subsurface/commands/command_edit.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "command_edit.h"
#include "core/divelist.h"
#include "core/divelog.h"
#include "core/event.h"
#include "core/fulltext.h"
#include "core/qthelper.h"
#include "core/range.h"
#include "core/sample.h"
#include "core/selection.h"
#include "core/subsurface-string.h"
#include "core/tag.h"
#include "qt-models/weightsysteminfomodel.h"
#include "qt-models/tankinfomodel.h"
#ifdef SUBSURFACE_MOBILE
#include "qt-models/divelocationmodel.h"
#endif
namespace Command {
template <typename T, DiveField::Flags ID>
DiveField EditTemplate<T, ID>::fieldId() const
{
return ID;
}
template <DiveField::Flags ID>
DiveField EditTagsTemplate<ID>::fieldId() const
{
return ID;
}
template <typename T, DiveField::Flags ID, T dive::*PTR>
void EditDefaultSetter<T, ID, PTR>::set(struct dive *d, T v) const
{
d->*PTR = v;
}
template <typename T, DiveField::Flags ID, T dive::*PTR>
T EditDefaultSetter<T, ID, PTR>::data(struct dive *d) const
{
return d->*PTR;
}
template <DiveField::Flags ID, std::string dive::*PTR>
void EditStringSetter<ID, PTR>::set(struct dive *d, QString v) const
{
d->*PTR = v.toStdString();
}
template <DiveField::Flags ID, std::string dive::*PTR>
QString EditStringSetter<ID, PTR>::data(struct dive *d) const
{
return QString::fromStdString(d->*PTR);
}
static std::vector<dive *> getDives(bool currentDiveOnly)
{
if (currentDiveOnly)
return current_dive ? std::vector<dive *> { current_dive }
: std::vector<dive *> { };
std::vector<dive *> res;
for (auto &d: divelog.dives) {
if (d->selected)
res.push_back(d.get());
}
return res;
}
EditDivesBase::EditDivesBase(bool currentDiveOnly) :
dives(getDives(currentDiveOnly)),
selectedDives(getDiveSelection()),
current(current_dive)
{
}
EditDivesBase::EditDivesBase(dive *d) :
dives({ d }),
selectedDives(getDiveSelection()),
current(current_dive)
{
}
int EditDivesBase::numDives() const
{
return dives.size();
}
template<typename T>
EditBase<T>::EditBase(T newValue, bool currentDiveOnly) :
EditDivesBase(currentDiveOnly),
value(std::move(newValue))
{
}
template<typename T>
EditBase<T>::EditBase(T newValue, dive *d) :
EditDivesBase(d),
value(std::move(newValue))
{
}
// This is quite hackish: we can't use virtual functions in the constructor and
// therefore can't initialize the list of dives [the values of the dives are
// accessed by virtual functions]. Therefore, we (mis)use the fact that workToBeDone()
// is called exactly once before adding the Command to the system and perform this here.
// To be more explicit about this, we might think about renaming workToBeDone() to init().
template<typename T>
bool EditBase<T>::workToBeDone()
{
// First, let's fetch the old value, i.e. the value of the current dive.
// If no current dive exists, bail.
if (!current)
return false;
old = data(current);
// If there is no change - do nothing.
if (old == value)
return false;
std::vector<dive *> divesNew;
divesNew.reserve(dives.size());
for (dive *d: dives) {
if (data(d) == old)
divesNew.push_back(d);
}
dives = std::move(divesNew);
// Create a text for the menu entry. In the case of multiple dives add the number
size_t num_dives = dives.size();
if (num_dives == 1)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit %1").arg(fieldName())).arg(diveNumberOrDate(dives[0])));
else if (num_dives > 0)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit %1 (%n dive(s))", "", num_dives).arg(fieldName())).arg(getListOfDives(dives)));
return num_dives > 0;
}
template<typename T>
void EditBase<T>::undo()
{
if (dives.empty()) {
qWarning("Edit command called with empty dives list (shouldn't happen)");
return;
}
for (dive *d: dives) {
set(d, value);
fulltext_register(d); // Update the fulltext cache
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
std::swap(old, value);
// Send signals.
DiveField id = fieldId();
emit diveListNotifier.divesChanged(stdToQt<dive *>(dives), id);
if (!placingCommand())
setSelection(selectedDives, current, -1);
}
// We have to manually instantiate the constructors of the EditBase class,
// because the base class is never constructed and the derived classes
// don't have their own constructor. They simply delegate to the base
// class by virtue of a "using" declaration.
template
EditBase<QString>::EditBase(QString newValue, bool currentDiveOnly);
template
EditBase<int>::EditBase(int newValue, bool currentDiveOnly);
template
EditBase<bool>::EditBase(bool newValue, bool currentDiveOnly);
template
EditBase<struct dive_site *>::EditBase(struct dive_site *newValue, bool currentDiveOnly);
// Undo and redo do the same as just the stored value is exchanged
template<typename T>
void EditBase<T>::redo()
{
// Note: here, we explicitly call the undo function of EditBase<T> and don't do
// virtual dispatch. Thus, derived classes can call this redo function without
// having their own undo() function called.
