void ntru_set_optimized_impl() {
#ifdef NTRU_DETECT_SIMD
__builtin_cpu_init();
#endif
ntru_set_optimized_impl_poly();
ntru_set_optimized_impl_hash();
}
void detect_cpu_features() {
__builtin_cpu_init();
HAS_SSE4_2 = __builtin_cpu_supports("sse4.2");
HAS_AVX = __builtin_cpu_supports("avx");
HAS_AVX2 = __builtin_cpu_supports("avx2");
printf("\n");
printf("Processor Features:\n");
if (HAS_SSE4_2)
printf(" SSE4.2 [X]\n");
else
printf(" SSE4.2 [ ]\n");
if (HAS_AVX)
printf(" AVX [X]\n");
else
printf(" AVX [ ]\n");
if (HAS_AVX2)
printf(" AVX2 [X]\n");
else
printf(" AVX2 [ ]\n");
printf("\n");
}
void test_cpu_features() {
__builtin_cpu_init();
if( sse2_enabled && !__builtin_cpu_supports( "sse2" ) ) {
fatal( "libssa was set to use SSE2, but CPU does not support SSE2." );
}
if( sse41_enabled && !__builtin_cpu_supports( "sse4.1" ) ) {
fatal( "libssa was set to use SSE4.1, but CPU does not support SSE4.1." );
}
if( avx2_enabled && !__builtin_cpu_supports( "avx2" ) ) {
fatal( "libssa was set to use AVX2, but CPU does not support AVX2." );
}
}
static void dt_codepaths_init()
{
#ifdef HAVE_BUILTIN_CPU_SUPPORTS
__builtin_cpu_init();
#endif
memset(&(darktable.codepath), 0, sizeof(darktable.codepath));
// first, enable whatever codepath this CPU supports
{
#ifdef HAVE_BUILTIN_CPU_SUPPORTS
darktable.codepath.SSE2 = (__builtin_cpu_supports("sse") && __builtin_cpu_supports("sse2"));
#else
dt_cpu_flags_t flags = dt_detect_cpu_features();
darktable.codepath.SSE2 = ((flags & (CPU_FLAG_SSE)) && (flags & (CPU_FLAG_SSE2)));
#endif
}
// second, apply overrides from conf
// NOTE: all intrinsics sets can only be overridden to OFF
if(!dt_conf_get_bool("codepaths/sse2")) darktable.codepath.SSE2 = 0;
// last: do we have any intrinsics sets enabled?
darktable.codepath._no_intrinsics = !(darktable.codepath.SSE2);
// if there is no SSE, we must enable plain codepath by default,
// else, enable it conditionally.
#if defined(__SSE__)
// disabled by default, needs to be manually enabled if needed.
// disabling all optimized codepaths enables it automatically.
if(dt_conf_get_bool("codepaths/openmp_simd") || darktable.codepath._no_intrinsics)
#endif
{
darktable.codepath.OPENMP_SIMD = 1;
fprintf(stderr, "[dt_codepaths_init] will be using HIGHLY EXPERIMENTAL plain OpenMP SIMD codepath.\n");
}
#if defined(__SSE__)
if(darktable.codepath._no_intrinsics)
#endif
{
fprintf(stderr, "[dt_codepaths_init] SSE2-optimized codepath is disabled or unavailable.\n");
fprintf(stderr,
"[dt_codepaths_init] expect a LOT of functionality to be broken. you have been warned.\n");
}
}
int dt_init(int argc, char *argv[], const gboolean init_gui, const gboolean load_data, lua_State *L)
{
double start_wtime = dt_get_wtime();
#ifndef __WIN32__
if(getuid() == 0 || geteuid() == 0)
printf(
"WARNING: either your user id or the effective user id are 0. are you running darktable as root?\n");
#endif
#if defined(__SSE__)
// make everything go a lot faster.
