int32_t dt_control_duplicate_images_job_run(dt_job_t *job)
{
int imgid = -1;
int newimgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("duplicating %d image", "duplicating %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
while(t)
{
imgid = GPOINTER_TO_INT(t->data);
newimgid = dt_image_duplicate(imgid);
if(newimgid != -1) dt_history_copy_and_paste_on_image(imgid, newimgid, FALSE,NULL);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_control_signal_raise(darktable.signals, DT_SIGNAL_FILMROLLS_CHANGED);
dt_control_queue_redraw_center();
return 0;
}
/** Listener interface for import job */
void _camera_image_downloaded(const dt_camera_t *camera,const char *filename,void *data)
{
// Import downloaded image to import filmroll
dt_camera_import_t *t = (dt_camera_import_t *)data;
dt_film_image_import(t->film,filename, FALSE);
dt_control_log(_("%d/%d imported to %s"), t->import_count+1,g_list_length(t->images), g_path_get_basename(filename));
t->fraction+=1.0/g_list_length(t->images);
dt_control_backgroundjobs_progress(darktable.control, t->bgj, t->fraction );
if( dt_conf_get_bool("plugins/capture/camera/import/backup/enable") == TRUE )
{
// Backup is enable, let's initialize a backup job of imported image...
char *base=dt_conf_get_string("plugins/capture/storage/basedirectory");
char *fixed_base=dt_util_fix_path(base);
dt_variables_expand( t->vp, fixed_base, FALSE );
g_free(base);
const char *sdpart=dt_variables_get_result(t->vp);
if( sdpart )
{
// Initialize a image backup job of file
dt_job_t j;
dt_camera_import_backup_job_init(&j, filename,filename+strlen(sdpart));
dt_control_add_job(darktable.control, &j);
}
}
t->import_count++;
}
/** Listener interface for import job */
void _camera_image_downloaded(const dt_camera_t *camera,const char *filename,void *data)
{
// Import downloaded image to import filmroll
dt_camera_import_t *t = (dt_camera_import_t *)data;
dt_image_import(t->film->id, filename, FALSE);
dt_control_queue_redraw_center();
dt_control_log(_("%d/%d imported to %s"), t->import_count+1,g_list_length(t->images), g_path_get_basename(filename));
t->fraction+=1.0/g_list_length(t->images);
dt_control_backgroundjobs_progress(darktable.control, t->bgj, t->fraction );
t->import_count++;
}
int32_t dt_control_time_offset_job_run(dt_job_t *job)
{
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
uint32_t cntr = 0;
double fraction = 0.0;
GList *t = t1->index;
const long int offset = ((dt_control_time_offset_t*)t1->data)->offset;
guint *jid = NULL;
char message[512]= {0};
/* do we have any selected images and is offset != 0 */
if(!t || offset == 0)
{
g_free(t1->data);
return 1;
}
int total = g_list_length(t);
if(total > 1)
{
snprintf(message, 512, ngettext ("adding time offset to %d image", "adding time offset to %d images", total), total );
jid = (guint *)dt_control_backgroundjobs_create(darktable.control, 0, message);
}
/* go thru each selected image and update datetime_taken */
do
{
uint32_t imgid = (long int)t->data;
dt_image_add_time_offset(imgid, offset);
cntr++;
if (jid)
{
fraction = MAX(fraction, (1.0*cntr)/total);
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
}
while ((t = g_list_next(t)) != NULL);
dt_control_log(_("added time offset to %d image(s)"), cntr);
if (jid)
dt_control_backgroundjobs_destroy(darktable.control, jid);
g_free(t1->data);
return 0;
}
int32_t dt_control_remove_images_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("removing %d image", "removing %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
char query[1024];
sprintf(query, "update images set flags = (flags | %d) where id in (select imgid from selected_images)",DT_IMAGE_REMOVE);
DT_DEBUG_SQLITE3_EXEC(dt_database_get(darktable.db), query, NULL, NULL, NULL);
dt_collection_update(darktable.collection);
// We need a list of files to regenerate .xmp files if there are duplicates
GList *list = NULL;
sqlite3_stmt *stmt = NULL;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select distinct folder || '/' || filename from images, film_rolls where images.film_id = film_rolls.id and images.id in (select imgid from selected_images)", -1, &stmt, NULL);
while(sqlite3_step(stmt) == SQLITE_ROW)
{
list = g_list_append(list, g_strdup((const gchar *)sqlite3_column_text(stmt, 0)));
}
sqlite3_finalize(stmt);
while(t)
{
imgid = (long int)t->data;
dt_image_remove(imgid);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
char *imgname;
while(list)
{
imgname = (char *)list->data;
dt_image_synch_all_xmp(imgname);
list = g_list_delete_link(list, list);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_control_local_copy_images_job_run(dt_job_t *job)
{
int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
guint tagid = 0;
const int total = g_list_length(t);
double fraction=0;
gboolean is_copy = GPOINTER_TO_INT(job->user_data) == 1;
char message[512]= {0};
if (is_copy)
snprintf(message, 512, ngettext ("creating local copy of %d image", "creating local copies of %d images", total), total);
else
snprintf(message, 512, ngettext ("removing local copy of %d image", "removing local copies of %d images", total), total);
dt_control_log(message);
dt_tag_new("darktable|local-copy",&tagid);
/* create a cancellable bgjob ui template */
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
dt_control_backgroundjobs_set_cancellable(darktable.control, jid, job);
const dt_control_t *control = darktable.control;
while(t && dt_control_job_get_state(job) != DT_JOB_STATE_CANCELLED)
{
imgid = GPOINTER_TO_INT(t->data);
if (GPOINTER_TO_INT(job->user_data) == 1)
{
dt_image_local_copy_set(imgid);
dt_tag_attach(tagid, imgid);
}
else
{
dt_image_local_copy_reset(imgid);
dt_tag_detach(tagid, imgid);
}
t = g_list_delete_link(t, t);
fraction += 1.0/total;
dt_control_backgroundjobs_progress(control, jid, fraction);
}
dt_control_backgroundjobs_destroy(control, jid);
dt_control_signal_raise(darktable.signals, DT_SIGNAL_FILMROLLS_CHANGED);
return 0;
}
static int32_t _generic_dt_control_fileop_images_job_run(dt_job_t *job,
int32_t (*fileop_callback)(const int32_t, const int32_t),
const char *desc, const char *desc_pl)
