subsurface/commands/command_divelist.cpp
Berthold Stoeger 8a3a0edb83 cleanup: silence std::move()-related Coverity warnings
Unfortunately Coverity doesn't understand that most Qt data
structures are copy-on-write. It's a mis-feature of Qt, but
it is the way it is. Thus, passing by value is not an issue.

Out of ca. 25 warnings only two were legit. Let's silence
the others by either std::move()ing or passing by reference,
as would be idiomatic C++, which Qt is not.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2024-01-15 15:11:36 -08:00

1074 lines
36 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "command_divelist.h"
#include "core/divelist.h"
#include "core/divelog.h"
#include "core/qthelper.h"
#include "core/selection.h"
#include "core/subsurface-qt/divelistnotifier.h"
#include "qt-models/filtermodels.h"
#include "core/divefilter.h"
#include <array>
namespace Command {
// Helper function that takes care to unselect trips that are removed from the backend
static void remove_trip_from_backend(dive_trip *trip)
{
if (trip->selected)
deselect_trip(trip);
remove_trip(trip, divelog.trips); // Remove trip from backend
}
// This helper function removes a dive, takes ownership of the dive and adds it to a DiveToAdd structure.
// If the trip the dive belongs to becomes empty, it is removed and added to the tripsToAdd vector.
// It is crucial that dives are added in reverse order of deletion, so that the indices are correctly
// set and that the trips are added before they are used!
DiveToAdd DiveListBase::removeDive(struct dive *d, std::vector<OwningTripPtr> &tripsToAdd)
{
// If the dive was the current dive, reset the current dive. The calling
// command is responsible of finding a new dive.
if (d == current_dive)
current_dive = nullptr;
// remove dive from trip and site - if this is the last dive in the trip
// remove the whole trip.
DiveToAdd res;
res.trip = unregister_dive_from_trip(d);
if (d->dive_site)
diveSiteCountChanged(d->dive_site);
res.site = unregister_dive_from_dive_site(d);
if (res.trip && res.trip->dives.nr == 0) {
remove_trip_from_backend(res.trip); // Remove trip from backend
tripsToAdd.emplace_back(res.trip); // Take ownership of trip
}
int idx = get_divenr(d);
if (idx < 0)
qWarning("Deletion of unknown dive!");
DiveFilter::instance()->diveRemoved(d);
res.dive.reset(unregister_dive(idx)); // Remove dive from backend
return res;
}
void DiveListBase::diveSiteCountChanged(struct dive_site *ds)
{
if (std::find(sitesCountChanged.begin(), sitesCountChanged.end(), ds) == sitesCountChanged.end())
sitesCountChanged.push_back(ds);
}
// This helper function adds a dive and returns ownership to the backend. It may also add a dive trip.
// It is crucial that dives are added in reverse order of deletion (see comment above)!
// Returns pointer to added dive (which is owned by the backend!)
dive *DiveListBase::addDive(DiveToAdd &d)
{
if (d.trip)
add_dive_to_trip(d.dive.get(), d.trip);
if (d.site) {
add_dive_to_dive_site(d.dive.get(), d.site);
diveSiteCountChanged(d.site);
}
dive *res = d.dive.release(); // Give up ownership of dive
// When we add dives, we start in hidden-by-filter status. Once all
// dives have been added, their status will be updated.
res->hidden_by_filter = true;
int idx = dive_table_get_insertion_index(divelog.dives, res);
fulltext_register(res); // Register the dive's fulltext cache
add_to_dive_table(divelog.dives, idx, res); // Return ownership to backend
invalidate_dive_cache(res); // Ensure that dive is written in git_save()
return res;
}
// Some signals are sent in batches per trip. To avoid writing the same loop
// twice, this template takes a vector of trip / dive pairs, sorts it
// by trip and then calls a function-object with trip and a QVector of dives in that trip.
// The dives are sorted by the dive_less_than() function defined in the core.
// Input parameters:
// - dives: a vector of trip,dive pairs, which will be sorted and processed in batches by trip.
// - action: a function object, taking a trip-pointer and a QVector of dives, which will be called for each batch.
template<typename Function>
void processByTrip(std::vector<std::pair<dive_trip *, dive *>> &dives, Function action)
{
// Sort lexicographically by trip then according to the dive_less_than() function.
std::sort(dives.begin(), dives.end(),
[](const std::pair<dive_trip *, dive *> &e1, const std::pair<dive_trip *, dive *> &e2)
{ return e1.first == e2.first ? dive_less_than(e1.second, e2.second) : e1.first < e2.first; });
// Then, process the dives in batches by trip
size_t i, j; // Begin and end of batch
for (i = 0; i < dives.size(); i = j) {
dive_trip *trip = dives[i].first;
for (j = i + 1; j < dives.size() && dives[j].first == trip; ++j)
; // pass
// Copy dives into a QVector. Some sort of "range_view" would be ideal, but Qt doesn't work this way.
