subsurface/commands/command_pictures.cpp

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// SPDX-License-Identifier: GPL-2.0
#include "command_pictures.h"
#include "core/subsurface-qt/divelistnotifier.h"
#include "qt-models/divelocationmodel.h"
namespace Command {
static picture *dive_get_picture(const dive *d, const QString &fn)
{
int idx = get_picture_idx(&d->pictures, qPrintable(fn));
return idx < 0 ? nullptr : &d->pictures.pictures[idx];
}
SetPictureOffset::SetPictureOffset(dive *dIn, const QString &filenameIn, offset_t offsetIn) :
d(dIn), filename(filenameIn), offset(offsetIn)
{
if (!dive_get_picture(d, filename))
d = nullptr;
setText(Command::Base::tr("Change media time"));
}
void SetPictureOffset::redo()
{
picture *pic = dive_get_picture(d, filename);
if (!pic) {
fprintf(stderr, "SetPictureOffset::redo(): picture disappeared!\n");
return;
}
std::swap(pic->offset, offset);
offset_t newOffset = pic->offset;
// Instead of trying to be smart, let's simply resort the picture table.
// If someone complains about speed, do our usual "smart" thing.
sort_picture_table(&d->pictures);
emit diveListNotifier.pictureOffsetChanged(d, filename, newOffset);
invalidate_dive_cache(d);
}
// Undo and redo do the same thing
void SetPictureOffset::undo()
{
redo();
}
bool SetPictureOffset::workToBeDone()
{
return !!d;
}
// Filter out pictures that don't exist and sort them according to the backend
static PictureListForDeletion filterPictureListForDeletion(const PictureListForDeletion &p)
{
PictureListForDeletion res;
res.d = p.d;
res.filenames.reserve(p.filenames.size());
for (int i = 0; i < p.d->pictures.nr; ++i) {
std::string fn = p.d->pictures.pictures[i].filename;
if (std::find(p.filenames.begin(), p.filenames.end(), fn) != p.filenames.end())
res.filenames.push_back(fn);
}
return res;
}
// Helper function to remove pictures. Clears the passed-in vector.
static std::vector<PictureListForAddition> removePictures(std::vector<PictureListForDeletion> &picturesToRemove)
{
std::vector<PictureListForAddition> res;
for (const PictureListForDeletion &list: picturesToRemove) {
QVector<QString> filenames;
PictureListForAddition toAdd;
toAdd.d = list.d;
for (const std::string &fn: list.filenames) {
int idx = get_picture_idx(&list.d->pictures, fn.c_str());
if (idx < 0) {
fprintf(stderr, "removePictures(): picture disappeared!\n");
continue; // Huh? We made sure that this can't happen by filtering out non-existent pictures.
}
filenames.push_back(QString::fromStdString(fn));
toAdd.pics.emplace_back(list.d->pictures.pictures[idx]);
remove_from_picture_table(&list.d->pictures, idx);
}
if (!toAdd.pics.empty())
res.push_back(toAdd);
invalidate_dive_cache(list.d);
emit diveListNotifier.picturesRemoved(list.d, filenames);
}
picturesToRemove.clear();
return res;
}
// Helper function to add pictures. Clears the passed-in vector.
static std::vector<PictureListForDeletion> addPictures(std::vector<PictureListForAddition> &picturesToAdd)
{
// We play it extra safe here and again filter out those pictures that
// are already added to the dive. There should be no way for this to
// happen, as we checked that before.
std::vector<PictureListForDeletion> res;
for (const PictureListForAddition &list: picturesToAdd) {
QVector<PictureObj> picsForSignal;
PictureListForDeletion toRemove;
toRemove.d = list.d;
for (const PictureObj &pic: list.pics) {
int idx = get_picture_idx(&list.d->pictures, pic.filename.c_str()); // This should *not* already exist!
if (idx >= 0) {
fprintf(stderr, "addPictures(): picture disappeared!\n");
continue; // Huh? We made sure that this can't happen by filtering out existing pictures.
}
picsForSignal.push_back(pic);
add_picture(&list.d->pictures, pic.toCore());
toRemove.filenames.push_back(pic.filename);
}
if (!toRemove.filenames.empty())
res.push_back(toRemove);
invalidate_dive_cache(list.d);
emit diveListNotifier.picturesAdded(list.d, picsForSignal);
}
picturesToAdd.clear();
return res;
}
RemovePictures::RemovePictures(const std::vector<PictureListForDeletion> &pictures)
{
// Filter out the pictures that don't actually exist. In principle this shouldn't be necessary.
