string.h"
#include "core/qthelper.h"
#include "core/range.h"
#include "core/settings/qPrefTechnicalDetails.h"
#include "core/settings/qPrefPartialPressureGas.h"
#include "profile-widget/diveeventitem.h"
#include "profile-widget/divetextitem.h"
#include "profile-widget/divetooltipitem.h"
#include "profile-widget/divehandler.h"
#include "core/planner.h"
#include "profile-widget/ruleritem.h"
#include "core/pref.h"
#include "qt-models/diveplannermodel.h"
#include "qt-models/models.h"
#include "core/errorhelper.h"
#ifndef SUBSURFACE_MOBILE
#include "desktop-widgets/simplewidgets.h"
#include "commands/command.h"
#include "core/gettextfromc.h"
#include "core/imagedownloader.h"
#endif
#include <QMessageBox>
#include <QInputDialog>
#include <QWheelEvent>
#include <QMenu>
#include <QMimeData>
#include <QElapsedTimer>
#ifndef QT_NO_DEBUG
#include <QTableView>
#endif
// Constant describing at which z-level the thumbnails are located.
// We might add more constants here for easier customability.
static const double thumbnailBaseZValue = 100.0;
static double calcZoom(int zoomLevel)
{
// Base of exponential zoom function: one wheel-click will increase the zoom by 15%.
constexpr double zoomFactor = 1.15;
return zoomLevel == 0 ? 1.0 : pow(zoomFactor, zoomLevel);
}
ProfileWidget2::ProfileWidget2(DivePlannerPointsModel *plannerModelIn, double dpr, QWidget *parent) : QGraphicsView(parent),
profileScene(new ProfileScene(dpr, false, false)),
currentState(INIT),
plannerModel(plannerModelIn),
zoomLevel(0),
zoomedPosition(0.0),
#ifndef SUBSURFACE_MOBILE
toolTipItem(new ToolTipItem()),
#endif
d(nullptr),
dc(0),
empty(true),
panning(false),
#ifndef SUBSURFACE_MOBILE
mouseFollowerVertical(new DiveLineItem()),
mouseFollowerHorizontal(new DiveLineItem()),
rulerItem(new RulerItem2()),
#endif
shouldCalculateMax(true)
{
setupSceneAndFlags();
setupItemOnScene();
addItemsToScene();
scene()->installEventFilter(this);
#ifndef SUBSURFACE_MOBILE
setAcceptDrops(true);
connect(Thumbnailer::instance(), &Thumbnailer::thumbnailChanged, this, &ProfileWidget2::updateThumbnail, Qt::QueuedConnection);
connect(&diveListNotifier, &DiveListNotifier::picturesRemoved, this, &ProfileWidget2::picturesRemoved);
connect(&diveListNotifier, &DiveListNotifier::picturesAdded, this, &ProfileWidget2::picturesAdded);
connect(&diveListNotifier, &DiveListNotifier::cylinderEdited, this, &ProfileWidget2::profileChanged);
connect(&diveListNotifier, &DiveListNotifier::eventsChanged, this, &ProfileWidget2::profileChanged);
connect(&diveListNotifier, &DiveListNotifier::pictureOffsetChanged, this, &ProfileWidget2::pictureOffsetChanged);
connect(&diveListNotifier, &DiveListNotifier::divesChanged, this, &ProfileWidget2::divesChanged);
connect(&diveListNotifier, &DiveListNotifier::deviceEdited, this, &ProfileWidget2::replot);
connect(&diveListNotifier, &DiveListNotifier::diveComputerEdited, this, &ProfileWidget2::replot);
#endif // SUBSURFACE_MOBILE
#if !defined(QT_NO_DEBUG) && defined(SHOW_PLOT_INFO_TABLE)
QTableView *diveDepthTableView = new QTableView();
diveDepthTableView->setModel(profileScene->dataModel);
diveDepthTableView->show();
#endif
auto tec = qPrefTechnicalDetails::instance();
connect(tec, &qPrefTechnicalDetails::calcalltissuesChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::calcceilingChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::gflowChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::gfhighChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::dcceilingChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::eadChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::calcceiling3mChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::modChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::calcndlttsChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::hrgraphChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::rulergraphChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::show_sacChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::zoomed_plotChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::decoinfoChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::show_pictures_in_profileChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::tankbarChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::percentagegraphChanged , this, &ProfileWidget2::actionRequestedReplot);
connect(tec, &qPrefTechnicalDetails::infoboxChanged , this, &ProfileWidget2::actionRequestedReplot);
auto pp_gas = qPrefPartialPressureGas::instance();
connect(pp_gas, &qPrefPartialPressureGas::pheChanged, this, &ProfileWidget2::actionRequestedReplot);
connect(pp_gas, &qPrefPartialPressureGas::pn2Changed, this, &ProfileWidget2::actionRequestedReplot);
connect(pp_gas, &qPrefPartialPressureGas::po2Changed, this, &ProfileWidget2::actionRequestedReplot);
setProfileState();
}
ProfileWidget2::~ProfileWidget2()
{
}
#ifndef SUBSURFACE_MOBILE
void ProfileWidget2::keyPressEvent(QKeyEvent *e)
{
switch (e->key()) {
case Qt::Key_Delete: return keyDeleteAction();
case Qt::Key_Up: return keyUpAction();
case Qt::Key_Down: return keyDownAction();
case Qt::Key_Left: return keyLeftAction();
case Qt::Key_Right: return keyRightAction();
}
QGraphicsView::keyPressEvent(e);
}
#endif // SUBSURFACE_MOBILE
void ProfileWidget2::addItemsToScene()
{
#ifndef SUBSURFACE_MOBILE
scene()->addItem(toolTipItem);
scene()->addItem(rulerItem);
scene()->addItem(rulerItem->sourceNode());
scene()->addItem(rulerItem->destNode());
scene()->addItem(mouseFollowerHorizontal);
scene()->addItem(mouseFollowerVertical);
QPen pen(QColor(Qt::red).lighter());
pen.setWidth(0);
mouseFollowerHorizontal->setPen(pen);
mouseFollowerVertical->setPen(pen);
#endif
}
void ProfileWidget2::setupItemOnScene()
{
#ifndef SUBSURFACE_MOBILE
toolTipItem->setZValue(9998);
toolTipItem->setTimeAxis(profileScene->timeAxis);
rulerItem->setZValue(9997);
rulerItem->setAxis(profileScene->timeAxis, profileScene->profileYAxis);
mouseFollowerHorizontal->setZValue(9996);
mouseFollowerVertical->setZValue(9995);
#endif
}
void ProfileWidget2::replot()
{
plotDive(d, dc);
}
void ProfileWidget2::setupSceneAndFlags()
{
setScene(profileScene.get());
setHorizontalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setVerticalScrollBarPolicy(Qt::ScrollBarAlwaysOff);
setOptimizationFlags(QGraphicsView::DontSavePainterState);
setViewportUpdateMode(QGraphicsView::BoundingRectViewportUpdate);
setRenderHints(QPainter::Antialiasing | QPainter::TextAntialiasing | QPainter::SmoothPixmapTransform);
setMouseTracking(true);
}
void ProfileWidget2::resetZoom()
{
zoomLevel = 0;
zoomedPosition = 0.0;
}
// Currently just one dive, but the plan is to enable All of the selected dives.