EditBase<T>::undo();
}
// Implementation of virtual functions
// ***** Notes *****
QString EditNotes::fieldName() const
{
return Command::Base::tr("notes");
}
// ***** Suit *****
QString EditSuit::fieldName() const
{
return Command::Base::tr("suit");
}
// ***** Rating *****
QString EditRating::fieldName() const
{
return Command::Base::tr("rating");
}
// ***** Visibility *****
QString EditVisibility::fieldName() const
{
return Command::Base::tr("visibility");
}
// ***** WaveSize *****
QString EditWaveSize::fieldName() const
{
return Command::Base::tr("wavesize");
}
// ***** Current *****
QString EditCurrent::fieldName() const
{
return Command::Base::tr("current");
}
// ***** Surge *****
QString EditSurge::fieldName() const
{
return Command::Base::tr("surge");
}
// ***** Chill *****
QString EditChill::fieldName() const
{
return Command::Base::tr("chill");
}
// ***** Air Temperature *****
void EditAirTemp::set(struct dive *d, int value) const
{
d->airtemp.mkelvin = value > 0 ? (uint32_t)value : 0u;
}
int EditAirTemp::data(struct dive *d) const
{
return (int)d->airtemp.mkelvin;
}
QString EditAirTemp::fieldName() const
{
return Command::Base::tr("air temperature");
}
// ***** Water Temperature *****
void EditWaterTemp::set(struct dive *d, int value) const
{
d->watertemp.mkelvin = value > 0 ? (uint32_t)value : 0u;
// re-populate the temperatures - easiest way to do this is by calling fixup_dive
fixup_dive(d);
}
int EditWaterTemp::data(struct dive *d) const
{
return (int)d->watertemp.mkelvin;
}
QString EditWaterTemp::fieldName() const
{
return Command::Base::tr("water temperature");
}
// ***** Water Type *****
void EditWaterTypeUser::set(struct dive *d, int value) const
{
d->user_salinity = value > 0 ? value : 0;
}
int EditWaterTypeUser::data(struct dive *d) const
{
return d->user_salinity;
}
QString EditWaterTypeUser::fieldName() const
{
return Command::Base::tr("salinity");
}
// ***** Atmospheric pressure *****
void EditAtmPress::set(struct dive *d, int value) const
{
d->surface_pressure.mbar = value > 0 ? (uint32_t)value : 0u;
}
int EditAtmPress::data(struct dive *d) const
{
return (int)d->surface_pressure.mbar;
}
QString EditAtmPress::fieldName() const
{
return Command::Base::tr("Atm. pressure");
}
// ***** Duration *****
void EditDuration::set(struct dive *d, int value) const
{
d->dcs[0].duration.seconds = value;
d->duration = d->dcs[0].duration;
d->dcs[0].meandepth.mm = 0;
d->dcs[0].samples.clear();
fake_dc(&d->dcs[0]);
}
int EditDuration::data(struct dive *d) const
{
return d->duration.seconds;
}
QString EditDuration::fieldName() const
{
return Command::Base::tr("duration");
}
// ***** Depth *****
void EditDepth::set(struct dive *d, int value) const
{
d->dcs[0].maxdepth.mm = value;
d->maxdepth = d->dcs[0].maxdepth;
d->dcs[0].meandepth.mm = 0;
d->dcs[0].samples.clear();
fake_dc(&d->dcs[0]);
}
int EditDepth::data(struct dive *d) const
{
return d->maxdepth.mm;
}
QString EditDepth::fieldName() const
{
return Command::Base::tr("depth");
}
// ***** DiveSite *****
void EditDiveSite::set(struct dive *d, struct dive_site *dive_site) const
{
unregister_dive_from_dive_site(d);
dive_site->add_dive(d);
}
struct dive_site *EditDiveSite::data(struct dive *d) const
{
return d->dive_site;
}
QString EditDiveSite::fieldName() const
{
return Command::Base::tr("dive site");
}
void EditDiveSite::undo()
{
// Do the normal undo thing, then send dive site changed signals
EditBase<dive_site *>::undo();
if (value)
emit diveListNotifier.diveSiteDivesChanged(value);
if (old)
emit diveListNotifier.diveSiteDivesChanged(old);
}
void EditDiveSite::redo()
{
EditDiveSite::undo(); // Undo and redo do the same
}
static struct dive_site *createDiveSite(const std::string &name)
{
struct dive_site *ds = new dive_site;
if (current_dive && current_dive->dive_site)
*ds = *current_dive->dive_site;
// If the current dive has a location, use that as location for the new dive site
if (current_dive) {
location_t loc = dive_get_gps_location(current_dive);
if (has_location(&loc))
ds->location = loc;
}
ds->name = name;
return ds;
}
EditDiveSiteNew::EditDiveSiteNew(const QString &newName, bool currentDiveOnly) :
EditDiveSite(createDiveSite(newName.toStdString()), currentDiveOnly),
diveSiteToAdd(value),
diveSiteToRemove(nullptr)
{
}
void EditDiveSiteNew::undo()
{
EditDiveSite::undo();
auto res = divelog.sites.pull(diveSiteToRemove);
diveSiteToAdd = std::move(res.ptr);
emit diveListNotifier.diveSiteDeleted(diveSiteToRemove, res.idx); // Inform frontend of removed dive site.
diveSiteToRemove = nullptr;
}
void EditDiveSiteNew::redo()
{
auto res = divelog.sites.register_site(std::move(diveSiteToAdd)); // Return ownership to backend.
diveSiteToRemove = res.ptr;
emit diveListNotifier.diveSiteAdded(diveSiteToRemove, res.idx); // Inform frontend of new dive site.
EditDiveSite::redo();
}
// ***** Mode *****
// Editing the dive mode has very peculiar semantics for historic reasons:
// Since the dive-mode depends on the dive computer, the i-th dive computer
// of each dive will be edited. If the dive has less than i dive computers,
// the default dive computer will be edited.
