1 /*****************************************************************************
2 * video_output.c : video output thread
3 * This module describes the programming interface for video output threads.
4 * It includes functions allowing to open a new thread, send pictures to a
5 * thread, and destroy a previously oppened video output thread.
6 *****************************************************************************
7 * Copyright (C) 2000-2001 VideoLAN
8 * $Id: video_output.c,v 1.210 2003/01/28 22:03:21 sam Exp $
10 * Authors: Vincent Seguin <seguin@via.ecp.fr>
12 * This program is free software; you can redistribute it and/or modify
13 * it under the terms of the GNU General Public License as published by
14 * the Free Software Foundation; either version 2 of the License, or
15 * (at your option) any later version.
17 * This program is distributed in the hope that it will be useful,
18 * but WITHOUT ANY WARRANTY; without even the implied warranty of
19 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
20 * GNU General Public License for more details.
22 * You should have received a copy of the GNU General Public License
23 * along with this program; if not, write to the Free Software
24 * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111, USA.
25 *****************************************************************************/
27 /*****************************************************************************
29 *****************************************************************************/
30 #include <stdlib.h> /* free() */
34 #ifdef HAVE_SYS_TIMES_H
35 # include <sys/times.h>
39 #include "video_output.h"
41 #if defined( SYS_DARWIN )
42 #include "darwin_specific.h"
45 /*****************************************************************************
47 *****************************************************************************/
48 static int InitThread ( vout_thread_t * );
49 static void RunThread ( vout_thread_t * );
50 static void ErrorThread ( vout_thread_t * );
51 static void EndThread ( vout_thread_t * );
52 static void DestroyThread ( vout_thread_t * );
54 static int ReduceHeight ( int );
55 static int BinaryLog ( uint32_t );
56 static void MaskToShift ( int *, int *, uint32_t );
57 static void InitWindowSize ( vout_thread_t *, int *, int * );
59 /*****************************************************************************
60 * vout_Request: find a video output thread, create one, or destroy one.
61 *****************************************************************************
62 * This function looks for a video output thread matching the current
63 * properties. If not found, it spawns a new one.
64 *****************************************************************************/
65 vout_thread_t * __vout_Request ( vlc_object_t *p_this, vout_thread_t *p_vout,
66 unsigned int i_width, unsigned int i_height,
67 vlc_fourcc_t i_chroma, unsigned int i_aspect )
69 if( !i_width || !i_height || !i_chroma )
71 /* Reattach video output to p_vlc before bailing out */
74 char *psz_sout = config_GetPsz( p_this, "sout" );
76 if( !psz_sout || !*psz_sout )
78 vlc_object_detach( p_vout );
79 vlc_object_attach( p_vout, p_this->p_vlc );
83 vlc_object_detach( p_vout );
84 vlc_object_release( p_vout );
85 vout_Destroy( p_vout );
87 if( psz_sout ) free( psz_sout );
93 /* If a video output was provided, lock it, otherwise look for one. */
96 vlc_object_yield( p_vout );
100 p_vout = vlc_object_find( p_this, VLC_OBJECT_VOUT, FIND_CHILD );
104 p_vout = vlc_object_find( p_this, VLC_OBJECT_VOUT, FIND_ANYWHERE );
108 /* If we now have a video output, check it has the right properties */
111 char *psz_filter_chain;
113 /* We don't directly check for the "filter" variable for obvious
114 * performance reasons. */
115 if( p_vout->b_filter_change )
117 psz_filter_chain = config_GetPsz( p_this, "filter" );
119 if( psz_filter_chain && !*psz_filter_chain )
121 free( psz_filter_chain );
122 psz_filter_chain = NULL;
124 if( p_vout->psz_filter_chain && !*p_vout->psz_filter_chain )
126 free( p_vout->psz_filter_chain );
127 p_vout->psz_filter_chain = NULL;
130 if( ( !psz_filter_chain && !p_vout->psz_filter_chain ) ||
131 ( psz_filter_chain && p_vout->psz_filter_chain &&
132 !strcmp( psz_filter_chain, p_vout->psz_filter_chain ) ) )
134 p_vout->b_filter_change = VLC_FALSE;
137 if( psz_filter_chain ) free( psz_filter_chain );
140 if( ( p_vout->render.i_width != i_width ) ||
141 ( p_vout->render.i_height != i_height ) ||
142 ( p_vout->render.i_chroma != i_chroma ) ||
143 ( p_vout->render.i_aspect != i_aspect
144 && !p_vout->b_override_aspect ) ||
145 p_vout->b_filter_change )
147 /* We are not interested in this format, close this vout */
148 vlc_object_detach( p_vout );
149 vlc_object_release( p_vout );
150 vout_Destroy( p_vout );
155 /* This video output is cool! Hijack it. */
156 vlc_object_detach( p_vout );
157 vlc_object_attach( p_vout, p_this );
158 vlc_object_release( p_vout );
164 msg_Dbg( p_this, "no usable vout present, spawning one" );
166 p_vout = vout_Create( p_this, i_width, i_height, i_chroma, i_aspect );
172 /*****************************************************************************
173 * vout_Create: creates a new video output thread
174 *****************************************************************************
175 * This function creates a new video output thread, and returns a pointer
176 * to its description. On error, it returns NULL.