void ProfileWidget2::plotDive(const struct dive *dIn, int dcIn, int flags)
{
d = dIn;
dc = dcIn;
if (!d) {
clear();
return;
}
// If there was no previously displayed dive, turn off animations
if (empty)
flags |= RenderFlags::Instant;
empty = false;
QElapsedTimer measureDuration; // let's measure how long this takes us (maybe we'll turn of TTL calculation later
measureDuration.start();
DivePlannerPointsModel *model = currentState == EDIT || currentState == PLAN ? plannerModel : nullptr;
bool inPlanner = currentState == PLAN;
double zoom = calcZoom(zoomLevel);
profileScene->plotDive(d, dc, model, inPlanner, flags & RenderFlags::Instant,
flags & RenderFlags::DontRecalculatePlotInfo,
shouldCalculateMax, zoom, zoomedPosition);
#ifndef SUBSURFACE_MOBILE
toolTipItem->setVisible(prefs.infobox);
toolTipItem->setPlotInfo(profileScene->plotInfo);
rulerItem->setVisible(prefs.rulergraph && currentState != PLAN && currentState != EDIT);
rulerItem->setPlotInfo(d, profileScene->plotInfo);
if ((currentState == EDIT || currentState == PLAN) && plannerModel) {
repositionDiveHandlers();
plannerModel->deleteTemporaryPlan();
}
// On zoom / pan don't recreate the picture thumbnails, only change their position.
if (flags & RenderFlags::DontRecalculatePlotInfo)
updateThumbnails();
else
plotPicturesInternal(d, flags & RenderFlags::Instant);
toolTipItem->refresh(d, mapToScene(mapFromGlobal(QCursor::pos())), currentState == PLAN);
#endif
// OK, how long did this take us? Anything above the second is way too long,
// so if we are calculation TTS / NDL then let's force that off.
qint64 elapsedTime = measureDuration.elapsed();
if (verbose)
report_info("Profile calculation for dive %d took %lld ms -- calculated ceiling preference is %d", d->number, elapsedTime, prefs.calcceiling);
if (elapsedTime > 1000 && prefs.calcndltts) {
qPrefTechnicalDetails::set_calcndltts(false);
report_error("%s", qPrintable(tr("Show NDL / TTS was disabled because of excessive processing time")));
}
}
void ProfileWidget2::divesChanged(const QVector<dive *> &dives, DiveField field)
{
// If the mode of the currently displayed dive changed, replot
if (field.mode &&
std::find(dives.begin(), dives.end(), d) != dives.end())
replot();
}
void ProfileWidget2::actionRequestedReplot(bool)
{
settingsChanged();
}
void ProfileWidget2::settingsChanged()
{
replot();
}
void ProfileWidget2::resizeEvent(QResizeEvent *event)
{
QGraphicsView::resizeEvent(event);
profileScene->resize(viewport()->size());
plotDive(d, dc, RenderFlags::Instant | RenderFlags::DontRecalculatePlotInfo); // disable animation on resize events
}
#ifndef SUBSURFACE_MOBILE
void ProfileWidget2::mousePressEvent(QMouseEvent *event)
{
QGraphicsView::mousePressEvent(event);
if (!event->isAccepted()) {
panning = true;
panningOriginalMousePosition = mapToScene(event->pos()).x();
panningOriginalProfilePosition = zoomedPosition;
viewport()->setCursor(Qt::ClosedHandCursor);
}
}
void ProfileWidget2::divePlannerHandlerClicked()
{
shouldCalculateMax = false;
}
void ProfileWidget2::divePlannerHandlerReleased()
{
if (currentState == EDIT)
emit stopMoved(1);
shouldCalculateMax = true;
replot();
}
void ProfileWidget2::mouseReleaseEvent(QMouseEvent *event)
{
QGraphicsView::mouseReleaseEvent(event);
if (panning) {
panning = false;
viewport()->setCursor(Qt::ArrowCursor);
}
if (currentState == PLAN || currentState == EDIT) {
shouldCalculateMax = true;
replot();
}
}
#endif
void ProfileWidget2::setZoom(int level)
{
zoomLevel = level;
plotDive(d, dc, RenderFlags::DontRecalculatePlotInfo);
}
#ifndef SUBSURFACE_MOBILE
void ProfileWidget2::wheelEvent(QWheelEvent *event)
{
if (!d)
return;
if (event->angleDelta().x() && zoomLevel > 0) {
double oldPos = zoomedPosition;
zoomedPosition = profileScene->calcZoomPosition(calcZoom(zoomLevel),
oldPos,
oldPos - event->angleDelta().x());
if (oldPos != zoomedPosition)
plotDive(d, dc, RenderFlags::Instant | RenderFlags::DontRecalculatePlotInfo);
}
if (panning)
return; // No change in zoom level while panning.