// The index "i" will be stored as an additional payload with the command.
// Thus, we need an explicit constructor. Since the actual handling is done
// by the base class, which knows nothing about this index, it will not be
// sent via signals. Currently this is not needed. Should it turn out to
// become necessary, then we might either
// - Not derive EditMode from EditBase.
// - Change the semantics of the mode-editing.
// The future will tell.
EditMode::EditMode(int indexIn, int newValue, bool currentDiveOnly)
: EditTemplate(newValue, currentDiveOnly), index(indexIn)
{
}
void EditMode::set(struct dive *d, int i) const
{
get_dive_dc(d, index)->divemode = (enum divemode_t)i;
update_setpoint_events(d, get_dive_dc(d, index));
}
int EditMode::data(struct dive *d) const
{
return get_dive_dc(d, index)->divemode;
}
QString EditMode::fieldName() const
{
return Command::Base::tr("dive mode");
}
// ***** Invalid *****
QString EditInvalid::fieldName() const
{
return Command::Base::tr("invalid");
}
// ***** Tag based commands *****
EditTagsBase::EditTagsBase(const QStringList &newListIn, bool currentDiveOnly) :
EditDivesBase(currentDiveOnly),
newList(newListIn)
{
}
// Two helper functions: returns true if first list contains any tag or
// misses any tag of second list.
static bool containsAny(const QStringList &tags1, const QStringList &tags2)
{
return std::any_of(tags2.begin(), tags2.end(), [&tags1](const QString &tag)
{ return tags1.contains(tag); });
}
static bool missesAny(const QStringList &tags1, const QStringList &tags2)
{
return std::any_of(tags2.begin(), tags2.end(), [&tags1](const QString &tag)
{ return !tags1.contains(tag); });
}
// This is quite hackish: we can't use virtual functions in the constructor and
// therefore can't initialize the list of dives [the values of the dives are
// accessed by virtual functions]. Therefore, we (mis)use the fact that workToBeDone()
// is called exactly once before adding the Command to the system and perform this here.
// To be more explicit about this, we might think about renaming workToBeDone() to init().
bool EditTagsBase::workToBeDone()
{
// changing the tags on multiple dives is semantically strange - what's the right thing to do?
// here's what I think... add the tags that were added to the displayed dive and remove the tags
// that were removed from it
// If there is no current dive, bail.
if (!current)
return false;
// Calculate tags to add and tags to remove
QStringList oldList = data(current);
for (const QString &s: newList) {
if (!oldList.contains(s))
tagsToAdd.push_back(s);
}
for (const QString &s: oldList) {
if (!newList.contains(s))
tagsToRemove.push_back(s);
}
// Now search for all dives that either
// - miss a tag to be added
// - have a tag to be removed
std::vector<dive *> divesNew;
divesNew.reserve(dives.size());
for (dive *d: dives) {
QStringList tags = data(d);
if (missesAny(tags, tagsToAdd) || containsAny(tags, tagsToRemove))
divesNew.push_back(d);
}
dives = std::move(divesNew);
// Create a text for the menu entry. In the case of multiple dives add the number
size_t num_dives = dives.size();
if (num_dives == 1)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit %1").arg(fieldName())).arg(diveNumberOrDate(dives[0])));
else if (num_dives > 0)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit %1 (%n dive(s))", "", num_dives).arg(fieldName())).arg(getListOfDives(dives)));
return num_dives != 0;
}
void EditTagsBase::undo()
{
if (dives.empty()) {
qWarning("Edit command called with empty dives list (shouldn't happen)");
return;
}
for (dive *d: dives) {
QStringList tags = data(d);
for (const QString &tag: tagsToRemove)
tags.removeAll(tag);
for (const QString &tag: tagsToAdd) {
if (!tags.contains(tag))
tags.push_back(tag);
}
set(d, tags);
fulltext_register(d); // Update the fulltext cache
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
std::swap(tagsToAdd, tagsToRemove);
// Send signals.
DiveField id = fieldId();
emit diveListNotifier.divesChanged(stdToQt<dive *>(dives), id);
setSelection(selectedDives, current, -1);
}
// Undo and redo do the same as just the stored value is exchanged
void EditTagsBase::redo()
{
undo();
}
// ***** Tags *****
QStringList EditTags::data(struct dive *d) const
{
QStringList res;
for (const divetag *tag: d->tags)
res.push_back(QString::fromStdString(tag->name));
return res;
}
void EditTags::set(struct dive *d, const QStringList &v) const
{
d->tags.clear();
for (const QString &tag: v)
taglist_add_tag(d->tags, tag.toStdString());
taglist_cleanup(d->tags);
}
QString EditTags::fieldName() const
{
return Command::Base::tr("tags");
}
// ***** Buddies *****
QStringList EditBuddies::data(struct dive *d) const
{
return stringToList(QString::fromStdString(d->buddy));
}
void EditBuddies::set(struct dive *d, const QStringList &v) const
{
QString text = v.join(", ");
d->buddy = text.toStdString();
}
QString EditBuddies::fieldName() const
{
return Command::Base::tr("buddies");
}
// ***** DiveGuide *****
QStringList EditDiveGuide::data(struct dive *d) const
{
return stringToList(QString::fromStdString(d->diveguide));
}
void EditDiveGuide::set(struct dive *d, const QStringList &v) const
{
QString text = v.join(", ");
d->diveguide = text.toStdString();
}
QString EditDiveGuide::fieldName() const
{
return Command::Base::tr("dive guide");
}
PasteState::PasteState(dive *dIn, const dive *data, dive_components what) : d(dIn)
{
if (what.notes)
notes = data->notes;
if (what.diveguide)
diveguide = data->diveguide;
if (what.buddy)
buddy = data->buddy;
if (what.suit)
suit = data->suit;
if (what.rating)
rating = data->rating;
if (what.visibility)
visibility = data->visibility;
if (what.wavesize)
wavesize = data->wavesize;
if (what.current)
current = data->current;
if (what.surge)
surge = data->surge;
if (what.chill)
chill = data->chill;
if (what.divesite)
divesite = data->dive_site;
if (what.tags)
tags = data->tags;
if (what.cylinders) {
cylinders = data->cylinders;
// Paste cylinders is "special":
// 1) For cylinders that exist in the destination dive we keep the gas-mix and pressures.
