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// SPDX-License-Identifier: GPL-2.0
#include "command_divelist.h"
#include "desktop-widgets/mainwindow.h"
#include "desktop-widgets/divelistview.h"
#include "core/divelist.h"
#include "core/display.h" // for amount_selected
#include "core/subsurface-qt/DiveListNotifier.h"
namespace Command {
// Generally, signals are sent in batches per trip. To avoid writing the same loop
// again and again, 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.
// 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)
{
// Use std::tie for lexicographical sorting of trip, then start-time
std::sort(dives.begin(), dives.end(),
[](const std::pair<dive_trip *, dive *> &e1, const std::pair<dive_trip *, dive *> &e2)
{ return std::tie(e1.first, e1.second->when) < std::tie(e2.first, e2.second->when); });
// 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 removes a dive, takes ownership of the dive and adds it to a DiveToAdd structure.
// It is crucial that dives are added in reverse order of deletion, so the the indices are correctly
// set and that the trips are added before they are used!
DiveToAdd DiveListBase::removeDive(struct dive *d)
{
// If the dive to be removed is selected, we will inform the frontend
// later via a signal that the dive changed.
if (d->selected)
selectionChanged = true;
// 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) {
selectionChanged = true; // Should have been set above, as current dive is always selected.
current_dive = nullptr;
}
DiveToAdd res;
res.idx = get_divenr(d);
if (res.idx < 0)
qWarning() << "Deletion of unknown dive!";
// remove dive from trip - if this is the last dive in the trip
// remove the whole trip.
res.trip = unregister_dive_from_trip(d, false);
if (res.trip && res.trip->nrdives == 0) {
unregister_trip(res.trip); // Remove trip from backend
res.tripToAdd.reset(res.trip); // Take ownership of trip
}
res.dive.reset(unregister_dive(res.idx)); // Remove dive from backend
return res;
}
// 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.tripToAdd)
insert_trip_dont_merge(d.tripToAdd.release()); // Return ownership to backend
if (d.trip)
add_dive_to_trip(d.dive.get(), d.trip);
dive *res = d.dive.release(); // Give up ownership of dive
add_single_dive(d.idx, res); // Return ownership to backend
// If the dive to be removed is selected, we will inform the frontend
// later via a signal that the dive changed.
if (res->selected)
selectionChanged = true;
return res;
}
// 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.
// The passed in vector is cleared.
std::vector<DiveToAdd> DiveListBase::removeDives(std::vector<dive *> &divesToDelete)
{
std::vector<DiveToAdd> res;
res.reserve(divesToDelete.size());
for (dive *d: divesToDelete)
res.push_back(removeDive(d));
divesToDelete.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(res.size());
for (const DiveToAdd &entry: res)
dives.push_back({ entry.trip, entry.dive.get() });
// Send signals.
processByTrip(dives, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
// Now, let's check if this trip is supposed to be deleted, by checking if it was marked
// as "add it". We could be smarter here, but let's just check the whole array for brevity.
bool deleteTrip = trip &&
std::find_if(res.begin(), res.end(), [trip](const DiveToAdd &entry)
{ return entry.tripToAdd.get() == trip; }) != res.end();
emit diveListNotifier.divesDeleted(trip, deleteTrip, divesInTrip);
});
return res;
}
// 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.
std::vector<dive *> DiveListBase::addDives(std::vector<DiveToAdd> &divesToAdd)
{
std::vector<dive *> res;
res.reserve(divesToAdd.size());
// At the end of the function, to send the proper dives-added signals,
// we the the list of added trips. Create this list now.
std::vector<dive_trip *> addedTrips;
for (const DiveToAdd &entry: divesToAdd) {
if (entry.tripToAdd)
addedTrips.push_back(entry.tripToAdd.get());
}
// Now, add the dives
for (auto it = divesToAdd.rbegin(); it != divesToAdd.rend(); ++it)
res.push_back(addDive(*it));
divesToAdd.clear();
// We send one dives-deleted signal per trip (see comments in DiveListNotifier.h).
