/* GStreamer Editing Services * Copyright (C) 2010 Brandon Lewis * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #include #include #include #include #define GetCurrentDir getcwd #define KEY_FILE_START {\ if (cmp) g_key_file_free (cmp);\ cmp = g_key_file_new ();\ } #define KEY(group, key, value) \ g_key_file_set_value (cmp, group, key, value) #define COMPARE fail_unless(compare (cmp, formatter, timeline)) static gboolean compare (GKeyFile * cmp, GESFormatter * formatter, GESTimeline * timeline) { gchar *data, *fmt_data; gsize length; gboolean result = TRUE; data = g_key_file_to_data (cmp, &length, NULL); ges_formatter_save (formatter, timeline); fmt_data = ges_formatter_get_data (formatter, &length); if (!(g_strcmp0 (data, fmt_data) == 0)) { GST_ERROR ("difference between expected and output"); GST_ERROR ("expected: \n%s", data); GST_ERROR ("actual: \n%s", fmt_data); result = FALSE; } g_free (data); return result; } GST_START_TEST (test_keyfile_save) { GESTimeline *timeline; GESTimelineLayer *layer, *layer2; GESTrack *track; GESTimelineObject *source; GESFormatter *formatter; GKeyFile *cmp = NULL; ges_init (); /* setup timeline */ GST_DEBUG ("Create a timeline"); timeline = ges_timeline_new (); fail_unless (timeline != NULL); /* create serialization object */ GST_DEBUG ("creating a keyfile formatter"); formatter = GES_FORMATTER (ges_keyfile_formatter_new ()); /* add a layer and make sure it's serialized */ GST_DEBUG ("Create a layer"); layer = GES_TIMELINE_LAYER (ges_simple_timeline_layer_new ()); fail_unless (layer != NULL); GST_DEBUG ("Add the layer to the timeline"); fail_unless (ges_timeline_add_layer (timeline, layer)); KEY_FILE_START; KEY ("General", "version", "1"); KEY ("Layer0", "priority", "0"); KEY ("Layer0", "type", "simple"); COMPARE; /* add a track and make sure it's serialized */ GST_DEBUG ("Create a Track"); track = ges_track_audio_raw_new (); fail_unless (track != NULL); GST_DEBUG ("Add the track to the timeline"); fail_unless (ges_timeline_add_track (timeline, track)); KEY_FILE_START; KEY ("General", "version", "1"); KEY ("Track0", "type", "GES_TRACK_TYPE_AUDIO"); KEY ("Track0", "caps", "audio/x-raw-int; audio/x-raw-float"); KEY ("Layer0", "priority", "0"); KEY ("Layer0", "type", "simple"); COMPARE; /* add sources */ GST_DEBUG ("Adding first source"); source = (GESTimelineObject *) ges_timeline_test_source_new (); ges_simple_timeline_layer_add_object (GES_SIMPLE_TIMELINE_LAYER (layer), source, -1); g_object_set (G_OBJECT (source), "duration", (guint64) 2 * GST_SECOND, NULL); KEY ("Object0", "type", "GESTimelineTestSource"); KEY ("Object0", "start", "0"); KEY ("Object0", "in-point", "0"); KEY ("Object0", "duration", "2000000000"); KEY ("Object0", "priority", "2"); KEY ("Object0", "supported-formats", "GES_TRACK_TYPE_UNKNOWN"); KEY ("Object0", "max-duration", "18446744073709551615"); KEY ("Object0", "mute", "false"); KEY ("Object0", "vpattern", "100% Black"); KEY ("Object0", "freq", "440"); KEY ("Object0", "volume", "0"); COMPARE; GST_DEBUG ("Adding transition"); source = (GESTimelineObject *) ges_timeline_standard_transition_new_for_nick ((gchar *) "bar-wipe-lr"); g_object_set (G_OBJECT (source), "duration", (guint64) GST_SECOND / 2, NULL); ges_simple_timeline_layer_add_object (GES_SIMPLE_TIMELINE_LAYER (layer), source, -1); KEY ("Object1", "type", "GESTimelineStandardTransition"); KEY ("Object1", "start", "1500000000"); KEY ("Object1", "in-point", "0"); KEY ("Object1", "duration", "500000000"); KEY ("Object1", "priority", "1"); KEY ("Object1", "supported-formats", "GES_TRACK_TYPE_UNKNOWN"); KEY ("Object1", "max-duration", "18446744073709551615"); KEY ("Object1", "vtype", "A bar moves from left to right"); COMPARE; GST_DEBUG ("Adding second source"); source = (GESTimelineObject *) ges_timeline_test_source_new (); g_object_set (G_OBJECT (source), "duration", (guint64) 2 * GST_SECOND, NULL); ges_simple_timeline_layer_add_object (GES_SIMPLE_TIMELINE_LAYER (layer), source, -1); KEY ("Object2", "type", "GESTimelineTestSource"); KEY ("Object2", "start", "1500000000"); KEY ("Object2", "in-point", "0"); KEY ("Object2", "duration", "2000000000"); KEY ("Object2", "priority", "3"); KEY ("Object2", "supported-formats", "GES_TRACK_TYPE_UNKNOWN"); KEY ("Object2", "max-duration", "18446744073709551615"); KEY ("Object2", "mute", "false"); KEY ("Object2", "vpattern", "100% Black"); KEY ("Object2", "freq", "440"); KEY ("Object2", "volume", "0"); COMPARE; /* add a second layer to the timeline */ GST_DEBUG ("Adding a second layer to the timeline"); layer2 = ges_timeline_layer_new (); ges_timeline_layer_set_priority (layer2, 1); fail_unless (layer != NULL); fail_unless (ges_timeline_add_layer (timeline, layer2)); KEY ("Layer1", "priority", "1"); KEY ("Layer1", "type", "default"); COMPARE; GST_DEBUG ("Adding a few more sources"); source = (GESTimelineObject *) ges_timeline_title_source_new (); g_object_set (G_OBJECT (source), "duration", (guint64) GST_SECOND, "start", (guint64) 5 * GST_SECOND, "text", "the quick brown fox", NULL); fail_unless (ges_timeline_layer_add_object (layer2, source)); KEY ("Object3", "type", "GESTimelineTitleSource"); KEY ("Object3", "start", "5000000000"); KEY ("Object3", "in-point", "0"); KEY ("Object3", "duration", "1000000000"); KEY ("Object3", "priority", "0"); KEY ("Object3", "supported-formats", "GES_TRACK_TYPE_UNKNOWN"); KEY ("Object3", "max-duration", "18446744073709551615"); KEY ("Object3", "mute", "false"); KEY ("Object3", "text", "\"the\\\\ quick\\\\ brown\\\\ fox\""); KEY ("Object3", "font-desc", "\"Serif\\\\ 36\""); KEY ("Object3", "halignment", "center"); KEY ("Object3", "valignment", "baseline"); KEY ("Object3", "color", "4294967295"); KEY ("Object3", "xpos", "0.5"); KEY ("Object3", "ypos", "0.5"); COMPARE; /* tear-down */ g_key_file_free (cmp); GST_DEBUG ("Removing layer from the timeline"); fail_unless (ges_timeline_remove_layer (timeline, layer)); fail_unless (ges_timeline_remove_layer (timeline, layer2)); GST_DEBUG ("Removing track from the timeline"); g_object_ref (track); fail_unless (ges_timeline_remove_track (timeline, track)); fail_unless (ges_track_get_timeline (track) == NULL); ASSERT_OBJECT_REFCOUNT (track, "track", 1); g_object_unref (track); ASSERT_OBJECT_REFCOUNT (timeline, "timeline", 1); g_object_unref (timeline); g_object_unref (formatter); } GST_END_TEST; /* do action for every item and then free the list */ #define g_list_free_all(list) \ { \ g_list_foreach(list, (GFunc) g_object_unref, NULL); \ g_list_free(list); \ } /* print out a helpful error message when a comparison fails. Works with the * TIMELINE_COMPARE_*, LAYER*, SIMPLE_LAYER*, abd TRACK, macros below to give * information about the source line where the failing object was created. */ #define CMP_FAIL(obj, ...) \ {\ gchar *file, *func;\ guint line;\ file = g_object_get_data (G_OBJECT(obj), "file");\ func = g_object_get_data (G_OBJECT(obj), "function");\ line = GPOINTER_TO_UINT(g_object_get_data (G_OBJECT(obj), "line"));\ gst_debug_log (GST_CAT_DEFAULT, GST_LEVEL_ERROR, file, func,\ line, G_OBJECT(obj), __VA_ARGS__);\ } /* compare two GObjects for equality. pointer identity and GType short-circuit * the comparison. If a and b are not identical pointers and of the same * GType, compares every readable property for equality using * g_param_values_cmp. */ static gboolean ges_objs_equal (GObject * a, GObject * b) { GType at; GObjectClass *klass; GParamSpec **props = NULL, **iter = NULL; guint n_props, i; guint ret = FALSE; gchar *typename; GST_DEBUG ("comparing %s (%p) and %s (%p)\n", G_OBJECT_TYPE_NAME (a), a, G_OBJECT_TYPE_NAME (b), b); if (a == b) return TRUE; at = G_TYPE_FROM_INSTANCE (a); fail_unless (at == G_TYPE_FROM_INSTANCE (b)); typename = (gchar *) g_type_name (at); /* compare every readable property */ klass = G_OBJECT_GET_CLASS (a); props = g_object_class_list_properties (klass, &n_props); for (i = 0, iter = props; i < n_props; i++, iter++) { GValue av = { 0 } , bv = { 0}; /* ignore name and layer properties */ if (!g_strcmp0 ("name", (*iter)->name) || !g_strcmp0 ("layer", (*iter)->name)) continue; /* special case caps property */ if (!g_strcmp0 ("caps", (*iter)->name)) { GstCaps *acaps, *bcaps; g_object_get (a, "caps", &acaps, NULL); g_object_get (b, "caps", &bcaps, NULL); if (gst_caps_is_equal (acaps, bcaps)) { gst_caps_unref (acaps); gst_caps_unref (bcaps); continue; } else { gst_caps_unref (acaps); gst_caps_unref (bcaps); CMP_FAIL (b, "%s's %p and %p differ by property caps", a, b); goto fail; } } g_value_init (&av, (*iter)->value_type); g_value_init (&bv, (*iter)->value_type); if (!((*iter)->flags & G_PARAM_READABLE)) continue; g_object_get_property (a, (*iter)->name, &av); g_object_get_property (b, (*iter)->name, &bv); if (g_param_values_cmp (*iter, &av, &bv) != 0) { const gchar *a_str, *b_str; a_str = gst_value_serialize (&av); b_str = gst_value_serialize (&bv); CMP_FAIL (b, "%s's %p and %p differ by property %s (%s != %s)", typename, a, b, (*iter)->name, a_str, b_str); goto fail; } g_value_unset (&av); g_value_unset (&bv); } ret = TRUE; fail: if (props) g_free (props); return ret; } static gboolean ges_tracks_equal (GESTrack * a, GESTrack * b) { return ges_objs_equal (G_OBJECT (a), G_OBJECT (b)); } static gboolean ges_layers_equal (GESTimelineLayer * a, GESTimelineLayer * b) { GList *a_objs = NULL, *b_objs = NULL, *a_iter, *b_iter; gboolean ret = FALSE; guint i; if (!ges_objs_equal (G_OBJECT (a), G_OBJECT (b))) return FALSE; a_objs = ges_timeline_layer_get_objects (a); b_objs = ges_timeline_layer_get_objects (b); /* one shortcoming of this procedure is that the objects need to be stored * in the same order. Not sure if this is a problem in practice */ for (i = 0, a_iter = a_objs, b_iter = b_objs; a_iter && b_iter; a_iter = a_iter->next, b_iter = b_iter->next, i++) { if (!ges_objs_equal (a_iter->data, b_iter->data)) { CMP_FAIL (b, "layers %p and %p differ by obj at