{
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction = 0;
gchar *newdir = (gchar *)job->user_data;
/* create a cancellable bgjob ui template */
g_snprintf(message, 512, ngettext(desc, desc_pl, total), total);
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
dt_control_backgroundjobs_set_cancellable(darktable.control, jid, job);
// create new film roll for the destination directory
dt_film_t new_film;
const int32_t film_id = dt_film_new(&new_film, newdir);
g_free(newdir);
if (film_id <= 0)
{
dt_control_log(_("failed to create film roll for destination directory, aborting move.."));
dt_control_backgroundjobs_destroy(darktable.control, jid);
return -1;
}
while(t && dt_control_job_get_state(job) != DT_JOB_STATE_CANCELLED)
{
fileop_callback(GPOINTER_TO_INT(t->data), film_id);
t = g_list_delete_link(t, t);
fraction+=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
char collect[1024];
snprintf(collect, 1024, "1:0:0:%s$", new_film.dirname);
dt_collection_deserialize(collect);
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_signal_raise(darktable.signals, DT_SIGNAL_FILMROLLS_CHANGED);
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_captured_image_import_job_run(dt_job_t *job)
{
dt_captured_image_import_t *t = (dt_captured_image_import_t *)job->param;
char message[512]= {0};
snprintf(message, 512, _("importing image %s"), t->filename);
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message );
int id = dt_image_import(t->film_id, t->filename, TRUE);
if(id)
{
//dt_film_open(1);
dt_view_filmstrip_set_active_image(darktable.view_manager,id);
dt_control_queue_redraw();
//dt_ctl_switch_mode_to(DT_DEVELOP);
}
dt_control_backgroundjobs_progress(darktable.control, jid, 1.0);
dt_control_backgroundjobs_destroy(darktable.control, jid);
return 0;
}
int32_t dt_control_duplicate_images_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("duplicating %d image", "duplicating %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
while(t)
{
imgid = (long int)t->data;
dt_image_duplicate(imgid);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
return 0;
}
int32_t dt_control_flip_images_job_run(dt_job_t *job)
{
int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
const int cw = t1->flag;
GList *t = t1->index;
int total = g_list_length(t);
double fraction=0;
char message[512]= {0};
snprintf(message, 512, ngettext ("flipping %d image", "flipping %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
while(t)
{
imgid = GPOINTER_TO_INT(t->data);
dt_image_flip(imgid, cw);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_image_import_job_run(dt_job_t *job)
{
int id;
char message[512];
dt_image_import_t *t;
const guint *jid;
t = (dt_image_import_t *)job->param;
message[0] = 0;
snprintf(message, 512, _("importing image %s"), t->filename);
jid = dt_control_backgroundjobs_create(darktable.control, 0, message );
id = dt_image_import(t->film_id, t->filename, TRUE);
if(id)
{
dt_view_filmstrip_set_active_image(darktable.view_manager, id);
dt_control_queue_redraw();
}
dt_control_backgroundjobs_progress(darktable.control, jid, 1.0);
dt_control_backgroundjobs_destroy(darktable.control, jid);
return 0;
}
int32_t dt_control_export_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
dt_control_export_t *settings = (dt_control_export_t*)t1->data;
GList *t = t1->index;
const int total = g_list_length(t);
int size = 0;
dt_imageio_module_format_t *mformat = dt_imageio_get_format_by_index(settings->format_index);
g_assert(mformat);
dt_imageio_module_storage_t *mstorage = dt_imageio_get_storage_by_index(settings->storage_index);
g_assert(mstorage);
// Get max dimensions...
uint32_t w,h,fw,fh,sw,sh;
fw=fh=sw=sh=0;
mstorage->dimension(mstorage, &sw,&sh);
mformat->dimension(mformat, &fw,&fh);
if( sw==0 || fw==0) w=sw>fw?sw:fw;
else w=sw<fw?sw:fw;
if( sh==0 || fh==0) h=sh>fh?sh:fh;
else h=sh<fh?sh:fh;
// get shared storage param struct (global sequence counter, one picasa connection etc)
dt_imageio_module_data_t *sdata = mstorage->get_params(mstorage, &size);
if(sdata == NULL)
{
dt_control_log(_("failed to get parameters from storage module, aborting export.."));
g_free(t1->data);
return 1;
}
dt_control_log(ngettext ("exporting %d image..", "exporting %d images..", total), total);
char message[512]= {0};
snprintf(message, 512, ngettext ("exporting %d image to %s", "exporting %d images to %s", total), total, mstorage->name() );
/* create a cancellable bgjob ui template */
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message );
dt_control_backgroundjobs_set_cancellable(darktable.control, jid, job);
const dt_control_t *control = darktable.control;
double fraction=0;
#ifdef _OPENMP
// limit this to num threads = num full buffers - 1 (keep one for darkroom mode)
// use min of user request and mipmap cache entries
const int full_entries = dt_conf_get_int ("parallel_export");
// GCC won't accept that this variable is used in a macro, considers
// it set but not used, which makes for instance Fedora break.
const __attribute__((__unused__)) int num_threads = MAX(1, MIN(full_entries, 8));
#if !defined(__SUNOS__) && !defined(__NetBSD__)
#pragma omp parallel default(none) private(imgid, size) shared(control, fraction, w, h, stderr, mformat, mstorage, t, sdata, job, jid, darktable, settings) num_threads(num_threads) if(num_threads > 1)
#else
#pragma omp parallel private(imgid, size) shared(control, fraction, w, h, mformat, mstorage, t, sdata, job, jid, darktable, settings) num_threads(num_threads) if(num_threads > 1)
#endif
{
#endif
// get a thread-safe fdata struct (one jpeg struct per thread etc):
dt_imageio_module_data_t *fdata = mformat->get_params(mformat, &size);
fdata->max_width = settings->max_width;
fdata->max_height = settings->max_height;
fdata->max_width = (w!=0 && fdata->max_width >w)?w:fdata->max_width;
fdata->max_height = (h!=0 && fdata->max_height >h)?h:fdata->max_height;
strcpy(fdata->style,settings->style);
int num = 0;
// Invariant: the tagid for 'darktable|changed' will not change while this function runs. Is this a sensible assumption?
