// http://stackoverflow.com/questions/4631388/transparent-floating-gtkentry static gboolean _lib_tagging_tag_key_press(GtkWidget *entry, GdkEventKey *event, dt_lib_module_t *self) { dt_lib_tagging_t *d = (dt_lib_tagging_t*)self->data; switch(event->keyval) { case GDK_Escape: gtk_widget_destroy(d->floating_tag_window); return TRUE; case GDK_Tab: return TRUE; case GDK_Return: case GDK_KP_Enter: { const gchar *tag = gtk_entry_get_text(GTK_ENTRY(entry)); /* create new tag */ guint tid=0; dt_tag_new(tag, &tid); /* attach tag to images */ if(d->floating_tag_imgid > 0) // just a single image { dt_tag_attach(tid, d->floating_tag_imgid); dt_image_synch_xmp(d->floating_tag_imgid); } else // all selected images { GList *selected_images = g_list_first(dt_collection_get_selected(darktable.collection)); if(selected_images) { GList *iter = selected_images; do { int imgid = GPOINTER_TO_INT(iter->data); dt_tag_attach(tid, imgid); dt_image_synch_xmp(imgid); } while( (iter=g_list_next(iter)) !=NULL ); } g_list_free(selected_images); } update(self, 1); update(self, 0); gtk_widget_destroy(d->floating_tag_window); return TRUE; } } return FALSE; /* event not handled */ }
void dt_dev_write_history(dt_develop_t *dev) { sqlite3_stmt *stmt; gboolean changed = FALSE; DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "delete from history where imgid = ?1", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, dev->image_storage.id); sqlite3_step(stmt); sqlite3_finalize (stmt); GList *history = dev->history; for(int i=0; i<dev->history_end && history; i++) { dt_dev_history_item_t *hist = (dt_dev_history_item_t *)(history->data); (void)dt_dev_write_history_item(&dev->image_storage, hist, i); history = g_list_next(history); changed = TRUE; } /* attach / detach changed tag reflecting actual change */ guint tagid = 0; dt_tag_new("darktable|changed",&tagid); if(changed) dt_tag_attach(tagid, dev->image_storage.id); else dt_tag_detach(tagid, dev->image_storage.id); }
void dt_styles_apply_to_image(const char *name,gboolean duplicate, int32_t imgid) { int id=0; sqlite3_stmt *stmt; int32_t newimgid; if ((id=dt_styles_get_id_by_name(name)) != 0) { /* check if we should make a duplicate before applying style */ if (duplicate) { newimgid = dt_image_duplicate (imgid); if(newimgid != -1) dt_history_copy_and_paste_on_image(imgid, newimgid, FALSE, NULL); } else newimgid = imgid; /* merge onto history stack, let's find history offest in destination image */ int32_t offs = 0; DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "SELECT MAX(num)+1 FROM history WHERE imgid = ?1", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, newimgid); if (sqlite3_step (stmt) == SQLITE_ROW) offs = sqlite3_column_int (stmt, 0); sqlite3_finalize (stmt); /* copy history items from styles onto image */ DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "insert into history (imgid,num,module,operation,op_params,enabled,blendop_params,blendop_version,multi_priority,multi_name) select ?1, num+?2,module,operation,op_params,enabled,blendop_params,blendop_version,multi_priority,multi_name from style_items where styleid=?3", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, newimgid); DT_DEBUG_SQLITE3_BIND_INT(stmt, 2, offs); DT_DEBUG_SQLITE3_BIND_INT(stmt, 3, id); sqlite3_step (stmt); sqlite3_finalize (stmt); /* add tag */ guint tagid=0; gchar ntag[512]= {0}; g_snprintf(ntag,512,"darktable|style|%s",name); if (dt_tag_new(ntag,&tagid)) dt_tag_attach(tagid,newimgid); /* if current image in develop reload history */ if (dt_dev_is_current_image(darktable.develop, newimgid)) { dt_dev_reload_history_items (darktable.develop); dt_dev_modulegroups_set(darktable.develop, dt_dev_modulegroups_get(darktable.develop)); } /* update xmp file */ dt_image_synch_xmp(newimgid); /* remove old obsolete thumbnails */ dt_mipmap_cache_remove(darktable.mipmap_cache, newimgid); /* redraw center view to update visible mipmaps */ dt_control_queue_redraw_center(); } }
int dt_lua_tag_attach(lua_State *L) { dt_lua_image_t imgid = -1; dt_lua_tag_t tagid = 0; if(luaL_testudata(L,1,"dt_lua_image_t")) { luaA_to(L,dt_lua_image_t,&imgid,1); luaA_to(L,dt_lua_tag_t,&tagid,2); } else { luaA_to(L,dt_lua_tag_t,&tagid,1); luaA_to(L,dt_lua_image_t,&imgid,2); } dt_tag_attach(tagid,imgid); 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 void new_button_clicked (GtkButton *button, gpointer user_data) { dt_lib_module_t *self = (dt_lib_module_t *)user_data; dt_lib_tagging_t *d = (dt_lib_tagging_t *)self->data; const gchar *tag = gtk_entry_get_text(d->entry); /* create new tag */ guint tid=0; dt_tag_new(tag, &tid); /** attach tag to selected images */ dt_tag_attach(tid,-1); dt_image_synch_xmp(-1); update(self, 1); }
static void entry_activated (GtkButton *button, gpointer user_data) { dt_lib_module_t *self = (dt_lib_module_t *)user_data; dt_lib_tagging_t *d = (dt_lib_tagging_t *)self->data; const gchar *tag = gtk_entry_get_text(d->entry); if(!tag || tag[0] == '\0') return; /* create new tag */ guint tid=0; dt_tag_new(tag, &tid); /** attach tag to selected images */ dt_tag_attach(tid,-1); dt_image_synch_xmp(-1); update(self, 1); update(self, 0); gtk_entry_set_text(d->entry, ""); }