// 2) For cylinders that do not yet exist in the destination dive, we set the pressures to 0, i.e. unset.
// Moreover, for these we set the manually_added flag, because they weren't downloaded from a DC.
for (size_t i = 0; i < d->cylinders.size() && i < cylinders.size(); ++i) {
const cylinder_t &src = d->cylinders[i];
cylinder_t &dst = cylinders[i];
dst.gasmix = src.gasmix;
dst.start = src.start;
dst.end = src.end;
dst.sample_start = src.sample_start;
dst.sample_end = src.sample_end;
dst.depth = src.depth;
dst.manually_added = src.manually_added;
dst.gas_used = src.gas_used;
dst.deco_gas_used = src.deco_gas_used;
dst.cylinder_use = src.cylinder_use;
dst.bestmix_o2 = src.bestmix_o2;
dst.bestmix_he = src.bestmix_he;
}
for (size_t i = d->cylinders.size(); i < cylinders.size(); ++i) {
cylinder_t &cyl = cylinders[i];
cyl.start.mbar = 0;
cyl.end.mbar = 0;
cyl.sample_start.mbar = 0;
cyl.sample_end.mbar = 0;
cyl.manually_added = true;
}
}
if (what.weights)
weightsystems = data->weightsystems;
if (what.number)
number = data->number;
if (what.when)
when = data->when;
}
PasteState::~PasteState()
{
}
void PasteState::swap(dive_components what)
{
if (what.notes)
std::swap(notes, d->notes);
if (what.diveguide)
std::swap(diveguide, d->diveguide);
if (what.buddy)
std::swap(buddy, d->buddy);
if (what.suit)
std::swap(suit, d->suit);
if (what.rating)
std::swap(rating, d->rating);
if (what.visibility)
std::swap(visibility, d->visibility);
if (what.wavesize)
std::swap(wavesize, d->wavesize);
if (what.current)
std::swap(current, d->current);
if (what.surge)
std::swap(surge, d->surge);
if (what.chill)
std::swap(chill, d->chill);
if (what.divesite)
std::swap(divesite, d->dive_site);
if (what.tags)
std::swap(tags, d->tags);
if (what.cylinders)
std::swap(cylinders, d->cylinders);
if (what.weights)
std::swap(weightsystems, d->weightsystems);
if (what.number)
std::swap(number, d->number);
if (what.when)
std::swap(when, d->when);
}
// ***** Paste *****
PasteDives::PasteDives(const dive *data, dive_components whatIn) : what(whatIn)
{
std::vector<dive *> selection = getDiveSelection();
dives.reserve(selection.size());
for (dive *d: selection)
dives.emplace_back(d, data, what);
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Paste onto %n dive(s)", "", dives.size())).arg(getListOfDives(selection)));
}
bool PasteDives::workToBeDone()
{
return !dives.empty();
}
void PasteDives::undo()
{
QVector<dive *> divesToNotify; // Remember dives so that we can send signals later
divesToNotify.reserve(dives.size());
for (PasteState &state: dives) {
divesToNotify.push_back(state.d);
state.swap(what);
invalidate_dive_cache(state.d); // Ensure that dive is written in git_save()
}
// Send signals.
DiveField fields(DiveField::NONE);
fields.notes = what.notes;
fields.diveguide = what.diveguide;
fields.buddy = what.buddy;
fields.suit = what.suit;
fields.rating = what.rating;
fields.visibility = what.visibility;
fields.wavesize = what.wavesize;
fields.current = what.current;
fields.surge = what.surge;
fields.chill = what.chill;
fields.divesite = what.divesite;
fields.tags = what.tags;
fields.datetime = what.when;
fields.nr = what.number;
emit diveListNotifier.divesChanged(divesToNotify, fields);
if (what.cylinders)
emit diveListNotifier.cylindersReset(divesToNotify);
if (what.weights)
emit diveListNotifier.weightsystemsReset(divesToNotify);
}
// Redo and undo do the same
void PasteDives::redo()
{
undo();
}
// ***** ReplanDive *****
ReplanDive::ReplanDive(dive *source) : d(current_dive),
when(0),
maxdepth({0}),
meandepth({0}),
surface_pressure({0}),
duration({0}),
salinity(0)
{
if (!d)
return;
// Fix source. Things might be inconsistent after modifying the profile.
source->maxdepth.mm = source->dcs[0].maxdepth.mm = 0;
fixup_dive(source);
when = source->when;
maxdepth = source->maxdepth;
meandepth = source->meandepth;
notes = source->notes;
duration = source->duration;
salinity = source->salinity;
surface_pressure = source->surface_pressure;
// This resets the dive computers and cylinders of the source dive, avoiding deep copies.