guint tagid = 0,
etagid = 0;
dt_tag_new("darktable|changed",&tagid);
dt_tag_new("darktable|exported",&etagid);
while(t && dt_control_job_get_state(job) != DT_JOB_STATE_CANCELLED)
{
#ifdef _OPENMP
#pragma omp critical
#endif
{
if(!t)
imgid = 0;
else
{
imgid = (long int)t->data;
t = g_list_delete_link(t, t);
num = total - g_list_length(t);
}
}
// remove 'changed' tag from image
dt_tag_detach(tagid, imgid);
// make sure the 'exported' tag is set on the image
dt_tag_attach(etagid, imgid);
// check if image still exists:
char imgfilename[DT_MAX_PATH_LEN];
const dt_image_t *image = dt_image_cache_read_get(darktable.image_cache, (int32_t)imgid);
if(image)
{
dt_image_full_path(image->id, imgfilename, DT_MAX_PATH_LEN);
if(!g_file_test(imgfilename, G_FILE_TEST_IS_REGULAR))
{
dt_control_log(_("image `%s' is currently unavailable"), image->filename);
fprintf(stderr, _("image `%s' is currently unavailable"), imgfilename);
// dt_image_remove(imgid);
dt_image_cache_read_release(darktable.image_cache, image);
}
else
{
dt_image_cache_read_release(darktable.image_cache, image);
mstorage->store(sdata, imgid, mformat, fdata, num, total, settings->high_quality);
}
}
#ifdef _OPENMP
#pragma omp critical
#endif
{
fraction+=1.0/total;
dt_control_backgroundjobs_progress(control, jid, fraction);
}
}
#ifdef _OPENMP
#pragma omp barrier
#pragma omp master
#endif
{
dt_control_backgroundjobs_destroy(control, jid);
if(mstorage->finalize_store) mstorage->finalize_store(mstorage, sdata);
mstorage->free_params(mstorage, sdata);
}
// all threads free their fdata
mformat->free_params (mformat, fdata);
#ifdef _OPENMP
}
#endif
g_free(t1->data);
return 0;
}
int32_t dt_control_delete_images_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("deleting %d image", "deleting %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
sqlite3_stmt *stmt;
char query[1024];
sprintf(query, "update images set flags = (flags | %d) where id in (select imgid from selected_images)",DT_IMAGE_REMOVE);
DT_DEBUG_SQLITE3_EXEC(dt_database_get(darktable.db), query, NULL, NULL, NULL);
dt_collection_update(darktable.collection);
// We need a list of files to regenerate .xmp files if there are duplicates
GList *list = NULL;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select distinct folder || '/' || filename from images, film_rolls where images.film_id = film_rolls.id and images.id in (select imgid from selected_images)", -1, &stmt, NULL);
if(sqlite3_step(stmt) == SQLITE_ROW)
{
list = g_list_append(list, g_strdup((const gchar *)sqlite3_column_text(stmt, 0)));
}
sqlite3_finalize(stmt);
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select count(id) from images where filename in (select filename from images where id = ?1) and film_id in (select film_id from images where id = ?1)", -1, &stmt, NULL);
while(t)
{
imgid = (long int)t->data;
char filename[DT_MAX_PATH_LEN];
dt_image_full_path(imgid, filename, DT_MAX_PATH_LEN);
int duplicates = 0;
DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, imgid);
if(sqlite3_step(stmt) == SQLITE_ROW)
duplicates = sqlite3_column_int(stmt, 0);
sqlite3_reset(stmt);
sqlite3_clear_bindings(stmt);
// remove from disk:
if(duplicates == 1) // don't remove the actual data if there are (other) duplicates using it
(void)g_unlink(filename);
dt_image_path_append_version(imgid, filename, DT_MAX_PATH_LEN);
char *c = filename + strlen(filename);
sprintf(c, ".xmp");
(void)g_unlink(filename);
dt_image_remove(imgid);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
sqlite3_finalize(stmt);
char *imgname;
while(list)
{
imgname = (char *)list->data;
dt_image_synch_all_xmp(imgname);
list = g_list_delete_link(list, list);
}
g_list_free(list);
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_control_merge_hdr_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("merging %d image", "merging %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 1, message);
float *pixels = NULL;
float *weight = NULL;
int wd = 0, ht = 0, first_imgid = -1;
uint32_t filter = 0;
float whitelevel = 0.0f;
total ++;
while(t)
{
imgid = (long int)t->data;
dt_mipmap_buffer_t buf;
dt_mipmap_cache_read_get(darktable.mipmap_cache, &buf, imgid, DT_MIPMAP_FULL, DT_MIPMAP_BLOCKING);
// just take a copy. also do it after blocking read, so filters and bpp will make sense.
const dt_image_t *img = dt_image_cache_read_get(darktable.image_cache, imgid);
dt_image_t image = *img;
dt_image_cache_read_release(darktable.image_cache, img);
if(image.filters == 0 || image.bpp != sizeof(uint16_t))
{
dt_control_log(_("exposure bracketing only works on raw images"));
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
free(pixels);
free(weight);
goto error;
}
filter = dt_image_flipped_filter(img);
if(buf.size != DT_MIPMAP_FULL)
{
dt_control_log(_("failed to get raw buffer from image `%s'"), image.filename);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
free(pixels);
free(weight);
goto error;
}
if(!pixels)
{
first_imgid = imgid;
pixels = (float *)malloc(sizeof(float)*image.width*image.height);
weight = (float *)malloc(sizeof(float)*image.width*image.height);
memset(pixels, 0x0, sizeof(float)*image.width*image.height);
memset(weight, 0x0, sizeof(float)*image.width*image.height);
wd = image.width;
ht = image.height;
}
else if(image.width != wd || image.height != ht)
{
dt_control_log(_("images have to be of same size!"));
free(pixels);
free(weight);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
goto error;
}
// if no valid exif data can be found, assume peleng fisheye at f/16, 8mm, with half of the light lost in the system => f/22
const float eap = image.exif_aperture > 0.0f ? image.exif_aperture : 22.0f;
const float efl = image.exif_focal_length > 0.0f ? image.exif_focal_length : 8.0f;
const float rad = .5f * efl/eap;
const float aperture = M_PI * rad * rad;
const float iso = image.exif_iso > 0.0f ? image.exif_iso : 100.0f;
const float exp = image.exif_exposure > 0.0f ? image.exif_exposure : 1.0f;
const float cal = 100.0f/(aperture*exp*iso);
// about proportional to how many photons we can expect from this shot:
const float photoncnt = 100.0f*aperture*exp/iso;
// stupid, but we don't know the real sensor saturation level:
uint16_t saturation = 0;
for(int k=0; k<wd*ht; k++)
saturation = MAX(saturation, ((uint16_t *)buf.buf)[k]);
// seems to be around 64500--64700 for 5dm2
// fprintf(stderr, "saturation: %u\n", saturation);
whitelevel = fmaxf(whitelevel, saturation*cal);
#ifdef _OPENMP
#pragma omp parallel for schedule(static) default(none) shared(buf, pixels, weight, wd, ht, saturation)
#endif
for(int k=0; k<wd*ht; k++)
{
const uint16_t in = ((uint16_t *)buf.buf)[k];
// weights based on siggraph 12 poster
// zijian zhu, zhengguo li, susanto rahardja, pasi fraenti
// 2d denoising factor for high dynamic range imaging
float w = envelope(in/(float)saturation) * photoncnt;
// in case we are black and drop to zero weight, give it something
// just so numerics don't collapse. blown out whites are handled below.
if(w < 1e-3f && in < saturation/3) w = 1e-3f;
pixels[k] += w * in * cal;
weight[k] += w;
}
t = g_list_delete_link(t, t);
/* update backgroundjob ui plate */
fraction+=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
}
// normalize by white level to make clipping at 1.0 work as expected (to be sure, scale down one more stop, thus the 0.5):
#ifdef _OPENMP
#pragma omp parallel for schedule(static) default(none) shared(pixels, wd, ht, weight, whitelevel)
#endif
for(int k=0; k<wd*ht; k++)
{
// in case w == 0, all pixels were overexposed (too dark would have been clamped to w >= eps above)
if(weight[k] < 1e-3f)
pixels[k] = 1.f; // mark as blown out.