_MM_SET_FLUSH_ZERO_MODE(_MM_FLUSH_ZERO_ON);
#endif
dt_set_signal_handlers();
#include "is_supported_platform.h"
int sse2_supported = 0;
#ifdef HAVE_BUILTIN_CPU_SUPPORTS
// NOTE: _may_i_use_cpu_feature() looks better, but only avaliable in ICC
__builtin_cpu_init();
sse2_supported = __builtin_cpu_supports("sse2");
#else
sse2_supported = dt_detect_cpu_features() & CPU_FLAG_SSE2;
#endif
if(!sse2_supported)
{
fprintf(stderr, "[dt_init] SSE2 instruction set is unavailable.\n");
fprintf(stderr, "[dt_init] expect a LOT of functionality to be broken. you have been warned.\n");
}
#ifdef M_MMAP_THRESHOLD
mallopt(M_MMAP_THRESHOLD, 128 * 1024); /* use mmap() for large allocations */
#endif
// make sure that stack/frame limits are good (musl)
dt_set_rlimits();
// we have to have our share dir in XDG_DATA_DIRS,
// otherwise GTK+ won't find our logo for the about screen (and maybe other things)
{
const gchar *xdg_data_dirs = g_getenv("XDG_DATA_DIRS");
gchar *new_xdg_data_dirs = NULL;
gboolean set_env = TRUE;
if(xdg_data_dirs != NULL && *xdg_data_dirs != '\0')
{
// check if DARKTABLE_SHAREDIR is already in there
gboolean found = FALSE;
gchar **tokens = g_strsplit(xdg_data_dirs, G_SEARCHPATH_SEPARATOR_S, 0);
// xdg_data_dirs is neither NULL nor empty => tokens != NULL
for(char **iter = tokens; *iter != NULL; iter++)
if(!strcmp(DARKTABLE_SHAREDIR, *iter))
{
found = TRUE;
break;
}
g_strfreev(tokens);
if(found)
set_env = FALSE;
else
new_xdg_data_dirs = g_strjoin(G_SEARCHPATH_SEPARATOR_S, DARKTABLE_SHAREDIR, xdg_data_dirs, NULL);
}
else
{
#ifndef _WIN32
// see http://standards.freedesktop.org/basedir-spec/latest/ar01s03.html for a reason to use those as a
// default
if(!g_strcmp0(DARKTABLE_SHAREDIR, "/usr/local/share")
|| !g_strcmp0(DARKTABLE_SHAREDIR, "/usr/local/share/")
|| !g_strcmp0(DARKTABLE_SHAREDIR, "/usr/share") || !g_strcmp0(DARKTABLE_SHAREDIR, "/usr/share/"))
new_xdg_data_dirs = g_strdup("/usr/local/share/" G_SEARCHPATH_SEPARATOR_S "/usr/share/");
else
new_xdg_data_dirs = g_strdup_printf("%s" G_SEARCHPATH_SEPARATOR_S "/usr/local/share/" G_SEARCHPATH_SEPARATOR_S
"/usr/share/", DARKTABLE_SHAREDIR);
#else
set_env = FALSE;
#endif
}
if(set_env) g_setenv("XDG_DATA_DIRS", new_xdg_data_dirs, 1);
g_free(new_xdg_data_dirs);
}
setlocale(LC_ALL, "");
bindtextdomain(GETTEXT_PACKAGE, DARKTABLE_LOCALEDIR);
bind_textdomain_codeset(GETTEXT_PACKAGE, "UTF-8");
textdomain(GETTEXT_PACKAGE);
// init all pointers to 0:
memset(&darktable, 0, sizeof(darktable_t));
darktable.start_wtime = start_wtime;
darktable.progname = argv[0];
// FIXME: move there into dt_database_t
dt_pthread_mutex_init(&(darktable.db_insert), NULL);
dt_pthread_mutex_init(&(darktable.plugin_threadsafe), NULL);
dt_pthread_mutex_init(&(darktable.capabilities_threadsafe), NULL);
darktable.control = (dt_control_t *)calloc(1, sizeof(dt_control_t));
// database
char *dbfilename_from_command = NULL;
char *noiseprofiles_from_command = NULL;
char *datadir_from_command = NULL;
char *moduledir_from_command = NULL;
char *tmpdir_from_command = NULL;
char *configdir_from_command = NULL;
char *cachedir_from_command = NULL;
#ifdef HAVE_OPENCL
gboolean exclude_opencl = FALSE;
gboolean print_statistics = strcmp(argv[0], "darktable-cltest");
#endif
#ifdef USE_LUA
char *lua_command = NULL;
#endif
darktable.num_openmp_threads = 1;
#ifdef _OPENMP
darktable.num_openmp_threads = omp_get_num_procs();
#endif
darktable.unmuted = 0;
GSList *config_override = NULL;
for(int k = 1; k < argc; k++)
{
if(argv[k][0] == '-')
{
if(!strcmp(argv[k], "--help"))
{
return usage(argv[0]);
}
if(!strcmp(argv[k], "-h"))
{
return usage(argv[0]);
}
else if(!strcmp(argv[k], "--version"))
{
#ifdef USE_LUA
const char *lua_api_version = strcmp(LUA_API_VERSION_SUFFIX, "") ?