if (event->buttons() == Qt::LeftButton)
return;
if (event->angleDelta().y() > 0 && zoomLevel < 20)
setZoom(++zoomLevel);
else if (event->angleDelta().y() < 0 && zoomLevel > 0)
setZoom(--zoomLevel);
}
void ProfileWidget2::mouseDoubleClickEvent(QMouseEvent *event)
{
if ((currentState == PLAN || currentState == EDIT) && plannerModel) {
QPointF mappedPos = mapToScene(event->pos());
if (!profileScene->pointOnProfile(mappedPos))
return;
int minutes = lrint(profileScene->timeAxis->valueAt(mappedPos) / 60);
int milimeters = lrint(profileScene->profileYAxis->valueAt(mappedPos) / M_OR_FT(1, 1)) * M_OR_FT(1, 1);
plannerModel->addStop(milimeters, minutes * 60);
if (currentState == EDIT)
emit stopAdded();
}
}
void ProfileWidget2::mouseMoveEvent(QMouseEvent *event)
{
QGraphicsView::mouseMoveEvent(event);
QPointF pos = mapToScene(event->pos());
if (panning) {
double oldPos = zoomedPosition;
zoomedPosition = profileScene->calcZoomPosition(calcZoom(zoomLevel),
panningOriginalProfilePosition,
panningOriginalMousePosition - pos.x());
if (oldPos != zoomedPosition)
plotDive(d, dc, RenderFlags::Instant | RenderFlags::DontRecalculatePlotInfo); // TODO: animations don't work when scrolling
}
toolTipItem->refresh(d, mapToScene(mapFromGlobal(QCursor::pos())), currentState == PLAN);
if (currentState == PLAN || currentState == EDIT) {
QRectF rect = profileScene->profileRegion;
auto [miny, maxy] = profileScene->profileYAxis->screenMinMax();
double x = std::clamp(pos.x(), rect.left(), rect.right());
double y = std::clamp(pos.y(), miny, maxy);
mouseFollowerHorizontal->setLine(rect.left(), y, rect.right(), y);
mouseFollowerVertical->setLine(x, rect.top(), x, rect.bottom());
}
}
bool ProfileWidget2::eventFilter(QObject *object, QEvent *event)
{
QGraphicsScene *s = qobject_cast<QGraphicsScene *>(object);
if (s && event->type() == QEvent::GraphicsSceneHelp) {
event->ignore();
return true;
}
return QGraphicsView::eventFilter(object, event);
}
#endif
template <typename T>
static void hideAll(const T &container)
{
for (auto &item: container)
item->setVisible(false);
}
void ProfileWidget2::clear()
{
currentState = INIT;
#ifndef SUBSURFACE_MOBILE
clearPictures();
#endif
disconnectPlannerModel();
profileScene->clear();
handles.clear();
gases.clear();
empty = true;
d = nullptr;
dc = 0;
}
void ProfileWidget2::setProfileState(const dive *dIn, int dcIn)
{
d = dIn;
dc = dcIn;
setProfileState();
}
void ProfileWidget2::setProfileState()
{
if (currentState == PROFILE)
return;
disconnectPlannerModel();
currentState = PROFILE;
setBackgroundBrush(getColor(::BACKGROUND, profileScene->isGrayscale));
#ifndef SUBSURFACE_MOBILE
toolTipItem->readPos();
toolTipItem->setVisible(prefs.infobox);
rulerItem->setVisible(prefs.rulergraph);
mouseFollowerHorizontal->setVisible(false);
mouseFollowerVertical->setVisible(false);
#endif
handles.clear();
gases.clear();
}
#ifndef SUBSURFACE_MOBILE
void ProfileWidget2::setEditState(const dive *d, int dc)
{
if (currentState == EDIT)
return;
setProfileState(d, dc);
mouseFollowerHorizontal->setVisible(true);
mouseFollowerVertical->setVisible(true);
connectPlannerModel();
currentState = EDIT;
pointsReset();
repositionDiveHandlers();
}
void ProfileWidget2::setPlanState(const dive *d, int dc)
{
if (currentState == PLAN)
return;
setProfileState(d, dc);
mouseFollowerHorizontal->setVisible(true);
mouseFollowerVertical->setVisible(true);
connectPlannerModel();
currentState = PLAN;
setBackgroundBrush(QColor("#D7E3EF"));
pointsReset();
repositionDiveHandlers();
}
#endif
bool ProfileWidget2::isPlanner() const
{
return currentState == PLAN;
}
#if 0 // TODO::: FINISH OR DISABLE
struct int ProfileWidget2::getEntryFromPos(QPointF pos)
{
// find the time stamp corresponding to the mouse position
int seconds = lrint(timeAxis->valueAt(pos));
for (int i = 0; i < plotInfo.nr; i++) {
if (plotInfo.entry[i].sec >= seconds)
return i;
}
return plotInfo.nr - 1;
}
#endif
#ifndef SUBSURFACE_MOBILE
/// Prints cylinder information for display.
/// eg : "Cyl 1 (AL80 EAN32)"
static QString printCylinderDescription(int i, const cylinder_t *cylinder)
{
QString label = gettextFromC::tr("Cyl") + QString(" %1").arg(i+1);
if( cylinder != NULL ) {
QString mix = get_gas_string(cylinder->gasmix);
label += QString(" (%2 %3)").arg(cylinder->type.description).arg(mix);
}
return label;
}
static bool isDiveTextItem(const QGraphicsItem *item, const DiveTextItem *textItem)
{
while (item) {
if (item == textItem)
return true;
item = item->parentItem();
}
return false;
}
void ProfileWidget2::contextMenuEvent(QContextMenuEvent *event)
{
if (currentState == EDIT || currentState == PLAN) {
QGraphicsView::contextMenuEvent(event);
return;
}
QMenu m;
if (!d)
return;
// figure out if we are ontop of the dive computer name in the profile
QGraphicsItem *sceneItem = itemAt(mapFromGlobal(event->globalPos()));
if (isDiveTextItem(sceneItem, profileScene->diveComputerText)) {
const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
if (!currentdc->deviceid && dc == 0 && number_of_computers(d) == 1)
// nothing to do, can't rename, delete or reorder
return;
// create menu to show when right clicking on dive computer name
if (dc > 0)
m.addAction(tr("Make first dive computer"), this, &ProfileWidget2::makeFirstDC);
if (number_of_computers(d) > 1) {
m.addAction(tr("Delete this dive computer"), this, &ProfileWidget2::deleteCurrentDC);
m.addAction(tr("Split this dive computer into own dive"), this, &ProfileWidget2::splitCurrentDC);
}
if (currentdc->deviceid)
m.addAction(tr("Rename this dive computer"), this, &ProfileWidget2::renameCurrentDC);
m.exec(event->globalPos());
// don't show the regular profile context menu