std::swap(source->cylinders, cylinders);
std::swap(source->dcs[0], dc);
setText(Command::Base::tr("Replan dive"));
}
ReplanDive::~ReplanDive()
{
}
bool ReplanDive::workToBeDone()
{
return !!d;
}
void ReplanDive::undo()
{
std::swap(d->when, when);
std::swap(d->maxdepth, maxdepth);
std::swap(d->meandepth, meandepth);
std::swap(d->cylinders, cylinders);
std::swap(d->dcs[0], dc);
std::swap(d->notes, notes);
std::swap(d->surface_pressure, surface_pressure);
std::swap(d->duration, duration);
std::swap(d->salinity, salinity);
fixup_dive(d);
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
QVector<dive *> divesToNotify = { d };
// Note that we have to emit cylindersReset before divesChanged, because the divesChanged
// updates the profile, which is out-of-sync and gets confused.
emit diveListNotifier.cylindersReset(divesToNotify);
emit diveListNotifier.divesChanged(divesToNotify, DiveField::DATETIME | DiveField::DURATION | DiveField::DEPTH | DiveField::MODE |
DiveField::NOTES | DiveField::SALINITY | DiveField::ATM_PRESS);
if (!placingCommand())
setSelection({ d }, d, -1);
}
// Redo and undo do the same
void ReplanDive::redo()
{
undo();
}
// ***** EditProfile *****
QString editProfileTypeToString(EditProfileType type, int count)
{
switch (type) {
default:
case EditProfileType::ADD: return Command::Base::tr("Add stop");
case EditProfileType::REMOVE: return Command::Base::tr("Remove %n stop(s)", "", count);
case EditProfileType::MOVE: return Command::Base::tr("Move %n stop(s)", "", count);
case EditProfileType::EDIT: return Command::Base::tr("Edit stop");
}
}
EditProfile::EditProfile(const dive *source, int dcNr, EditProfileType type, int count) : d(current_dive),
dcNr(dcNr),
maxdepth({0}),
meandepth({0}),
dcmaxdepth({0}),
duration({0})
{
const struct divecomputer *sdc = get_dive_dc(source, dcNr);
if (!sdc)
d = nullptr; // Signal that we refuse to do anything.
if (!d)
return;
maxdepth = source->maxdepth;
dcmaxdepth = sdc->maxdepth;
meandepth = source->meandepth;
duration = source->duration;
dc.samples = sdc->samples;
dc.events = sdc->events;
setText(editProfileTypeToString(type, count) + " " + diveNumberOrDate(d));
}
EditProfile::~EditProfile()
{
}
bool EditProfile::workToBeDone()
{
return !!d;
}
void EditProfile::undo()
{
struct divecomputer *sdc = get_dive_dc(d, dcNr);
if (!sdc)
return;
std::swap(sdc->samples, dc.samples);
std::swap(sdc->events, dc.events);
std::swap(sdc->maxdepth, dc.maxdepth);
std::swap(d->maxdepth, maxdepth);
std::swap(d->meandepth, meandepth);
std::swap(d->duration, duration);
fixup_dive(d);
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
QVector<dive *> divesToNotify = { d };
emit diveListNotifier.divesChanged(divesToNotify, DiveField::DURATION | DiveField::DEPTH);
if (!placingCommand())
setSelection({ d }, d, dcNr);
}
// Redo and undo do the same
void EditProfile::redo()
{
undo();
}
// ***** Add Weight *****
AddWeight::AddWeight(bool currentDiveOnly) :
EditDivesBase(currentDiveOnly)
{
if (dives.size() == 1)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Add weight")).arg(diveNumberOrDate(dives[0])));
else
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Add weight (%n dive(s))", "", dives.size())).arg(getListOfDives(dives)));
}
bool AddWeight::workToBeDone()
{
return true;
}
void AddWeight::undo()
{
for (dive *d: dives) {
if (d->weightsystems.empty())
continue;
d->weightsystems.pop_back();
emit diveListNotifier.weightRemoved(d, d->weightsystems.size());
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
}
void AddWeight::redo()
{
for (dive *d: dives) {
d->weightsystems.emplace_back();
emit diveListNotifier.weightAdded(d, d->weightsystems.size() - 1);
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
}
static int find_weightsystem_index(const struct dive *d, const weightsystem_t &ws)
{
return index_of_if(d->weightsystems, [&ws](auto &ws2) { return same_weightsystem(ws2, ws); });
}
EditWeightBase::EditWeightBase(int index, bool currentDiveOnly) :
EditDivesBase(currentDiveOnly)
{
// Get the old weightsystem, bail if index is invalid
if (!current || index < 0 || static_cast<size_t>(index) >= current->weightsystems.size()) {
dives.clear();
return;
}
ws = current->weightsystems[index];
// Deleting a weightsystem from multiple dives is semantically ill-defined.
// What we will do is trying to delete the same weightsystem if it exists.