// Therefore, collect all dives in a array and sort by trip.
std::vector<std::pair<dive_trip *, dive *>> dives;
dives.reserve(res.size());
for (dive *d: res)
dives.push_back({ d->divetrip, d });
// Send signals.
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". We could be smarter here, but let's just check the whole array for brevity.
bool createTrip = trip && std::find(addedTrips.begin(), addedTrips.end(), trip) != addedTrips.end();
// Finally, emit the signal
emit diveListNotifier.divesAdded(trip, createTrip, divesInTrip);
});
return res;
}
// 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.
// TODO: switch from uniq-id to indexes once all divelist-actions are controlled by undo-able commands
static void renumberDives(QVector<QPair<dive *, int>> &divesToRenumber)
{
for (auto &pair: divesToRenumber) {
dive *d = pair.first;
if (!d)
continue;
std::swap(d->number, pair.second);
}
// Emit changed signals per trip.
// First, collect all dives and sort by trip
std::vector<std::pair<dive_trip *, dive *>> dives;
dives.reserve(divesToRenumber.size());
for (const auto &pair: divesToRenumber) {
dive *d = pair.first;
dives.push_back({ d->divetrip, d });
}
// Send signals.
processByTrip(dives, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
emit diveListNotifier.divesChanged(trip, divesInTrip);
});
}
// 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, false);
if (trip && trip->nrdives == 0) {
unregister_trip(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);
add_dive_to_trip(diveToTrip.dive, trip);
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_dont_merge(t); // 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
bool deleteFrom = from &&
std::find_if(dives.tripsToAdd.begin(), dives.tripsToAdd.end(),
[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());
}
// When we initialize the command we don't have to roll-back any selection change
DiveListBase::DiveListBase() : firstExecution(true)
{
}
// Turn current selection into a vector.
// TODO: This could be made much more efficient if we kept a sorted list of selected dives!
static std::vector<dive *> getDiveSelection()
{
std::vector<dive *> res;
res.reserve(amount_selected);
int i;
dive *d;
for_each_dive(i, d) {
if (d->selected)
res.push_back(d);
}
return res;
}
void DiveListBase::initWork()
{
selectionChanged = false;
}
void DiveListBase::finishWork()
{
if (selectionChanged) // If the selection changed -> tell the frontend
emit diveListNotifier.selectionChanged();
}
// Set the current dive either from a list of selected dives,
// or a newly selected dive. In both cases, try to select the
// dive that is newer that is newer than the given date.
// This mimics the old behavior when the current dive changed.
static void setClosestCurrentDive(timestamp_t when, const std::vector<dive *> &selection)
{
// Start from back until we get the first dive that is before
// the supposed-to-be selected dive. (Note: this mimics the
// old behavior when the current dive changed).
for (auto it = selection.rbegin(); it < selection.rend(); ++it) {
if ((*it)->when > when && !(*it)->hidden_by_filter) {
current_dive = *it;
return;
}
}
// We didn't find a more recent selected dive -> try to
// find *any* visible selected dive.
for (dive *d: selection) {
if (!d->hidden_by_filter) {
current_dive = d;
return;
}
}
// No selected dive is visible! Take the closest dive. Note, this might
// return null, but that just means unsetting the current dive (as no
// dive is visible anyway).
current_dive = find_next_visible_dive(when);
}
// Rese the selection to the dives of the "selection" vector and send the appropriate signals.
// Set the current dive to "currentDive". "currentDive" must be an element of "selection" (or
// null if "seletion" is empty).
void DiveListBase::restoreSelection(const std::vector<dive *> &selection, dive *currentDive)
{
// To do so, generate vectors of dives to be selected and deselected.