return;
}
// create the profile context menu
QPointF scenePos = mapToScene(mapFromGlobal(event->globalPos()));
qreal sec_val = profileScene->timeAxis->valueAt(scenePos);
int seconds = (sec_val < 0.0) ? 0 : (int)sec_val;
DiveEventItem *item = dynamic_cast<DiveEventItem *>(sceneItem);
// Add or edit Gas Change
if (d && item && item->ev.is_gaschange()) {
int eventTime = item->ev.time.seconds;
QMenu *gasChange = m.addMenu(tr("Edit Gas Change"));
for (int i = 0; i < d->cylinders.nr; i++) {
const cylinder_t *cylinder = get_cylinder(d, i);
QString label = printCylinderDescription(i, cylinder);
gasChange->addAction(label, [this, i, eventTime] { addGasSwitch(i, eventTime); });
}
} else if (d && d->cylinders.nr > 1) {
// if we have more than one gas, offer to switch to another one
QMenu *gasChange = m.addMenu(tr("Add gas change"));
for (int i = 0; i < d->cylinders.nr; i++) {
const cylinder_t *cylinder = get_cylinder(d, i);
QString label = printCylinderDescription(i, cylinder);
gasChange->addAction(label, [this, i, seconds] { addGasSwitch(i, seconds); });
}
}
m.addAction(tr("Add setpoint change"), [this, seconds]() { ProfileWidget2::addSetpointChange(seconds); });
m.addAction(tr("Add bookmark"), [this, seconds]() { addBookmark(seconds); });
m.addAction(tr("Split dive into two"), [this, seconds]() { splitDive(seconds); });
divemode_loop loop(*get_dive_dc_const(d, dc));
divemode_t divemode = loop.next(seconds);
QMenu *changeMode = m.addMenu(tr("Change divemode"));
if (divemode != OC)
changeMode->addAction(gettextFromC::tr(divemode_text_ui[OC]),
[this, seconds](){ addDivemodeSwitch(seconds, OC); });
if (divemode != CCR)
changeMode->addAction(gettextFromC::tr(divemode_text_ui[CCR]),
[this, seconds](){ addDivemodeSwitch(seconds, CCR); });
if (divemode != PSCR)
changeMode->addAction(gettextFromC::tr(divemode_text_ui[PSCR]),
[this, seconds](){ addDivemodeSwitch(seconds, PSCR); });
if (DiveEventItem *item = dynamic_cast<DiveEventItem *>(sceneItem)) {
m.addAction(tr("Remove event"), [this,item] { removeEvent(item); });
m.addAction(tr("Hide event"), [this, item] { hideEvent(item); });
m.addAction(tr("Hide events of type '%1'").arg(event_type_name(item->ev)),
[this, item] { hideEventType(item); });
if (item->ev.type == SAMPLE_EVENT_BOOKMARK)
m.addAction(tr("Edit name"), [this, item] { editName(item); });
#if 0 // TODO::: FINISH OR DISABLE
QPointF scenePos = mapToScene(event->pos());
int idx = getEntryFromPos(scenePos);
// this shows how to figure out if we should ask the user if they want adjust interpolated pressures
// at either side of a gas change
if (item->ev->type == SAMPLE_EVENT_GASCHANGE || item->ev->type == SAMPLE_EVENT_GASCHANGE2) {
int gasChangeIdx = idx;
while (gasChangeIdx > 0) {
--gasChangeIdx;
if (plotInfo.entry[gasChangeIdx].sec <= item->ev->time.seconds)
break;
}
const struct plot_data &gasChangeEntry = plotInfo.entry[newGasIdx];
// now gasChangeEntry points at the gas change, that entry has the final pressure of
// the old tank, the next entry has the starting pressure of the next tank
if (gasChangeIdx < plotInfo.nr - 1) {
int newGasIdx = gasChangeIdx + 1;
const struct plot_data &newGasEntry = plotInfo.entry[newGasIdx];
if (get_plot_sensor_pressure(&plotInfo, gasChangeIdx) == 0 || get_cylinder(d, gasChangeEntry->sensor[0])->sample_start.mbar == 0) {
// if we have no sensorpressure or if we have no pressure from samples we can assume that
// we only have interpolated pressure (the pressure in the entry may be stored in the sensor
// pressure field if this is the first or last entry for this tank... see details in gaspressures.c
pressure_t pressure;
pressure.mbar = get_plot_interpolated_pressure(&plotInfo, gasChangeIdx) ? : get_plot_sensor_pressure(&plotInfo, gasChangeIdx);
QAction *adjustOldPressure = m.addAction(tr("Adjust pressure of cyl. %1 (currently interpolated as %2)")
.arg(gasChangeEntry->sensor[0] + 1).arg(get_pressure_string(pressure)));
}
if (get_plot_sensor_pressure(&plotInfo, newGasIdx) == 0 || get_cylinder(d, newGasEntry->sensor[0])->sample_start.mbar == 0) {
// we only have interpolated press -- see commend above
pressure_t pressure;
pressure.mbar = get_plot_interpolated_pressure(&plotInfo, newGasIdx) ? : get_plot_sensor_pressure(&plotInfo, newGasIdx);
QAction *adjustOldPressure = m.addAction(tr("Adjust pressure of cyl. %1 (currently interpolated as %2)")
.arg(newGasEntry->sensor[0] + 1).arg(get_pressure_string(pressure)));
}
}
}
#endif
}
if (any_event_types_hidden()) {
QMenu *m2 = m.addMenu(tr("Unhide event type"));
for (int i: hidden_event_types()) {
m2->addAction(event_type_name(i), [this, i]() {
show_event_type(i);
replot();
});
}
m2->addAction(tr("All event types"), this, &ProfileWidget2::unhideEventTypes);
}
const struct divecomputer *currentdc = get_dive_dc_const(d, dc);
if (currentdc && std::any_of(currentdc->events.begin(), currentdc->events.end(),
[] (auto &ev) { return ev.hidden; }))
m.addAction(tr("Unhide individually hidden events of this dive"), this, &ProfileWidget2::unhideEvents);
m.exec(event->globalPos());
}
void ProfileWidget2::deleteCurrentDC()
{
if (d)
Command::deleteDiveComputer(mutable_dive(), dc);
}
void ProfileWidget2::splitCurrentDC()
{
if (d)
Command::splitDiveComputer(mutable_dive(), dc);
}
void ProfileWidget2::makeFirstDC()
{
if (d)
Command::moveDiveComputerToFront(mutable_dive(), dc);
}
void ProfileWidget2::renameCurrentDC()
{
bool ok;
struct divecomputer *currentdc = get_dive_dc(mutable_dive(), dc);
if (!currentdc)
return;
QString newName = QInputDialog::getText(this, tr("Edit nickname"),
tr("Set new nickname for %1 (serial %2):").arg(QString::fromStdString(currentdc->model)).