position %d", a, b, i); goto fail; } } if (a_iter || b_iter) { CMP_FAIL (b, "layers %p and %p have differing number of objects", a, b); goto fail; } ret = TRUE; fail: g_list_free_all (a_objs); g_list_free_all (b_objs); return ret; } static gboolean ges_timelines_equal (GESTimeline * a, GESTimeline * b) { GList *a_tracks, *b_tracks, *a_iter, *b_iter, *a_layers, *b_layers; gboolean ret = FALSE; guint i; if (!ges_objs_equal (G_OBJECT (a), G_OBJECT (b))) { CMP_FAIL (b, "%p and %p are not of the same type"); return FALSE; } a_tracks = ges_timeline_get_tracks (a); b_tracks = ges_timeline_get_tracks (b); a_layers = ges_timeline_get_layers (a); b_layers = ges_timeline_get_layers (b); /* one shortcoming of this procedure is that the objects need to be stored * in the same order. Not sure if this is a problem in practice */ for (i = 0, a_iter = a_tracks, b_iter = b_tracks; a_iter && b_iter; a_iter = a_iter->next, b_iter = b_iter->next, i++) { if (!ges_tracks_equal (a_iter->data, b_iter->data)) { CMP_FAIL (b, "GESTimelines %p and %p differ by tracks at position %d", a, b, i); goto fail; } } if (a_iter || b_iter) { CMP_FAIL (b, "GESTimelines %p and %p have differing number of tracks", a, b); goto fail; } for (i = 0, a_iter = a_layers, b_iter = b_layers; a_iter && b_iter; a_iter = a_iter->next, b_iter = b_iter->next, i++) { if (!ges_layers_equal (a_iter->data, b_iter->data)) { goto fail; } } if (a_iter || b_iter) { CMP_FAIL (b, "GESTimelines %p and %p have differing numbre of layers", a, b); goto fail; } ret = TRUE; fail: g_list_free_all (a_tracks); g_list_free_all (b_tracks); g_list_free_all (a_layers); g_list_free_all (b_layers); return ret; } #define TIMELINE_BEGIN(location) \ {\ GESTimeline **a, *b;\ a = &(location);\ if (*a) g_object_unref (*a);\ b = ges_timeline_new();\ *a = b;\ #define TIMELINE_END } #define TIMELINE_COMPARE(a, b)\ {\ fail_unless (ges_timelines_equal(a, b));\ } #define TRACK(type, caps) \ {\ GESTrack *trk;\ GstCaps *c;\ c = gst_caps_from_string(caps);\ trk = ges_track_new (type, c);\ ges_timeline_add_track (b, trk);\ g_object_set_data(G_OBJECT(trk),"file", (void *) __FILE__);\ g_object_set_data(G_OBJECT(trk),"line", (void *) __LINE__);\ g_object_set_data(G_OBJECT(trk),"function", (void *) GST_FUNCTION);\ } #define LAYER_BEGIN(priority) \ {\ GESTimelineLayer *l;\ l = ges_timeline_layer_new ();\ ges_timeline_add_layer (b, l);\ ges_timeline_layer_set_priority (l, priority);\ g_object_set_data(G_OBJECT(l),"file", (void *) __FILE__);\ g_object_set_data(G_OBJECT(l),"line", (void *) __LINE__);\ g_object_set_data(G_OBJECT(l),"function", (void *) GST_FUNCTION); #define LAYER_END \ } #define LAYER_OBJECT(type, ...) \ {\ GESTimelineObject *obj;\ obj = GES_TIMELINE_OBJECT(\ g_object_new ((type), __VA_ARGS__, NULL));\ ges_timeline_layer_add_object (l, obj);\ g_object_set_data(G_OBJECT(obj),"file", (void *) __FILE__);\ g_object_set_data(G_OBJECT(obj),"line", (void *) __LINE__);\ g_object_set_data(G_OBJECT(obj),"function", (void *) GST_FUNCTION);\ } #define SIMPLE_LAYER_BEGIN(priority) \ {\ GESSimpleTimelineLayer *l;\ l = ges_simple_timeline_layer_new ();\ ges_timeline_add_layer (b, GES_TIMELINE_LAYER(l));\ ges_timeline_layer_set_priority(GES_TIMELINE_LAYER(l), priority);\ g_object_set_data(G_OBJECT(l),"file", (void *) __FILE__);\ g_object_set_data(G_OBJECT(l),"line", (void *) __LINE__);\ g_object_set_data(G_OBJECT(l),"function", (void *) GST_FUNCTION); #define SIMPLE_LAYER_OBJECT(type, position, ...) \ {\ GESTimelineObject *obj;\ obj = GES_TIMELINE_OBJECT(\ g_object_new ((type), __VA_ARGS__, NULL));\ ges_simple_timeline_layer_add_object (l, obj, position);\ g_object_set_data(G_OBJECT(obj),"file", (void *) __FILE__);\ g_object_set_data(G_OBJECT(obj),"line", (void *) __LINE__);\ g_object_set_data(G_OBJECT(obj),"function", (void *) GST_FUNCTION);\ } /* */ static const gchar *data = "\n[General]\n" "[Track0]\n" "type=GES_TRACK_TYPE_AUDIO\n" "caps=audio/x-raw-int; audio/x-raw-float\n" "\n" "[Layer0]\n" "priority=0\n" "type=simple\n" "\n" "[Object0]\n" "type=GESTimelineTestSource\n" "start=0\n" "in-point=0\n" "duration=2000000000\n" "priority=2\n" "mute=false\n" "vpattern=100% Black\n" "freq=440\n" "volume=0\n" "\n" "[Object1]\n" "type=GESTimelineStandardTransition\n" "start=1500000000\n" "in-point=0\n" "duration=500000000\n" "priority=1\n" "vtype=A bar moves from left to right\n" "\n" "[Object2]\n" "type=GESTimelineTestSource\n" "start=1500000000\n" "in-point=0\n" "duration=2000000000\n" "priority=2\n" "mute=false\n" "vpattern=100% Black\n" "freq=440\n" "volume=0\n" "\n" "[Layer1]\n" "priority=1\n" "type=default\n" "\n" "[Object3]\n" "type=GESTimelineTitleSource\n" "start=5000000000\n" "in-point=0\n" "duration=1000000000\n" "priority=2\n" "mute=false\n" "text=\"the\\\\ quick\\\\ brown\\\\ fox\"\n" "font-desc=\"Serif\\\\ 36\"\n" "halignment=center\n" "valignment=baseline\n"; GST_START_TEST (test_keyfile_load) { GESTimeline *timeline = NULL, *expected = NULL; GESFormatter *formatter; ges_init (); /* setup timeline */ GST_DEBUG ("Create a timeline"); timeline = ges_timeline_new (); fail_unless (timeline != NULL); /* create serialization object */ GST_DEBUG ("creating a default formatter"); formatter = GES_FORMATTER (ges_keyfile_formatter_new ()); ges_formatter_set_data (formatter, g_strdup (data), strlen (data)); fail_unless (ges_formatter_load (formatter, timeline)); TIMELINE_BEGIN (expected) { TRACK (GES_TRACK_TYPE_AUDIO, "audio/x-raw-float; audio/x-raw-int"); SIMPLE_LAYER_BEGIN (0) { SIMPLE_LAYER_OBJECT ((GES_TYPE_TIMELINE_TEST_SOURCE), -1, "duration", (guint64) 2 * GST_SECOND); SIMPLE_LAYER_OBJECT ((GES_TYPE_TIMELINE_STANDARD_TRANSITION), -1, "duration", (guint64) GST_SECOND / 2, "vtype", GES_VIDEO_STANDARD_TRANSITION_TYPE_BAR_WIPE_LR); SIMPLE_LAYER_OBJECT ((GES_TYPE_TIMELINE_TEST_SOURCE), -1, "duration", (guint64) 2 * GST_SECOND); } LAYER_END; LAYER_BEGIN (1) { LAYER_OBJECT (GES_TYPE_TIMELINE_TITLE_SOURCE, "start", (guint64) 5 * GST_SECOND, "duration", (guint64) GST_SECOND, "priority", 2, "text", "the quick brown fox"); } LAYER_END; } TIMELINE_END; TIMELINE_COMPARE (timeline, expected); /* tear-down */ g_object_unref (formatter); g_object_unref (timeline); g_object_unref (expected); } GST_END_TEST; GST_START_TEST (test_pitivi_file_load) { GESFormatter *formatter; GESTimeline *timeline, *expected; GMainLoop *mainloop; gchar *uri, *save_uri, *cur_dir; /*create the expected timeline */ timeline = ges_timeline_new (); mainloop = g_main_loop_new (NULL, FALSE); expected = ges_timeline_new (); /* create the timeline from formatter */ formatter = GES_FORMATTER (ges_pitivi_formatter_new ()); cur_dir = g_get_current_dir (); uri = g_build_filename (cur_dir, "test.xptv", NULL); save_uri = g_build_filename (cur_dir, "testsave.xptv", NULL); g_free (cur_dir); if (g_file_test (uri, G_FILE_TEST_EXISTS) == FALSE) { GST_ERROR ("Could not test GESPitiviFormatter as no project file found"); return; } ges_formatter_load_from_uri (formatter, timeline, uri); g_timeout_add (1000, (GSourceFunc) g_main_loop_quit, mainloop); g_main_loop_run (mainloop); formatter = GES_FORMATTER (ges_pitivi_formatter_new ()); ges_formatter_save_to_uri (formatter, timeline, save_uri); formatter = GES_FORMATTER (ges_pitivi_formatter_new ()); ges_formatter_load_from_uri (formatter, expected, uri); g_timeout_add (1000, (GSourceFunc) g_main_loop_quit, mainloop); g_main_loop_run (mainloop); /* compare the two timelines and fail test if they are different */ TIMELINE_COMPARE (expected, timeline); g_free (uri); g_free (save_uri); g_main_loop_unref (mainloop); g_object_unref (formatter); g_object_unref (timeline); g_object_unref (expected); } GST_END_TEST; GST_START_TEST (test_keyfile_identity) { /* we will create several timelines. they will first be serialized, then * deseriailzed and compared against the original. */ GESTimeline *orig = NULL, *serialized = NULL; GESFormatter *formatter; ges_init (); formatter = GES_FORMATTER (ges_keyfile_formatter_new ()); TIMELINE_BEGIN (orig) { TRACK (GES_TRACK_TYPE_AUDIO, "audio/x-raw-int,width=32,rate=8000"); TRACK (GES_TRACK_TYPE_VIDEO, "video/x-raw-rgb"); LAYER_BEGIN (5) { LAYER_OBJECT (GES_TYPE_TIMELINE_TEXT_OVERLAY, "start", (guint64) GST_SECOND, "duration", (guint64) 2 * GST_SECOND, "priority", 1, "text", "Hello, world!", "font-desc", "Sans 9", "halignment", GES_TEXT_HALIGN_LEFT, "valignment", GES_TEXT_VALIGN_TOP); LAYER_OBJECT (GES_TYPE_TIMELINE_TEST_SOURCE, "start", (guint64) 0, "duration", (guint64) 5 * GST_SECOND, "priority", 2, "freq", (gdouble) 500, "volume", 1.0, "vpattern", GES_VIDEO_TEST_PATTERN_WHITE); LAYER_OBJECT (GES_TYPE_TIMELINE_TEXT_OVERLAY, "start", (guint64) 7 * GST_SECOND, "duration", (guint64) 2 * GST_SECOND, "priority", 2, "text", "Hello, world!", "font-desc", "Sans 9", "halignment", GES_TEXT_HALIGN_LEFT, "valignment", GES_TEXT_VALIGN_TOP); LAYER_OBJECT (GES_TYPE_TIMELINE_TEST_SOURCE, "start", (guint64) 6 * GST_SECOND, "duration", (guint64) 5 * GST_SECOND, "priority", 3, "freq", (gdouble) 600, "volume", 1.0, "vpattern", GES_VIDEO_TEST_PATTERN_RED); } LAYER_END; } TIMELINE_END; serialized = ges_timeline_new (); ges_formatter_save (formatter, orig); ges_formatter_load (formatter, serialized); TIMELINE_COMPARE (serialized, orig); g_object_unref (formatter); g_object_unref (serialized); g_object_unref (orig); } GST_END_TEST; static Suite * ges_suite (void) { Suite *s = suite_create ("ges-save-load"); TCase *tc_chain = tcase_create ("basic"); suite_add_tcase (s, tc_chain); tcase_add_test (tc_chain, test_keyfile_save); tcase_add_test (tc_chain, test_keyfile_load); tcase_add_test (tc_chain, test_keyfile_identity); tcase_add_test (tc_chain, test_pitivi_file_load); return s; } int main (int argc, char **argv) { int nf; Suite *s = ges_suite (); SRunner *sr = srunner_create (s); gst_check_init (&argc, &argv); srunner_run_all (sr, CK_NORMAL); nf = srunner_ntests_failed (sr); srunner_free (sr); return nf; }