// We send signals batched by trip, so keep track of trip/dive pairs.
std::vector<std::pair<dive_trip *, dive *>> divesToSelect;
std::vector<std::pair<dive_trip *, dive *>> divesToDeselect;
// TODO: We might want to keep track of selected dives in a more efficient way!
int i;
dive *d;
amount_selected = 0; // We recalculate amount_selected
for_each_dive(i, d) {
// We only modify dives that are currently visible.
if (d->hidden_by_filter) {
d->selected = false; // Note, not necessary, just to be sure
// that we get amount_selected right
continue;
}
// Search the dive in the list of selected dives.
// TODO: By sorting the list in the same way as the backend, this could be made more efficient.
bool newState = std::find(selection.begin(), selection.end(), d) != selection.end();
// TODO: Instead of using select_dive() and deselect_dive(), we set selected directly.
// The reason is that deselect() automatically sets a new current dive, which we
// don't want, as we set it later anyway.
// There is other parts of the C++ code that touches the innards directly, but
// ultimately this should be pushed down to C.
if (newState && !d->selected) {
d->selected = true;
++amount_selected;
divesToSelect.push_back({ d->divetrip, d });
} else if (!newState && d->selected) {
d->selected = false;
divesToDeselect.push_back({ d->divetrip, d });
}
}
// Send the select and deselect signals
processByTrip(divesToSelect, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
emit diveListNotifier.divesSelected(trip, divesInTrip);
});
processByTrip(divesToDeselect, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
emit diveListNotifier.divesDeselected(trip, divesInTrip);
});
bool currentDiveChanged = false;
if (current_dive != currentDive) {
currentDiveChanged = true;
// We cannot simply change the currentd dive to the given dive.
// It might be hidden by a filter and thus not be selected.
if (currentDive->selected)
// Current dive is visible and selected. Excellent.
current_dive = currentDive;
else
// Current not visible -> find a different dive.
setClosestCurrentDive(currentDive->when, selection);
emit diveListNotifier.currentDiveChanged();
}
// If anything changed (selection or current dive), send a final signal.
if (!divesToSelect.empty() || !divesToDeselect.empty() || currentDiveChanged)
selectionChanged = true;
}
void DiveListBase::undo()
{
auto marker = diveListNotifier.enterCommand();
initWork();
undoit();
finishWork();
}
void DiveListBase::redo()
{
auto marker = diveListNotifier.enterCommand();
initWork();
redoit();
finishWork();
}
AddDive::AddDive(dive *d, bool autogroup)
{
setText(tr("add dive"));
d->maxdepth.mm = 0;
fixup_dive(d);
d->divetrip = nullptr;
// Get an owning pointer to a copy of the dive
// Note: this destroys the old dive!
OwningDivePtr divePtr(clone_dive(d));
// If we alloc a new-trip for autogrouping, get an owning pointer to it.
OwningTripPtr allocTrip;
dive_trip *trip = nullptr;
if (autogroup) {
bool alloc;
trip = get_trip_for_new_dive(divePtr.get(), &alloc);
if (alloc)
allocTrip.reset(trip);
}
int idx = dive_get_insertion_index(divePtr.get());
divePtr->number = get_dive_nr_at_idx(idx);
divesToAdd.push_back({ std::move(divePtr), std::move(allocTrip), trip, idx });
}
bool AddDive::workToBeDone()
{
return true;
}
void AddDive::redoit()
{
// Remember selection so that we can undo it
selection = getDiveSelection();
currentDive = current_dive;
divesToRemove = addDives(divesToAdd);
mark_divelist_changed(true);
// Select the newly added dive
restoreSelection(divesToRemove, divesToRemove[0]);
// Exit from edit mode, but don't recalculate dive list
// TODO: Remove edit mode
MainWindow::instance()->refreshDisplay(false);
}
void AddDive::undoit()
{
// Simply remove the dive that was previously added...