else // normalize:
pixels[k] = fmaxf(0.0f, pixels[k]/(whitelevel*weight[k]));
}
// output hdr as digital negative with exif data.
uint8_t exif[65535];
char pathname[DT_MAX_PATH_LEN];
dt_image_full_path(first_imgid, pathname, DT_MAX_PATH_LEN);
// last param is dng mode
const int exif_len = dt_exif_read_blob(exif, pathname, first_imgid, 0, wd, ht, 1);
char *c = pathname + strlen(pathname);
while(*c != '.' && c > pathname) c--;
g_strlcpy(c, "-hdr.dng", sizeof(pathname)-(c-pathname));
dt_imageio_write_dng(pathname, pixels, wd, ht, exif, exif_len, filter, 1.0f);
dt_control_backgroundjobs_progress(darktable.control, jid, 1.0f);
while(*c != '/' && c > pathname) c--;
dt_control_log(_("wrote merged hdr `%s'"), c+1);
// import new image
gchar *directory = g_path_get_dirname((const gchar *)pathname);
dt_film_t film;
const int filmid = dt_film_new(&film, directory);
dt_image_import(filmid, pathname, TRUE);
g_free (directory);
free(pixels);
free(weight);
error:
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_control_remove_images_job_run(dt_job_t *job)
{
int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
char *imgs = _get_image_list(t);
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("removing %d image", "removing %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
sqlite3_stmt *stmt = NULL;
// check that we can safely remove the image
gboolean remove_ok = TRUE;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "SELECT id FROM images WHERE id IN (?2) AND flags&?1=?1", -1, &stmt, NULL);
DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, DT_IMAGE_LOCAL_COPY);
DT_DEBUG_SQLITE3_BIND_TEXT(stmt, 2, imgs, -1, SQLITE_STATIC);
while(sqlite3_step(stmt) == SQLITE_ROW)
{
int imgid = sqlite3_column_int(stmt, 0);
if (!dt_image_safe_remove(imgid))
{
remove_ok = FALSE;
break;
}
}
sqlite3_finalize(stmt);
if (!remove_ok)
{
dt_control_log(_("cannot remove local copy when the original file is not accessible."));
dt_control_backgroundjobs_destroy(darktable.control, jid);
free(imgs);
return 0;
}
// update remove status
_set_remove_flag(imgs);
dt_collection_update(darktable.collection);
// We need a list of files to regenerate .xmp files if there are duplicates
GList *list = _get_full_pathname(imgs);
free(imgs);
while(t)
{
imgid = GPOINTER_TO_INT(t->data);
dt_image_remove(imgid);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
char *imgname;
while(list)
{
imgname = (char *)list->data;
dt_image_synch_all_xmp(imgname);
list = g_list_delete_link(list, list);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_signal_raise(darktable.signals, DT_SIGNAL_FILMROLLS_CHANGED);
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_control_indexer_job_run(dt_job_t *job)
{
// if no indexing was requested, bail out:
if(!dt_conf_get_bool("run_similarity_indexer")) return 0;
/*
* First pass run thru ALL images and collect the ones who needs to update
* \TODO in the future lets have a indexer table with ids filed with images
* thats need some kind of reindexing.. all mark dirty functions adds image
* to this table--
*/
// temp memory for uncompressed images:
uint8_t *scratchmem = dt_mipmap_cache_alloc_scratchmem(darktable.mipmap_cache);
GList *images=NULL;
sqlite3_stmt *stmt;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select images.id,film_rolls.folder||'/'||images.filename,images.histogram,images.lightmap from images,film_rolls where film_rolls.id = images.film_id", -1, &stmt, NULL);
while(sqlite3_step(stmt) == SQLITE_ROW)
{
_control_indexer_img_t *idximg=g_malloc(sizeof( _control_indexer_img_t));
memset(idximg,0,sizeof(_control_indexer_img_t));
idximg->id = sqlite3_column_int(stmt,0);
/* first check if image file exists on disk */
const char *filename = (const char *)sqlite3_column_text(stmt, 1);
if (filename && !g_file_test(filename, G_FILE_TEST_IS_REGULAR))
idximg->flags |= _INDEXER_IMAGE_FILE_REMOVED;
/* check if histogram should be updated */
if (sqlite3_column_bytes(stmt, 2) != sizeof(dt_similarity_histogram_t))
idximg->flags |= _INDEXER_UPDATE_HISTOGRAM;
/* check if lightmap should be updated */
if (sqlite3_column_bytes(stmt, 3) != sizeof(dt_similarity_lightmap_t))
idximg->flags |= _INDEXER_UPDATE_LIGHTMAP;
/* if image is flagged add to collection */
if (idximg->flags != 0)
images = g_list_append(images, idximg);
else
g_free(idximg);
}
sqlite3_finalize(stmt);
/*
* Second pass, run thru collected images thats
* need reindexing...
*/
GList *imgitem = g_list_first(images);
if(imgitem)
{
char message[512]= {0};
double fraction=0;
int total = g_list_length(images);
guint *jid = NULL;
/* background job plate only if more then one image is reindexed */
if (total > 1)
{
snprintf(message, 512, ngettext ("re-indexing %d image", "re-indexing %d images", total), total );
jid = (guint *)dt_control_backgroundjobs_create(darktable.control, 0, message);
}
do
{
// bail out if we're shutting down:
if(!dt_control_running()) break;
// if indexer was switched off during runtime, respect that as soon as we can:
if(!dt_conf_get_bool("run_similarity_indexer")) break;
/* get the _control_indexer_img_t pointer */
_control_indexer_img_t *idximg = imgitem->data;
/*
* Check if image has been delete from disk
*/
if ((idximg->flags&_INDEXER_IMAGE_FILE_REMOVED))
{
/* file does not exist on disk lets delete image reference from database */
//char query[512]={0};
// \TODO dont delete move to an temp table and let user to revalidate
/*sprintf(query,"delete from history where imgid=%d",idximg->id);
DT_DEBUG_SQLITE3_EXEC(darktable.db, query, NULL, NULL, NULL);
sprintf(query,"delete from tagged_images where imgid=%d",idximg->id);
DT_DEBUG_SQLITE3_EXEC(darktable.db, query, NULL, NULL, NULL);
sprintf(query,"delete from images where id=%d",idximg->id);
DT_DEBUG_SQLITE3_EXEC(darktable.db, query, NULL, NULL, NULL);*/
/* no need to additional work */
continue;
}
/*
* Check if image histogram or lightmap should be updated.