static void attach_selected_tag(dt_lib_module_t *self, dt_lib_tagging_t *d) { GtkTreeIter iter; GtkTreeModel *model = NULL; GtkTreeView *view = d->related; GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(view)); if(!gtk_tree_selection_get_selected(selection, &model, &iter) && !gtk_tree_model_get_iter_first(model, &iter)) return; guint tagid; gtk_tree_model_get(model, &iter, DT_LIB_TAGGING_COL_ID, &tagid, -1); int imgsel = -1; if(tagid <= 0) return; imgsel = dt_view_get_image_to_act_on(); dt_tag_attach(tagid, imgsel); dt_image_synch_xmp(imgsel); dt_control_signal_raise(darktable.signals, DT_SIGNAL_TAG_CHANGED); }
static void attach_selected_tag(dt_lib_module_t *self, dt_lib_tagging_t *d) { GtkTreeIter iter; GtkTreeModel *model = NULL; GtkTreeView *view = d->related; GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(view)); if(!gtk_tree_selection_get_selected(selection, &model, &iter) && !gtk_tree_model_get_iter_first(model, &iter)) return; guint tagid; gtk_tree_model_get (model, &iter, DT_LIB_TAGGING_COL_ID, &tagid, -1); int imgsel = -1; if(tagid <= 0) return; DT_CTL_GET_GLOBAL(imgsel, lib_image_mouse_over_id); dt_tag_attach(tagid,imgsel); dt_image_synch_xmp(imgsel); }
uint32_t dt_image_import(const int32_t film_id, const char *filename, gboolean override_ignore_jpegs) { if(!g_file_test(filename, G_FILE_TEST_IS_REGULAR)) return 0; const char *cc = filename + strlen(filename); for(; *cc!='.'&&cc>filename; cc--); if(!strcmp(cc, ".dt")) return 0; if(!strcmp(cc, ".dttags")) return 0; if(!strcmp(cc, ".xmp")) return 0; char *ext = g_ascii_strdown(cc+1, -1); if(override_ignore_jpegs == FALSE && (!strcmp(ext, "jpg") || !strcmp(ext, "jpeg")) && dt_conf_get_bool("ui_last/import_ignore_jpegs")) return 0; int supported = 0; char **extensions = g_strsplit(dt_supported_extensions, ",", 100); for(char **i=extensions; *i!=NULL; i++) if(!strcmp(ext, *i)) { supported = 1; break; } g_strfreev(extensions); if(!supported) { g_free(ext); return 0; } int rc; uint32_t id = 0; // select from images; if found => return gchar *imgfname; imgfname = g_path_get_basename((const gchar*)filename); sqlite3_stmt *stmt; DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select id from images where film_id = ?1 and filename = ?2", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, film_id); DT_DEBUG_SQLITE3_BIND_TEXT(stmt, 2, imgfname, strlen(imgfname), SQLITE_STATIC); if(sqlite3_step(stmt) == SQLITE_ROW) { id = sqlite3_column_int(stmt, 0); g_free(imgfname); sqlite3_finalize(stmt); g_free(ext); return id; } sqlite3_finalize(stmt); // also need to set the no-legacy bit, to make sure we get the right presets (new ones) uint32_t flags = dt_conf_get_int("ui_last/import_initial_rating"); if(flags > 5) { flags = 1; dt_conf_set_int("ui_last/import_initial_rating", 1); } flags |= DT_IMAGE_NO_LEGACY_PRESETS; // insert dummy image entry in database DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "insert into images (id, film_id, filename, caption, description, " "license, sha1sum, flags) values (null, ?1, ?2, '', '', '', '', ?3)", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, film_id); DT_DEBUG_SQLITE3_BIND_TEXT(stmt, 2, imgfname, strlen(imgfname), SQLITE_TRANSIENT); DT_DEBUG_SQLITE3_BIND_INT(stmt, 3, flags); rc = sqlite3_step(stmt); if (rc != SQLITE_DONE) fprintf(stderr, "sqlite3 error %d\n", rc); sqlite3_finalize(stmt); DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select id from images where film_id = ?1 and filename = ?2", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, film_id); DT_DEBUG_SQLITE3_BIND_TEXT(stmt, 2, imgfname, strlen(imgfname), SQLITE_STATIC); if(sqlite3_step(stmt) == SQLITE_ROW) id = sqlite3_column_int(stmt, 0); sqlite3_finalize(stmt); // Try to find out if this should be grouped already. gchar *basename = g_strdup(imgfname); gchar *cc2 = basename + strlen(basename); for(; *cc2!='.'&&cc2>basename; cc2--); *cc2='\0'; gchar *sql_pattern = g_strconcat(basename, ".%", NULL); DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "select group_id from images where film_id = ?1 and filename like ?2 and id != ?3", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, film_id); DT_DEBUG_SQLITE3_BIND_TEXT(stmt, 2, sql_pattern, -1, SQLITE_TRANSIENT); DT_DEBUG_SQLITE3_BIND_INT(stmt, 3, id); int group_id; if(sqlite3_step(stmt) == SQLITE_ROW) group_id = sqlite3_column_int(stmt, 0); else group_id = id; sqlite3_finalize(stmt); DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "update images set group_id = ?1 where id = ?2", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, group_id); DT_DEBUG_SQLITE3_BIND_INT(stmt, 2, id); sqlite3_step(stmt); sqlite3_finalize(stmt); // printf("[image_import] importing `%s' to img id %d\n", imgfname, id); // lock as shortly as possible: const dt_image_t *cimg = dt_image_cache_read_get(darktable.image_cache, id); dt_image_t *img = dt_image_cache_write_get(darktable.image_cache, cimg); img->group_id = group_id; // read dttags and exif for database queries! (void) dt_exif_read(img, filename); char dtfilename[DT_MAX_PATH_LEN]; g_strlcpy(dtfilename, filename, DT_MAX_PATH_LEN); dt_image_path_append_version(id, dtfilename, DT_MAX_PATH_LEN); char *c = dtfilename + strlen(dtfilename); sprintf(c, ".xmp"); (void)dt_exif_xmp_read(img, dtfilename, 0); // write through to db, but not to