arg(QString::fromStdString(currentdc->serial)),
QLineEdit::Normal, QString::fromStdString(get_dc_nickname(currentdc)), &ok);
if (ok)
Command::editDeviceNickname(currentdc, newName);
}
void ProfileWidget2::hideEvent(DiveEventItem *item)
{
struct divecomputer *currentdc = get_dive_dc(mutable_dive(), dc);
int idx = item->idx;
if (!currentdc || idx < 0 || static_cast<size_t>(idx) >= currentdc->events.size())
return;
currentdc->events[idx].hidden = true;
item->hide();
}
void ProfileWidget2::hideEventType(DiveEventItem *item)
{
if (!item->ev.name.empty()) {
hide_event_type(&item->ev);
replot();
}
}
void ProfileWidget2::unhideEvents()
{
struct divecomputer *currentdc = get_dive_dc(mutable_dive(), dc);
if (!currentdc)
return;
for (auto &ev: currentdc->events)
ev.hidden = false;
for (DiveEventItem *item: profileScene->eventItems)
item->show();
}
void ProfileWidget2::unhideEventTypes()
{
show_all_event_types();
replot();
}
void ProfileWidget2::removeEvent(DiveEventItem *item)
{
const struct event &ev = item->ev;
if (QMessageBox::question(this, TITLE_OR_TEXT(
tr("Remove the selected event?"),
tr("%1 @ %2:%3").arg(QString::fromStdString(ev.name)).arg(ev.time.seconds / 60).arg(ev.time.seconds % 60, 2, 10, QChar('0'))),
QMessageBox::Ok | QMessageBox::Cancel) == QMessageBox::Ok)
Command::removeEvent(mutable_dive(), dc, item->idx);
}
void ProfileWidget2::addBookmark(int seconds)
{
if (d)
Command::addEventBookmark(mutable_dive(), dc, seconds);
}
void ProfileWidget2::addDivemodeSwitch(int seconds, int divemode)
{
if (d)
Command::addEventDivemodeSwitch(mutable_dive(), dc, seconds, divemode);
}
void ProfileWidget2::addSetpointChange(int seconds)
{
if (!d)
return;
SetpointDialog dialog(mutable_dive(), dc, seconds);
dialog.exec();
}
void ProfileWidget2::splitDive(int seconds)
{
if (!d)
return;
Command::splitDives(mutable_dive(), duration_t{ seconds });
}
void ProfileWidget2::addGasSwitch(int tank, int seconds)
{
if (!d || tank < 0 || tank >= d->cylinders.nr)
return;
Command::addGasSwitch(mutable_dive(), dc, seconds, tank);
}
void ProfileWidget2::changeGas(int index, int newCylinderId)
{
if ((currentState == PLAN || currentState == EDIT) && plannerModel) {
QModelIndex modelIndex = plannerModel->index(index, DivePlannerPointsModel::GAS);
plannerModel->gasChange(modelIndex.sibling(modelIndex.row() + 1, modelIndex.column()), newCylinderId);
if (currentState == EDIT)
emit stopEdited();
}
}
void ProfileWidget2::editName(DiveEventItem *item)
{
if (!d)
return;
bool ok;
QString newName = QInputDialog::getText(this, tr("Edit name of bookmark"),
tr("Custom name:"), QLineEdit::Normal,
item->ev.name.c_str(), &ok);
if (ok && !newName.isEmpty()) {
if (newName.length() > 22) { //longer names will display as garbage.
QMessageBox lengthWarning;
lengthWarning.setText(tr("Name is too long!"));
lengthWarning.exec();
return;
}
Command::renameEvent(mutable_dive(), dc, item->idx, newName.toStdString());
}
}
void ProfileWidget2::connectPlannerModel()
{
connect(plannerModel, &DivePlannerPointsModel::dataChanged, this, &ProfileWidget2::replot);
connect(plannerModel, &DivePlannerPointsModel::cylinderModelEdited, this, &ProfileWidget2::replot);
connect(plannerModel, &DivePlannerPointsModel::modelReset, this, &ProfileWidget2::pointsReset);
connect(plannerModel, &DivePlannerPointsModel::rowsInserted, this, &ProfileWidget2::pointInserted);
connect(plannerModel, &DivePlannerPointsModel::rowsRemoved, this, &ProfileWidget2::pointsRemoved);
connect(plannerModel, &DivePlannerPointsModel::rowsMoved, this, &ProfileWidget2::pointsMoved);
}
#endif
void ProfileWidget2::disconnectPlannerModel()
{
#ifndef SUBSURFACE_MOBILE
if (plannerModel) {
disconnect(plannerModel, &DivePlannerPointsModel::dataChanged, this, &ProfileWidget2::replot);
disconnect(plannerModel, &DivePlannerPointsModel::cylinderModelEdited, this, &ProfileWidget2::replot);
disconnect(plannerModel, &DivePlannerPointsModel::modelReset, this, &ProfileWidget2::pointsReset);
disconnect(plannerModel, &DivePlannerPointsModel::rowsInserted, this, &ProfileWidget2::pointInserted);
disconnect(plannerModel, &DivePlannerPointsModel::rowsRemoved, this, &ProfileWidget2::pointsRemoved);
disconnect(plannerModel, &DivePlannerPointsModel::rowsMoved, this, &ProfileWidget2::pointsMoved);
}
#endif
}
int ProfileWidget2::handleIndex(const DiveHandler *h) const
{
auto it = std::find_if(handles.begin(), handles.end(),
[h] (const std::unique_ptr<DiveHandler> &h2)
{ return h == h2.get(); });
return it != handles.end() ? it - handles.begin() : -1;
}
#ifndef SUBSURFACE_MOBILE
DiveHandler *ProfileWidget2::createHandle()
{
DiveHandler *item = new DiveHandler(d);
scene()->addItem(item);
connect(item, &DiveHandler::moved, this, &ProfileWidget2::divePlannerHandlerMoved);
connect(item, &DiveHandler::clicked, this, &ProfileWidget2::divePlannerHandlerClicked);
connect(item, &DiveHandler::released, this, &ProfileWidget2::divePlannerHandlerReleased);
return item;
}
QGraphicsSimpleTextItem *ProfileWidget2::createGas()
{
QGraphicsSimpleTextItem *gasChooseBtn = new QGraphicsSimpleTextItem();
scene()->addItem(gasChooseBtn);
gasChooseBtn->setZValue(10);
gasChooseBtn->setFlag(QGraphicsItem::ItemIgnoresTransformations);
return gasChooseBtn;
}
void ProfileWidget2::pointsReset()
{
handles.clear();
gases.clear();
int count = plannerModel->rowCount();
for (int i = 0; i < count; ++i) {
handles.emplace_back(createHandle());
gases.emplace_back(createGas());
}
}
void ProfileWidget2::pointInserted(const QModelIndex &, int from, int to)
{
for (int i = from; i <= to; ++i) {
handles.emplace(handles.begin() + i, createHandle());
gases.emplace(gases.begin() + i, createGas());
}
// Note: we don't replot the dive here, because when removing multiple
// points, these might trickle in one-by-one. Instead, the model will
// emit a data-changed signal.
}
void ProfileWidget2::pointsRemoved(const QModelIndex &, int start, int end)
{
// Qt's model/view API is mad. The end-point is inclusive, which means that the empty range is [0,-1]!
handles.erase(handles.begin() + start, handles.begin() + end + 1);
gases.erase(gases.begin() + start, gases.begin() + end + 1);
scene()->clearSelection();
// Note: we don't replot the dive here, because when removing multiple
// points, these might trickle in one-by-one. Instead, the model will
// emit a data-changed signal.