QVector<dive *> divesInTrip(j - i);
for (size_t k = i; k < j; ++k)
divesInTrip[k - i] = dives[k].second;
// Finally, emit the signal
action(trip, divesInTrip);
}
}
// This helper function calls removeDive() on a list of dives to be removed and
// returns a vector of corresponding DiveToAdd objects, which can later be readded.
// Moreover, a vector of deleted trips is returned, if trips became empty.
// The passed in vector is cleared.
DivesAndTripsToAdd DiveListBase::removeDives(DivesAndSitesToRemove &divesAndSitesToDelete)
{
std::vector<DiveToAdd> divesToAdd;
std::vector<OwningTripPtr> tripsToAdd;
std::vector<OwningDiveSitePtr> sitesToAdd;
divesToAdd.reserve(divesAndSitesToDelete.dives.size());
sitesToAdd.reserve(divesAndSitesToDelete.sites.size());
// Remember old number of shown dives
int oldShown = DiveFilter::instance()->shownDives();
// Make sure that the dive list is sorted. The added dives will be sent in a signal
// and the recipients assume that the dives are sorted the same way as they are
// in the core list.
std::sort(divesAndSitesToDelete.dives.begin(), divesAndSitesToDelete.dives.end(), dive_less_than);
for (dive *d: divesAndSitesToDelete.dives)
divesToAdd.push_back(removeDive(d, tripsToAdd));
divesAndSitesToDelete.dives.clear();
for (dive_site *ds: divesAndSitesToDelete.sites) {
int idx = unregister_dive_site(ds);
sitesToAdd.emplace_back(ds);
emit diveListNotifier.diveSiteDeleted(ds, idx);
}
divesAndSitesToDelete.sites.clear();
// We send one dives-deleted signal per trip (see comments in divelistnotifier.h).
// Therefore, collect all dives in an array and sort by trip.
std::vector<std::pair<dive_trip *, dive *>> dives;
dives.reserve(divesToAdd.size());
for (const DiveToAdd &entry: divesToAdd)
dives.push_back({ entry.trip, entry.dive.get() });
// Send signals.
processByTrip(dives, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
// Check if this trip is supposed to be deleted, by checking if it was marked as "add it".
bool deleteTrip = trip &&
std::find_if(tripsToAdd.begin(), tripsToAdd.end(), [trip](const OwningTripPtr &ptr)
{ return ptr.get() == trip; }) != tripsToAdd.end();
emit diveListNotifier.divesDeleted(trip, deleteTrip, divesInTrip);
});
if (oldShown != DiveFilter::instance()->shownDives())
emit diveListNotifier.numShownChanged();
return { std::move(divesToAdd), std::move(tripsToAdd), std::move(sitesToAdd) };
}
// This helper function is the counterpart fo removeDives(): it calls addDive() on a list
// of dives to be (re)added and returns a vector of the added dives. It does this in reverse
// order, so that trips are created appropriately and indexing is correct.
// The passed in vector is cleared.
DivesAndSitesToRemove DiveListBase::addDives(DivesAndTripsToAdd &toAdd)
{
std::vector<dive *> res;
std::vector<dive_site *> sites;
std::vector<std::pair<dive_trip *, dive *>> dives;
res.resize(toAdd.dives.size());
sites.reserve(toAdd.sites.size());
dives.reserve(toAdd.sites.size());
// Make sure that the dive list is sorted. The added dives will be sent in a signal
// and the recipients assume that the dives are sorted the same way as they are
// in the core list.
std::sort(toAdd.dives.begin(), toAdd.dives.end(),
[](const DiveToAdd &d, const DiveToAdd &d2)
{ return dive_less_than(d.dive.get(), d2.dive.get()); });
// Now, add the dives
// Note: the idiomatic STL-way would be std::transform, but let's use a loop since
// that is closer to classical C-style.
auto it2 = res.rbegin();
QVector<dive *> divesToFilter;
divesToFilter.reserve(toAdd.dives.size());
for (auto it = toAdd.dives.rbegin(); it != toAdd.dives.rend(); ++it, ++it2) {
*it2 = addDive(*it);
dives.push_back({ (*it2)->divetrip, *it2 });
divesToFilter.push_back(*it2);
}
toAdd.dives.clear();
ShownChange change = DiveFilter::instance()->update(divesToFilter);
// If the dives belong to new trips, add these as well.
// Remember the pointers so that we can later check if a trip was newly added
std::vector<dive_trip *> addedTrips;
addedTrips.reserve(toAdd.trips.size());
for (OwningTripPtr &trip: toAdd.trips) {
addedTrips.push_back(trip.get());
insert_trip(trip.release(), divelog.trips); // Return ownership to backend
}
toAdd.trips.clear();
// Finally, add any necessary dive sites
for (OwningDiveSitePtr &ds: toAdd.sites) {
sites.push_back(ds.get());
int idx = register_dive_site(ds.release()); // Return ownership to backend
emit diveListNotifier.diveSiteAdded(sites.back(), idx);
}
toAdd.sites.clear();
// Send signals by trip.
processByTrip(dives, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
// Now, let's check if this trip is supposed to be created, by checking if it was marked as "add it".
bool createTrip = trip && std::find(addedTrips.begin(), addedTrips.end(), trip) != addedTrips.end();
// Finally, emit the signal
emit diveListNotifier.divesAdded(trip, createTrip, divesInTrip);
});
if (!change.newShown.empty() || !change.newHidden.empty())
emit diveListNotifier.numShownChanged();
return { std::move(res), std::move(sites) };
}
// This helper function renumbers dives according to an array of id/number pairs.