xmp. dt_image_cache_write_release(darktable.image_cache, img, DT_IMAGE_CACHE_RELAXED); dt_image_cache_read_release(darktable.image_cache, img); // add a tag with the file extension guint tagid = 0; char tagname[512]; snprintf(tagname, 512, "darktable|format|%s", ext); g_free(ext); dt_tag_new(tagname, &tagid); dt_tag_attach(tagid,id); // Search for sidecar files and import them if found. glob_t *globbuf = g_malloc(sizeof(glob_t)); // Add version wildcard gchar *fname = g_strdup(filename); gchar pattern[DT_MAX_PATH_LEN]; g_snprintf(pattern, DT_MAX_PATH_LEN, "%s", filename); char *c1 = pattern + strlen(pattern); while(*c1 != '.' && c1 > pattern) c1--; snprintf(c1, pattern + DT_MAX_PATH_LEN - c1, "_*"); char *c2 = fname + strlen(fname); while(*c2 != '.' && c2 > fname) c2--; snprintf(c1+2, pattern + DT_MAX_PATH_LEN - c1 - 2, "%s.xmp", c2); if (!glob(pattern, 0, NULL, globbuf)) { for (int i=0; i < globbuf->gl_pathc; i++) { int newid = -1; newid = dt_image_duplicate(id); const dt_image_t *cimg = dt_image_cache_read_get(darktable.image_cache, newid); dt_image_t *img = dt_image_cache_write_get(darktable.image_cache, cimg); (void)dt_exif_xmp_read(img, globbuf->gl_pathv[i], 0); dt_image_cache_write_release(darktable.image_cache, img, DT_IMAGE_CACHE_RELAXED); dt_image_cache_read_release(darktable.image_cache, img); } globfree(globbuf); } g_free(imgfname); g_free(fname); g_free(basename); g_free(sql_pattern); g_free(globbuf); dt_control_signal_raise(darktable.signals,DT_SIGNAL_IMAGE_IMPORT,id); return id; }
void dt_styles_apply_to_image(const char *name,gboolean duplicate, int32_t imgid) { int id=0; sqlite3_stmt *stmt; int32_t newimgid; if ((id=dt_styles_get_id_by_name(name)) != 0) { /* check if we should make a duplicate before applying style */ if (duplicate) { newimgid = dt_image_duplicate (imgid); if(newimgid != -1) dt_history_copy_and_paste_on_image(imgid, newimgid, FALSE, NULL); } else newimgid = imgid; /* merge onto history stack, let's find history offest in destination image */ int32_t offs = 0; DT_DEBUG_SQLITE3_PREPARE_V2(dt_database_get(darktable.db), "SELECT MAX(num)+1 FROM history WHERE imgid = ?1", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, newimgid); if (sqlite3_step (stmt) == SQLITE_ROW) offs = sqlite3_column_int (stmt, 0); sqlite3_finalize (stmt); /* delete all items from the temp styles_items, this table is used only to get a ROWNUM of the results */ DT_DEBUG_SQLITE3_EXEC(dt_database_get(darktable.db), "DELETE FROM memory.style_items",NULL,NULL,NULL); /* copy history items from styles onto temp table */ DT_DEBUG_SQLITE3_PREPARE_V2 (dt_database_get(darktable.db), "INSERT INTO MEMORY.style_items SELECT * FROM style_items WHERE styleid=?1 ORDER BY multi_priority DESC;", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, id); sqlite3_step (stmt); sqlite3_finalize (stmt); /* copy the style items into the history */ DT_DEBUG_SQLITE3_PREPARE_V2 (dt_database_get(darktable.db), "INSERT INTO history (imgid,num,module,operation,op_params,enabled,blendop_params,blendop_version,multi_priority,multi_name) SELECT ?1,?2+rowid,module,operation,op_params,enabled,blendop_params,blendop_version,multi_priority,multi_name FROM MEMORY.style_items", -1, &stmt, NULL); DT_DEBUG_SQLITE3_BIND_INT(stmt, 1, newimgid); DT_DEBUG_SQLITE3_BIND_INT(stmt, 2, offs); sqlite3_step (stmt); sqlite3_finalize (stmt); /* add tag */ guint tagid=0; gchar ntag[512]= {0}; g_snprintf(ntag,512,"darktable|style|%s",name); if (dt_tag_new(ntag,&tagid)) dt_tag_attach(tagid,newimgid); /* if current image in develop reload history */ if (dt_dev_is_current_image(darktable.develop, newimgid)) { dt_dev_reload_history_items (darktable.develop); dt_dev_modulegroups_set(darktable.develop, dt_dev_modulegroups_get(darktable.develop)); } /* update xmp file */ dt_image_synch_xmp(newimgid); /* remove old obsolete thumbnails */ dt_mipmap_cache_remove(darktable.mipmap_cache, newimgid); /* if we have created a duplicate, reset collected images */ if (duplicate) dt_control_signal_raise(darktable.signals, DT_SIGNAL_COLLECTION_CHANGED); /* redraw center view to update visible mipmaps */ dt_control_queue_redraw_center(); } }
void dt_lightroom_import(int imgid, dt_develop_t *dev, gboolean iauto) { gboolean refresh_needed = FALSE; char imported[256] = { 0 }; // Get full pathname char *pathname = dt_get_lightroom_xmp(imgid); if(!pathname) { if(!iauto) dt_control_log(_("cannot find lightroom XMP!")); return; } // Load LR xmp xmlDocPtr doc; xmlNodePtr entryNode; // Parse xml document doc = xmlParseEntity(pathname); if(doc == NULL) { g_free(pathname); return; } // Enter first node, xmpmeta entryNode = xmlDocGetRootElement(doc); if(entryNode == NULL) { g_free(pathname); xmlFreeDoc(doc); return; } if(xmlStrcmp(entryNode->name, (const xmlChar *)"xmpmeta")) { if(!iauto) dt_control_log(_("`%s' not a lightroom XMP!"), pathname); g_free(pathname); return; } // Check that this is really a Lightroom document xmlXPathContextPtr xpathCtx = xmlXPathNewContext(doc); if(xpathCtx == NULL) { g_free(pathname); xmlFreeDoc(doc); return; } xmlXPathRegisterNs(xpathCtx, BAD_CAST "stEvt", BAD_CAST "http://ns.adobe.com/xap/1.0/sType/ResourceEvent#"); xmlXPathObjectPtr xpathObj = xmlXPathEvalExpression((const xmlChar *)"//@stEvt:softwareAgent", xpathCtx); if(xpathObj == NULL) { if(!iauto) dt_control_log(_("`%s' not a lightroom XMP!"), pathname); xmlXPathFreeContext(xpathCtx); g_free(pathname); xmlFreeDoc(doc); return; } xmlNodeSetPtr xnodes = xpathObj->nodesetval; if(xnodes != NULL && xnodes->nodeNr > 0) { xmlNodePtr xnode = xnodes->nodeTab[0]; xmlChar *value = xmlNodeListGetString(doc, xnode->xmlChildrenNode, 1); if(!strstr((char *)value, "Lightroom")) { xmlXPathFreeContext(xpathCtx); xmlXPathFreeObject(xpathObj); xmlFreeDoc(doc); xmlFree(value); if(!iauto) dt_control_log(_("`%s' not a lightroom XMP!"), pathname); g_free(pathname); return; } xmlFree(value); } else { xmlXPathFreeObject(xpathObj); xmlXPathFreeContext(xpathCtx); if(!iauto) dt_control_log(_("`%s' not a lightroom XMP!"), pathname); g_free(pathname); return; } xmlXPathFreeObject(xpathObj); xmlXPathFreeContext(xpathCtx); // Go safely to Description node if(entryNode) entryNode = entryNode->xmlChildrenNode; if(entryNode) entryNode = entryNode->next; if(entryNode) entryNode = entryNode->xmlChildrenNode; if(entryNode) entryNode = entryNode->next; if(!entryNode || xmlStrcmp(entryNode->name, (const xmlChar *)"Description")) { if(!iauto) dt_control_log(_("`%s' not a lightroom XMP!"), pathname); g_free(pathname); return; } g_free(pathname); // Look for attributes in the Description dt_iop_clipping_params_t pc; memset(&pc, 0, sizeof(pc)); gboolean has_crop = FALSE; dt_iop_flip_params_t pf; memset(&pf, 0, sizeof(pf)); gboolean has_flip = FALSE; dt_iop_exposure_params_t pe; memset(&pe, 0, sizeof(pe)); gboolean has_exposure = FALSE; dt_iop_vignette_params_t pv; memset(&pv, 0, sizeof(pv)); gboolean has_vignette = FALSE; dt_iop_grain_params_t pg; memset(&pg, 0, sizeof(pg)); gboolean has_grain = FALSE; dt_iop_spots_params_t ps; memset(&ps, 0, sizeof(ps)); gboolean has_spots = FALSE; typedef enum lr_curve_kind_t { linear = 0, medium_contrast = 1, string_contrast = 2, custom = 3 } lr_curve_kind_t; #define MAX_PTS 20 dt_iop_tonecurve_params_t ptc; memset(&ptc, 0, sizeof(ptc)); int ptc_value[4] = { 0, 0, 0, 0 }; float ptc_split[3] = { 0.0, 0.0, 0.0 }; lr_curve_kind_t curve_kind = linear; int curve_pts[MAX_PTS][2]; int n_pts = 0; dt_iop_colorzones_params_t pcz; memset(&pcz, 0, sizeof(pcz)); gboolean has_colorzones = FALSE; dt_iop_splittoning_params_t pst; memset(&pst, 0, sizeof(pst)); gboolean has_splittoning = FALSE; dt_iop_bilat_params_t pbl; memset(&pbl, 0, sizeof(pbl)); gboolean has_bilat = FALSE; gboolean has_tags = FALSE; int rating = 0; gboolean has_rating = FALSE; gdouble lat = 0, lon = 0; gboolean has_gps = FALSE; int color = 0; gboolean has_colorlabel = FALSE; float fratio = 0; // factor ratio image float crop_roundness = 0; // from lightroom int n_import = 0; // number of iop imported const float hfactor = 3.0 / 9.0; // hue factor adjustment (use 3 out of 9 boxes in colorzones) const float lfactor = 4.0 / 9.0; // lightness factor adjustment (use 4 out of 9 boxes in colorzones) int iwidth = 0, iheight = 0; // image width / height int orientation = 1; xmlAttr *attribute = entryNode->properties; while(attribute && attribute->name && attribute->children) { xmlChar *value = xmlNodeListGetString(entryNode->doc, attribute->children, 1); if(!xmlStrcmp(attribute->name, (const xmlChar *)"CropTop")) pc.cy = g_ascii_strtod((char *)value, NULL); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"CropRight")) pc.cw = g_ascii_strtod((char *)value, NULL); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"CropLeft")) pc.cx = g_ascii_strtod((char *)value, NULL); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"CropBottom")) pc.ch = g_ascii_strtod((char *)value, NULL); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"CropAngle")) pc.angle = -g_ascii_strtod((char *)value, NULL); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ImageWidth")) iwidth = atoi((char *)value); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ImageLength")) iheight = atoi((char *)value); else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Orientation")) { orientation = atoi((char *)value); if(dev != NULL && ((dev->image_storage.orientation == 6 && orientation != 6) || (dev->image_storage.orientation == 5 && orientation != 8) || (dev->image_storage.orientation == 0 && orientation != 1))) has_flip = TRUE; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HasCrop")) { if(!xmlStrcmp(value, (const xmlChar *)"True")) has_crop = TRUE; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Blacks2012")) { int v = atoi((char *)value); if(v != 0) { has_exposure = TRUE; pe.black = lr2dt_blacks((float)v); } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Exposure2012")) { float v = g_ascii_strtod((char *)value, NULL); if(v != 0.0) { has_exposure = TRUE; pe.exposure = lr2dt_exposure(v); } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"PostCropVignetteAmount")) { int v = atoi((char *)value); if(v != 0) { has_vignette = TRUE; pv.brightness = lr2dt_vignette_gain((float)v); } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"PostCropVignetteMidpoint")) { int v = atoi((char *)value); pv.scale = lr2dt_vignette_midpoint((float)v); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"PostCropVignetteStyle")) { int v = atoi((char *)value); if(v == 1) // Highlight Priority