177 *****************************************************************************/
178 vout_thread_t * __vout_Create( vlc_object_t *p_parent,
179 unsigned int i_width, unsigned int i_height,
180 vlc_fourcc_t i_chroma, unsigned int i_aspect )
182 vout_thread_t * p_vout; /* thread descriptor */
183 int i_index; /* loop variable */
187 /* Allocate descriptor */
188 p_vout = vlc_object_create( p_parent, VLC_OBJECT_VOUT );
191 msg_Err( p_parent, "out of memory" );
195 var_Create( p_vout, "intf-change", VLC_VAR_BOOL );
196 val.b_bool = VLC_TRUE;
197 var_Set( p_vout, "intf-change", val );
199 p_vout->b_override_aspect = VLC_FALSE;
201 /* If the parent is not a VOUT object, that means we are at the start of
202 * the video output pipe */
203 if( p_parent->i_object_type != VLC_OBJECT_VOUT )
205 char *psz_aspect = config_GetPsz( p_parent, "aspect-ratio" );
207 /* Check whether the user tried to override aspect ratio */
210 unsigned int i_new_aspect = i_aspect;
211 char *psz_parser = strchr( psz_aspect, ':' );
215 *psz_parser++ = '\0';
216 i_new_aspect = atoi( psz_aspect ) * VOUT_ASPECT_FACTOR
217 / atoi( psz_parser );
221 i_new_aspect = i_width * VOUT_ASPECT_FACTOR
228 if( i_new_aspect && i_new_aspect != i_aspect )
230 int i_pgcd = ReduceHeight( i_new_aspect );
232 msg_Dbg( p_vout, "overriding source aspect ratio to %i:%i",
233 i_new_aspect / i_pgcd, VOUT_ASPECT_FACTOR / i_pgcd );
235 i_aspect = i_new_aspect;
237 p_vout->b_override_aspect = VLC_TRUE;
241 /* Look for the default filter configuration */
242 p_vout->psz_filter_chain = config_GetPsz( p_parent, "filter" );
246 /* continue the parent's filter chain */
249 psz_end = strchr( ((vout_thread_t *)p_parent)->psz_filter_chain, ':' );
250 if( psz_end && *(psz_end+1) )
251 p_vout->psz_filter_chain = strdup( psz_end+1 );
252 else p_vout->psz_filter_chain = NULL;
255 /* Choose the video output module */
256 if( !p_vout->psz_filter_chain || !*p_vout->psz_filter_chain )
258 psz_plugin = config_GetPsz( p_parent, "vout" );
262 /* the filter chain is a string list of filters separated by double
266 psz_end = strchr( p_vout->psz_filter_chain, ':' );
268 psz_plugin = strndup( p_vout->psz_filter_chain,
269 psz_end - p_vout->psz_filter_chain );
270 else psz_plugin = strdup( p_vout->psz_filter_chain );
273 /* Initialize pictures and subpictures - translation tables and functions
274 * will be initialized later in InitThread */
275 for( i_index = 0; i_index < 2 * VOUT_MAX_PICTURES; i_index++)
277 p_vout->p_picture[i_index].i_status = FREE_PICTURE;
278 p_vout->p_picture[i_index].i_type = EMPTY_PICTURE;
281 for( i_index = 0; i_index < VOUT_MAX_SUBPICTURES; i_index++)
283 p_vout->p_subpicture[i_index].i_status = FREE_SUBPICTURE;
284 p_vout->p_subpicture[i_index].i_type = EMPTY_SUBPICTURE;
287 /* No images in the heap */
288 p_vout->i_heap_size = 0;
290 /* Initialize the rendering heap */
291 I_RENDERPICTURES = 0;
292 p_vout->render.i_width = i_width;
293 p_vout->render.i_height = i_height;
294 p_vout->render.i_chroma = i_chroma;
295 p_vout->render.i_aspect = i_aspect;
297 p_vout->render.i_rmask = 0;
298 p_vout->render.i_gmask = 0;
299 p_vout->render.i_bmask = 0;