}
void ProfileWidget2::pointsMoved(const QModelIndex &, int start, int end, const QModelIndex &, int row)
{
move_in_range(handles, start, end + 1, row);
move_in_range(gases, start, end + 1, row);
}
void ProfileWidget2::repositionDiveHandlers()
{
hideAll(gases);
// Re-position the user generated dive handlers
for (int i = 0; i < plannerModel->rowCount(); i++) {
struct divedatapoint datapoint = plannerModel->at(i);
if (datapoint.time == 0) // those are the magic entries for tanks
continue;
DiveHandler *h = handles[i].get();
h->setVisible(datapoint.entered);
h->setPos(profileScene->timeAxis->posAtValue(datapoint.time), profileScene->profileYAxis->posAtValue(datapoint.depth.mm));
QPointF p1;
if (i == 0) {
if (prefs.drop_stone_mode)
// place the text on the straight line from the drop to stone position
p1 = QPointF(profileScene->timeAxis->posAtValue(datapoint.depth.mm / prefs.descrate),
profileScene->profileYAxis->posAtValue(datapoint.depth.mm));
else
// place the text on the straight line from the origin to the first position
p1 = QPointF(profileScene->timeAxis->posAtValue(0), profileScene->profileYAxis->posAtValue(0));
} else {
// place the text on the line from the last position
p1 = handles[i - 1]->pos();
}
QPointF p2 = handles[i]->pos();
QLineF line(p1, p2);
QPointF pos = line.pointAt(0.5);
gases[i]->setPos(pos);
if (datapoint.cylinderid >= 0 && datapoint.cylinderid < d->cylinders.nr)
gases[i]->setText(get_gas_string(get_cylinder(d, datapoint.cylinderid)->gasmix));
else
gases[i]->setText(QString());
gases[i]->setVisible(datapoint.entered &&
(i == 0 || gases[i]->text() != gases[i-1]->text()));
}
}
void ProfileWidget2::divePlannerHandlerMoved()
{
DiveHandler *activeHandler = qobject_cast<DiveHandler *>(sender());
int index = handleIndex(activeHandler);
// Grow the time axis if necessary.
int minutes = lrint(profileScene->timeAxis->valueAt(activeHandler->pos()) / 60);
if (minutes * 60 > profileScene->timeAxis->maximum() * 0.9)
profileScene->timeAxis->setBounds(0.0, profileScene->timeAxis->maximum() * 1.02);
divedatapoint data = plannerModel->at(index);
data.depth.mm = lrint(profileScene->profileYAxis->valueAt(activeHandler->pos()) / M_OR_FT(1, 1)) * M_OR_FT(1, 1);
data.time = lrint(profileScene->timeAxis->valueAt(activeHandler->pos()));
plannerModel->editStop(index, data);
}
std::vector<int> ProfileWidget2::selectedDiveHandleIndices() const
{
std::vector<int> res;
res.reserve(scene()->selectedItems().size());
for (QGraphicsItem *item: scene()->selectedItems()) {
if (DiveHandler *handler = qgraphicsitem_cast<DiveHandler *>(item))
res.push_back(handleIndex(handler));
}
return res;
}
void ProfileWidget2::keyDownAction()
{
if ((currentState != EDIT && currentState != PLAN) || !plannerModel)
return;
std::vector<int> handleIndices = selectedDiveHandleIndices();
for (int row: handleIndices) {
divedatapoint dp = plannerModel->at(row);
dp.depth.mm += M_OR_FT(1, 5);
plannerModel->editStop(row, dp);
}
if (currentState == EDIT && !handleIndices.empty())
emit stopMoved(handleIndices.size()); // TODO: Accumulate key moves
}
void ProfileWidget2::keyUpAction()
{
if ((currentState != EDIT && currentState != PLAN) || !plannerModel)
return;
std::vector<int> handleIndices = selectedDiveHandleIndices();
for (int row: handleIndices) {
divedatapoint dp = plannerModel->at(row);
if (dp.depth.mm <= 0)
continue;
dp.depth.mm -= M_OR_FT(1, 5);
plannerModel->editStop(row, dp);
}
if (currentState == EDIT && !handleIndices.empty())
emit stopMoved(handleIndices.size()); // TODO: Accumulate key moves
}
void ProfileWidget2::keyLeftAction()
{
if ((currentState != EDIT && currentState != PLAN) || !plannerModel)
return;
std::vector<int> handleIndices = selectedDiveHandleIndices();
for (int row: handleIndices) {
divedatapoint dp = plannerModel->at(row);
if (dp.time / 60 <= 0)
continue;
dp.time -= 60;
plannerModel->editStop(row, dp);
}
if (currentState == EDIT && !handleIndices.empty())
emit stopMoved(handleIndices.size()); // TODO: Accumulate key moves
}
void ProfileWidget2::keyRightAction()
{
if ((currentState != EDIT && currentState != PLAN) || !plannerModel)
return;
std::vector<int> handleIndices = selectedDiveHandleIndices();
for (int row: handleIndices) {
divedatapoint dp = plannerModel->at(row);
dp.time += 60;
plannerModel->editStop(row, dp);
}
if (currentState == EDIT && !handleIndices.empty())
emit stopMoved(handleIndices.size()); // TODO: Accumulate key moves
}
void ProfileWidget2::keyDeleteAction()
{
if ((currentState != EDIT && currentState != PLAN) || !plannerModel)
return;
std::vector<int> handleIndices = selectedDiveHandleIndices();
// For now, we have to convert to QVector.
for (int index: handleIndices)
handles[index]->hide();
if (!handleIndices.empty()) {
plannerModel->removeSelectedPoints(handleIndices);
if (currentState == EDIT)
emit stopRemoved(handleIndices.size());
}
}
void ProfileWidget2::clearPictures()
{
pictures.clear();
}
static const double unscaledDurationLineWidth = 2.5;
static const double unscaledDurationLinePenWidth = 0.5;
// Reset the duration line after an image was moved or we found a new duration
void ProfileWidget2::updateDurationLine(PictureEntry &e)
{
if (e.duration.seconds > 0) {
// We know the duration of this video, reset the line symbolizing its extent accordingly
double begin = profileScene->timeAxis->posAtValue(e.offset.seconds);
double end = profileScene->timeAxis->posAtValue(e.offset.seconds + e.duration.seconds);
double y = e.thumbnail->y();
// Undo scaling for pen-width and line-width. For this purpose, we use the scaling of the y-axis.
double scale = transform().m22();
double durationLineWidth = unscaledDurationLineWidth / scale;
double durationLinePenWidth = unscaledDurationLinePenWidth / scale;
e.durationLine.reset(new QGraphicsRectItem(begin, y - durationLineWidth - durationLinePenWidth, end - begin, durationLineWidth));
e.durationLine->setPen(QPen(getColor(DURATION_LINE, profileScene->isGrayscale), durationLinePenWidth));
e.durationLine->setBrush(getColor(::BACKGROUND, profileScene->isGrayscale));
e.durationLine->setVisible(prefs.show_pictures_in_profile);
scene()->addItem(e.durationLine.get());
} else {
// This is either a picture or a video with unknown duration.