STR(LUA_API_VERSION_MAJOR) "."
STR(LUA_API_VERSION_MINOR) "."
STR(LUA_API_VERSION_PATCH) "-"
LUA_API_VERSION_SUFFIX :
STR(LUA_API_VERSION_MAJOR) "."
STR(LUA_API_VERSION_MINOR) "."
STR(LUA_API_VERSION_PATCH);
#endif
printf("this is %s\ncopyright (c) 2009-%s johannes hanika\n" PACKAGE_BUGREPORT "\n\ncompile options:\n"
" bit depth is %s\n"
#ifdef _DEBUG
" debug build\n"
#else
" normal build\n"
#endif
#if defined(__SSE2__) && defined(__SSE__)
" SSE2 optimized codepath enabled\n"
#else
" SSE2 optimized codepath disabled\n"
#endif
#ifdef _OPENMP
" OpenMP support enabled\n"
#else
" OpenMP support disabled\n"
#endif
#ifdef HAVE_OPENCL
" OpenCL support enabled\n"
#else
" OpenCL support disabled\n"
#endif
#ifdef USE_LUA
" Lua support enabled, API version %s\n"
#else
" Lua support disabled\n"
#endif
#ifdef USE_COLORDGTK
" Colord support enabled\n"
#else
" Colord support disabled\n"
#endif
#ifdef HAVE_GPHOTO2
" gPhoto2 support enabled\n"
#else
" gPhoto2 support disabled\n"
#endif
#ifdef HAVE_GRAPHICSMAGICK
" GraphicsMagick support enabled\n"
#else
" GraphicsMagick support disabled\n"
#endif
#ifdef HAVE_OPENEXR
" OpenEXR support enabled\n"
#else
" OpenEXR support disabled\n"
#endif
,
darktable_package_string,
darktable_last_commit_year,
(sizeof(void *) == 8 ? "64 bit" : sizeof(void *) == 4 ? "32 bit" : "unknown")
#if USE_LUA
,
lua_api_version
#endif
);
return 1;
}
else if(!strcmp(argv[k], "--library") && argc > k + 1)
{
dbfilename_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--datadir") && argc > k + 1)
{
datadir_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--moduledir") && argc > k + 1)
{
moduledir_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--tmpdir") && argc > k + 1)
{
tmpdir_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--configdir") && argc > k + 1)
{
configdir_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--cachedir") && argc > k + 1)
{
cachedir_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--localedir") && argc > k + 1)
{
bindtextdomain(GETTEXT_PACKAGE, argv[++k]);
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(argv[k][1] == 'd' && argc > k + 1)
{
if(!strcmp(argv[k + 1], "all"))
darktable.unmuted = 0xffffffff; // enable all debug information
else if(!strcmp(argv[k + 1], "cache"))
darktable.unmuted |= DT_DEBUG_CACHE; // enable debugging for lib/film/cache module
else if(!strcmp(argv[k + 1], "control"))
darktable.unmuted |= DT_DEBUG_CONTROL; // enable debugging for scheduler module
else if(!strcmp(argv[k + 1], "dev"))
darktable.unmuted |= DT_DEBUG_DEV; // develop module
else if(!strcmp(argv[k + 1], "input"))
darktable.unmuted |= DT_DEBUG_INPUT; // input devices
else if(!strcmp(argv[k + 1], "camctl"))
darktable.unmuted |= DT_DEBUG_CAMCTL; // camera control module
else if(!strcmp(argv[k + 1], "perf"))
darktable.unmuted |= DT_DEBUG_PERF; // performance measurements
else if(!strcmp(argv[k + 1], "pwstorage"))
darktable.unmuted |= DT_DEBUG_PWSTORAGE; // pwstorage module
else if(!strcmp(argv[k + 1], "opencl"))
darktable.unmuted |= DT_DEBUG_OPENCL; // gpu accel via opencl
else if(!strcmp(argv[k + 1], "sql"))
darktable.unmuted |= DT_DEBUG_SQL; // SQLite3 queries
else if(!strcmp(argv[k + 1], "memory"))
darktable.unmuted |= DT_DEBUG_MEMORY; // some stats on mem usage now and then.
else if(!strcmp(argv[k + 1], "lighttable"))
darktable.unmuted |= DT_DEBUG_LIGHTTABLE; // lighttable related stuff.
else if(!strcmp(argv[k + 1], "nan"))
darktable.unmuted |= DT_DEBUG_NAN; // check for NANs when processing the pipe.