// The old numbers are stored in the array, thus calling this function twice has no effect.
static void renumberDives(QVector<QPair<dive *, int>> &divesToRenumber)
{
QVector<dive *> dives;
dives.reserve(divesToRenumber.size());
for (auto &pair: divesToRenumber) {
dive *d = pair.first;
if (!d)
continue;
std::swap(d->number, pair.second);
dives.push_back(d);
invalidate_dive_cache(d);
}
// Send signals.
emit diveListNotifier.divesChanged(dives, DiveField::NR);
}
// This helper function moves a dive to a trip. The old trip is recorded in the
// passed-in structure. This means that calling the function twice on the same
// object is a no-op concerning the dive. If the old trip was deleted from the
// core, an owning pointer to the removed trip is returned, otherwise a null pointer.
static OwningTripPtr moveDiveToTrip(DiveToTrip &diveToTrip)
{
// Firstly, check if we move to the same trip and bail if this is a no-op.
if (diveToTrip.trip == diveToTrip.dive->divetrip)
return {};
// Remove from old trip
OwningTripPtr res;
// Remove dive from trip - if this is the last dive in the trip, remove the whole trip.
dive_trip *trip = unregister_dive_from_trip(diveToTrip.dive);
if (trip && trip->dives.nr == 0) {
remove_trip_from_backend(trip); // Remove trip from backend
res.reset(trip);
}
// Store old trip and get new trip we should associate this dive with
std::swap(trip, diveToTrip.trip);
if (trip)
add_dive_to_trip(diveToTrip.dive, trip);
invalidate_dive_cache(diveToTrip.dive); // Ensure that dive is written in git_save()
return res;
}
// This helper function moves a set of dives between trips using the
// moveDiveToTrip function. Before doing so, it adds the necessary trips to
// the core. Trips that are removed from the core because they are empty
// are recorded in the passed in struct. The vectors of trips and dives
// are reversed. Thus, calling the function twice on the same object is
// a no-op.
static void moveDivesBetweenTrips(DivesToTrip &dives)
{
// We collect an array of created trips so that we can instruct
// the model to create a new entry
std::vector<dive_trip *> createdTrips;
createdTrips.reserve(dives.tripsToAdd.size());
// First, bring back the trip(s)
for (OwningTripPtr &trip: dives.tripsToAdd) {
dive_trip *t = trip.release(); // Give up ownership
createdTrips.push_back(t);
insert_trip(t, divelog.trips); // Return ownership to backend
}
dives.tripsToAdd.clear();
for (DiveToTrip &dive: dives.divesToMove) {
OwningTripPtr tripToAdd = moveDiveToTrip(dive);
// register trips that we'll have to readd
if (tripToAdd)
dives.tripsToAdd.push_back(std::move(tripToAdd));
}
// We send one signal per from-trip/to-trip pair.
// First, collect all dives in a struct and sort by from-trip/to-trip.
struct DiveMoved {
dive_trip *from;
dive_trip *to;
dive *d;
};
std::vector<DiveMoved> divesMoved;
divesMoved.reserve(dives.divesToMove.size());
for (const DiveToTrip &entry: dives.divesToMove)
divesMoved.push_back({ entry.trip, entry.dive->divetrip, entry.dive });
// Sort lexicographically by from-trip, to-trip and by start-time.
// Use std::tie() for lexicographical sorting.
std::sort(divesMoved.begin(), divesMoved.end(), [] ( const DiveMoved &d1, const DiveMoved &d2)
{ return std::tie(d1.from, d1.to, d1.d->when) < std::tie(d2.from, d2.to, d2.d->when); });
// Now, process the dives in batches by trip
// TODO: this is a bit different from the cases above, so we don't use the processByTrip template,
// but repeat the loop here. We might think about generalizing the template, if more of such
// "special cases" appear.
size_t i, j; // Begin and end of batch
for (i = 0; i < divesMoved.size(); i = j) {
dive_trip *from = divesMoved[i].from;
dive_trip *to = divesMoved[i].to;
for (j = i + 1; j < divesMoved.size() && divesMoved[j].from == from && divesMoved[j].to == to; ++j)
; // pass
// Copy dives into a QVector. Some sort of "range_view" would be ideal, but Qt doesn't work this way.
QVector<dive *> divesInTrip(j - i);
for (size_t k = i; k < j; ++k)
divesInTrip[k - i] = divesMoved[k].d;
// Check if the from-trip was deleted: If yes, it was recorded in the tripsToAdd structure.
// Only set the flag if this is that last time this trip is featured.
bool deleteFrom = from &&
std::find_if(divesMoved.begin() + j, divesMoved.end(), // Is this the last occurence of "from"?
