4 This file is part of polypaudio.
6 polypaudio is free software; you can redistribute it and/or modify
7 it under the terms of the GNU General Public License as published
8 by the Free Software Foundation; either version 2 of the License,
9 or (at your option) any later version.
11 polypaudio is distributed in the hope that it will be useful, but
12 WITHOUT ANY WARRANTY; without even the implied warranty of
13 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
14 General Public License for more details.
16 You should have received a copy of the GNU General Public License
17 along with polypaudio; if not, write to the Free Software
18 Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307
28 #include "glib-mainloop.h"
33 struct pa_glib_mainloop
*mainloop
;
35 GIOChannel
*io_channel
;
37 GIOCondition io_condition
;
39 void (*callback
) (struct pa_mainloop_api
*m
, struct pa_io_event
*e
, int fd
, enum pa_io_event_flags f
, void *userdata
);
41 void (*destroy_callback
) (struct pa_mainloop_api
*m
, struct pa_io_event
*e
, void *userdata
);
42 struct pa_io_event
*next
, *prev
;
45 struct pa_time_event
{
46 struct pa_glib_mainloop
*mainloop
;
49 struct timeval timeval
;
50 void (*callback
) (struct pa_mainloop_api
*m
, struct pa_time_event
*e
, const struct timeval
*tv
, void *userdata
);
52 void (*destroy_callback
) (struct pa_mainloop_api
*m
, struct pa_time_event
*e
, void *userdata
);
53 struct pa_time_event
*next
, *prev
;
56 struct pa_defer_event
{
57 struct pa_glib_mainloop
*mainloop
;
60 void (*callback
) (struct pa_mainloop_api
*m
, struct pa_defer_event
*e
, void *userdata
);
62 void (*destroy_callback
) (struct pa_mainloop_api
*m
, struct pa_defer_event
*e
, void *userdata
);
63 struct pa_defer_event
*next
, *prev
;
66 struct pa_glib_mainloop
{
67 GMainContext
*glib_main_context
;
68 struct pa_mainloop_api api
;
69 GSource
*cleanup_source
;
70 struct pa_io_event
*io_events
, *dead_io_events
;
71 struct pa_time_event
*time_events
, *dead_time_events
;
72 struct pa_defer_event
*defer_events
, *dead_defer_events
;
75 static void schedule_free_dead_events(struct pa_glib_mainloop
*g
);
77 static void glib_io_enable(struct pa_io_event
*e
, enum pa_io_event_flags f
);
79 static struct pa_io_event
* glib_io_new(struct pa_mainloop_api
*m
, int fd
, enum pa_io_event_flags f
, void (*callback
) (struct pa_mainloop_api
*m
, struct pa_io_event
*e
, int fd
, enum pa_io_event_flags f
, void *userdata
), void *userdata
) {
80 struct pa_io_event
*e
;
81 struct pa_glib_mainloop
*g
;
83 assert(m
&& m
->userdata
&& fd
>= 0 && callback
);
86 e
= pa_xmalloc(sizeof(struct pa_io_event
));
87 e
->mainloop
= m
->userdata
;
90 e
->callback
= callback
;
91 e
->userdata
= userdata
;
92 e
->destroy_callback
= NULL
;
94 e
->io_channel
= g_io_channel_unix_new(e
->fd
);
95 assert(e
->io_channel
);
101 e
->next
= g
->io_events
;
102 if (e
->next
) e
->next
->prev
= e
;
109 static gboolean
io_cb(GIOChannel
*source
, GIOCondition condition
, gpointer data
) {
110 struct pa_io_event
*e
= data
;