301 p_vout->render.i_last_used_pic = -1;
302 p_vout->render.b_allow_modify_pics = 1;
304 /* Zero the output heap */
305 I_OUTPUTPICTURES = 0;
306 p_vout->output.i_width = 0;
307 p_vout->output.i_height = 0;
308 p_vout->output.i_chroma = 0;
309 p_vout->output.i_aspect = 0;
311 p_vout->output.i_rmask = 0;
312 p_vout->output.i_gmask = 0;
313 p_vout->output.i_bmask = 0;
315 /* Initialize misc stuff */
316 p_vout->i_changes = 0;
318 p_vout->b_grayscale = 0;
320 p_vout->b_interface = 0;
322 p_vout->b_fullscreen = 0;
323 p_vout->render_time = 10;
324 p_vout->c_fps_samples = 0;
325 p_vout->b_filter_change = 0;
327 /* Mouse coordinates */
328 var_Create( p_vout, "mouse-x", VLC_VAR_INTEGER );
329 var_Create( p_vout, "mouse-y", VLC_VAR_INTEGER );
330 var_Create( p_vout, "mouse-moved", VLC_VAR_BOOL );
331 var_Create( p_vout, "mouse-clicked", VLC_VAR_INTEGER );
332 var_Create( p_vout, "key-pressed", VLC_VAR_STRING );
334 /* user requested fullscreen? */
335 if( config_GetInt( p_vout, "fullscreen" ) )
337 p_vout->i_changes |= VOUT_FULLSCREEN_CHANGE;
340 /* Initialize the dimensions of the video window */
341 InitWindowSize( p_vout, &p_vout->i_window_width,
342 &p_vout->i_window_height );
345 p_vout->p_module = module_Need( p_vout,
346 ( p_vout->psz_filter_chain &&
347 *p_vout->psz_filter_chain ) ?
348 "video filter" : "video output",
351 if( psz_plugin ) free( psz_plugin );
352 if( p_vout->p_module == NULL )
354 msg_Err( p_vout, "no suitable vout module" );
355 vlc_object_destroy( p_vout );
359 /* Create thread and set locks */
360 vlc_mutex_init( p_vout, &p_vout->picture_lock );
361 vlc_mutex_init( p_vout, &p_vout->subpicture_lock );
362 vlc_mutex_init( p_vout, &p_vout->change_lock );
364 vlc_object_attach( p_vout, p_parent );
366 if( vlc_thread_create( p_vout, "video output", RunThread,
367 VLC_THREAD_PRIORITY_OUTPUT, VLC_FALSE ) )
369 msg_Err( p_vout, "out of memory" );
370 module_Unneed( p_vout, p_vout->p_module );
371 vlc_object_destroy( p_vout );
378 /*****************************************************************************
379 * vout_Destroy: destroys a previously created video output
380 *****************************************************************************
381 * Destroy a terminated thread.
382 * The function will request a destruction of the specified thread. If pi_error
383 * is NULL, it will return once the thread is destroyed. Else, it will be
384 * update using one of the THREAD_* constants.
385 *****************************************************************************/
386 void vout_Destroy( vout_thread_t *p_vout )
388 /* Request thread destruction */
389 p_vout->b_die = VLC_TRUE;
390 vlc_thread_join( p_vout );
392 var_Destroy( p_vout, "intf-change" );
395 vlc_object_destroy( p_vout );
398 /*****************************************************************************
399 * InitThread: initialize video output thread
400 *****************************************************************************
401 * This function is called from RunThread and performs the second step of the
402 * initialization. It returns 0 on success. Note that the thread's flag are not
403 * modified inside this function.