else if(!strcmp(argv[k + 1], "masks"))
darktable.unmuted |= DT_DEBUG_MASKS; // masks related stuff.
else if(!strcmp(argv[k + 1], "lua"))
darktable.unmuted |= DT_DEBUG_LUA; // lua errors are reported on console
else if(!strcmp(argv[k + 1], "print"))
darktable.unmuted |= DT_DEBUG_PRINT; // print errors are reported on console
else if(!strcmp(argv[k + 1], "camsupport"))
darktable.unmuted |= DT_DEBUG_CAMERA_SUPPORT; // camera support warnings are reported on console
else
return usage(argv[0]);
k++;
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(argv[k][1] == 't' && argc > k + 1)
{
darktable.num_openmp_threads = CLAMP(atol(argv[k + 1]), 1, 100);
printf("[dt_init] using %d threads for openmp parallel sections\n", darktable.num_openmp_threads);
k++;
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--conf") && argc > k + 1)
{
gchar *keyval = g_strdup(argv[++k]), *c = keyval;
argv[k-1] = NULL;
argv[k] = NULL;
gchar *end = keyval + strlen(keyval);
while(*c != '=' && c < end) c++;
if(*c == '=' && *(c + 1) != '\0')
{
*c++ = '\0';
dt_conf_string_entry_t *entry = (dt_conf_string_entry_t *)g_malloc(sizeof(dt_conf_string_entry_t));
entry->key = g_strdup(keyval);
entry->value = g_strdup(c);
config_override = g_slist_append(config_override, entry);
}
g_free(keyval);
}
else if(!strcmp(argv[k], "--noiseprofiles") && argc > k + 1)
{
noiseprofiles_from_command = argv[++k];
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--luacmd") && argc > k + 1)
{
#ifdef USE_LUA
lua_command = argv[++k];
#else
++k;
#endif
argv[k-1] = NULL;
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--disable-opencl"))
{
#ifdef HAVE_OPENCL
exclude_opencl = TRUE;
#endif
argv[k] = NULL;
}
else if(!strcmp(argv[k], "--"))
{
// "--" confuses the argument parser of glib/gtk. remove it.
argv[k] = NULL;
break;
}
else
return usage(argv[0]); // fail on unrecognized options
}
}
// remove the NULLs to not confuse gtk_init() later.
for(int i = 1; i < argc; i++)
{
int k;
for(k = i; k < argc; k++)
if(argv[k] != NULL) break;
if(k > i)
{
k -= i;
for(int j = i + k; j < argc; j++)
{
argv[j-k] = argv[j];
argv[j] = NULL;
}
argc -= k;
}
}
if(darktable.unmuted & DT_DEBUG_MEMORY)
{
fprintf(stderr, "[memory] at startup\n");
dt_print_mem_usage();
}
if(init_gui)
{
// I doubt that connecting to dbus for darktable-cli makes sense
darktable.dbus = dt_dbus_init();
// make sure that we have no stale global progress bar visible. thus it's run as early is possible
dt_control_progress_init(darktable.control);
}
#ifdef _OPENMP
omp_set_num_threads(darktable.num_openmp_threads);
#endif
dt_loc_init_datadir(datadir_from_command);
dt_loc_init_plugindir(moduledir_from_command);
if(dt_loc_init_tmp_dir(tmpdir_from_command))
{
fprintf(stderr, "error: invalid temporary directory: %s\n", darktable.tmpdir);
return usage(argv[0]);
}
dt_loc_init_user_config_dir(configdir_from_command);
dt_loc_init_user_cache_dir(cachedir_from_command);
#ifdef USE_LUA
dt_lua_init_early(L);
#endif
// thread-safe init:
dt_exif_init();
char datadir[PATH_MAX] = { 0 };
dt_loc_get_user_config_dir(datadir, sizeof(datadir));
char darktablerc[PATH_MAX] = { 0 };
snprintf(darktablerc, sizeof(darktablerc), "%s/darktablerc", datadir);
// initialize the config backend. this needs to be done first...