divesToAdd = removeDives(divesToRemove);
// ...and restore the selection
restoreSelection(selection, currentDive);
// Exit from edit mode, but don't recalculate dive list
// TODO: Remove edit mode
MainWindow::instance()->refreshDisplay(false);
}
DeleteDive::DeleteDive(const QVector<struct dive*> &divesToDeleteIn) : divesToDelete(divesToDeleteIn.toStdVector())
{
setText(tr("delete %n dive(s)", "", divesToDelete.size()));
}
bool DeleteDive::workToBeDone()
{
return !divesToDelete.empty();
}
void DeleteDive::undoit()
{
divesToDelete = addDives(divesToAdd);
mark_divelist_changed(true);
// Select all re-added dives and make the first one current
dive *currentDive = !divesToDelete.empty() ? divesToDelete[0] : nullptr;
restoreSelection(divesToDelete, currentDive);
}
void DeleteDive::redoit()
{
divesToAdd = removeDives(divesToDelete);
mark_divelist_changed(true);
// Deselect all dives and select dive that was close to the first deleted dive
dive *newCurrent = nullptr;
if (!divesToAdd.empty()) {
timestamp_t when = divesToAdd[0].dive->when;
newCurrent = find_next_visible_dive(when);
}
if (newCurrent)
restoreSelection(std::vector<dive *>{ newCurrent }, newCurrent);
else
restoreSelection(std::vector<dive *>(), nullptr);
}
ShiftTime::ShiftTime(const QVector<dive *> &changedDives, int amount)
: diveList(changedDives), timeChanged(amount)
{
setText(tr("shift time of %n dives", "", changedDives.count()));
}
void ShiftTime::redoit()
{
for (dive *d: diveList)
d->when -= timeChanged;
// Changing times may have unsorted the dive table
sort_table(&dive_table);
// We send one dives-deleted signal per trip (see comments in DiveListNotifier.h).
// Therefore, collect all dives in a array and sort by trip.
std::vector<std::pair<dive_trip *, dive *>> dives;
dives.reserve(diveList.size());
for (dive *d: diveList)
dives.push_back({ d->divetrip, d });
// Send signals.
processByTrip(dives, [&](dive_trip *trip, const QVector<dive *> &divesInTrip) {
emit diveListNotifier.divesTimeChanged(trip, timeChanged, divesInTrip);
});
// Negate the time-shift so that the next call does the reverse
timeChanged = -timeChanged;
mark_divelist_changed(true);
}
bool ShiftTime::workToBeDone()
{
return !diveList.isEmpty();
}
void ShiftTime::undoit()
{
// Same as redoit(), since after redoit() we reversed the timeOffset
redoit();
}
RenumberDives::RenumberDives(const QVector<QPair<dive *, int>> &divesToRenumberIn) : divesToRenumber(divesToRenumberIn)
{
setText(tr("renumber %n dive(s)", "", divesToRenumber.count()));
}
void RenumberDives::undoit()
{
renumberDives(divesToRenumber);
mark_divelist_changed(true);
}
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);
mark_divelist_changed(true);
}
void TripBase::undoit()
{
// Redo and undo do the same thing!
redoit();
}
RemoveDivesFromTrip::RemoveDivesFromTrip(const QVector<dive *> &divesToRemove)
{
setText(tr("remove %n dive(s) from trip", "", divesToRemove.size()));
divesToMove.divesToMove.reserve(divesToRemove.size());
for (dive *d: divesToRemove)
divesToMove.divesToMove.push_back( {d, nullptr} );
}
RemoveAutogenTrips::RemoveAutogenTrips()
{
setText(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(tr("add %n dives to trip", "", divesToAddIn.size()));
for (dive *d: divesToAddIn)
divesToMove.divesToMove.push_back( {d, trip} );
}
CreateTrip::CreateTrip(const QVector<dive *> &divesToAddIn)
{
setText(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(tr("autogroup dives"));
dive_trip *trip;
bool alloc;
int from, to;
for(int i = 0; (trip = get_dives_to_autogroup(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_create(trip1, trip2);
divesToMove.tripsToAdd.emplace_back(newTrip);
for (dive *d = trip1->dives; d; d = d->next)
divesToMove.divesToMove.push_back( { d, newTrip } );
for (dive *d = trip2->dives; d; d = d->next)
divesToMove.divesToMove.push_back( { d, newTrip } );
}
SplitDives::SplitDives(dive *d, duration_t time)
{
setText(tr("split dive"));
// Split the dive
dive *new1, *new2;
int idx = time.seconds < 0 ?