111 enum pa_io_event_flags f
;
112 assert(source
&& e
&& e
->io_channel
== source
);
114 f
= (condition
& G_IO_IN
? PA_IO_EVENT_INPUT
: 0) |
115 (condition
& G_IO_OUT
? PA_IO_EVENT_OUTPUT
: 0) |
116 (condition
& G_IO_ERR
? PA_IO_EVENT_ERROR
: 0) |
117 (condition
& G_IO_HUP
? PA_IO_EVENT_HANGUP
: 0);
119 e
->callback(&e
->mainloop
->api
, e
, e
->fd
, f
, e
->userdata
);
123 static void glib_io_enable(struct pa_io_event
*e
, enum pa_io_event_flags f
) {
125 assert(e
&& !e
->dead
);
127 c
= (f
& PA_IO_EVENT_INPUT
? G_IO_IN
: 0) | (f
& PA_IO_EVENT_OUTPUT
? G_IO_OUT
: 0);
129 if (c
== e
->io_condition
)
133 g_source_destroy(e
->source
);
134 g_source_unref(e
->source
);
137 e
->source
= g_io_create_watch(e
->io_channel
, c
| G_IO_ERR
| G_IO_HUP
);
140 g_source_set_callback(e
->source
, (GSourceFunc
) io_cb
, e
, NULL
);
141 g_source_attach(e
->source
, e
->mainloop
->glib_main_context
);
142 g_source_set_priority(e
->source
, G_PRIORITY_DEFAULT
);
147 static void glib_io_free(struct pa_io_event
*e
) {
148 assert(e
&& !e
->dead
);
151 g_source_destroy(e
->source
);
152 g_source_unref(e
->source
);
157 e
->prev
->next
= e
->next
;
159 e
->mainloop
->io_events
= e
->next
;
162 e
->next
->prev
= e
->prev
;
164 if ((e
->next
= e
->mainloop
->dead_io_events
))
167 e
->mainloop
->dead_io_events
= e
;
171 schedule_free_dead_events(e
->mainloop
);
174 static void glib_io_set_destroy(struct pa_io_event
*e
, void (*callback
)(struct pa_mainloop_api
*m
, struct pa_io_event
*e
, void *userdata
)) {
176 e
->destroy_callback
= callback
;
181 static void glib_time_restart(struct pa_time_event
*e
, const struct timeval
*tv
);
183 static struct pa_time_event
* glib_time_new(struct pa_mainloop_api
*m
, const struct timeval
*tv
, void (*callback
) (struct pa_mainloop_api
*m
, struct pa_time_event
*e
, const struct timeval
*tv
, void *userdata
), void *userdata
) {
184 struct pa_glib_mainloop
*g
;
185 struct pa_time_event
*e
;
187 assert(m
&& m
->userdata
&& tv
&& callback
);
190 e
= pa_xmalloc(sizeof(struct pa_time_event
));
193 e
->callback
= callback
;
194 e
->userdata
= userdata
;
195 e
->destroy_callback
= NULL
;
198 glib_time_restart(e
, tv
);
200 e
->next
= g
->time_events
;
201 if (e
->next
) e
->next
->prev
= e
;
208 static guint
msec_diff(const struct timeval
*a
, const struct timeval
*b
) {
212 if (a
->tv_sec
< b
->tv_sec
)
215 if (a
->tv_sec
== b
->tv_sec
&& a
->tv_sec
<= b
->tv_sec
)
218 r
= (a
->tv_sec
-b
->tv_sec
)*1000;
220 if (a
->tv_usec
>= b
->tv_usec
)
221 r
+= (a
->tv_usec
- b
->tv_usec
) / 1000;
223 r
-= (b
->tv_usec
- a
->tv_usec
) / 1000;
228 static gboolean
time_cb(gpointer data
) {
229 struct pa_time_event
* e
= data
;
230 assert(e
&& e
->mainloop
&& e
->source
);
232 g_source_unref(e
->source
);
235 e
->callback(&e
->mainloop
->api
, e
, &e
->timeval
, e
->userdata
);
239 static void glib_time_restart(struct pa_time_event
*e
, const struct timeval
*tv
) {
241 assert(e
&& e
->mainloop
&& !e
->dead
);
243 gettimeofday(&now
, NULL
);
245 g_source_destroy(e
->source
);
246 g_source_unref(e
->source