* those indexing that involves a image pipe should fall into this
*/
if ( (idximg->flags&_INDEXER_UPDATE_HISTOGRAM) || (idximg->flags&_INDEXER_UPDATE_LIGHTMAP) )
{
/* get a mipmap of image to analyse */
dt_mipmap_buffer_t buf;
dt_mipmap_cache_read_get(darktable.mipmap_cache, &buf, idximg->id, DT_MIPMAP_2, DT_MIPMAP_BLOCKING);
// pointer owned by the cache or == scratchmem, no need to free this one:
uint8_t *buf_decompressed = dt_mipmap_cache_decompress(&buf, scratchmem);
if (!(buf.width * buf.height))
continue;
/*
* Generate similarity histogram data if requested
*/
if ( (idximg->flags&_INDEXER_UPDATE_HISTOGRAM) )
{
dt_similarity_histogram_t histogram;
float bucketscale = (float)DT_SIMILARITY_HISTOGRAM_BUCKETS/(float)0xff;
for(int j=0; j<(4*buf.width*buf.height); j+=4)
{
/* swap rgb and scale to bucket index */
uint8_t rgb[3];
for(int k=0; k<3; k++)
rgb[k] = (int)((buf_decompressed[j+2-k]/(float)0xff) * bucketscale);
/* distribute rgb into buckets */
for(int k=0; k<3; k++)
histogram.rgbl[rgb[k]][k]++;
/* distribute lum into buckets */
uint8_t lum = MAX(MAX(rgb[0], rgb[1]), rgb[2]);
histogram.rgbl[lum][3]++;
}
for(int k=0; k<DT_SIMILARITY_HISTOGRAM_BUCKETS; k++)
for (int j=0; j<4; j++)
histogram.rgbl[k][j] /= (buf.width*buf.height);
/* store the histogram data */
dt_similarity_histogram_store(idximg->id, &histogram);
}
/*
* Generate scaledowned similarity lightness map if requested
*/
if ( (idximg->flags&_INDEXER_UPDATE_LIGHTMAP) )
{
dt_similarity_lightmap_t lightmap;
memset(&lightmap,0,sizeof(dt_similarity_lightmap_t));
/*
* create a pixbuf out of the image for downscaling
*/
/* first of setup a standard rgb buffer, swap bgr in same routine */
uint8_t *rgbbuf = g_malloc(buf.width*buf.height*3);
for(int j=0; j<(buf.width*buf.height); j++)
for(int k=0; k<3; k++)
rgbbuf[3*j+k] = buf_decompressed[4*j+2-k];
/* then create pixbuf and scale down to lightmap size */
GdkPixbuf *source = gdk_pixbuf_new_from_data(rgbbuf,GDK_COLORSPACE_RGB,FALSE,8,buf.width,buf.height,(buf.width*3),NULL,NULL);
GdkPixbuf *scaled = gdk_pixbuf_scale_simple(source,DT_SIMILARITY_LIGHTMAP_SIZE,DT_SIMILARITY_LIGHTMAP_SIZE,GDK_INTERP_HYPER);
/* copy scaled data into lightmap */
uint8_t min=0xff,max=0;
uint8_t *spixels = gdk_pixbuf_get_pixels(scaled);
for(int j=0; j<(DT_SIMILARITY_LIGHTMAP_SIZE*DT_SIMILARITY_LIGHTMAP_SIZE); j++)
{
/* copy rgb */
for(int k=0; k<3; k++)
lightmap.pixels[4*j+k] = spixels[3*j+k];
/* average intensity into 4th channel */
lightmap.pixels[4*j+3] = (lightmap.pixels[4*j+0]+ lightmap.pixels[4*j+1]+ lightmap.pixels[4*j+2])/3.0;
min = MIN(min, lightmap.pixels[4*j+3]);
max = MAX(max, lightmap.pixels[4*j+3]);
}
/* contrast stretch each channel in lightmap
* TODO: do we want this...
*/
float scale=0;
int range = max-min;
if(range==0)
scale = 1.0;
else
scale = 0xff/range;
for(int j=0; j<(DT_SIMILARITY_LIGHTMAP_SIZE*DT_SIMILARITY_LIGHTMAP_SIZE); j++)
{
for(int k=0; k<4; k++)
lightmap.pixels[4*j+k] = (lightmap.pixels[4*j+k]-min)*scale;
}
/* free some resources */
g_object_unref(scaled);
g_object_unref(source);
g_free(rgbbuf);
/* store the lightmap */
dt_similarity_lightmap_store(idximg->id, &lightmap);
}
/* no use for buffer anymore release the mipmap */
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
}
/* update background progress */
if (jid)
{
fraction+=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
}
while ((imgitem=g_list_next(imgitem)) && dt_control_job_get_state(job) != DT_JOB_STATE_CANCELLED);
/* cleanup */
if (jid)
dt_control_backgroundjobs_destroy(darktable.control, jid);
}
free(scratchmem);
/*
* Indexing opertions finished, lets reschedule the indexer
* unless control is shutting down...