split_dive_dont_insert(d, &new1, &new2) :
split_dive_at_time_dont_insert(d, time, &new1, &new2);
// If this didn't work, reset pointers as a mark that nothing is to be done.
if (idx < 0) {
diveToSplit = nullptr;
divesToUnsplit[0] = divesToUnsplit[1];
return;
}
diveToSplit = d;
splitDives[0].dive.reset(new1);
splitDives[0].trip = d->divetrip;
splitDives[0].idx = idx;
splitDives[1].dive.reset(new2);
splitDives[1].trip = d->divetrip;
splitDives[1].idx = idx + 1;
}
bool SplitDives::workToBeDone()
{
return !!diveToSplit;
}
void SplitDives::redoit()
{
divesToUnsplit[0] = addDive(splitDives[0]);
divesToUnsplit[1] = addDive(splitDives[1]);
unsplitDive = removeDive(diveToSplit);
mark_divelist_changed(true);
// Select split dives and make first dive current
restoreSelection(std::vector<dive *>{ divesToUnsplit[0], divesToUnsplit[1] }, divesToUnsplit[0]);
}
void SplitDives::undoit()
{
// Note: reverse order with respect to redoit()
diveToSplit = addDive(unsplitDive);
splitDives[1] = removeDive(divesToUnsplit[1]);
splitDives[0] = removeDive(divesToUnsplit[0]);
mark_divelist_changed(true);
// Select unsplit dive and make it current
restoreSelection(std::vector<dive *>{ diveToSplit }, diveToSplit);
}
MergeDives::MergeDives(const QVector <dive *> &dives)
{
setText(tr("merge dive"));
// We start in redo mode
diveToUnmerge = nullptr;
// 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;
OwningDivePtr d(merge_dives(dives[0], dives[1], dives[1]->when - dives[0]->when, false, &preferred_trip));
// 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));
// Set the preferred dive trip, so that for subsequent merges the better trip can be selected
d->divetrip = preferred_trip;
}
// We got our preferred trip, so now the reference can be deleted from the newly generated dive
d->divetrip = nullptr;
// The merged dive gets the number of the first dive
d->number = dives[0]->number;
// 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 > dive_table.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, &dive_table.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(dive_table.nr - idx - num);
int previousnr = dives[0]->number;
for (int i = idx + num; i < dive_table.nr; ++i) {
int newnr = dive_table.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>(dive_table.dives[i], newnr));
previousnr = newnr;
}
}
mergedDive.dive = std::move(d);
mergedDive.idx = get_divenr(dives[0]);
mergedDive.trip = preferred_trip;
divesToMerge = dives.toStdVector();
}
bool MergeDives::workToBeDone()
{
return !!mergedDive.dive;
}
void MergeDives::redoit()
{
renumberDives(divesToRenumber);
diveToUnmerge = addDive(mergedDive);
unmergedDives = removeDives(divesToMerge);
// Select merged dive and make it current
restoreSelection(std::vector<dive *>{ diveToUnmerge }, diveToUnmerge);
}
void MergeDives::undoit()
{
divesToMerge = addDives(unmergedDives);
mergedDive = removeDive(diveToUnmerge);
renumberDives(divesToRenumber);
// Select unmerged dives and make first one current
restoreSelection(divesToMerge, divesToMerge[0]);
}
} // namespace Command
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