darktable.conf = (dt_conf_t *)calloc(1, sizeof(dt_conf_t));
dt_conf_init(darktable.conf, darktablerc, config_override);
g_slist_free_full(config_override, g_free);
// set the interface language
const gchar *lang = dt_conf_get_string("ui_last/gui_language");
#if defined(_WIN32)
// get the default locale if no language preference was specified in the config file
if(lang == NULL || lang[0] == '\0')
{
const wchar_t *wcLocaleName = NULL;
wcLocaleName = dtwin_get_locale();
if(wcLocaleName != NULL)
{
gchar *langLocale;
langLocale = g_utf16_to_utf8(wcLocaleName, -1, NULL, NULL, NULL);
if(langLocale != NULL)
{
g_free((gchar *)lang);
lang = g_strdup(langLocale);
}
}
}
#endif // defined (_WIN32)
if(lang != NULL && lang[0] != '\0')
{
g_setenv("LANGUAGE", lang, 1);
if(setlocale(LC_ALL, lang) != NULL) gtk_disable_setlocale();
setlocale(LC_MESSAGES, lang);
g_setenv("LANG", lang, 1);
}
g_free((gchar *)lang);
// we need this REALLY early so that error messages can be shown, however after gtk_disable_setlocale
if(init_gui)
{
#ifdef GDK_WINDOWING_WAYLAND
// There are currently bad interactions with Wayland (drop-downs
// are very narrow, scroll events lost). Until this is fixed, give
// priority to the XWayland backend for Wayland users.
gdk_set_allowed_backends("x11,*");
#endif
gtk_init(&argc, &argv);
}
// detect cpu features and decide which codepaths to enable
dt_codepaths_init();
// get the list of color profiles
darktable.color_profiles = dt_colorspaces_init();
// initialize the database
darktable.db = dt_database_init(dbfilename_from_command, load_data);
if(darktable.db == NULL)
{
printf("ERROR : cannot open database\n");
return 1;
}
else if(!dt_database_get_lock_acquired(darktable.db))
{
gboolean image_loaded_elsewhere = FALSE;
#ifndef MAC_INTEGRATION
// send the images to the other instance via dbus
fprintf(stderr, "trying to open the images in the running instance\n");
GDBusConnection *connection = NULL;
for(int i = 1; i < argc; i++)
{
// make the filename absolute ...
if(argv[i] == NULL || *argv[i] == '\0') continue;
gchar *filename = dt_util_normalize_path(argv[i]);
if(filename == NULL) continue;
if(!connection) connection = g_bus_get_sync(G_BUS_TYPE_SESSION, NULL, NULL);
// ... and send it to the running instance of darktable
image_loaded_elsewhere = g_dbus_connection_call_sync(connection, "org.darktable.service", "/darktable",
"org.darktable.service.Remote", "Open",
g_variant_new("(s)", filename), NULL,
G_DBUS_CALL_FLAGS_NONE, -1, NULL, NULL) != NULL;
g_free(filename);
}
if(connection) g_object_unref(connection);
#endif
if(!image_loaded_elsewhere) dt_database_show_error(darktable.db);
return 1;
}
// Initialize the signal system
darktable.signals = dt_control_signal_init();
// Make sure that the database and xmp files are in sync
// We need conf and db to be up and running for that which is the case here.
// FIXME: is this also useful in non-gui mode?
GList *changed_xmp_files = NULL;
if(init_gui && dt_conf_get_bool("run_crawler_on_start"))
{
changed_xmp_files = dt_control_crawler_run();
}
if(init_gui)
{
dt_control_init(darktable.control);
}
else
{
if(dbfilename_from_command && !strcmp(dbfilename_from_command, ":memory:"))
dt_gui_presets_init(); // init preset db schema.
darktable.control->running = 0;
darktable.control->accelerators = NULL;
dt_pthread_mutex_init(&darktable.control->run_mutex, NULL);
}
// initialize collection query
darktable.collection = dt_collection_new(NULL);
/* initialize selection */
darktable.selection = dt_selection_new();
/* capabilities set to NULL */
darktable.capabilities = NULL;
// Initialize the password storage engine
darktable.pwstorage = dt_pwstorage_new();
darktable.guides = dt_guides_init();
#ifdef HAVE_GRAPHICSMAGICK
/* GraphicsMagick init */
InitializeMagick(darktable.progname);
// *SIGH*
dt_set_signal_handlers();
#endif
darktable.opencl = (dt_opencl_t *)calloc(1, sizeof(dt_opencl_t));
#ifdef HAVE_OPENCL
dt_opencl_init(darktable.opencl, exclude_opencl, print_statistics);
#endif
darktable.points = (dt_points_t *)calloc(1, sizeof(dt_points_t));
dt_points_init(darktable.points, dt_get_num_threads());
darktable.noiseprofile_parser = dt_noiseprofile_init(noiseprofiles_from_command);
// must come before mipmap_cache, because that one will need to access
// image dimensions stored in here:
darktable.image_cache = (dt_image_cache_t *)calloc(1, sizeof(dt_image_cache_t));
dt_image_cache_init(darktable.image_cache);
darktable.mipmap_cache = (dt_mipmap_cache_t *)calloc(1, sizeof(dt_mipmap_cache_t));
dt_mipmap_cache_init(darktable.mipmap_cache);
// The GUI must be initialized before the views, because the init()
// functions of the views depend on darktable.control->accels_* to register
// their keyboard accelerators
if(init_gui)
{
darktable.gui = (dt_gui_gtk_t *)calloc(1, sizeof(dt_gui_gtk_t));
if(dt_gui_gtk_init(darktable.gui)) return 1;
dt_bauhaus_init();
}
else
darktable.gui = NULL;
darktable.view_manager = (dt_view_manager_t *)calloc(1, sizeof(dt_view_manager_t));
dt_view_manager_init(darktable.view_manager);
// check whether we were able to load darkroom view. if we failed, we'll crash everywhere later on.