pv.saturation = -0.300; else // Color Priority & Paint Overlay pv.saturation = -0.200; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"PostCropVignetteFeather")) { int v = atoi((char *)value); if(v != 0) pv.falloff_scale = (float)v; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"PostCropVignetteRoundness")) { int v = atoi((char *)value); crop_roundness = (float)v; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"GrainAmount")) { int v = atoi((char *)value); if(v != 0) { has_grain = TRUE; pg.strength = lr2dt_grain_amount((float)v); } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"GrainFrequency")) { int v = atoi((char *)value); if(v != 0) pg.scale = lr2dt_grain_frequency((float)v); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricShadows")) { ptc_value[0] = atoi((char *)value); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricDarks")) { ptc_value[1] = atoi((char *)value); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricLights")) { ptc_value[2] = atoi((char *)value); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricHighlights")) { ptc_value[3] = atoi((char *)value); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricShadowSplit")) { ptc_split[0] = g_ascii_strtod((char *)value, NULL) / 100.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricMidtoneSplit")) { ptc_split[1] = g_ascii_strtod((char *)value, NULL) / 100.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ParametricHighlightSplit")) { ptc_split[2] = g_ascii_strtod((char *)value, NULL) / 100.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"ToneCurveName2012")) { if(!xmlStrcmp(value, (const xmlChar *)"Linear")) curve_kind = linear; else if(!xmlStrcmp(value, (const xmlChar *)"Medium Contrast")) curve_kind = medium_contrast; else if(!xmlStrcmp(value, (const xmlChar *)"Strong Contrast")) curve_kind = medium_contrast; else if(!xmlStrcmp(value, (const xmlChar *)"Custom")) curve_kind = custom; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentRed")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][0] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentOrange")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][1] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentYellow")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][2] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentGreen")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][3] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentAqua")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][4] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentBlue")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][5] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentPurple")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][6] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SaturationAdjustmentMagenta")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[1][7] = 0.5 + (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentRed")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][0] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentOrange")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][1] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentYellow")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][2] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentGreen")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][3] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentAqua")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][4] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentBlue")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][5] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentPurple")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][6] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"LuminanceAdjustmentMagenta")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[0][7] = 0.5 + lfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentRed")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][0] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentOrange")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][1] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentYellow")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][2] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentGreen")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][3] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentAqua")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][4] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentBlue")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][5] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentPurple")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][6] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"HueAdjustmentMagenta")) { int v = atoi((char *)value); if(v != 0) has_colorzones = TRUE; pcz.equalizer_y[2][7] = 0.5 + hfactor * (float)v / 200.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SplitToningShawowHue")) { int v = atoi((char *)value); if(v != 0) has_splittoning = TRUE; pst.shadow_hue = (float)v / 255.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SplitToningShawowSaturation")) { int v = atoi((char *)value); if(v != 0) has_splittoning = TRUE; pst.shadow_saturation = (float)v / 100.