// For that purpose, we will determine the indices of the same weightsystem.
std::vector<dive *> divesNew;
divesNew.reserve(dives.size());
indices.reserve(dives.size());
for (dive *d: dives) {
if (d == current) {
divesNew.push_back(d);
indices.push_back(index);
continue;
}
int idx = find_weightsystem_index(d, ws);
if (idx >= 0) {
divesNew.push_back(d);
indices.push_back(idx);
}
}
dives = std::move(divesNew);
}
EditWeightBase::~EditWeightBase()
{
}
bool EditWeightBase::workToBeDone()
{
return !dives.empty();
}
// ***** Remove Weight *****
RemoveWeight::RemoveWeight(int index, bool currentDiveOnly) :
EditWeightBase(index, currentDiveOnly)
{
size_t num_dives = dives.size();
if (num_dives == 1)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Remove weight")).arg(diveNumberOrDate(dives[0])));
else
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Remove weight (%n dive(s))", "", num_dives)).arg(getListOfDives(dives)));
}
void RemoveWeight::undo()
{
for (size_t i = 0; i < dives.size(); ++i) {
add_to_weightsystem_table(&dives[i]->weightsystems, indices[i], ws);
emit diveListNotifier.weightAdded(dives[i], indices[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
void RemoveWeight::redo()
{
for (size_t i = 0; i < dives.size(); ++i) {
remove_weightsystem(dives[i], indices[i]);
emit diveListNotifier.weightRemoved(dives[i], indices[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
// ***** Edit Weight *****
EditWeight::EditWeight(int index, weightsystem_t wsIn, bool currentDiveOnly) :
EditWeightBase(index, currentDiveOnly)
{
if (dives.empty())
return;
size_t num_dives = dives.size();
if (num_dives == 1)
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit weight")).arg(diveNumberOrDate(dives[0])));
else
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("Edit weight (%n dive(s))", "", num_dives)).arg(getListOfDives(dives)));
// Try to untranslate the weightsystem name
new_ws = std::move(wsIn);
QString vString = QString::fromStdString(new_ws.description);
auto it = std::find_if(ws_info_table.begin(), ws_info_table.end(),
[&vString](const ws_info &info)
{ return gettextFromC::tr(info.name.c_str()) == vString; });
if (it != ws_info_table.end())
new_ws.description = it->name;
// If that doesn't change anything, do nothing
if (same_weightsystem(ws, new_ws)) {
dives.clear();
return;
}
}
EditWeight::~EditWeight()
{
}
void EditWeight::redo()
{
for (size_t i = 0; i < dives.size(); ++i) {
add_weightsystem_description(new_ws); // This updates the weightsystem info table
set_weightsystem(dives[i], indices[i], new_ws);
emit diveListNotifier.weightEdited(dives[i], indices[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
std::swap(ws, new_ws);
}
// Undo and redo do the same as just the stored value is exchanged
void EditWeight::undo()
{
redo();
}
// ***** Add Cylinder *****
AddCylinder::AddCylinder(bool currentDiveOnly) :
EditDivesBase(currentDiveOnly)
{
if (dives.empty())
return;
else if (dives.size() == 1)
setText(Command::Base::tr("Add cylinder"));
else
setText(Command::Base::tr("Add cylinder (%n dive(s))", "", dives.size()));
cyl = create_new_manual_cylinder(dives[0]);
indexes.reserve(dives.size());
}
AddCylinder::~AddCylinder()
{
}
bool AddCylinder::workToBeDone()
{
return true;
}
void AddCylinder::undo()
{
for (size_t i = 0; i < dives.size(); ++i) {
remove_cylinder(dives[i], indexes[i]);
divelog.dives.update_cylinder_related_info(dives[i]);
emit diveListNotifier.cylinderRemoved(dives[i], indexes[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
void AddCylinder::redo()
{
indexes.clear();
for (dive *d: dives) {
int index = first_hidden_cylinder(d);
indexes.push_back(index);
add_cylinder(&d->cylinders, index, cyl);
divelog.dives.update_cylinder_related_info(d);
emit diveListNotifier.cylinderAdded(d, index);
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
}
static bool same_cylinder_type(const cylinder_t &cyl1, const cylinder_t &cyl2)
{
return std::tie(cyl1.cylinder_use, cyl1.type.description) ==
std::tie(cyl2.cylinder_use, cyl2.type.description);
}
static bool same_cylinder_size(const cylinder_t &cyl1, const cylinder_t &cyl2)
{
return std::tie(cyl1.type.size.mliter, cyl1.type.workingpressure.mbar) ==
std::tie(cyl2.type.size.mliter, cyl2.type.workingpressure.mbar);
}
// Flags for comparing cylinders
static constexpr int SAME_TYPE = 1 << 0;
static constexpr int SAME_SIZE = 1 << 1;
static constexpr int SAME_PRESS = 1 << 2;
static constexpr int SAME_GAS = 1 << 3;
EditCylinderBase::EditCylinderBase(int index, bool currentDiveOnly, bool nonProtectedOnly, int sameCylinderFlags) :
EditDivesBase(currentDiveOnly)
{
// Get the old cylinder, bail if index is invalid
if (!current || index < 0 || index >= static_cast<int>(current->cylinders.size())) {
dives.clear();
return;
}
const cylinder_t &orig = *get_cylinder(current, index);
std::vector<dive *> divesNew;
divesNew.reserve(dives.size());
indexes.reserve(dives.size());
cyl.reserve(dives.size());
for (dive *d: dives) {
if (index >= static_cast<int>(d->cylinders.size()))
continue;
if (nonProtectedOnly && is_cylinder_prot(d, index))
continue;
// We checked that the cylinder exists above.