*/
if(dt_control_running())
dt_control_start_indexer();
return 0;
}
void dt_film_import1(dt_film_t *film)
{
gboolean recursive = dt_conf_get_bool("ui_last/import_recursive");
/* first of all gather all images to import */
GList *images = NULL;
images = _film_recursive_get_files(film->dirname, recursive, &images);
if(g_list_length(images) == 0)
{
dt_control_log(_("no supported images were found to be imported"));
return;
}
/* we got ourself a list of images, lets sort and start import */
images = g_list_sort(images,(GCompareFunc)_film_filename_cmp);
/* let's start import of images */
gchar message[512] = {0};
double fraction = 0;
uint32_t total = g_list_length(images);
g_snprintf(message, sizeof(message) - 1,
ngettext("importing %d image","importing %d images", total), total);
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
/* loop thru the images and import to current film roll */
dt_film_t *cfr = film;
GList *image = g_list_first(images);
do
{
gchar *cdn = g_path_get_dirname((const gchar *)image->data);
/* check if we need to initialize a new filmroll */
if(!cfr || g_strcmp0(cfr->dirname, cdn) != 0)
{
#if GLIB_CHECK_VERSION (2, 26, 0)
if(cfr && cfr->dir)
{
/* check if we can find a gpx data file to be auto applied
to images in the jsut imported filmroll */
g_dir_rewind(cfr->dir);
const gchar *dfn = NULL;
while ((dfn = g_dir_read_name(cfr->dir)) != NULL)
{
/* check if we have a gpx to be auto applied to filmroll */
if(strcmp(dfn+strlen(dfn)-4,".gpx") == 0 ||
strcmp(dfn+strlen(dfn)-4,".GPX") == 0)
{
gchar *gpx_file = g_build_path (G_DIR_SEPARATOR_S, cfr->dirname, dfn, NULL);
dt_control_gpx_apply(gpx_file, cfr->id, dt_conf_get_string("plugins/lighttable/geotagging/tz"));
g_free(gpx_file);
}
}
}
#endif
/* cleanup previously imported filmroll*/
if(cfr && cfr!=film)
{
if(dt_film_is_empty(cfr->id))
{
dt_film_remove(cfr->id);
}
dt_film_cleanup(cfr);
g_free(cfr);
cfr = NULL;
}
/* initialize and create a new film to import to */
cfr = g_malloc(sizeof(dt_film_t));
dt_film_init(cfr);
dt_film_new(cfr, cdn);
}
/* import image */
dt_image_import(cfr->id, (const gchar *)image->data, FALSE);
fraction+=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
while( (image = g_list_next(image)) != NULL);
// only redraw at the end, to not spam the cpu with exposure events
dt_control_queue_redraw_center();
dt_control_signal_raise(darktable.signals,DT_SIGNAL_TAG_CHANGED);
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_control_signal_raise(darktable.signals , DT_SIGNAL_FILMROLLS_IMPORTED,film->id);
#if GLIB_CHECK_VERSION (2, 26, 0)
if(cfr && cfr->dir)
{
/* check if we can find a gpx data file to be auto applied
to images in the just imported filmroll */
g_dir_rewind(cfr->dir);
const gchar *dfn = NULL;
while ((dfn = g_dir_read_name(cfr->dir)) != NULL)
{
/* check if we have a gpx to be auto applied to filmroll */
if(strcmp(dfn+strlen(dfn)-4,".gpx") == 0 ||
strcmp(dfn+strlen(dfn)-4,".GPX") == 0)
{
gchar *gpx_file = g_build_path (G_DIR_SEPARATOR_S, cfr->dirname, dfn, NULL);
dt_control_gpx_apply(gpx_file, cfr->id, dt_conf_get_string("plugins/lighttable/geotagging/tz"));
g_free(gpx_file);
}
}
}
#endif
}
int32_t dt_control_remove_images_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("removing %d image", "removing %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
sqlite3_stmt *stmt = NULL;
// check that we can safely remove the image
char query[1024];
gboolean remove_ok = TRUE;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "SELECT id FROM images WHERE id IN (SELECT imgid FROM selected_images) AND flags&?1=?1", -1, &stmt, NULL);
DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, DT_IMAGE_LOCAL_COPY);
while(sqlite3_step(stmt) == SQLITE_ROW)
{
int imgid = sqlite3_column_int(stmt, 0);
if (!dt_image_safe_remove(imgid))
{
remove_ok = FALSE;
break;
}
}
sqlite3_finalize(stmt);
if (!remove_ok)
{
dt_control_log(_("cannot remove local copy when the original file is not accessible."));
dt_control_backgroundjobs_destroy(darktable.control, jid);
return 0;
}
// update remove status
sprintf(query, "update images set flags = (flags | %d) where id in (select imgid from selected_images)",DT_IMAGE_REMOVE);
DT_DEBUG_SQLITE3_EXEC(dt_database_get(darktable.db), query, NULL, NULL, NULL);
dt_collection_update(darktable.collection);
// We need a list of files to regenerate .xmp files if there are duplicates
GList *list = NULL;
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select distinct folder || '/' || filename from images, film_rolls where images.film_id = film_rolls.id and images.id in (select imgid from selected_images)", -1, &stmt, NULL);
while(sqlite3_step(stmt) == SQLITE_ROW)
{
list = g_list_append(list, g_strdup((const gchar *)sqlite3_column_text(stmt, 0)));
}
sqlite3_finalize(stmt);
while(t)
{
imgid = (long int)t->data;
dt_image_remove(imgid);
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
char *imgname;
while(list)
{
imgname = (char *)list->data;
dt_image_synch_all_xmp(imgname);
list = g_list_delete_link(list, list);
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_queue_redraw_center();
return 0;
}
int32_t dt_camera_capture_job_run(dt_job_t *job)
{
dt_camera_capture_t *t=(dt_camera_capture_t*)job->param;
int total = t->brackets ? t->count * t->brackets : t->count;
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("capturing %d image", "capturing %d images", total), total );
/* try to get exp program mode for nikon */
char *expprogram = (char *)dt_camctl_camera_get_property(darktable.camctl, NULL, "expprogram");
/* if fail, lets try fetching mode for cannon */
if(!expprogram)
expprogram = (char *)dt_camctl_camera_get_property(darktable.camctl, NULL, "autoexposuremode");
/* Fetch all values for shutterspeed and initialize current value */
GList *values=NULL;
gconstpointer orginal_value=NULL;
const char *cvalue = dt_camctl_camera_get_property(darktable.camctl, NULL, "shutterspeed");
const char *value = dt_camctl_camera_property_get_first_choice(darktable.camctl, NULL, "shutterspeed");
/* get values for bracketing */
if (t->brackets && expprogram && expprogram[0]=='M' && value && cvalue)
{
do
{
// Add value to list
values = g_list_append(values, g_strdup(value));
// Check if current values is the same as orginal value, then lets store item ptr
if (strcmp(value,cvalue) == 0)
orginal_value = g_list_last(values)->data;
}
while ((value = dt_camctl_camera_property_get_next_choice(darktable.camctl, NULL, "shutterspeed")) != NULL);
}
else
{
/* if this was an itended bracket capture bail out */
if(t->brackets)
{
dt_control_log(_("please set your camera to manual mode first!"));
return 1;
}
}
/* create the bgjob plate */
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
GList *current_value = g_list_find(values,orginal_value);
for(int i=0; i<t->count; i++)
{
// Delay if active
if(t->delay)
g_usleep(t->delay*G_USEC_PER_SEC);
for(int b=0; b<(t->brackets*2)+1; b++)
{
// If bracket capture, lets set change shutterspeed
if (t->brackets)
{
if (b == 0)
{
// First bracket, step down time with (steps*brackets), also check so we never set the longest shuttertime which would be bulb mode
for(int s=0; s<(t->steps*t->brackets); s++)
if (g_list_next(current_value) && g_list_next(g_list_next(current_value)))
current_value = g_list_next(current_value);
}
else
{
// Step up with (steps)
for(int s=0; s<t->steps; s++)
if(g_list_previous(current_value))
current_value = g_list_previous(current_value);
}
}
// set the time property for bracked capture
if (t->brackets && current_value)
dt_camctl_camera_set_property_string(darktable.camctl, NULL, "shutterspeed", current_value->data);
// Capture image
dt_camctl_camera_capture(darktable.camctl,NULL);
fraction += 1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
// lets reset to orginal value before continue
if (t->brackets)
{
current_value = g_list_find(values,orginal_value);
dt_camctl_camera_set_property_string(darktable.camctl, NULL, "shutterspeed", current_value->data);
}
}
dt_control_backgroundjobs_destroy(darktable.control, jid);
// free values
if(values)
{
for(int i=0; i<g_list_length(values); i++)
g_free(g_list_nth_data(values,i));
g_list_free(values);
}
return 0;
}
int32_t dt_control_merge_hdr_job_run(dt_job_t *job)
{
long int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("merging %d image", "merging %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 1, message);
float *pixels = NULL;
float *weight = NULL;
int wd = 0, ht = 0, first_imgid = -1;
uint32_t filter = 0;
float whitelevel = 0.0f;
total ++;
while(t)
{
imgid = (long int)t->data;
dt_mipmap_buffer_t buf;
dt_mipmap_cache_read_get(darktable.mipmap_cache, &buf, imgid, DT_MIPMAP_FULL, DT_MIPMAP_BLOCKING);
// just take a copy. also do it after blocking read, so filters and bpp will make sense.