[from](const DiveMoved &entry) { return entry.from == from; }) == divesMoved.end() &&
std::find_if(dives.tripsToAdd.begin(), dives.tripsToAdd.end(), // Is "from" in tripsToAdd?
[from](const OwningTripPtr &trip) { return trip.get() == from; }) != dives.tripsToAdd.end();
// Check if the to-trip has to be created. For this purpose, we saved an array of trips to be created.
bool createTo = false;
if (to) {
// Check if the element is there...
auto it = std::find(createdTrips.begin(), createdTrips.end(), to);
// ...if it is - remove it as we don't want the model to create the trip twice!
if (it != createdTrips.end()) {
createTo = true;
// erase/remove would be more performant, but this is irrelevant in the big scheme of things.
createdTrips.erase(it);
}
}
// Finally, emit the signal
emit diveListNotifier.divesMovedBetweenTrips(from, to, deleteFrom, createTo, divesInTrip);
}
// Reverse the tripsToAdd and the divesToAdd, so that on undo/redo the operations
// will be performed in reverse order.
std::reverse(dives.tripsToAdd.begin(), dives.tripsToAdd.end());
std::reverse(dives.divesToMove.begin(), dives.divesToMove.end());
}
void DiveListBase::initWork()
{
}
void DiveListBase::finishWork()
{
for (dive_site *ds: sitesCountChanged)
emit diveListNotifier.diveSiteDiveCountChanged(ds);
}
void DiveListBase::undo()
{
initWork();
undoit();
finishWork();
}
void DiveListBase::redo()
{
initWork();
redoit();
finishWork();
}
AddDive::AddDive(dive *d, bool autogroup, bool newNumber)
{
setText(Command::Base::tr("add dive"));
// By convention, d is a pointer to "displayed dive" or a temporary variable and can be overwritten.
d->maxdepth.mm = 0;
d->dc.maxdepth.mm = 0;
fixup_dive(d);
// this only matters if undoit were called before redoit
currentDive = nullptr;
// Get an owning pointer to a moved dive.
OwningDivePtr divePtr(move_dive(d));
divePtr->selected = false; // If we clone a planned dive, it might have been selected.
// We have to clear the flag, as selections will be managed
// on dive-addition.
// If we alloc a new-trip for autogrouping, get an owning pointer to it.
OwningTripPtr allocTrip;
dive_trip *trip = divePtr->divetrip;
dive_site *site = divePtr->dive_site;
// We have to delete the pointers to trip and site, because this would prevent the core from adding to the
// trip or site and we would get the count-of-dives in the trip or site wrong. Yes, that's all horribly subtle!
divePtr->divetrip = nullptr;
divePtr->dive_site = nullptr;
if (!trip && autogroup) {
bool alloc;
trip = get_trip_for_new_dive(divePtr.get(), &alloc);
if (alloc)
allocTrip.reset(trip);
}
int idx = dive_table_get_insertion_index(divelog.dives, divePtr.get());
if (newNumber)
divePtr->number = get_dive_nr_at_idx(idx);
divesToAdd.dives.push_back({ std::move(divePtr), trip, site });
if (allocTrip)
divesToAdd.trips.push_back(std::move(allocTrip));
}
bool AddDive::workToBeDone()
{
return true;
}
void AddDive::redoit()
{
// Remember selection so that we can undo it
selection = getDiveSelection();
currentDive = current_dive;
divesAndSitesToRemove = addDives(divesToAdd);
sort_trip_table(divelog.trips); // Though unlikely, adding a dive may reorder trips
// Select the newly added dive
setSelection(divesAndSitesToRemove.dives, divesAndSitesToRemove.dives[0], -1);
}
void AddDive::undoit()
{
// Simply remove the dive that was previously added...
divesToAdd = removeDives(divesAndSitesToRemove);
sort_trip_table(divelog.trips); // Though unlikely, removing a dive may reorder trips
// ...and restore the selection
setSelection(selection, currentDive, -1);
}
ImportDives::ImportDives(struct divelog *log, int flags, const QString &source)
{
setText(Command::Base::tr("import %n dive(s) from %1", "", log->dives->nr).arg(source));
// this only matters if undoit were called before redoit
currentDive = nullptr;
struct dive_table dives_to_add = empty_dive_table;
struct dive_table dives_to_remove = empty_dive_table;
struct trip_table trips_to_add = empty_trip_table;
struct dive_site_table sites_to_add = empty_dive_site_table;
process_imported_dives(log, flags,
&dives_to_add, &dives_to_remove, &trips_to_add,
&sites_to_add, &devicesToAddAndRemove);
// Add trips to the divesToAdd.trips structure
divesToAdd.trips.reserve(trips_to_add.nr);
for (int i = 0; i < trips_to_add.nr; ++i)
divesToAdd.trips.emplace_back(trips_to_add.trips[i]);
// Add sites to the divesToAdd.sites structure
divesToAdd.sites.reserve(sites_to_add.nr);
for (int i = 0; i < sites_to_add.nr; ++i)
divesToAdd.sites.emplace_back(sites_to_add.dive_sites[i]);
// Add dives to the divesToAdd.dives structure
divesToAdd.dives.reserve(dives_to_add.nr);
for (int i = 0; i < dives_to_add.nr; ++i) {
OwningDivePtr divePtr(dives_to_add.dives[i]);
divePtr->selected = false; // See above in AddDive::AddDive()
dive_trip *trip = divePtr->divetrip;
divePtr->divetrip = nullptr; // See above in AddDive::AddDive()
dive_site *site = divePtr->dive_site;
divePtr->dive_site = nullptr; // See above in AddDive::AddDive()
divesToAdd.dives.push_back({ std::move(divePtr), trip, site });
}
// Add dive to be deleted to the divesToRemove structure
divesAndSitesToRemove.dives.reserve(dives_to_remove.nr);
for (int i = 0; i < dives_to_remove.nr; ++i)
divesAndSitesToRemove.dives.push_back(dives_to_remove.dives[i]);
// When encountering filter presets with equal names, check whether they are
// the same. If they are, ignore them.