// In case there was a line (how could that be?) remove it.
e.durationLine.reset();
}
}
// This function is called asynchronously by the thumbnailer if a thumbnail
// was fetched from disk or freshly calculated.
void ProfileWidget2::updateThumbnail(QString filename, QImage thumbnail, duration_t duration)
{
// Find the picture with the given filename
auto it = std::find_if(pictures.begin(), pictures.end(), [&filename](const PictureEntry &e)
{ return e.filename == filename; });
// If we didn't find a picture, it does either not belong to the current dive,
// or its timestamp is outside of the profile.
if (it != pictures.end()) {
// Replace the pixmap of the thumbnail with the newly calculated one.
int size = Thumbnailer::defaultThumbnailSize();
it->thumbnail->setPixmap(QPixmap::fromImage(thumbnail.scaled(size, size, Qt::KeepAspectRatio)));
// If the duration changed, update the line
if (duration.seconds != it->duration.seconds) {
it->duration = duration;
updateDurationLine(*it);
// If we created / removed a duration line, we have to update the thumbnail paint order.
updateThumbnailPaintOrder();
}
}
}
// Create a PictureEntry object and add its thumbnail to the scene if profile pictures are shown.
ProfileWidget2::PictureEntry::PictureEntry(offset_t offsetIn, const QString &filenameIn, ProfileWidget2 *profile, bool synchronous) : offset(offsetIn),
duration(duration_t {0}),
filename(filenameIn),
thumbnail(new DivePictureItem)
{
QGraphicsScene *scene = profile->scene();
int size = Thumbnailer::defaultThumbnailSize();
scene->addItem(thumbnail.get());
thumbnail->setVisible(prefs.show_pictures_in_profile);
QImage img = Thumbnailer::instance()->fetchThumbnail(filename, synchronous).scaled(size, size, Qt::KeepAspectRatio);
thumbnail->setPixmap(QPixmap::fromImage(img));
thumbnail->setFileUrl(filename);
connect(thumbnail.get(), &DivePictureItem::removePicture, profile, &ProfileWidget2::removePicture);
}
// Define a default sort order for picture-entries: sort lexicographically by timestamp and filename.
bool ProfileWidget2::PictureEntry::operator< (const PictureEntry &e) const
{
// Use std::tie() for lexicographical sorting.
return std::tie(offset.seconds, filename) < std::tie(e.offset.seconds, e.filename);
}
// This function updates the paint order of the thumbnails and duration-lines, such that later
// thumbnails are painted on top of previous thumbnails and duration-lines on top of the thumbnail
// they belong to.
void ProfileWidget2::updateThumbnailPaintOrder()
{
if (!pictures.size())
return;
// To get the correct sort order, we place in thumbnails at equal z-distances
// between thumbnailBaseZValue and (thumbnailBaseZValue + 1.0).
// Duration-lines are placed between the thumbnails.
double z = thumbnailBaseZValue;
double step = 1.0 / (double)pictures.size();
for (PictureEntry &e: pictures) {
e.thumbnail->setBaseZValue(z);
if (e.durationLine)
e.durationLine->setZValue(z + step / 2.0);
z += step;
}
}
// Calculate the y-coordinates of the thumbnails, which are supposed to be sorted by x-coordinate.
// This will also change the order in which the thumbnails are painted, to avoid weird effects,
// when items are added later to the scene. This is done using the QGraphicsItem::packBefore() function.
// We can't use the z-value, because that will be modified on hoverEnter and hoverExit events.
void ProfileWidget2::calculatePictureYPositions()
{
double lastX = -1.0, lastY = 0.0;
const double yStart = 0.05; // At which depth the thumbnails start (in fraction of total depth).
const double yStep = 0.01; // Increase of depth for overlapping thumbnails (in fraction of total depth).
const double xSpace = 18.0 * profileScene->dpr; // Horizontal range in which thumbnails are supposed to be overlapping (in pixels).
const int maxDepth = 14; // Maximal depth of thumbnail stack (in thumbnails).
for (PictureEntry &e: pictures) {
// Invisible items are outside of the shown range - ignore.
if (!e.thumbnail->isVisible())
continue;
// Let's put the picture at the correct time, but at a fixed "depth" on the profile
// not sure this is ideal, but it seems to look right.
double x = e.thumbnail->x();
if (x < 0.0)
continue;
double y;
if (lastX >= 0.0 && fabs(x - lastX) < xSpace * profileScene->dpr && lastY <= (yStart + maxDepth * yStep) - 1e-10)
y = lastY + yStep;
else
y = yStart;
lastX = x;
lastY = y;
double yScreen = profileScene->timeAxis->screenPosition(y);
e.thumbnail->setY(yScreen);
updateDurationLine(e); // If we changed the y-position, we also have to change the duration-line.
}
updateThumbnailPaintOrder();
}
void ProfileWidget2::updateThumbnailXPos(PictureEntry &e)
{
// Here, we only set the x-coordinate of the picture. The y-coordinate
// will be set later in calculatePictureYPositions().
// Thumbnails outside of the shown range are hidden.
double time = e.offset.seconds;
if (time >= profileScene->timeAxis->minimum() && time <= profileScene->timeAxis->maximum()) {
double x = profileScene->timeAxis->posAtValue(time);
e.thumbnail->setX(x);
e.thumbnail->setVisible(true);
} else {
e.thumbnail->setVisible(false);
}
}
// This function resets the picture thumbnails of the current dive.
void ProfileWidget2::plotPictures()
{
plotPicturesInternal(d, false);
}
void ProfileWidget2::plotPicturesInternal(const struct dive *d, bool synchronous)
{
pictures.clear();
if (currentState == EDIT || currentState == PLAN)
return;
// Fetch all pictures of the dive, but consider only those that are within the dive time.
// For each picture, create a PictureEntry object in the pictures-vector.
// emplace_back() constructs an object at the end of the vector. The parameters are passed directly to the constructor.
// Note that FOR_EACH_PICTURE handles d being null gracefully.
FOR_EACH_PICTURE(d) {
if (picture->offset.seconds > 0 && picture->offset.seconds <= d->duration.seconds)
pictures.emplace_back(picture->offset, QString(picture->filename), this, synchronous);
}
if (pictures.empty())
return;
// Sort pictures by timestamp (and filename if equal timestamps).