const dt_image_t *img = dt_image_cache_read_get(darktable.image_cache, imgid);
dt_image_t image = *img;
dt_image_cache_read_release(darktable.image_cache, img);
if(image.filters == 0 || image.bpp != sizeof(uint16_t))
{
dt_control_log(_("exposure bracketing only works on raw images"));
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
free(pixels);
free(weight);
goto error;
}
filter = dt_image_flipped_filter(img);
if(buf.size != DT_MIPMAP_FULL)
{
dt_control_log(_("failed to get raw buffer from image `%s'"), image.filename);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
free(pixels);
free(weight);
goto error;
}
if(!pixels)
{
first_imgid = imgid;
pixels = (float *)malloc(sizeof(float)*image.width*image.height);
weight = (float *)malloc(sizeof(float)*image.width*image.height);
memset(pixels, 0x0, sizeof(float)*image.width*image.height);
memset(weight, 0x0, sizeof(float)*image.width*image.height);
wd = image.width;
ht = image.height;
}
else if(image.width != wd || image.height != ht)
{
dt_control_log(_("images have to be of same size!"));
free(pixels);
free(weight);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
goto error;
}
// if no valid exif data can be found, assume peleng fisheye at f/16, 8mm, with half of the light lost in the system => f/22
const float eap = image.exif_aperture > 0.0f ? image.exif_aperture : 22.0f;
const float efl = image.exif_focal_length > 0.0f ? image.exif_focal_length : 8.0f;
const float rad = .5f * efl/eap;
const float aperture = M_PI * rad * rad;
const float iso = image.exif_iso > 0.0f ? image.exif_iso : 100.0f;
const float exp = image.exif_exposure > 0.0f ? image.exif_exposure : 1.0f;
const float cal = 100.0f/(aperture*exp*iso);
whitelevel = fmaxf(whitelevel, cal);
#ifdef _OPENMP
#pragma omp parallel for schedule(static) default(none) shared(buf, pixels, weight, wd, ht)
#endif
for(int k=0; k<wd*ht; k++)
{
const uint16_t in = ((uint16_t *)buf.buf)[k];
const float w = .001f + (in >= 1000 ? (in < 65000 ? in/65000.0f : 0.0f) : exp * 0.01f);
pixels[k] += w * in * cal;
weight[k] += w;
}
t = g_list_delete_link(t, t);
/* update backgroundjob ui plate */
fraction+=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
dt_mipmap_cache_read_release(darktable.mipmap_cache, &buf);
}
// normalize by white level to make clipping at 1.0 work as expected (to be sure, scale down one more stop, thus the 0.5):
#ifdef _OPENMP
#pragma omp parallel for schedule(static) default(none) shared(pixels, wd, ht, weight, whitelevel)
#endif
for(int k=0; k<wd*ht; k++) pixels[k] = fmaxf(0.0f, fminf(2.0f, pixels[k]/((.5f*whitelevel*65535.0f)*weight[k])));
// output hdr as digital negative with exif data.
uint8_t exif[65535];
char pathname[1024];
dt_image_full_path(first_imgid, pathname, 1024);
const int exif_len = dt_exif_read_blob(exif, pathname, 0, first_imgid);
char *c = pathname + strlen(pathname);
while(*c != '.' && c > pathname) c--;
g_strlcpy(c, "-hdr.dng", sizeof(pathname)-(c-pathname));
dt_imageio_write_dng(pathname, pixels, wd, ht, exif, exif_len, filter, whitelevel);
dt_control_backgroundjobs_progress(darktable.control, jid, 1.0f);
while(*c != '/' && c > pathname) c--;
dt_control_log(_("wrote merged hdr `%s'"), c+1);
// import new image
gchar *directory = g_path_get_dirname((const gchar *)pathname);
dt_film_t film;
const int filmid = dt_film_new(&film, directory);
dt_image_import(filmid, pathname, TRUE);
g_free (directory);
free(pixels);
free(weight);
error:
dt_control_backgroundjobs_destroy(darktable.control, jid);
return 0;
}
int32_t dt_control_delete_images_job_run(dt_job_t *job)
{
int imgid = -1;
dt_control_image_enumerator_t *t1 = (dt_control_image_enumerator_t *)job->param;
GList *t = t1->index;
char *imgs = _get_image_list(t);
int total = g_list_length(t);
char message[512]= {0};
double fraction=0;
snprintf(message, 512, ngettext ("deleting %d image", "deleting %d images", total), total );
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
sqlite3_stmt *stmt;
_set_remove_flag(imgs);
dt_collection_update(darktable.collection);
// We need a list of files to regenerate .xmp files if there are duplicates
GList *list = _get_full_pathname(imgs);
free(imgs);
DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select count(id) from images where filename in (select filename from images where id = ?1) and film_id in (select film_id from images where id = ?1)", -1, &stmt, NULL);
while(t)
{
imgid = GPOINTER_TO_INT(t->data);
char filename[DT_MAX_PATH_LEN];
gboolean from_cache = FALSE;
dt_image_full_path(imgid, filename, DT_MAX_PATH_LEN, &from_cache);
int duplicates = 0;
DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, imgid);
if(sqlite3_step(stmt) == SQLITE_ROW)
duplicates = sqlite3_column_int(stmt, 0);
sqlite3_reset(stmt);
sqlite3_clear_bindings(stmt);
// remove from disk:
if(duplicates == 1)
{
// there are no further duplicates so we can remove the source data file
(void)g_unlink(filename);
dt_image_remove(imgid);
// all sidecar files - including left-overs - can be deleted;
// left-overs can result when previously duplicates have been REMOVED;
// no need to keep them as the source data file is gone.