for (const filter_preset &preset: *log->filter_presets) {
QString name = preset.name;
auto it = std::find_if(divelog.filter_presets->begin(), divelog.filter_presets->end(),
[&name](const filter_preset &preset) { return preset.name == name; });
if (it != divelog.filter_presets->end() && it->data == preset.data)
continue;
filterPresetsToAdd.emplace_back(preset.name, preset.data);
}
}
bool ImportDives::workToBeDone()
{
return !divesToAdd.dives.empty();
}
void ImportDives::redoit()
{
// Remember selection so that we can undo it
currentDive = current_dive;
// Add new dives and sites
DivesAndSitesToRemove divesAndSitesToRemoveNew = addDives(divesToAdd);
// Remove old dives and sites
divesToAdd = removeDives(divesAndSitesToRemove);
// Select the newly added dives
setSelection(divesAndSitesToRemoveNew.dives, divesAndSitesToRemoveNew.dives.back(), -1);
// Remember dives and sites to remove
divesAndSitesToRemove = std::move(divesAndSitesToRemoveNew);
// Add devices
for (const device &dev: devicesToAddAndRemove.devices)
add_to_device_table(divelog.devices, &dev);
// Add new filter presets
for (auto &it: filterPresetsToAdd) {
filterPresetsToRemove.push_back(filter_preset_add(it.first, it.second));
emit diveListNotifier.filterPresetAdded(filterPresetsToRemove.back());
}
filterPresetsToAdd.clear();
emit diveListNotifier.divesImported();
}
void ImportDives::undoit()
{
// Add new dives and sites
DivesAndSitesToRemove divesAndSitesToRemoveNew = addDives(divesToAdd);
// Remove old dives and sites
divesToAdd = removeDives(divesAndSitesToRemove);
// Remember dives and sites to remove
divesAndSitesToRemove = std::move(divesAndSitesToRemoveNew);
// ...and restore the selection
setSelection(selection, currentDive, -1);
// Remove devices
for (const device &dev: devicesToAddAndRemove.devices)
remove_device(divelog.devices, &dev);
// Remove filter presets. Do this in reverse order.
for (auto it = filterPresetsToRemove.rbegin(); it != filterPresetsToRemove.rend(); ++it) {
int index = *it;
QString oldName = filter_preset_name_qstring(index);
FilterData oldData = filter_preset_get(index);
filter_preset_delete(index);
emit diveListNotifier.filterPresetRemoved(index);
filterPresetsToAdd.emplace_back(oldName, oldData);
}
filterPresetsToRemove.clear();
std::reverse(filterPresetsToAdd.begin(), filterPresetsToAdd.end());
}
DeleteDive::DeleteDive(const QVector<struct dive*> &divesToDeleteIn)
{
divesToDelete.dives = std::vector<dive *>(divesToDeleteIn.begin(), divesToDeleteIn.end());
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("delete %n dive(s)", "", divesToDelete.dives.size())).arg(getListOfDives(divesToDelete.dives)));
}
bool DeleteDive::workToBeDone()
{
return !divesToDelete.dives.empty();
}
void DeleteDive::undoit()
{
divesToDelete = addDives(divesToAdd);
sort_trip_table(divelog.trips); // Though unlikely, removing a dive may reorder trips
// Select all re-added dives and make the first one current
dive *currentDive = !divesToDelete.dives.empty() ? divesToDelete.dives[0] : nullptr;
setSelection(divesToDelete.dives, currentDive, -1);
}
void DeleteDive::redoit()
{
divesToAdd = removeDives(divesToDelete);
sort_trip_table(divelog.trips); // Though unlikely, adding a dive may reorder trips
// Deselect all dives and select dive that was close to the first deleted dive
dive *newCurrent = nullptr;
if (!divesToAdd.dives.empty()) {
timestamp_t when = divesToAdd.dives[0].dive->when;
newCurrent = find_next_visible_dive(when);
}
select_single_dive(newCurrent);
}
ShiftTime::ShiftTime(std::vector<dive *> changedDives, int amount)
: diveList(changedDives), timeChanged(amount)
{
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("shift time of %n dives", "", changedDives.size())).arg(getListOfDives(changedDives)));
}
void ShiftTime::redoit()
{
std::vector<dive_trip *> trips;
for (dive *d: diveList) {
d->when += timeChanged;
if (d->divetrip && std::find(trips.begin(), trips.end(), d->divetrip) == trips.end())
trips.push_back(d->divetrip);
}
// Changing times may have unsorted the dive and trip tables
sort_dive_table(divelog.dives);
sort_trip_table(divelog.trips);
for (dive_trip *trip: trips)
sort_dive_table(&trip->dives); // Keep the trip-table in order
// Send signals
QVector<dive *> dives = stdToQt<dive *>(diveList);
emit diveListNotifier.divesTimeChanged(timeChanged, dives);
emit diveListNotifier.divesChanged(dives, DiveField::DATETIME);
// Select the changed dives
