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subsurface/commands/command_event.cpp
Berthold Stoeger 9f455b1457 selection: move current dive and divecomputer to selection.cpp 
This tries to encapsulate the management of the current dive and
divecomputer in the selection code. The current dive is alreay
set by setSelection(). Add a new parameter to also set the
current divecomputer. If -1 is passed, then the current
computer number is remained. This will allow us to audit the code.
Because for now, the whole "current dive computer" thing seems
to be ill-defined.

This fixes a bug: the dive-computer number wasn't validated
when making a new dive the current dive. The new code has some
drawbacks though: when selecting a whole trip, the validation
will be called for all dives in the trip and thus the dive computer
number will depend on the dive with the lowest amount of dive
computers in the trip. This will need to be fixed.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2023-04-16 20:23:59 +02:00

223 lines
6.3 KiB
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// SPDX-License-Identifier: GPL-2.0
#include "command_event.h"
#include "core/dive.h"
#include "core/event.h"
#include "core/selection.h"
#include "core/subsurface-qt/divelistnotifier.h"
#include "core/libdivecomputer.h"
#include "core/gettextfromc.h"
#include <QVector>
namespace Command {
EventBase::EventBase(struct dive *dIn, int dcNrIn) :
d(dIn), dcNr(dcNrIn)
{
}
void EventBase::redo()
{
redoit(); // Call actual function in base class
updateDive();
}
void EventBase::undo()
{
undoit(); // Call actual function in base class
updateDive();
}
void EventBase::updateDive()
{
invalidate_dive_cache(d);
emit diveListNotifier.eventsChanged(d);
setSelection({ d }, d, dcNr);
}
AddEventBase::AddEventBase(struct dive *d, int dcNr, struct event *ev) : EventBase(d, dcNr),
eventToAdd(ev)
{
}
bool AddEventBase::workToBeDone()
{
return true;
}
void AddEventBase::redoit()
{
struct divecomputer *dc = get_dive_dc(d, dcNr);
eventToRemove = eventToAdd.get();
add_event_to_dc(dc, eventToAdd.release()); // return ownership to backend
}
void AddEventBase::undoit()
{
struct divecomputer *dc = get_dive_dc(d, dcNr);
remove_event_from_dc(dc, eventToRemove);
eventToAdd.reset(eventToRemove); // take ownership of event
eventToRemove = nullptr;
}
AddEventBookmark::AddEventBookmark(struct dive *d, int dcNr, int seconds) :
AddEventBase(d, dcNr, create_event(seconds, SAMPLE_EVENT_BOOKMARK, 0, 0, "bookmark"))
{
setText(Command::Base::tr("Add bookmark"));
}
AddEventDivemodeSwitch::AddEventDivemodeSwitch(struct dive *d, int dcNr, int seconds, int divemode) :
AddEventBase(d, dcNr, create_event(seconds, SAMPLE_EVENT_BOOKMARK, 0, divemode, QT_TRANSLATE_NOOP("gettextFromC", "modechange")))
{
setText(Command::Base::tr("Add dive mode switch to %1").arg(gettextFromC::tr(divemode_text_ui[divemode])));
}
AddEventSetpointChange::AddEventSetpointChange(struct dive *d, int dcNr, int seconds, pressure_t pO2) :
AddEventBase(d, dcNr, create_event(seconds, SAMPLE_EVENT_PO2, 0, pO2.mbar, QT_TRANSLATE_NOOP("gettextFromC", "SP change"))),
divemode(CCR)
{
setText(Command::Base::tr("Add set point change")); // TODO: format pO2 value in bar or psi.
}
void AddEventSetpointChange::undoit()
{
AddEventBase::undoit();
std::swap(get_dive_dc(d, dcNr)->divemode, divemode);
}
void AddEventSetpointChange::redoit()
{
AddEventBase::redoit();
std::swap(get_dive_dc(d, dcNr)->divemode, divemode);
}
RenameEvent::RenameEvent(struct dive *d, int dcNr, struct event *ev, const char *name) : EventBase(d, dcNr),
eventToAdd(clone_event_rename(ev, name)),
eventToRemove(ev)
{
setText(Command::Base::tr("Rename bookmark to %1").arg(name));
}
bool RenameEvent::workToBeDone()
{
return true;
}
void RenameEvent::redoit()
{
struct divecomputer *dc = get_dive_dc(d, dcNr);
swap_event(dc, eventToRemove, eventToAdd.get());
event *tmp = eventToRemove;
eventToRemove = eventToAdd.release();
eventToAdd.reset(tmp);
}
void RenameEvent::undoit()
{
// Undo and redo do the same thing - they simply swap events
redoit();
}
RemoveEvent::RemoveEvent(struct dive *d, int dcNr, struct event *ev) : EventBase(d, dcNr),
eventToRemove(ev),
cylinder(ev->type == SAMPLE_EVENT_GASCHANGE2 || ev->type == SAMPLE_EVENT_GASCHANGE ?