);
251 e
->source
= g_timeout_source_new(msec_diff(tv
, &now
));
253 g_source_set_callback(e
->source
, time_cb
, e
, NULL
);
254 g_source_set_priority(e
->source
, G_PRIORITY_DEFAULT
);
255 g_source_attach(e
->source
, e
->mainloop
->glib_main_context
);
260 static void glib_time_free(struct pa_time_event
*e
) {
261 assert(e
&& e
->mainloop
&& !e
->dead
);
264 g_source_destroy(e
->source
);
265 g_source_unref(e
->source
);
270 e
->prev
->next
= e
->next
;
272 e
->mainloop
->time_events
= e
->next
;
275 e
->next
->prev
= e
->prev
;
277 if ((e
->next
= e
->mainloop
->dead_time_events
))
280 e
->mainloop
->dead_time_events
= e
;
284 schedule_free_dead_events(e
->mainloop
);
287 static void glib_time_set_destroy(struct pa_time_event
*e
, void (*callback
)(struct pa_mainloop_api
*m
, struct pa_time_event
*e
, void *userdata
)) {
289 e
->destroy_callback
= callback
;
292 /* Deferred sources */
294 static void glib_defer_enable(struct pa_defer_event
*e
, int b
);
296 static struct pa_defer_event
* glib_defer_new(struct pa_mainloop_api
*m
, void (*callback
) (struct pa_mainloop_api
*m
, struct pa_defer_event
*e
, void *userdata
), void *userdata
) {
297 struct pa_defer_event
*e
;
298 struct pa_glib_mainloop
*g
;
300 assert(m
&& m
->userdata
&& callback
);
303 e
= pa_xmalloc(sizeof(struct pa_defer_event
));
306 e
->callback
= callback
;
307 e
->userdata
= userdata
;
308 e
->destroy_callback
= NULL
;
311 glib_defer_enable(e
, 1);
313 e
->next
= g
->defer_events
;
314 if (e
->next
) e
->next
->prev
= e
;
320 static gboolean
idle_cb(gpointer data
) {
321 struct pa_defer_event
* e
= data
;
322 assert(e
&& e
->mainloop
&& e
->source
);
324 e
->callback(&e
->mainloop
->api
, e
, e
->userdata
);
328 static void glib_defer_enable(struct pa_defer_event
*e
, int b
) {
329 assert(e
&& e
->mainloop
);
331 if (e
->source
&& !b
) {
332 g_source_destroy(e
->source
);
333 g_source_unref(e
->source
);
335 } else if (!e
->source
&& b
) {
336 e
->source
= g_idle_source_new();
338 g_source_set_callback(e
->source
, idle_cb
, e
, NULL
);
339 g_source_attach(e
->source
, e
->mainloop
->glib_main_context
);
340 g_source_set_priority(e
->source
, G_PRIORITY_HIGH
);
344 static void glib_defer_free(struct pa_defer_event
*e
) {
345 assert(e
&& e
->mainloop
&& !e
->dead
);
348 g_source_destroy(e
->source
);
349 g_source_unref(e
->source
);
354 e
->prev
->next
= e
->next
;
356 e
->mainloop
->defer_events
= e
->next
;
359 e
->next
->prev
= e
->prev
;
361 if ((e
->next
= e
->mainloop
->dead_defer_events
))
364 e
->mainloop
->dead_defer_events
= e
;
368 schedule_free_dead_events(e
->mainloop
);
371 static void glib_defer_set_destroy(struct pa_defer_event
*e
, void (*callback
)(struct pa_mainloop_api
*m
, struct pa_defer_event
*e
, void *userdata
)) {
373 e
->destroy_callback
= callback
;
378 static void glib_quit(struct pa_mainloop_api
*a
, int retval
) {
379 struct pa_glib_mainloop
*g
;
380 assert(a
&& a
->userdata
);
386 static const struct pa_mainloop_api vtable
= {
389 .io_new
= glib_io_new
,
390 .io_enable
= glib_io_enable