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SplitToningHighlightHue")) { int v = atoi((char *)value); if(v != 0) has_splittoning = TRUE; pst.highlight_hue = (float)v / 255.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SplitToningHighlightSaturation")) { int v = atoi((char *)value); if(v != 0) has_splittoning = TRUE; pst.highlight_saturation = (float)v / 100.0; } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"SplitToningBalance")) { float v = g_ascii_strtod((char *)value, NULL); pst.balance = lr2dt_splittoning_balance(v); } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Clarity2012")) { int v = atoi((char *)value); if(v != 0) { has_bilat = TRUE; pbl.detail = lr2dt_clarity((float)v); } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Rating")) { int v = atoi((char *)value); if(v != 0) { rating = v; has_rating = TRUE; } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"GPSLatitude")) { int deg; double msec; char d; if(sscanf((const char *)value, "%d,%lf%c", °, &msec, &d)) { lat = deg + msec / 60.0; if(d == 'S') lat = -lat; has_gps = TRUE; } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"GPSLongitude")) { int deg; double msec; char d; if(sscanf((const char *)value, "%d,%lf%c", °, &msec, &d)) { lon = deg + msec / 60.0; if(d == 'W') lon = -lon; has_gps = TRUE; } } else if(!xmlStrcmp(attribute->name, (const xmlChar *)"Label")) { for(int i = 0; value[i]; i++) value[i] = tolower(value[i]); if(!strcmp((char *)value, _("red"))) color = 0; else if(!strcmp((char *)value, _("yellow"))) color = 1; else if(!strcmp((char *)value, _("green"))) color = 2; else if(!strcmp((char *)value, _("blue"))) color = 3; else // just an else here to catch all other cases as on lightroom one can // change the names of labels. So purple and the user's defined labels // will be mapped to purple on darktable. color = 4; has_colorlabel = TRUE; } xmlFree(value); attribute = attribute->next; } // Look for tags (subject/Bag/* and RetouchInfo/seq/*) entryNode = entryNode->xmlChildrenNode; if(entryNode) entryNode = entryNode->next; while(entryNode) { if(dev == NULL && (!xmlStrcmp(entryNode->name, (const xmlChar *)"subject") || !xmlStrcmp(entryNode->name, (const xmlChar *)"hierarchicalSubject"))) { xmlNodePtr tagNode = entryNode; tagNode = tagNode->xmlChildrenNode; tagNode = tagNode->next; tagNode = tagNode->xmlChildrenNode; tagNode = tagNode->next; while(tagNode) { if(!xmlStrcmp(tagNode->name, (const xmlChar *)"li")) { xmlChar *value = xmlNodeListGetString(doc, tagNode->xmlChildrenNode, 1); guint tagid = 0; if(!dt_tag_exists((char *)value, &tagid)) dt_tag_new((char *)value, &tagid); dt_tag_attach(tagid, imgid); has_tags = TRUE; xmlFree(value); } tagNode = tagNode->next; } } else if(dev != NULL && !xmlStrcmp(entryNode->name, (const xmlChar *)"RetouchInfo")) { xmlNodePtr riNode = entryNode; riNode = riNode->xmlChildrenNode; riNode = riNode->next; riNode = riNode->xmlChildrenNode; riNode = riNode->next; while(riNode) { if(!xmlStrcmp(riNode->name, (const xmlChar *)"li")) { xmlChar *value = xmlNodeListGetString(doc, riNode->xmlChildrenNode, 1); spot_t *p = &ps.spot[ps.num_spots]; if(sscanf((const char *)value, "centerX = %f, centerY = %f, radius = %f, sourceState = %*[a-zA-Z], " "sourceX = %f, sourceY = %f", &(p->x), &(p->y), &(p->radius), &(p->xc), &(p->yc))) { ps.num_spots++; has_spots = TRUE; } xmlFree(value); } if(ps.num_spots == MAX_SPOTS) break; riNode = riNode->next; } } else if(dev != NULL && !xmlStrcmp(entryNode->name, (const xmlChar *)"ToneCurvePV2012")) { xmlNodePtr tcNode = entryNode; tcNode = tcNode->xmlChildrenNode; tcNode = tcNode->next; tcNode = tcNode->xmlChildrenNode; tcNode = tcNode->next; while(tcNode) { if(!xmlStrcmp(tcNode->name, (const xmlChar *)"li")) { xmlChar *value = xmlNodeListGetString(doc, tcNode->xmlChildrenNode, 1); if(sscanf((const char *)value, "%d, %d", &(curve_pts[n_pts][0]), &(curve_pts[n_pts][1]))) n_pts++; xmlFree(value); } if(n_pts == MAX_PTS) break; tcNode = tcNode->next; } } entryNode = entryNode->next; } xmlFreeDoc(doc); // Integrates into the history all the imported iop if(dev != NULL && dt_image_is_raw(&dev->image_storage)) { // set colorin to cmatrix which is the default from Adobe (so closer to what Lightroom does) dt_iop_colorin_params_t pci = (dt_iop_colorin_params_t){ "cmatrix", DT_INTENT_PERCEPTUAL }; dt_add_hist(imgid, "colorin", (dt_iop_params_t *)&pci, sizeof(dt_iop_colorin_params_t), imported, sizeof(imported), LRDT_COLORIN_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_crop) { pc.k_sym = 0; pc.k_apply = 0; pc.crop_auto = 0; pc.k_h = pc.k_v = 0; pc.k_type = 0; pc.kxa = pc.kxd = 0.2f; pc.kxc = pc.kxb = 0.8f; pc.kya = pc.kyb = 0.2f; pc.kyc = pc.kyd = 0.8f; float tmp; if(has_crop) { // adjust crop data according to the rotation switch(dev->image_storage.orientation) { case 5: // portrait - counter-clockwise tmp = pc.ch; pc.ch = 1.0 - pc.cx; pc.cx = pc.cy; pc.cy = 1.0 - pc.cw; pc.cw = tmp; break; case 6: // portrait - clockwise tmp = pc.ch; pc.ch = pc.cw; pc.cw = 1.0 - pc.cy; pc.cy = pc.cx; pc.cx = 1.0 - tmp; break; default: break; } if(pc.angle != 0) { const float rangle = -pc.angle * (3.141592 / 180); float x, y; // do the rotation (rangle) using center of image (0.5, 0.5) x = pc.cx - 0.5; y = 0.5 - pc.cy; pc.cx = 0.5 + x * cos(rangle) - y * sin(rangle); pc.cy = 0.5 - (x * sin(rangle) + y * cos(rangle)); x = pc.cw - 0.5; y = 0.5 - pc.ch; pc.cw = 0.5 + x * cos(rangle) - y * sin(rangle); pc.ch = 0.5 - (x * sin(rangle) + y * cos(rangle)); } } else { pc.angle = 0; pc.cx = 0; pc.cy = 0; pc.cw = 1; pc.ch = 1; } fratio = (pc.cw - pc.cx) / (pc.ch - pc.cy); dt_add_hist(imgid, "clipping", (dt_iop_params_t *)&pc, sizeof(dt_iop_clipping_params_t), imported, sizeof(imported), LRDT_CLIPPING_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_flip) { pf.orientation = 0; if(dev->image_storage.orientation == 5) // portrait switch(orientation) { case 8: pf.orientation = 0; break; case 3: pf.orientation = 5; break; case 6: pf.orientation = 3; break; case 1: pf.orientation = 6; break; // with horizontal flip case 7: pf.orientation = 1; break; case 2: pf.orientation = 4; break; case 5: pf.orientation = 2; break; case 4: pf.orientation = 7; break; } else if(dev->image_storage.orientation == 6) // portrait switch(orientation) { case 8: pf.orientation = 3; break; case 3: pf.orientation = 6; break; case 6: pf.orientation = 0; break; case 1: pf.orientation = 5; break; // with horizontal flip case 7: pf.orientation = 2; break; case 2: pf.orientation = 7; break; case 5: pf.orientation = 1; break; case 4: pf.orientation = 4; break; } else // landscape switch(orientation) { case 8: pf.orientation = 5; break; case 3: pf.orientation = 3; break; case 6: pf.orientation = 6; break; case 1: pf.orientation = 0; break; // with horizontal flip case 7: pf.orientation = 7; break; case 2: pf.orientation = 1; break; case 5: pf.orientation = 4; break; case 4: pf.orientation = 2; break; } dt_add_hist(imgid, "flip", (dt_iop_params_t *)&pf, sizeof(dt_iop_flip_params_t), imported, sizeof(imported), LRDT_FLIP_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_exposure) { dt_add_hist(imgid, "exposure", (dt_iop_params_t *)&pe, sizeof(dt_iop_exposure_params_t), imported, sizeof(imported), LRDT_EXPOSURE_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_grain) { pg.channel = 0; dt_add_hist(imgid, "grain", (dt_iop_params_t *)&pg, sizeof(dt_iop_grain_params_t), imported, sizeof(imported), LRDT_GRAIN_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_vignette) { const float base_ratio = 1.325 / 1.5; pv.autoratio = FALSE; pv.dithering = DITHER_8BIT; pv.center.x = 0.0; pv.center.y = 0.0; pv.shape = 1.0; // defensive code, should not happen, but just in case future Lr version // has not ImageWidth/ImageLength XML tag. if(iwidth == 0 || iheight == 0) pv.whratio = base_ratio; else pv.whratio = base_ratio * ((float)iwidth / (float)iheight); if(has_crop) pv.whratio = pv.whratio * fratio; // Adjust scale and ratio based on the roundness. On Lightroom changing // the roundness change the width and the height of the vignette. if(crop_roundness > 0) { float newratio = pv.whratio - (pv.whratio - 1) * (crop_roundness / 100.0); float dscale = (1 - (newratio / pv.whratio)) / 2.0; pv.scale -= dscale * 100.0; pv.whratio = newratio; } dt_add_hist(imgid, "vignette", (dt_iop_params_t *)&pv, sizeof(dt_iop_vignette_params_t), imported, sizeof(imported), LRDT_VIGNETTE_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_spots) { // Check for orientation, rotate when in portrait mode if(orientation > 4) for(int k = 0; k < ps.num_spots; k++) { float tmp = ps.spot[k].y; ps.spot[k].y = 1.0 - ps.spot[k].x; ps.spot[k].x = tmp; tmp = ps.spot[k].yc; ps.spot[k].yc = 1.0 - ps.spot[k].xc; ps.spot[k].xc = tmp; } dt_add_hist(imgid, "spots", (dt_iop_params_t *)&ps, sizeof(dt_iop_spots_params_t), imported, sizeof(imported), LRDT_SPOTS_VERSION, &n_import); refresh_needed = TRUE; } if(curve_kind != linear || ptc_value[0] != 0 || ptc_value[1] != 0 || ptc_value[2] != 0 || ptc_value[3] != 0) { ptc.tonecurve_nodes[ch_L] = 6; ptc.tonecurve_nodes[ch_a] = 7; ptc.tonecurve_nodes[ch_b] = 7; ptc.tonecurve_type[ch_L] = CUBIC_SPLINE; ptc.tonecurve_type[ch_a] = CUBIC_SPLINE; ptc.tonecurve_type[ch_b] = CUBIC_SPLINE; ptc.tonecurve_autoscale_ab = 1; ptc.tonecurve_preset = 0; float linear_ab[7] = { 0.0, 0.08, 0.3, 0.5, 0.7, 0.92, 1.0 }; // linear a, b curves for(int k = 0; k < 7; k++) ptc.tonecurve[ch_a][k].x = linear_ab[k]; for(int k = 0; k < 7; k++) ptc.tonecurve[ch_a][k].y = linear_ab[k]; for(int k = 0; k < 7; k++) ptc.tonecurve[ch_b][k].x = linear_ab[k]; for(int k = 0; k < 7; k++) ptc.tonecurve[ch_b][k].y = linear_ab[k]; // Set the base tonecurve if(curve_kind == linear) { ptc.tonecurve[ch_L][0].x = 0.0; ptc.tonecurve[ch_L][0].y = 0.0; ptc.tonecurve[ch_L][1].x = ptc_split[0] / 2.0; ptc.tonecurve[ch_L][1].y = ptc_split[0] / 2.0; ptc.tonecurve[ch_L][2].x = ptc_split[1] - (ptc_split[1] - ptc_split[0]) / 2.0; ptc.tonecurve[ch_L][2].y = ptc_split[1] - (ptc_split[1] - ptc_split[0]) / 2.0; ptc.tonecurve[ch_L][3].x = ptc_split[1] + (ptc_split[2] - ptc_split[1]) / 2.0; ptc.tonecurve[ch_L][3].y = ptc_split[1] + (ptc_split[2] - ptc_split[1]) / 2.0; ptc.tonecurve[ch_L][4].x = ptc_split[2] + (1.0 - ptc_split[2]) / 2.0; ptc.tonecurve[ch_L][4].y = ptc_split[2] + (1.0 - ptc_split[2]) / 2.0; ptc.tonecurve[ch_L][5].x = 1.0; ptc.tonecurve[ch_L][5].y = 1.0; } else { for(int k = 0; k < 