ev->gas.index : -1)
{
setText(Command::Base::tr("Remove %1 event").arg(ev->name));
}
bool RemoveEvent::workToBeDone()
{
return true;
}
void RemoveEvent::redoit()
{
struct divecomputer *dc = get_dive_dc(d, dcNr);
remove_event_from_dc(dc, eventToRemove);
eventToAdd.reset(eventToRemove); // take ownership of event
eventToRemove = nullptr;
}
void RemoveEvent::undoit()
{
struct divecomputer *dc = get_dive_dc(d, dcNr);
eventToRemove = eventToAdd.get();
add_event_to_dc(dc, eventToAdd.release()); // return ownership to backend
}
void RemoveEvent::post() const
{
if (cylinder < 0)
return;
fixup_dive(d);
emit diveListNotifier.cylinderEdited(d, cylinder);
// TODO: This is silly we send a DURATION change event so that the statistics are recalculated.
// We should instead define a proper DiveField that expresses the change caused by a gas switch.
emit diveListNotifier.divesChanged(QVector<dive *>{ d }, DiveField::DURATION | DiveField::DEPTH);
}
AddGasSwitch::AddGasSwitch(struct dive *d, int dcNr, int seconds, int tank) : EventBase(d, dcNr)
{
// If there is a gas change at this time stamp, remove it before adding the new one.
// There shouldn't be more than one gas change per time stamp. Just in case we'll
// support that anyway.
struct divecomputer *dc = get_dive_dc(d, dcNr);
struct event *gasChangeEvent = dc->events;
while ((gasChangeEvent = get_next_event_mutable(gasChangeEvent, "gaschange")) != NULL) {
if (gasChangeEvent->time.seconds == seconds) {
eventsToRemove.push_back(gasChangeEvent);
int idx = gasChangeEvent->gas.index;
if (std::find(cylinders.begin(), cylinders.end(), idx) == cylinders.end())
cylinders.push_back(idx); // cylinders might have changed their status
}
gasChangeEvent = gasChangeEvent->next;
}
eventsToAdd.emplace_back(create_gas_switch_event(d, dc, seconds, tank));
}
bool AddGasSwitch::workToBeDone()
{
return true;
}
void AddGasSwitch::redoit()
{
std::vector<OwningEventPtr> newEventsToAdd;
std::vector<event *> newEventsToRemove;
newEventsToAdd.reserve(eventsToRemove.size());
newEventsToRemove.reserve(eventsToAdd.size());
struct divecomputer *dc = get_dive_dc(d, dcNr);
for (event *ev: eventsToRemove) {
remove_event_from_dc(dc, ev);
newEventsToAdd.emplace_back(ev); // take ownership of event
}
for (OwningEventPtr &ev: eventsToAdd) {
newEventsToRemove.push_back(ev.get());
add_event_to_dc(dc, ev.release()); // return ownership to backend
}
eventsToAdd = std::move(newEventsToAdd);
eventsToRemove = std::move(newEventsToRemove);
// this means we potentially have a new tank that is being used and needs to be shown
fixup_dive(d);
for (int idx: cylinders)
emit diveListNotifier.cylinderEdited(d, idx);
// TODO: This is silly we send a DURATION change event so that the statistics are recalculated.
// We should instead define a proper DiveField that expresses the change caused by a gas switch.
emit diveListNotifier.divesChanged(QVector<dive *>{ d }, DiveField::DURATION | DiveField::DEPTH);
}
void AddGasSwitch::undoit()
{
// Undo and redo do the same thing, as the dives-to-be-added and dives-to-be-removed are exchanged.
redoit();
}
} // namespace Command
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