404 *****************************************************************************/
405 static int InitThread( vout_thread_t *p_vout )
409 vlc_mutex_lock( &p_vout->change_lock );
415 /* Initialize output method, it allocates direct buffers for us */
416 if( p_vout->pf_init( p_vout ) )
418 vlc_mutex_unlock( &p_vout->change_lock );
422 if( !I_OUTPUTPICTURES )
424 msg_Err( p_vout, "plugin was unable to allocate at least "
425 "one direct buffer" );
426 p_vout->pf_end( p_vout );
427 vlc_mutex_unlock( &p_vout->change_lock );
431 if( I_OUTPUTPICTURES > VOUT_MAX_PICTURES )
433 msg_Err( p_vout, "plugin allocated too many direct buffers, "
434 "our internal buffers must have overflown." );
435 p_vout->pf_end( p_vout );
436 vlc_mutex_unlock( &p_vout->change_lock );
440 msg_Dbg( p_vout, "got %i direct buffer(s)", I_OUTPUTPICTURES );
443 if( !p_vout->psz_filter_chain )
445 char *psz_aspect = config_GetPsz( p_vout, "pixel-ratio" );
449 int i_new_aspect = p_vout->output.i_width * VOUT_ASPECT_FACTOR
451 / p_vout->output.i_height;
454 if( i_new_aspect && i_new_aspect != p_vout->output.i_aspect )
456 int i_pgcd = ReduceHeight( i_new_aspect );
457 msg_Dbg( p_vout, "output ratio forced to %i:%i\n",
458 i_new_aspect / i_pgcd, VOUT_ASPECT_FACTOR / i_pgcd );
459 p_vout->output.i_aspect = i_new_aspect;
465 i_pgcd = ReduceHeight( p_vout->render.i_aspect );
467 "picture in %ix%i, chroma 0x%.8x (%4.4s), aspect ratio %i:%i",
468 p_vout->render.i_width, p_vout->render.i_height,
469 p_vout->render.i_chroma, (char*)&p_vout->render.i_chroma,
470 p_vout->render.i_aspect / i_pgcd, VOUT_ASPECT_FACTOR / i_pgcd );
472 i_pgcd = ReduceHeight( p_vout->output.i_aspect );
474 "picture out %ix%i, chroma 0x%.8x (%4.4s), aspect ratio %i:%i",
475 p_vout->output.i_width, p_vout->output.i_height,
476 p_vout->output.i_chroma, (char*)&p_vout->output.i_chroma,
477 p_vout->output.i_aspect / i_pgcd, VOUT_ASPECT_FACTOR / i_pgcd );
479 /* Calculate shifts from system-updated masks */
480 MaskToShift( &p_vout->output.i_lrshift, &p_vout->output.i_rrshift,
481 p_vout->output.i_rmask );
482 MaskToShift( &p_vout->output.i_lgshift, &p_vout->output.i_rgshift,
483 p_vout->output.i_gmask );
484 MaskToShift( &p_vout->output.i_lbshift, &p_vout->output.i_rbshift,
485 p_vout->output.i_bmask );
487 /* Check whether we managed to create direct buffers similar to
488 * the render buffers, ie same size and chroma */
489 if( ( p_vout->output.i_width == p_vout->render.i_width )
490 && ( p_vout->output.i_height == p_vout->render.i_height )
491 && ( vout_ChromaCmp( p_vout->output.i_chroma, p_vout->render.i_chroma ) ) )
493 /* Cool ! We have direct buffers, we can ask the decoder to
494 * directly decode into them ! Map the first render buffers to
495 * the first direct buffers, but keep the first direct buffer
496 * for memcpy operations */
497 p_vout->b_direct = 1;
499 for( i = 1; i < VOUT_MAX_PICTURES; i++ )
501 if( p_vout->p_picture[ i ].i_type != DIRECT_PICTURE &&
502 I_RENDERPICTURES >= VOUT_MIN_DIRECT_PICTURES - 1 &&
503 p_vout->p_picture[ i - 1 ].i_type == DIRECT_PICTURE )
505 /* We have enough direct buffers so there's no need to
