2 * This file is part of DisOrder
3 * Copyright (C) 2006-2008 Richard Kettlewell
5 * This program is free software: you can redistribute it and/or modify
6 * it under the terms of the GNU General Public License as published by
7 * the Free Software Foundation, either version 3 of the License, or
8 * (at your option) any later version.
10 * This program is distributed in the hope that it will be useful,
11 * but WITHOUT ANY WARRANTY; without even the implied warranty of
12 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13 * GNU General Public License for more details.
15 * You should have received a copy of the GNU General Public License
16 * along with this program. If not, see <http://www.gnu.org/licenses/>.
18 /** @file disobedience/queue.c
19 * @brief Disobedience queue widget
21 #include "disobedience.h"
23 #include "queue-generic.h"
25 /** @brief The actual queue */
26 static struct queue_entry *actual_queue;
27 static struct queue_entry *actual_playing_track;
29 /** @brief The playing track */
30 struct queue_entry *playing_track;
32 /** @brief When we last got the playing track */
35 static void queue_completed(void *v,
37 struct queue_entry *q);
38 static void playing_completed(void *v,
40 struct queue_entry *q);
42 /** @brief Called when either the actual queue or the playing track change */
43 static void queue_playing_changed(void) {
44 const char *old_id = playing_track ? playing_track->id : 0;
46 /* Check that the playing track isn't in the queue. There's a race here due
47 * to the fact that we issue the two commands at slightly different times.
48 * If it goes wrong we re-issue and try again, so that we never offer up an
49 * inconsistent state. */
50 if(actual_playing_track) {
51 struct queue_entry *q;
52 for(q = actual_queue; q; q = q->next)
53 if(!strcmp(q->id, actual_playing_track->id))
56 disorder_eclient_playing(client, playing_completed, 0);
57 disorder_eclient_queue(client, queue_completed, 0);
62 struct queue_entry *q = xmalloc(sizeof *q);
63 if(actual_playing_track) {
64 *q = *actual_playing_track;
65 q->next = actual_queue;
71 if(!old_id || !playing_track || strcmp(old_id, playing_track->id))
72 time(&last_playing); /* for column_length() */
73 ql_new_queue(&ql_queue, q);
74 /* Tell anyone who cares */
75 event_raise("queue-list-changed", q);
76 event_raise("playing-track-changed", q);
79 /** @brief Update the queue itself */
80 static void queue_completed(void attribute((unused)) *v,
82 struct queue_entry *q) {
84 popup_protocol_error(0, err);
88 queue_playing_changed();
91 /** @brief Update the playing track */
92 static void playing_completed(void attribute((unused)) *v,
94 struct queue_entry *q) {
96 popup_protocol_error(0, err);
99 actual_playing_track = q;
100 queue_playing_changed();
103 /** @brief Schedule an update to the queue
105 * Called whenever a track is added to it or removed from it.
107 static void queue_changed(const char attribute((unused)) *event,
108 void attribute((unused)) *eventdata,
109 void attribute((unused)) *callbackdata) {
110 D(("queue_changed"));
111 gtk_label_set_text(GTK_LABEL(report_label), "updating queue");
112 disorder_eclient_queue(client, queue_completed, 0);
115 /** @brief Schedule an update to the playing track
117 * Called whenever it changes
119 static void playing_changed(const char attribute((unused)) *event,
120 void attribute((unused)) *eventdata,
121 void attribute((unused)) *callbackdata) {
122 D(("playing_changed"));
123 gtk_label_set_text(GTK_LABEL(report_label), "updating playing track");
124 disorder_eclient_playing(client, playing_completed, 0);
127 /** @brief Called regularly
129 * Updates the played-so-far field
131 static gboolean playing_periodic(gpointer attribute((unused)) data) {
132 /* If there's a track playing, update its row */