if(!darktable.develop) return 1;
darktable.imageio = (dt_imageio_t *)calloc(1, sizeof(dt_imageio_t));
dt_imageio_init(darktable.imageio);
// load the darkroom mode plugins once:
dt_iop_load_modules_so();
if(init_gui)
{
#ifdef HAVE_GPHOTO2
// Initialize the camera control.
// this is done late so that the gui can react to the signal sent but before switching to lighttable!
darktable.camctl = dt_camctl_new();
#endif
darktable.lib = (dt_lib_t *)calloc(1, sizeof(dt_lib_t));
dt_lib_init(darktable.lib);
dt_gui_gtk_load_config();
// init the gui part of views
dt_view_manager_gui_init(darktable.view_manager);
// Loading the keybindings
char keyfile[PATH_MAX] = { 0 };
// First dump the default keymapping
snprintf(keyfile, sizeof(keyfile), "%s/keyboardrc_default", datadir);
gtk_accel_map_save(keyfile);
// Removing extraneous semi-colons from the default keymap
strip_semicolons_from_keymap(keyfile);
// Then load any modified keys if available
snprintf(keyfile, sizeof(keyfile), "%s/keyboardrc", datadir);
if(g_file_test(keyfile, G_FILE_TEST_EXISTS))
gtk_accel_map_load(keyfile);
else
gtk_accel_map_save(keyfile); // Save the default keymap if none is present
// initialize undo struct
darktable.undo = dt_undo_init();
}
if(darktable.unmuted & DT_DEBUG_MEMORY)
{
fprintf(stderr, "[memory] after successful startup\n");
dt_print_mem_usage();
}
dt_image_local_copy_synch();
/* init lua last, since it's user made stuff it must be in the real environment */
#ifdef USE_LUA
dt_lua_init(darktable.lua_state.state, lua_command);
#endif
if(init_gui)
{
const char *mode = "lighttable";
// april 1st: you have to earn using dt first! or know that you can switch views with keyboard shortcuts
time_t now;
time(&now);
struct tm lt;
localtime_r(&now, <);
if(lt.tm_mon == 3 && lt.tm_mday == 1) mode = "knight";
// we have to call dt_ctl_switch_mode_to() here already to not run into a lua deadlock.
// having another call later is ok
dt_ctl_switch_mode_to(mode);
#ifndef MAC_INTEGRATION
// load image(s) specified on cmdline.
// this has to happen after lua is initialized as image import can run lua code
// If only one image is listed, attempt to load it in darkroom
int last_id = 0;
gboolean only_single_images = TRUE;
int loaded_images = 0;
for(int i = 1; i < argc; i++)
{
gboolean single_image = FALSE;
if(argv[i] == NULL || *argv[i] == '\0') continue;
int new_id = dt_load_from_string(argv[i], FALSE, &single_image);
if(new_id > 0)
{
last_id = new_id;
loaded_images++;
if(!single_image) only_single_images = FALSE;
}
}
if(loaded_images == 1 && only_single_images)
{
dt_control_set_mouse_over_id(last_id);
dt_ctl_switch_mode_to("darkroom");
}
#endif
}
// last but not least construct the popup that asks the user about images whose xmp files are newer than the
// db entry
if(init_gui && changed_xmp_files)
{
dt_control_crawler_show_image_list(changed_xmp_files);
}
dt_print(DT_DEBUG_CONTROL, "[init] startup took %f seconds\n", dt_get_wtime() - start_wtime);
return 0;
}