setSelection(diveList, diveList[0], -1);
// Negate the time-shift so that the next call does the reverse
timeChanged = -timeChanged;
}
bool ShiftTime::workToBeDone()
{
return !diveList.empty();
}
void ShiftTime::undoit()
{
// Same as redoit(), since after redoit() we reversed the timeOffset
redoit();
}
RenumberDives::RenumberDives(const QVector<QPair<dive *, int>> &divesToRenumberIn) : divesToRenumber(divesToRenumberIn)
{
std::vector<struct dive *> dives;
dives.reserve(divesToRenumber.length());
for (QPair<dive *, int>divePlusNumber: divesToRenumber)
dives.push_back(divePlusNumber.first);
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("renumber %n dive(s)", "", divesToRenumber.count())).arg(getListOfDives(dives)));
}
void RenumberDives::undoit()
{
renumberDives(divesToRenumber);
// Select the changed dives
std::vector<dive *> dives;
dives.reserve(divesToRenumber.size());
for (const QPair<dive *, int> &item: divesToRenumber)
dives.push_back(item.first);
setSelection(dives, dives[0], -1);
}
bool RenumberDives::workToBeDone()
{
return !divesToRenumber.isEmpty();
}
void RenumberDives::redoit()
{
// Redo and undo do the same thing!
undoit();
}
bool TripBase::workToBeDone()
{
return !divesToMove.divesToMove.empty();
}
void TripBase::redoit()
{
moveDivesBetweenTrips(divesToMove);
sort_trip_table(divelog.trips); // Though unlikely, moving dives may reorder trips
// Select the moved dives
std::vector<dive *> dives;
dives.reserve(divesToMove.divesToMove.size());
for (const DiveToTrip &item: divesToMove.divesToMove)
dives.push_back(item.dive);
setSelection(dives, dives[0], -1);
}
void TripBase::undoit()
{
// Redo and undo do the same thing!
redoit();
}
RemoveDivesFromTrip::RemoveDivesFromTrip(const QVector<dive *> &divesToRemoveIn)
{
// Filter out dives outside of trip. Note: This is in a separate loop to get the command-description right.
QVector<dive *> divesToRemove;
for (dive *d: divesToRemoveIn) {
if (d->divetrip)
divesToRemove.push_back(d);
}
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("remove %n dive(s) from trip", "", divesToRemove.size())).arg(getListOfDives(divesToRemove)));
divesToMove.divesToMove.reserve(divesToRemove.size());
for (dive *d: divesToRemove) {
// If a user manually removes a dive from a trip, don't autogroup this dive.
// The flag will not be reset on undo, but that should be acceptable.
d->notrip = true;
divesToMove.divesToMove.push_back( {d, nullptr} );
}
}
RemoveAutogenTrips::RemoveAutogenTrips()
{
setText(Command::Base::tr("remove autogenerated trips"));
// TODO: don't touch core-innards directly
int i;
struct dive *dive;
for_each_dive(i, dive) {
if (dive->divetrip && dive->divetrip->autogen)
divesToMove.divesToMove.push_back( {dive, nullptr} );
}
}
AddDivesToTrip::AddDivesToTrip(const QVector<dive *> &divesToAddIn, dive_trip *trip)
{
setText(QStringLiteral("%1 [%2]").arg(Command::Base::tr("add %n dives to trip", "", divesToAddIn.size())).arg(getListOfDives(divesToAddIn)));
for (dive *d: divesToAddIn)
divesToMove.divesToMove.push_back( {d, trip} );
}
CreateTrip::CreateTrip(const QVector<dive *> &divesToAddIn)
{
setText(Command::Base::tr("create trip"));
if (divesToAddIn.isEmpty())
return;
dive_trip *trip = create_trip_from_dive(divesToAddIn[0]);
divesToMove.tripsToAdd.emplace_back(trip);
for (dive *d: divesToAddIn)
divesToMove.divesToMove.push_back( {d, trip} );
}
AutogroupDives::AutogroupDives()
{
setText(Command::Base::tr("autogroup dives"));
dive_trip *trip;
bool alloc;
int from, to;
for(int i = 0; (trip = get_dives_to_autogroup(divelog.dives, i, &from, &to, &alloc)) != NULL; i = to) {
// If this is an allocated trip, take ownership
if (alloc)
divesToMove.tripsToAdd.emplace_back(trip);
for (int j = from; j < to; ++j)
divesToMove.divesToMove.push_back( { get_dive(j), trip } );
}
}
MergeTrips::MergeTrips(dive_trip *trip1, dive_trip *trip2)
{
if (trip1 == trip2)
return;
dive_trip *newTrip = combine_trips(trip1, trip2);
divesToMove.tripsToAdd.emplace_back(newTrip);
for (int i = 0; i < trip1->dives.nr; ++i)
divesToMove.divesToMove.push_back( { trip1->dives.dives[i], newTrip } );
for (int i = 0; i < trip2->dives.nr; ++i)
divesToMove.divesToMove.push_back( { trip2->dives.dives[i], newTrip } );
}
// std::array<dive *, 2> is the same as struct *dive[2], with the fundamental
// difference that it can be returned from functions. Thus, this constructor
// can be chained with the result of a function.