// Nevertheless, let's play it save. This has the additional benefit of sorting the pictures
// according to the backend if, for some reason, the caller passed the pictures in in random order.
picturesToRemove.reserve(pictures.size());
size_t count = 0;
for (const PictureListForDeletion &p: pictures) {
PictureListForDeletion filtered = filterPictureListForDeletion(p);
if (filtered.filenames.size())
picturesToRemove.push_back(p);
count += filtered.filenames.size();
}
if (count == 0) {
picturesToRemove.clear(); // This signals that nothing is to be done
return;
}
setText(Command::Base::tr("remove %n pictures(s)", "", count));
}
bool RemovePictures::workToBeDone()
{
return !picturesToRemove.empty();
}
void RemovePictures::undo()
{
picturesToRemove = addPictures(picturesToAdd);
}
void RemovePictures::redo()
{
picturesToAdd = removePictures(picturesToRemove);
}
AddPictures::AddPictures(const std::vector<PictureListForAddition> &pictures) : picturesToAdd(pictures)
{
// Sort the pictures according to the backend-rules. Moreover see if we have to set / create divesites.
size_t count = 0;
for (PictureListForAddition &p: picturesToAdd) {
count += p.pics.size();
std::sort(p.pics.begin(), p.pics.end());
// Find a picture with a location
auto it = std::find_if(p.pics.begin(), p.pics.end(), [](const PictureObj &p) { return has_location(&p.location); });
if (it != p.pics.end()) {
// There is a dive with a location, we might want to modify the dive accordingly.
struct dive_site *ds = p.d->dive_site;
if (!ds) {
// This dive doesn't yet have a dive site -> add a new dive site.
QString name = Command::Base::tr("unnamed dive site");
dive_site *ds = alloc_dive_site_with_gps(qPrintable(name), &it->location);
sitesToAdd.emplace_back(ds);
sitesToSet.push_back({ p.d, ds });
} else if (!dive_site_has_gps_location(ds)) {
// This dive has a dive site, but without coordinates. Let's add them.
sitesToEdit.push_back({ ds, it->location });
}
}
}
if (count == 0) {
picturesToAdd.clear(); // This signals that nothing is to be done
return;
}
setText(Command::Base::tr("add %n pictures(s)", "", count));
}
bool AddPictures::workToBeDone()
{
return !picturesToAdd.empty();
}
void AddPictures::swapDiveSites()
{
for (DiveSiteEntry &entry: sitesToSet) {
dive_site *ds = entry.d->dive_site;
if (ds)
unregister_dive_from_dive_site(entry.d); // the dive-site pointer in the dive is now NULL
std::swap(ds, entry.ds);
if (ds)
add_dive_to_dive_site(entry.d, ds);
emit diveListNotifier.divesChanged(QVector<dive *>{ entry.d }, DiveField::DIVESITE);
}
for (DiveSiteEditEntry &entry: sitesToEdit) {
std::swap(entry.ds->location, entry.location);
emit diveListNotifier.diveSiteChanged(entry.ds, LocationInformationModel::LOCATION); // Inform frontend of changed dive site.
}
}
void AddPictures::undo()
{
swapDiveSites();
picturesToAdd = removePictures(picturesToRemove);
// Remove dive sites
for (dive_site *siteToRemove: sitesToRemove) {
int idx = unregister_dive_site(siteToRemove);
sitesToAdd.emplace_back(siteToRemove);
emit diveListNotifier.diveSiteDeleted(siteToRemove, idx); // Inform frontend of removed dive site.
}
sitesToRemove.clear();
}
void AddPictures::redo()
{
// Add dive sites
for (OwningDiveSitePtr &siteToAdd: sitesToAdd) {
sitesToRemove.push_back(siteToAdd.get());
int idx = register_dive_site(siteToAdd.release()); // Return ownership to backend.
emit diveListNotifier.diveSiteAdded(sitesToRemove.back(), idx); // Inform frontend of new dive site.
}
sitesToAdd.clear();
swapDiveSites();
picturesToRemove = addPictures(picturesToAdd);
}
} // namespace Command