const cylinder_t &cylinder = d->cylinders[index];
if (d != current &&
(!same_cylinder_size(orig, cylinder) || !same_cylinder_type(orig, cylinder))) {
// when editing cylinders, we assume that the user wanted to edit the 'n-th' cylinder
// and we only do edit that cylinder, if it was the same type as the one in the current dive
continue;
}
divesNew.push_back(d);
// that's silly as it's always the same value - but we need this vector of indices in the case where we add
// a cylinder to several dives as the spot will potentially be different in different dives
indexes.push_back(index);
cyl.push_back(cylinder);
}
dives = std::move(divesNew);
}
EditCylinderBase::~EditCylinderBase()
{
}
bool EditCylinderBase::workToBeDone()
{
return !dives.empty();
}
// ***** Remove Cylinder *****
RemoveCylinder::RemoveCylinder(int index, bool currentDiveOnly) :
EditCylinderBase(index, currentDiveOnly, true, SAME_TYPE | SAME_PRESS | SAME_GAS)
{
if (dives.size() == 1)
setText(Command::Base::tr("Remove cylinder"));
else
setText(Command::Base::tr("Remove cylinder (%n dive(s))", "", dives.size()));
}
void RemoveCylinder::undo()
{
for (size_t i = 0; i < dives.size(); ++i) {
std::vector<int> mapping = get_cylinder_map_for_add(dives[i]->cylinders.size(), indexes[i]);
add_cylinder(&dives[i]->cylinders, indexes[i], cyl[i]);
cylinder_renumber(*dives[i], &mapping[0]);
divelog.dives.update_cylinder_related_info(dives[i]);
emit diveListNotifier.cylinderAdded(dives[i], indexes[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
void RemoveCylinder::redo()
{
for (size_t i = 0; i < dives.size(); ++i) {
std::vector<int> mapping = get_cylinder_map_for_remove(dives[i]->cylinders.size(), indexes[i]);
remove_cylinder(dives[i], indexes[i]);
cylinder_renumber(*dives[i], &mapping[0]);
divelog.dives.update_cylinder_related_info(dives[i]);
emit diveListNotifier.cylinderRemoved(dives[i], indexes[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
static int editCylinderTypeToFlags(EditCylinderType type)
{
switch (type) {
default:
case EditCylinderType::TYPE:
return SAME_TYPE | SAME_SIZE;
case EditCylinderType::PRESSURE:
return SAME_PRESS;
case EditCylinderType::GASMIX:
return SAME_GAS;
}
}
// ***** Edit Cylinder *****
EditCylinder::EditCylinder(int index, cylinder_t cylIn, EditCylinderType typeIn, bool currentDiveOnly) :
EditCylinderBase(index, currentDiveOnly, false, editCylinderTypeToFlags(typeIn)),
type(typeIn)
{
if (dives.empty())
return;
if (dives.size() == 1)
setText(Command::Base::tr("Edit cylinder"));
else
setText(Command::Base::tr("Edit cylinder (%n dive(s))", "", dives.size()));
// The base class copied the cylinders for us, let's edit them
for (int i = 0; i < (int)indexes.size(); ++i) {
switch (type) {
case EditCylinderType::TYPE:
cyl[i].type = cylIn.type;
cyl[i].type.description = cylIn.type.description;
cyl[i].cylinder_use = cylIn.cylinder_use;
break;
case EditCylinderType::PRESSURE:
cyl[i].start.mbar = cylIn.start.mbar;
cyl[i].end.mbar = cylIn.end.mbar;
break;
case EditCylinderType::GASMIX:
cyl[i].gasmix = cylIn.gasmix;
cyl[i].bestmix_o2 = cylIn.bestmix_o2;
cyl[i].bestmix_he = cylIn.bestmix_he;
sanitize_gasmix(cyl[i].gasmix);
break;
}
}
}
void EditCylinder::redo()
{
for (size_t i = 0; i < dives.size(); ++i) {
const std::string &name = cyl[i].type.description;
set_tank_info_data(tank_info_table, name, cyl[i].type.size, cyl[i].type.workingpressure);
std::swap(*get_cylinder(dives[i], indexes[i]), cyl[i]);
divelog.dives.update_cylinder_related_info(dives[i]);
emit diveListNotifier.cylinderEdited(dives[i], indexes[i]);
invalidate_dive_cache(dives[i]); // Ensure that dive is written in git_save()
}
}
// Undo and redo do the same as just the stored value is exchanged
void EditCylinder::undo()
{
redo();
}
EditSensors::EditSensors(int toCylinderIn, int fromCylinderIn, int dcNr)
: d(current_dive), dc(get_dive_dc(d, dcNr)), toCylinder(toCylinderIn), fromCylinder(fromCylinderIn)
{
if (!d || !dc)
return;
setText(Command::Base::tr("Edit sensors"));
}
void EditSensors::mapSensors(int toCyl, int fromCyl)
{
for (auto &sample: dc->samples) {
for (int s = 0; s < MAX_SENSORS; ++s) {
if (sample.pressure[s].mbar && sample.sensor[s] == fromCyl)
sample.sensor[s] = toCyl;
// In case the cylinder we are moving to has a sensor attached, move it to the other cylinder
else if (sample.pressure[s].mbar && sample.sensor[s] == toCyl)
sample.sensor[s] = fromCyl;
}
}
emit diveListNotifier.diveComputerEdited(dc);
invalidate_dive_cache(d); // Ensure that dive is written in git_save()
}
void EditSensors::undo()
{
mapSensors(fromCylinder, toCylinder);
}
void EditSensors::redo()
{
mapSensors(toCylinder, fromCylinder);
}
bool EditSensors::workToBeDone()
{
return d && dc;
}
#ifdef SUBSURFACE_MOBILE
EditDive::EditDive(dive *oldDiveIn, dive *newDiveIn, dive_site *createDs, dive_site *editDs, location_t dsLocationIn)
: oldDive(oldDiveIn)
, newDive(newDiveIn)
, newDiveSite(newDiveIn->dive_site)
, changedFields(DiveField::NONE)
, siteToRemove(nullptr)
, siteToAdd(createDs)
, siteToEdit(editDs)
, dsLocation(dsLocationIn)
{
if (!oldDive || !newDive)
return;
setText(Command::Base::tr("Edit dive [%1]").arg(diveNumberOrDate(oldDive)));
// Calculate the fields that changed.