134 ql_update_row(playing_track, 0);
138 /** @brief Called at startup */
139 static void queue_init(void) {
140 /* Arrange a callback whenever the playing state changes */
141 event_register("playing-changed", playing_changed, 0);
142 /* We reget both playing track and queue at pause/resume so that start times
143 * can be computed correctly */
144 event_register("pause-changed", playing_changed, 0);
145 event_register("pause-changed", queue_changed, 0);
146 /* Reget the queue whenever it changes */
147 event_register("queue-changed", queue_changed, 0);
148 /* ...and once a second anyway */
149 g_timeout_add(1000/*ms*/, playing_periodic, 0);
152 /** @brief Columns for the queue */
153 static const struct queue_column queue_columns[] = {
154 { "When", column_when, 0, COL_RIGHT },
155 { "Who", column_who, 0, 0 },
156 { "Artist", column_namepart, "artist", COL_EXPAND|COL_ELLIPSIZE },
157 { "Album", column_namepart, "album", COL_EXPAND|COL_ELLIPSIZE },
158 { "Title", column_namepart, "title", COL_EXPAND|COL_ELLIPSIZE },
159 { "Length", column_length, 0, COL_RIGHT }
162 /** @brief Pop-up menu for queue */
163 static struct menuitem queue_menuitems[] = {
164 { "Track properties", ql_properties_activate, ql_properties_sensitive, 0, 0 },
165 { "Select all tracks", ql_selectall_activate, ql_selectall_sensitive, 0, 0 },
166 { "Deselect all tracks", ql_selectnone_activate, ql_selectnone_sensitive, 0, 0 },
167 { "Scratch playing track", ql_scratch_activate, ql_scratch_sensitive, 0, 0 },
168 { "Remove track from queue", ql_remove_activate, ql_remove_sensitive, 0, 0 },
171 struct queuelike ql_queue = {
174 .columns = queue_columns,
175 .ncolumns = sizeof queue_columns / sizeof *queue_columns,
176 .menuitems = queue_menuitems,
177 .nmenuitems = sizeof queue_menuitems / sizeof *queue_menuitems
180 /* Drag and drop has to be figured out experimentally, because it is not well
183 * First you get a row-inserted. The path argument points to the destination
184 * row but this will not yet have had its values set. The source row is still
185 * present. AFAICT the iter argument points to the same place.
187 * Then you get a row-deleted. The path argument identifies the row that was
188 * deleted. By this stage the row inserted above has acquired its values.
190 * A complication is that the deletion will move the inserted row. For
191 * instance, if you do a drag that moves row 1 down to after the track that was
192 * formerly on row 9, in the row-inserted call it will show up as row 10, but
193 * in the row-deleted call, row 1 will have been deleted thus making the
194 * inserted row be row 9.
196 * So when we see the row-inserted we have no idea what track to move.
197 * Therefore we stash it until we see a row-deleted.
200 /** @brief Target row for drag */
201 static int queue_drag_target = -1;
203 static void queue_move_completed(void attribute((unused)) *v,
206 popup_protocol_error(0, err);
209 /* The log should tell us the queue changed so we do no more here */
212 static void queue_row_deleted(GtkTreeModel *treemodel,
214 gpointer attribute((unused)) user_data) {
215 if(!suppress_actions) {
217 char *ps = gtk_tree_path_to_string(path);
218 fprintf(stderr, "row-deleted path=%s queue_drag_target=%d\n",
219 ps, queue_drag_target);
221 gboolean jt = gtk_tree_model_get_iter_first(treemodel, j);
224 struct queue_entry *q = ql_iter_to_q(treemodel, j);
225 fprintf(stderr, " %2d %s\n", row++, q ? q->track : "(no q)");
226 jt = gtk_tree_model_iter_next(GTK_TREE_MODEL(ql_queue.store), j);
230 if(queue_drag_target < 0) {
231 error(0, "unsuppressed row-deleted with no row-inserted");
234 int drag_source = gtk_tree_path_get_indices(path)[0];
236 /* If the drag is downwards (=towards higher row numbers) then the target
237 * will have been moved upwards (=towards lower row numbers) by one row. */