SplitDivesBase::SplitDivesBase(dive *d, std::array<dive *, 2> newDives)
{
// If either of the new dives is null, simply return. Empty arrays indicate that nothing is to be done.
if (!newDives[0] || !newDives[1])
return;
// Currently, the core code selects the dive -> this is not what we want, as
// we manually manage the selection post-command.
// TODO: Reset selection in core.
newDives[0]->selected = false;
newDives[1]->selected = false;
// The new dives will be registered to the dive site using the site member
// of the DiveToAdd structure. For this to work, we must set the dive's
// dive_site member to null. Yes, that's subtle!
newDives[0]->dive_site = nullptr;
newDives[1]->dive_site = nullptr;
diveToSplit.dives.push_back(d);
splitDives.dives.resize(2);
splitDives.dives[0].dive.reset(newDives[0]);
splitDives.dives[0].trip = d->divetrip;
splitDives.dives[0].site = d->dive_site;
splitDives.dives[1].dive.reset(newDives[1]);
splitDives.dives[1].trip = d->divetrip;
splitDives.dives[1].site = d->dive_site;
}
bool SplitDivesBase::workToBeDone()
{
return !diveToSplit.dives.empty();
}
void SplitDivesBase::redoit()
{
divesToUnsplit = addDives(splitDives);
unsplitDive = removeDives(diveToSplit);
// Select split dives and make first dive current
setSelection(divesToUnsplit.dives, divesToUnsplit.dives[0], -1);
}
void SplitDivesBase::undoit()
{
// Note: reverse order with respect to redoit()
diveToSplit = addDives(unsplitDive);
splitDives = removeDives(divesToUnsplit);
// Select unsplit dive and make it current
setSelection(diveToSplit.dives, diveToSplit.dives[0], -1);
}
static std::array<dive *, 2> doSplitDives(const dive *d, duration_t time)
{
// Split the dive
dive *new1, *new2;
if (time.seconds < 0)
split_dive(d, &new1, &new2);
else
split_dive_at_time(d, time, &new1, &new2);
return { new1, new2 };
}
SplitDives::SplitDives(dive *d, duration_t time) : SplitDivesBase(d, doSplitDives(d, time))
{
setText(Command::Base::tr("split dive"));
}
static std::array<dive *, 2> splitDiveComputer(const dive *d, int dc_num)
{
// Refuse to do anything if the dive has only one dive computer.
// Yes, this should have been checked by the UI, but let's just make sure.
if (!d->dc.next)
return { nullptr, nullptr};
dive *new1, *new2;
split_divecomputer(d, dc_num, &new1, &new2);
return { new1, new2 };
}
SplitDiveComputer::SplitDiveComputer(dive *d, int dc_num) : SplitDivesBase(d, splitDiveComputer(d, dc_num))
{
setText(Command::Base::tr("split dive computer"));
}
DiveComputerBase::DiveComputerBase(dive *old_dive, dive *new_dive, int dc_nr_before, int dc_nr_after) :
dc_nr_before(dc_nr_before),
dc_nr_after(dc_nr_after)
{
if (!new_dive)
return;
diveToRemove.dives.push_back(old_dive);
// Currently, the core code selects the dive -> this is not what we want, as
// we manually manage the selection post-command.
// TODO: Reset selection in core.
new_dive->selected = false;
// Reset references to trip and site in the new dive, as the undo command
// will add the dive to the trip and site.
new_dive->divetrip = nullptr;
new_dive->dive_site = nullptr;
diveToAdd.dives.resize(1);
diveToAdd.dives[0].dive.reset(new_dive);
diveToAdd.dives[0].trip = old_dive->divetrip;
diveToAdd.dives[0].site = old_dive->dive_site;
}
bool DiveComputerBase::workToBeDone()
{
return !diveToRemove.dives.empty() || !diveToAdd.dives.empty();
}
void DiveComputerBase::redoit()
{
DivesAndSitesToRemove addedDive = addDives(diveToAdd);
diveToAdd = removeDives(diveToRemove);
diveToRemove = std::move(addedDive);
// Select added dive and make it current.