6; k++) { ptc.tonecurve[ch_L][k].x = curve_pts[k][0] / 255.0; ptc.tonecurve[ch_L][k].y = curve_pts[k][1] / 255.0; } } if(curve_kind != custom) { // set shadows/darks/lights/highlight adjustments ptc.tonecurve[ch_L][1].y += ptc.tonecurve[ch_L][1].y * ((float)ptc_value[0] / 100.0); ptc.tonecurve[ch_L][2].y += ptc.tonecurve[ch_L][1].y * ((float)ptc_value[1] / 100.0); ptc.tonecurve[ch_L][3].y += ptc.tonecurve[ch_L][1].y * ((float)ptc_value[2] / 100.0); ptc.tonecurve[ch_L][4].y += ptc.tonecurve[ch_L][1].y * ((float)ptc_value[3] / 100.0); if(ptc.tonecurve[ch_L][1].y > ptc.tonecurve[ch_L][2].y) ptc.tonecurve[ch_L][1].y = ptc.tonecurve[ch_L][2].y; if(ptc.tonecurve[ch_L][3].y > ptc.tonecurve[ch_L][4].y) ptc.tonecurve[ch_L][4].y = ptc.tonecurve[ch_L][3].y; } dt_add_hist(imgid, "tonecurve", (dt_iop_params_t *)&ptc, sizeof(dt_iop_tonecurve_params_t), imported, sizeof(imported), LRDT_TONECURVE_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_colorzones) { pcz.channel = DT_IOP_COLORZONES_h; for(int i = 0; i < 3; i++) for(int k = 0; k < 8; k++) pcz.equalizer_x[i][k] = k / (DT_IOP_COLORZONES_BANDS - 1.0); dt_add_hist(imgid, "colorzones", (dt_iop_params_t *)&pcz, sizeof(dt_iop_colorzones_params_t), imported, sizeof(imported), LRDT_COLORZONES_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_splittoning) { pst.compress = 50.0; dt_add_hist(imgid, "splittoning", (dt_iop_params_t *)&pst, sizeof(dt_iop_splittoning_params_t), imported, sizeof(imported), LRDT_SPLITTONING_VERSION, &n_import); refresh_needed = TRUE; } if(dev != NULL && has_bilat) { pbl.sigma_r = 100.0; pbl.sigma_s = 100.0; dt_add_hist(imgid, "bilat", (dt_iop_params_t *)&pbl, sizeof(dt_iop_bilat_params_t), imported, sizeof(imported), LRDT_BILAT_VERSION, &n_import); refresh_needed = TRUE; } if(has_tags) { if(imported[0]) g_strlcat(imported, ", ", sizeof(imported)); g_strlcat(imported, _("tags"), sizeof(imported)); n_import++; } if(dev == NULL && has_rating) { dt_ratings_apply_to_image(imgid, rating); if(imported[0]) g_strlcat(imported, ", ", sizeof(imported)); g_strlcat(imported, _("rating"), sizeof(imported)); n_import++; } if(dev == NULL && has_gps) { dt_image_set_location(imgid, lon, lat); if(imported[0]) g_strlcat(imported, ", ", sizeof(imported)); g_strlcat(imported, _("geotagging"), sizeof(imported)); n_import++; } if(dev == NULL && has_colorlabel) { dt_colorlabels_set_label(imgid, color); if(imported[0]) g_strlcat(imported, ", ", sizeof(imported)); g_strlcat(imported, _("color label"), sizeof(imported)); n_import++; } if(dev != NULL && refresh_needed && dev->gui_attached) { char message[512]; g_snprintf(message, sizeof(message), ngettext("%s has been imported", "%s have been imported", n_import), imported); dt_control_log(message); if(!iauto) { /* signal history changed */ dt_dev_reload_history_items(dev); dt_dev_modulegroups_set(darktable.develop, dt_dev_modulegroups_get(darktable.develop)); /* update xmp file */ dt_image_synch_xmp(imgid); dt_control_signal_raise(darktable.signals, DT_SIGNAL_DEVELOP_HISTORY_CHANGE); } } }
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; }
void leave(dt_view_t *self) { /* disconnect from filmstrip image activate */ dt_control_signal_disconnect(darktable.signals, G_CALLBACK(_view_darkroom_filmstrip_activate_callback), (gpointer)self); /* disconnect from pipe finish signal */ dt_control_signal_disconnect(darktable.signals, G_CALLBACK(_darkroom_ui_pipe_finish_signal_callback), (gpointer)self); // store groups for next time: dt_conf_set_int("plugins/darkroom/groups", dt_dev_modulegroups_get(darktable.develop)); // store last active plugin: if(darktable.develop->gui_module) dt_conf_set_string("plugins/darkroom/active", darktable.develop->gui_module->op); else dt_conf_set_string("plugins/darkroom/active", ""); dt_develop_t *dev = (dt_develop_t *)self->data; // tag image as changed // TODO: only tag the image when there was a real change. guint tagid = 0; dt_tag_new("darktable|changed",&tagid); dt_tag_attach(tagid, dev->image_storage.id); // commit image ops to db dt_dev_write_history(dev); // be sure light table will regenerate the thumbnail: // TODO: only if changed! // if() { dt_mipmap_cache_remove(darktable.mipmap_cache, dev->image_storage.id); // dump new xmp data dt_image_synch_xmp(dev->image_storage.id); } // clear gui. dev->gui_leaving = 1; dt_pthread_mutex_lock(&dev->history_mutex); dt_dev_pixelpipe_cleanup_nodes(dev->pipe); dt_dev_pixelpipe_cleanup_nodes(dev->preview_pipe); while(dev->history) { dt_dev_history_item_t *hist = (dt_dev_history_item_t *)(dev->history->data); // printf("removing history item %d - %s, data %f %f\n", hist->module->instance, hist->module->op, *(float *)hist->params, *((float *)hist->params+1)); free(hist->params); hist->params = NULL; free(hist); dev->history = g_list_delete_link(dev->history, dev->history); } while(dev->iop) { dt_iop_module_t *module = (dt_iop_module_t *)(dev->iop->data); if (!dt_iop_is_hidden(module)) dt_iop_gui_cleanup_module(module); dt_dev_cleanup_module_accels(module); module->accel_closures = NULL; dt_iop_cleanup_module(module) ; free(module); dev->iop = g_list_delete_link(dev->iop, dev->iop); } dt_pthread_mutex_unlock(&dev->history_mutex); dt_print(DT_DEBUG_CONTROL, "[run_job-] 11 %f in darkroom mode\n", dt_get_wtime()); }