// This will allow for proper location of the pictures on the profile plot.
std::sort(pictures.begin(), pictures.end());
updateThumbnails();
}
void ProfileWidget2::updateThumbnails()
{
// Calculate thumbnail positions. First the x-coordinates and and then the y-coordinates.
for (PictureEntry &e: pictures)
updateThumbnailXPos(e);
calculatePictureYPositions();
}
// Remove the pictures with the given filenames from the profile plot.
void ProfileWidget2::picturesRemoved(dive *d, QVector<QString> fileUrls)
{
// To remove the pictures, we use the std::remove_if() algorithm.
// std::remove_if() does not actually delete the elements, but moves
// them to the end of the given range. It returns an iterator to the
// end of the new range of non-deleted elements. A subsequent call to
// std::erase on the range of deleted elements then ultimately shrinks the vector.
// (c.f. erase-remove idiom: https://en.wikipedia.org/wiki/Erase%E2%80%93remove_idiom)
auto it = std::remove_if(pictures.begin(), pictures.end(), [&fileUrls](const PictureEntry &e)
// Check whether filename of entry is in list of provided filenames
{ return std::find(fileUrls.begin(), fileUrls.end(), e.filename) != fileUrls.end(); });
pictures.erase(it, pictures.end());
calculatePictureYPositions();
}
void ProfileWidget2::picturesAdded(dive *d, QVector<PictureObj> pics)
{
for (const PictureObj &pic: pics) {
if (pic.offset.seconds > 0 && pic.offset.seconds <= d->duration.seconds) {
pictures.emplace_back(pic.offset, QString::fromStdString(pic.filename), this, false);
updateThumbnailXPos(pictures.back());
}
}
// Sort pictures by timestamp (and filename if equal timestamps).
// This will allow for proper location of the pictures on the profile plot.
std::sort(pictures.begin(), pictures.end());
calculatePictureYPositions();
}
void ProfileWidget2::removePicture(const QString &fileUrl)
{
if (d)
Command::removePictures({ { mutable_dive(), { fileUrl.toStdString() } } });
}
void ProfileWidget2::profileChanged(dive *dive)
{
if (dive != d)
return; // Cylinders of a differnt dive than the shown one changed.
replot();
}
#endif
void ProfileWidget2::dropEvent(QDropEvent *event)
{
#ifndef SUBSURFACE_MOBILE
if (event->mimeData()->hasFormat("application/x-subsurfaceimagedrop") && d) {
QByteArray itemData = event->mimeData()->data("application/x-subsurfaceimagedrop");
QDataStream dataStream(&itemData, QIODevice::ReadOnly);
QString filename;
dataStream >> filename;
QPointF mappedPos = mapToScene(event->pos());
offset_t offset { (int32_t)lrint(profileScene->timeAxis->valueAt(mappedPos)) };
Command::setPictureOffset(mutable_dive(), filename, offset);
if (event->source() == this) {
event->setDropAction(Qt::MoveAction);
event->accept();
} else {
event->acceptProposedAction();
}
} else {
event->ignore();
}
#endif
}
#ifndef SUBSURFACE_MOBILE
void ProfileWidget2::pictureOffsetChanged(dive *dIn, QString filename, offset_t offset)
{
if (dIn != d)
return; // Picture of a different dive than the one shown changed.
// Calculate time in dive where picture was dropped and whether the new position is during the dive.
bool duringDive = d && offset.seconds > 0 && offset.seconds < d->duration.seconds;
// A picture was drag&dropped onto the profile: We have four cases to consider:
// 1a) The image was already shown on the profile and is moved to a different position on the profile.
// Calculate the new position and move the picture.
// 1b) The image was on the profile and is moved outside of the dive time.
// Remove the picture.
// 2a) The image was not on the profile and is moved into the dive time.
// Add the picture to the profile.
// 2b) The image was not on the profile and is moved outside of the dive time.
// Do nothing.
auto oldPos = std::find_if(pictures.begin(), pictures.end(), [filename](const PictureEntry &e)
{ return e.filename == filename; });
if (oldPos != pictures.end()) {
// Cases 1a) and 1b): picture is on profile
if (duringDive) {
// Case 1a): move to new position
// First, find new position. Note that we also have to compare filenames,
// because it is quite easy to generate equal offsets.
auto newPos = std::find_if(pictures.begin(), pictures.end(), [offset, &filename](const PictureEntry &e)
{ return std::tie(e.offset.seconds, e.filename) > std::tie(offset.seconds, filename); });
// Set new offset
oldPos->offset.seconds = offset.seconds;
updateThumbnailXPos(*oldPos);
// Move image from old to new position
int oldIndex = oldPos - pictures.begin();
int newIndex = newPos - pictures.begin();
move_in_range(pictures, oldIndex, oldIndex + 1, newIndex);
} else {
// Case 1b): remove picture
pictures.erase(oldPos);
}
// In both cases the picture list changed, therefore we must recalculate the y-coordinatesA.
calculatePictureYPositions();
} else {
// Cases 2a) and 2b): picture not on profile. We only have to take action for
// the first case: picture is moved into dive-time.
if (duringDive) {
// Case 2a): add the picture at the appropriate position.
// The case move from outside-to-outside of the profile plot was handled by
// the "&& duringDive" condition in the if above.
// As for case 1a), we have to also consider filenames in the case of equal offsets.
auto newPos = std::find_if(pictures.begin(), pictures.end(), [offset, &filename](const PictureEntry &e)
{ return std::tie(e.offset.seconds, e.filename) > std::tie(offset.seconds, filename); });
// emplace() constructs the element at the given position in the vector.
// The parameters are passed directly to the contructor.
// The call returns an iterator to the new element (which might differ from
// the old iterator, since the buffer might have been reallocated).
newPos = pictures.emplace(newPos, offset, filename, this, false);
updateThumbnailXPos(*newPos);
calculatePictureYPositions();
}
}
}
#endif
void ProfileWidget2::dragEnterEvent(QDragEnterEvent *event)
{
if (event->mimeData()->hasFormat("application/x-subsurfaceimagedrop")) {
if (event->source() == this) {
event->setDropAction(Qt::MoveAction);
event->accept();
} else {
event->acceptProposedAction();
}
} else {
event->ignore();
}
}
void ProfileWidget2::dragMoveEvent(QDragMoveEvent *event)
{
if (event->mimeData()->hasFormat("application/x-subsurfaceimagedrop")) {
if (event->source() == this) {
event->setDropAction(Qt::MoveAction);
event->accept();
} else {
event->acceptProposedAction();
}
} else {
event->ignore();
}
}
struct dive *ProfileWidget2::mutable_dive() const
{
return const_cast<dive *>(d);
}