// Note: Probably not needed, as on mobile we don't have that granularity.
// However, for future-proofeness let's just do it.
changedFields = DiveField::NONE;
if (oldDive->number != newDive->number)
changedFields |= DiveField::NR;
if (oldDive->when != newDive->when)
changedFields |= DiveField::DATETIME;
if (oldDive->maxdepth.mm != newDive->maxdepth.mm)
changedFields |= DiveField::DEPTH;
if (oldDive->duration.seconds != newDive->duration.seconds)
changedFields |= DiveField::DURATION;
if (oldDive->airtemp.mkelvin != newDive->airtemp.mkelvin)
changedFields |= DiveField::AIR_TEMP;
if (oldDive->watertemp.mkelvin != newDive->watertemp.mkelvin)
changedFields |= DiveField::WATER_TEMP;
if (oldDive->surface_pressure.mbar != newDive->surface_pressure.mbar)
changedFields |= DiveField::ATM_PRESS;
if (oldDive->dive_site != newDive->dive_site)
changedFields |= DiveField::DIVESITE;
if (oldDive->diveguide != newDive->diveguide)
changedFields |= DiveField::DIVEGUIDE;
if (oldDive->buddy != newDive->buddy)
changedFields |= DiveField::BUDDY;
if (oldDive->rating != newDive->rating)
changedFields |= DiveField::RATING;
if (oldDive->visibility != newDive->visibility)
changedFields |= DiveField::VISIBILITY;
if (oldDive->wavesize != newDive->wavesize)
changedFields |= DiveField::WAVESIZE;
if (oldDive->current != newDive->current)
changedFields |= DiveField::CURRENT;
if (oldDive->surge != newDive->surge)
changedFields |= DiveField::SURGE;
if (oldDive->chill != newDive->chill)
changedFields |= DiveField::CHILL;
if (oldDive->suit != newDive->suit)
changedFields |= DiveField::SUIT;
if (taglist_get_tagstring(oldDive->tags) != taglist_get_tagstring(newDive->tags)) // This is cheating. Do we have a taglist comparison function?
changedFields |= DiveField::TAGS;
if (oldDive->dcs[0].divemode != newDive->dcs[0].divemode)
changedFields |= DiveField::MODE;
if (oldDive->notes != newDive->notes)
changedFields |= DiveField::NOTES;
if (oldDive->salinity != newDive->salinity)
changedFields |= DiveField::SALINITY;
newDive->dive_site = nullptr; // We will add the dive to the site manually and therefore saved the dive site.
}
void EditDive::undo()
{
if (siteToRemove) {
auto res = divelog.sites.pull(siteToRemove);
siteToAdd = std::move(res.ptr);
emit diveListNotifier.diveSiteDeleted(siteToRemove, res.idx); // Inform frontend of removed dive site.
}
exchangeDives();
editDs();
}
void EditDive::redo()
{
if (siteToAdd) {
auto res = divelog.sites.register_site(std::move(siteToAdd)); // Return ownership to backend.
siteToRemove = res.ptr;
emit diveListNotifier.diveSiteAdded(siteToRemove, res.idx); // Inform frontend of new dive site.
}
exchangeDives();
editDs();
}
void EditDive::exchangeDives()
{
// Set the filter flag of the new dive to the old dive.
// Reason: When we send the dive-changed signal, the model will
// track the *change* of the filter flag, so we must not overwrite
// it by swapping the dive data.
newDive->hidden_by_filter = oldDive->hidden_by_filter;
// Bluntly exchange dive data by shallow copy.
// Don't forget to unregister the old and register the new dive!
// Likewise take care to add/remove the dive from the dive site.
fulltext_unregister(oldDive);
dive_site *oldDiveSite = oldDive->dive_site;
if (oldDiveSite)
unregister_dive_from_dive_site(oldDive); // the dive-site pointer in the dive is now NULL
std::swap(*newDive, *oldDive);
fulltext_register(oldDive);
if (newDiveSite)
newDiveSite->add_dive(oldDive);
newDiveSite = oldDiveSite; // remember the previous dive site
invalidate_dive_cache(oldDive);
// Changing times may have unsorted the dive and trip tables
QVector<dive *> dives = { oldDive };
timestamp_t delta = oldDive->when - newDive->when;
if (delta != 0) {
divelog.dives.sort();
divelog.trips.sort();
if (newDive->divetrip != oldDive->divetrip)
qWarning("Command::EditDive::redo(): This command does not support moving between trips!");
if (oldDive->divetrip)
newDive->divetrip->sort_dives(); // Keep the trip-table in order
emit diveListNotifier.divesTimeChanged(delta, dives);
}
// Send signals
emit diveListNotifier.divesChanged(dives, changedFields);
// Select the changed dives
setSelection( { oldDive }, oldDive, -1);
}
void EditDive::editDs()
{
if (siteToEdit) {
std::swap(siteToEdit->location, dsLocation);
emit diveListNotifier.diveSiteChanged(siteToEdit, LocationInformationModel::LOCATION); // Inform frontend of changed dive site.
}
}
bool EditDive::workToBeDone()
{
// We trust the frontend that an EditDive command is only created if there are changes.
return true;
}
#endif // SUBSURFACE_MOBILE
} // namespace Command