238 if(drag_source < queue_drag_target)
241 /* Find the track to move */
243 gboolean srcv = gtk_tree_model_iter_nth_child(treemodel, src, NULL,
246 error(0, "cannot get iterator to drag target %d", queue_drag_target);
247 queue_playing_changed();
248 queue_drag_target = -1;
251 struct queue_entry *srcq = ql_iter_to_q(treemodel, src);
253 //fprintf(stderr, "move %s %s\n", srcq->id, srcq->track);
255 /* Don't allow the currently playing track to be moved. As above, we put
256 * the queue back into the right order straight away. */
257 if(srcq == playing_track) {
258 //fprintf(stderr, "cannot move currently playing track\n");
259 queue_playing_changed();
260 queue_drag_target = -1;
264 /* Find the destination */
265 struct queue_entry *dstq;
266 if(queue_drag_target) {
268 gboolean dstv = gtk_tree_model_iter_nth_child(treemodel, dst, NULL,
269 queue_drag_target - 1);
271 error(0, "cannot get iterator to drag target predecessor %d",
272 queue_drag_target - 1);
273 queue_playing_changed();
274 queue_drag_target = -1;
277 dstq = ql_iter_to_q(treemodel, dst);
279 if(dstq == playing_track)
283 /* NB if the user attempts to move a queued track before the currently
284 * playing track we assume they just missed a bit, and put it after. */
285 //fprintf(stderr, " target %s %s\n", dstq ? dstq->id : "(none)", dstq ? dstq->track : "(none)");
286 /* Now we know what is to be moved. We need to know the preceding queue
287 * entry so we can move it. */
288 disorder_eclient_moveafter(client,
289 dstq ? dstq->id : "",
291 queue_move_completed, NULL);
292 queue_drag_target = -1;
296 static void queue_row_inserted(GtkTreeModel attribute((unused)) *treemodel,
298 GtkTreeIter attribute((unused)) *iter,
299 gpointer attribute((unused)) user_data) {
300 if(!suppress_actions) {
302 char *ps = gtk_tree_path_to_string(path);
303 GtkTreeIter piter[1];
304 gboolean pi = gtk_tree_model_get_iter(treemodel, piter, path);
305 struct queue_entry *pq = pi ? ql_iter_to_q(treemodel, piter) : 0;
306 struct queue_entry *iq = ql_iter_to_q(treemodel, iter);
308 fprintf(stderr, "row-inserted path=%s pi=%d pq=%p path=%s iq=%p iter=%s\n",
313 ? (pq ? pq->track : "(pq=0)")
316 iq ? iq->track : "(iq=0)");
319 gboolean jt = gtk_tree_model_get_iter_first(treemodel, j);
322 struct queue_entry *q = ql_iter_to_q(treemodel, j);
323 fprintf(stderr, " %2d %s\n", row++, q ? q->track : "(no q)");
324 jt = gtk_tree_model_iter_next(GTK_TREE_MODEL(ql_queue.store), j);
328 queue_drag_target = gtk_tree_path_get_indices(path)[0];
332 /** @brief Called when a key is pressed in the queue tree view */
333 static gboolean queue_key_press(GtkWidget attribute((unused)) *widget,
335 gpointer user_data) {
336 /*fprintf(stderr, "queue_key_press type=%d state=%#x keyval=%#x\n",
337 event->type, event->state, event->keyval);*/
338 switch(event->keyval) {
342 break; /* Only take unmodified DEL/<-- */
343 ql_remove_activate(0, user_data);
344 return TRUE; /* Do not propagate */
346 return FALSE; /* Propagate */
349 GtkWidget *queue_widget(void) {
350 GtkWidget *const w = init_queuelike(&ql_queue);
352 /* Enable drag+drop */
353 gtk_tree_view_set_reorderable(GTK_TREE_VIEW(ql_queue.view), TRUE);
354 g_signal_connect(ql_queue.store,
356 G_CALLBACK(queue_row_inserted), &ql_queue);
357 g_signal_connect(ql_queue.store,
359 G_CALLBACK(queue_row_deleted), &ql_queue);
360 /* Catch keypresses */
361 g_signal_connect(ql_queue.view, "key-press-event",
362 G_CALLBACK(queue_key_press), &ql_queue);
366 /** @brief Return nonzero if @p track is in the queue */
367 int queued(const char *track) {
368 struct queue_entry *q;
370 D(("queued %s", track));
371 /* Queue will contain resolved name */
372 track = namepart_resolve(track);
373 for(q = ql_queue.q; q; q = q->next)
374 if(!strcmp(q->track, track))
~mdw / disorder / blob