506 * try to use system memory buffers. */
509 PP_RENDERPICTURE[ I_RENDERPICTURES ] = &p_vout->p_picture[ i ];
513 msg_Dbg( p_vout, "direct render, mapping "
514 "render pictures 0-%i to system pictures 1-%i",
515 VOUT_MAX_PICTURES - 2, VOUT_MAX_PICTURES - 1 );
519 /* Rats... Something is wrong here, we could not find an output
520 * plugin able to directly render what we decode. See if we can
521 * find a chroma plugin to do the conversion */
522 p_vout->b_direct = 0;
524 /* Choose the best module */
525 p_vout->chroma.p_module = module_Need( p_vout, "chroma", NULL );
527 if( p_vout->chroma.p_module == NULL )
529 msg_Err( p_vout, "no chroma module for %4.4s to %4.4s",
530 (char*)&p_vout->render.i_chroma,
531 (char*)&p_vout->output.i_chroma );
532 p_vout->pf_end( p_vout );
533 vlc_mutex_unlock( &p_vout->change_lock );
537 msg_Dbg( p_vout, "indirect render, mapping "
538 "render pictures 0-%i to system pictures %i-%i",
539 VOUT_MAX_PICTURES - 1, I_OUTPUTPICTURES,
540 I_OUTPUTPICTURES + VOUT_MAX_PICTURES - 1 );
542 /* Append render buffers after the direct buffers */
543 for( i = I_OUTPUTPICTURES; i < 2 * VOUT_MAX_PICTURES; i++ )
545 PP_RENDERPICTURE[ I_RENDERPICTURES ] = &p_vout->p_picture[ i ];
548 /* Check if we have enough render pictures */
549 if( I_RENDERPICTURES == VOUT_MAX_PICTURES )
554 /* Link pictures back to their heap */
555 for( i = 0 ; i < I_RENDERPICTURES ; i++ )
557 PP_RENDERPICTURE[ i ]->p_heap = &p_vout->render;
560 for( i = 0 ; i < I_OUTPUTPICTURES ; i++ )
562 PP_OUTPUTPICTURE[ i ]->p_heap = &p_vout->output;
565 /* XXX XXX mark thread ready */
569 /*****************************************************************************
570 * RunThread: video output thread
571 *****************************************************************************
572 * Video output thread. This function does only returns when the thread is
573 * terminated. It handles the pictures arriving in the video heap and the
574 * display device events.
575 *****************************************************************************/
576 static void RunThread( vout_thread_t *p_vout)
578 int i_index; /* index in heap */
579 int i_idle_loops = 0; /* loops without displaying a picture */
580 mtime_t current_date; /* current date */
581 mtime_t display_date; /* display date */
583 picture_t * p_picture; /* picture pointer */
584 picture_t * p_last_picture = NULL; /* last picture */
585 picture_t * p_directbuffer; /* direct buffer to display */
587 subpicture_t * p_subpic; /* subpicture pointer */
592 p_vout->b_error = InitThread( p_vout );
593 if( p_vout->b_error )
595 /* Destroy thread structures allocated by Create and InitThread */
596 DestroyThread( p_vout );
601 * Main loop - it is not executed if an error occured during
604 while( (!p_vout->b_die) && (!p_vout->b_error) )
606 /* Initialize loop variables */
609 current_date = mdate();
613 if( !(p_vout->c_loops % VOUT_STATS_NB_LOOPS) )
615 msg_Dbg( p_vout, "picture heap: %d/%d",
616 I_RENDERPICTURES, p_vout->i_heap_size );
621 * Find the picture to display (the one with the earliest date).