,
391 .io_free
= glib_io_free
,
392 .io_set_destroy
= glib_io_set_destroy
,
394 .time_new
= glib_time_new
,
395 .time_restart
= glib_time_restart
,
396 .time_free
= glib_time_free
,
397 .time_set_destroy
= glib_time_set_destroy
,
399 .defer_new
= glib_defer_new
,
400 .defer_enable
= glib_defer_enable
,
401 .defer_free
= glib_defer_free
,
402 .defer_set_destroy
= glib_defer_set_destroy
,
407 struct pa_glib_mainloop
*pa_glib_mainloop_new(GMainContext
*c
) {
408 struct pa_glib_mainloop
*g
;
410 g
= pa_xmalloc(sizeof(struct pa_glib_mainloop
));
412 g
->glib_main_context
= c
;
413 g_main_context_ref(c
);
415 g
->glib_main_context
= g_main_context_default();
420 g
->io_events
= g
->dead_io_events
= NULL
;
421 g
->time_events
= g
->dead_time_events
= NULL
;
422 g
->defer_events
= g
->dead_defer_events
= NULL
;
424 g
->cleanup_source
= NULL
;
428 static void free_io_events(struct pa_io_event
*e
) {
430 struct pa_io_event
*r
= e
;
434 g_source_destroy(r
->source
);
435 g_source_unref(r
->source
);
439 g_io_channel_unref(r
->io_channel
);
441 if (r
->destroy_callback
)
442 r
->destroy_callback(&r
->mainloop
->api
, r
, r
->userdata
);
448 static void free_time_events(struct pa_time_event
*e
) {
450 struct pa_time_event
*r
= e
;
454 g_source_destroy(r
->source
);
455 g_source_unref(r
->source
);
458 if (r
->destroy_callback
)
459 r
->destroy_callback(&r
->mainloop
->api
, r
, r
->userdata
);
465 static void free_defer_events(struct pa_defer_event
*e
) {
467 struct pa_defer_event
*r
= e
;
471 g_source_destroy(r
->source
);
472 g_source_unref(r
->source
);
475 if (r
->destroy_callback
)
476 r
->destroy_callback(&r
->mainloop
->api
, r
, r
->userdata
);
482 void pa_glib_mainloop_free(struct pa_glib_mainloop
* g
) {
485 free_io_events(g
->io_events
);
486 free_io_events(g
->dead_io_events
);
487 free_defer_events(g
->defer_events
);
488 free_defer_events(g
->dead_defer_events
);
489 free_time_events(g
->time_events
);
490 free_time_events(g
->dead_time_events
);
492 if (g
->cleanup_source
) {
493 g_source_destroy(g
->cleanup_source
);
494 g_source_unref(g
->cleanup_source
);
497 g_main_context_unref(g
->glib_main_context
);
501 struct pa_mainloop_api
* pa_glib_mainloop_get_api(struct pa_glib_mainloop
*g
) {
506 static gboolean
free_dead_events(gpointer p
) {
507 struct pa_glib_mainloop
*g
= p
;
510 free_io_events(g
->dead_io_events
);
511 free_defer_events(g
->dead_defer_events
);
512 free_time_events(g
->dead_time_events
);
514 g
->dead_io_events
= NULL
;
515 g
->dead_defer_events
= NULL
;
516 g
->dead_time_events
= NULL
;
518 g_source_destroy(g
->cleanup_source
);
519 g_source_unref(g
->cleanup_source
);
520 g
->cleanup_source
= NULL
;
525 static void schedule_free_dead_events(struct pa_glib_mainloop
*g
) {
526 assert(g
&& g
->glib_main_context
);
528 if (g
->cleanup_source
)
531 g
->cleanup_source
= g_idle_source_new();
532 assert(g
->cleanup_source
);
533 g_source_set_callback(g
->cleanup_source
, free_dead_events
, g
, NULL
);
534 g_source_attach(g
->cleanup_source
, g
->glib_main_context
);