// This automatically replots the profile.
setSelection(diveToRemove.dives, diveToRemove.dives[0], dc_nr_after);
std::swap(dc_nr_before, dc_nr_after);
}
void DiveComputerBase::undoit()
{
// Undo and redo do the same
redoit();
}
MoveDiveComputerToFront::MoveDiveComputerToFront(dive *d, int dc_num)
: DiveComputerBase(d, make_first_dc(d, dc_num), dc_num, 0)
{
setText(Command::Base::tr("move dive computer to front"));
}
DeleteDiveComputer::DeleteDiveComputer(dive *d, int dc_num)
: DiveComputerBase(d, clone_delete_divecomputer(d, dc_num), dc_num, std::min((int)number_of_computers(d) - 1, dc_num))
{
setText(Command::Base::tr("delete dive computer"));
}
MergeDives::MergeDives(const QVector <dive *> &dives)
{
setText(Command::Base::tr("merge dive"));
// Just a safety check - if there's not two or more dives - do nothing
// The caller should have made sure that this doesn't happen.
if (dives.count() < 2) {
qWarning("Merging less than two dives");
return;
}
dive_trip *preferred_trip;
dive_site *preferred_site;
OwningDivePtr d(merge_dives(dives[0], dives[1], dives[1]->when - dives[0]->when, false, &preferred_trip, &preferred_site));
// Currently, the core code selects the dive -> this is not what we want, as
// we manually manage the selection post-command.
// TODO: Remove selection code from core.
d->selected = false;
// Set the preferred dive trip, so that for subsequent merges the better trip can be selected
d->divetrip = preferred_trip;
for (int i = 2; i < dives.count(); ++i) {
d.reset(merge_dives(d.get(), dives[i], dives[i]->when - d->when, false, &preferred_trip, &preferred_site));
// Set the preferred dive trip and site, so that for subsequent merges the better trip and site can be selected
d->divetrip = preferred_trip;
d->dive_site = preferred_site;
}
// We got our preferred trip and site, so now the references can be deleted from the newly generated dive
d->divetrip = nullptr;
d->dive_site = nullptr;
// The merged dive gets the number of the first dive with a non-zero number
for (const dive *dive: dives) {
if (dive->number) {
d->number = dive->number;
break;
}
}
// We will only renumber the remaining dives if the joined dives are consecutive.
// Otherwise all bets are off concerning what the user wanted and doing nothing seems
// like the best option.
int idx = get_divenr(dives[0]);
int num = dives.count();
if (idx < 0 || idx + num > divelog.dives->nr) {
// It was the callers responsibility to pass only known dives.
// Something is seriously wrong - give up.
qWarning("Merging unknown dives");
return;
}
// std::equal compares two ranges. The parameters are (begin_range1, end_range1, begin_range2).
// Here, we can compare C-arrays, because QVector guarantees contiguous storage.
if (std::equal(&dives[0], &dives[0] + num, &divelog.dives->dives[idx]) &&
dives[0]->number && dives.last()->number && dives[0]->number < dives.last()->number) {
// We have a consecutive set of dives. Rename all following dives according to the
// number of erased dives. This considers that there might be missing numbers.
// Comment copied from core/divelist.c:
// So if you had a dive list 1 3 6 7 8, and you
// merge 1 and 3, the resulting numbered list will
// be 1 4 5 6, because we assume that there were
// some missing dives (originally dives 4 and 5),
// that now will still be missing (dives 2 and 3
// in the renumbered world).
//
// Obviously the normal case is that everything is
// consecutive, and the difference will be 1, so the
// above example is not supposed to be normal.
int diff = dives.last()->number - dives[0]->number;
divesToRenumber.reserve(divelog.dives->nr - idx - num);
int previousnr = dives[0]->number;
for (int i = idx + num; i < divelog.dives->nr; ++i) {
int newnr = divelog.dives->dives[i]->number - diff;
// Stop renumbering if stuff isn't in order (see also core/divelist.c)
if (newnr <= previousnr)
break;
divesToRenumber.append(QPair<dive *,int>(divelog.dives->dives[i], newnr));
previousnr = newnr;
}
}
mergedDive.dives.resize(1);
mergedDive.dives[0].dive = std::move(d);
mergedDive.dives[0].trip = preferred_trip;
mergedDive.dives[0].site = preferred_site;
divesToMerge.dives = std::vector<dive *>(dives.begin(), dives.end());
}
bool MergeDives::workToBeDone()
{
return !mergedDive.dives.empty();
}
void MergeDives::redoit()
{
renumberDives(divesToRenumber);
diveToUnmerge = addDives(mergedDive);
unmergedDives = removeDives(divesToMerge);
// Select merged dive and make it current
setSelection(diveToUnmerge.dives, diveToUnmerge.dives[0], -1);
}
void MergeDives::undoit()
{
divesToMerge = addDives(unmergedDives);
mergedDive = removeDives(diveToUnmerge);
renumberDives(divesToRenumber);
// Select unmerged dives and make first one current
setSelection(divesToMerge.dives, divesToMerge.dives[0], -1);
}
} // namespace Command