const int len = DT_MAX_PATH_LEN + 30;
gchar pattern[len];
// NULL terminated list of glob patterns; should include "" and can be extended if needed
static const gchar *glob_patterns[] = { "", "_[0-9][0-9]", "_[0-9][0-9][0-9]", "_[0-9][0-9][0-9][0-9]", NULL };
const gchar **glob_pattern = glob_patterns;
GList *files = NULL;
while(*glob_pattern)
{
snprintf(pattern, len, "%s", filename);
gchar *c1 = pattern + strlen(pattern);
while(*c1 != '.' && c1 > pattern) c1--;
snprintf(c1, pattern + len - c1, "%s", *glob_pattern);
const gchar *c2 = filename + strlen(filename);
while(*c2 != '.' && c2 > filename) c2--;
snprintf(c1+strlen(*glob_pattern), pattern + len - c1 - strlen(*glob_pattern), "%s.xmp", c2);
#ifdef __WIN32__
WIN32_FIND_DATA data;
HANDLE handle = FindFirstFile(pattern, &data);
if(handle != INVALID_HANDLE_VALUE)
{
do
files = g_list_append(files, g_strdup(data.cFileName));
while(FindNextFile(handle, &data));
}
#else
glob_t globbuf;
if(!glob(pattern, 0, NULL, &globbuf))
{
for(size_t i=0; i < globbuf.gl_pathc; i++)
files = g_list_append(files, g_strdup(globbuf.gl_pathv[i]));
globfree(&globbuf);
}
#endif
glob_pattern++;
}
GList *file_iter = g_list_first(files);
while(file_iter != NULL)
{
(void)g_unlink(file_iter->data);
file_iter = g_list_next(file_iter);
}
g_list_free_full(files, g_free);
}
else
{
// don't remove the actual source data if there are further duplicates using it;
// just delete the xmp file of the duplicate selected.
dt_image_path_append_version(imgid, filename, DT_MAX_PATH_LEN);
char *c = filename + strlen(filename);
sprintf(c, ".xmp");
dt_image_remove(imgid);
(void)g_unlink(filename);
}
t = g_list_delete_link(t, t);
fraction=1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
sqlite3_finalize(stmt);
char *imgname;
while(list)
{
imgname = (char *)list->data;
dt_image_synch_all_xmp(imgname);
list = g_list_delete_link(list, list);
}
g_list_free(list);
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_film_remove_empty();
dt_control_signal_raise(darktable.signals, DT_SIGNAL_FILMROLLS_CHANGED);
dt_control_queue_redraw_center();
return 0;
}
static int32_t dt_camera_capture_job_run(dt_job_t *job)
{
dt_camera_capture_t *params = dt_control_job_get_params(job);
int total;
char message[512]= {0};
double fraction=0;
total = params->total = params->brackets ? params->count * params->brackets : params->count;
snprintf(message, sizeof(message), ngettext ("capturing %d image", "capturing %d images", total), total );
pthread_mutex_init(¶ms->mutex, NULL);
pthread_cond_init(¶ms->done, NULL);
// register listener
dt_camctl_listener_t *listener;
listener = g_malloc0(sizeof(dt_camctl_listener_t));
listener->data = params;
listener->image_downloaded = _camera_capture_image_downloaded;
listener->request_image_path = _camera_request_image_path;
listener->request_image_filename = _camera_request_image_filename;
dt_camctl_register_listener(darktable.camctl, listener);
/* try to get exp program mode for nikon */
char *expprogram = (char *)dt_camctl_camera_get_property(darktable.camctl, NULL, "expprogram");
/* if fail, lets try fetching mode for cannon */
if(!expprogram)
expprogram = (char *)dt_camctl_camera_get_property(darktable.camctl, NULL, "autoexposuremode");
/* Fetch all values for shutterspeed and initialize current value */
GList *values=NULL;
gconstpointer original_value=NULL;
const char *cvalue = dt_camctl_camera_get_property(darktable.camctl, NULL, "shutterspeed");
const char *value = dt_camctl_camera_property_get_first_choice(darktable.camctl, NULL, "shutterspeed");
/* get values for bracketing */
if (params->brackets && expprogram && expprogram[0]=='M' && value && cvalue)
{
do
{
// Add value to list
values = g_list_append(values, g_strdup(value));
// Check if current values is the same as original value, then lets store item ptr
if (strcmp(value,cvalue) == 0)
original_value = g_list_last(values)->data;
}
while ((value = dt_camctl_camera_property_get_next_choice(darktable.camctl, NULL, "shutterspeed")) != NULL);
}
else
{
/* if this was an intended bracket capture bail out */
if(params->brackets)
{
dt_control_log(_("please set your camera to manual mode first!"));
pthread_mutex_lock(¶ms->mutex);
pthread_cond_wait(¶ms->done, ¶ms->mutex);
pthread_mutex_unlock(¶ms->mutex);
pthread_mutex_destroy(¶ms->mutex);
pthread_cond_destroy(¶ms->done);
dt_import_session_destroy(params->shared.session);
dt_camctl_unregister_listener(darktable.camctl, listener);
g_free(listener);
free(params);
return 1;
}
}
/* create the bgjob plate */
const guint *jid = dt_control_backgroundjobs_create(darktable.control, 0, message);
GList *current_value = g_list_find(values,original_value);
for(uint32_t i=0; i < params->count; i++)
{
// Delay if active
if(params->delay)
g_usleep(params->delay*G_USEC_PER_SEC);
for(uint32_t b=0; b < (params->brackets*2)+1; b++)
{
// If bracket capture, lets set change shutterspeed
if (params->brackets)
{
if (b == 0)
{
// First bracket, step down time with (steps*brackets), also check so we never set the longest shuttertime which would be bulb mode
for(uint32_t s=0; s < (params->steps * params->brackets); s++)
if (g_list_next(current_value) && g_list_next(g_list_next(current_value)))
current_value = g_list_next(current_value);
}
else
{
// Step up with (steps)
for(uint32_t s=0; s < params->steps; s++)
if(g_list_previous(current_value))
current_value = g_list_previous(current_value);
}
}
// set the time property for bracket capture
if (params->brackets && current_value)
dt_camctl_camera_set_property_string(darktable.camctl, NULL, "shutterspeed", current_value->data);
// Capture image
dt_camctl_camera_capture(darktable.camctl,NULL);
fraction += 1.0/total;
dt_control_backgroundjobs_progress(darktable.control, jid, fraction);
}
// lets reset to original value before continue
if (params->brackets)
{
current_value = g_list_find(values,original_value);
dt_camctl_camera_set_property_string(darktable.camctl, NULL, "shutterspeed", current_value->data);
}
}
/* wait for last image capture before exiting job */
pthread_mutex_lock(¶ms->mutex);
pthread_cond_wait(¶ms->done, ¶ms->mutex);
pthread_mutex_unlock(¶ms->mutex);
pthread_mutex_destroy(¶ms->mutex);
pthread_cond_destroy(¶ms->done);
/* cleanup */
dt_control_backgroundjobs_destroy(darktable.control, jid);
dt_import_session_destroy(params->shared.session);
dt_camctl_unregister_listener(darktable.camctl, listener);
g_free(listener);
// free values
if(values)
{
g_list_free_full(values, g_free);
}
free(params);
return 0;
}