622 * This operation does not need lock, since only READY_PICTUREs
624 for( i_index = 0; i_index < I_RENDERPICTURES; i_index++ )
626 if( (PP_RENDERPICTURE[i_index]->i_status == READY_PICTURE)
627 && ( (p_picture == NULL) ||
628 (PP_RENDERPICTURE[i_index]->date < display_date) ) )
630 p_picture = PP_RENDERPICTURE[i_index];
631 display_date = p_picture->date;
637 /* If we met the last picture, parse again to see whether there is
638 * a more appropriate one. */
639 if( p_picture == p_last_picture )
641 for( i_index = 0; i_index < I_RENDERPICTURES; i_index++ )
643 if( (PP_RENDERPICTURE[i_index]->i_status == READY_PICTURE)
644 && (PP_RENDERPICTURE[i_index] != p_last_picture)
645 && ((p_picture == p_last_picture) ||
646 (PP_RENDERPICTURE[i_index]->date < display_date)) )
648 p_picture = PP_RENDERPICTURE[i_index];
649 display_date = p_picture->date;
654 /* If we found better than the last picture, destroy it */
655 if( p_last_picture && p_picture != p_last_picture )
657 vlc_mutex_lock( &p_vout->picture_lock );
658 if( p_last_picture->i_refcount )
660 p_last_picture->i_status = DISPLAYED_PICTURE;
664 p_last_picture->i_status = DESTROYED_PICTURE;
665 p_vout->i_heap_size--;
667 vlc_mutex_unlock( &p_vout->picture_lock );
668 p_last_picture = NULL;
671 /* Compute FPS rate */
672 p_vout->p_fps_sample[ p_vout->c_fps_samples++ % VOUT_FPS_SAMPLES ]
675 if( !p_picture->b_force &&
676 p_picture != p_last_picture &&
677 display_date < current_date + p_vout->render_time )
679 /* Picture is late: it will be destroyed and the thread
680 * will directly choose the next picture */
681 vlc_mutex_lock( &p_vout->picture_lock );
682 if( p_picture->i_refcount )
684 /* Pretend we displayed the picture, but don't destroy
685 * it since the decoder might still need it. */
686 p_picture->i_status = DISPLAYED_PICTURE;
690 /* Destroy the picture without displaying it */
691 p_picture->i_status = DESTROYED_PICTURE;
692 p_vout->i_heap_size--;
694 msg_Warn( p_vout, "late picture skipped ("I64Fd")",
695 current_date - display_date );
696 vlc_mutex_unlock( &p_vout->picture_lock );
701 /* Removed because it causes problems for some people --Meuuh */
702 if( display_date > current_date + VOUT_BOGUS_DELAY )
704 /* Picture is waaay too early: it will be destroyed */
705 vlc_mutex_lock( &p_vout->picture_lock );
706 if( p_picture->i_refcount )
708 /* Pretend we displayed the picture, but don't destroy
709 * it since the decoder might still need it. */
710 p_picture->i_status = DISPLAYED_PICTURE;
714 /* Destroy the picture without displaying it */
715 p_picture->i_status = DESTROYED_PICTURE;
716 p_vout->i_heap_size--;
718 intf_WarnMsg( 1, "vout warning: early picture skipped "
719 "("I64Fd")", display_date - current_date );
720 vlc_mutex_unlock( &p_vout->picture_lock );
725 if( display_date > current_date + VOUT_DISPLAY_DELAY )
727 /* A picture is ready to be rendered, but its rendering date
728 * is far from the current one so the thread will perform an
729 * empty loop as if no picture were found. The picture state
734 else if( p_picture == p_last_picture )
736 /* We are asked to repeat the previous picture, but we first
737 * wait for a couple of idle loops */
738 if( i_idle_loops < 4 )
745 /* We set the display date to something high, otherwise
746 * we'll have lots of problems with late pictures */
747 display_date = current_date + p_vout->render_time;
752 if( p_picture == NULL )
758 * Check for subpictures to display
760 p_subpic = vout_SortSubPictures( p_vout, display_date );
765 p_directbuffer = vout_RenderPicture( p_vout, p_picture, p_subpic );
768 * Call the plugin-specific rendering method if there is one
770 if( p_picture != NULL && p_vout->pf_render )
772 /* Render the direct buffer returned by vout_RenderPicture */
773 p_vout->pf_render( p_vout, p_directbuffer );
779 if( display_date != 0 )
781 /* Store render time using a sliding mean */
782 p_vout->render_time += mdate() - current_date;
783 p_vout->render_time >>= 1;
786 /* Give back change lock */
787 vlc_mutex_unlock( &p_vout->change_lock );
789 /* Sleep a while or until a given date */
790 if( display_date != 0 )
792 mwait( display_date - VOUT_MWAIT_TOLERANCE );
796 msleep( VOUT_IDLE_SLEEP );
799 /* On awakening, take back lock and send immediately picture
801 vlc_mutex_lock( &p_vout->change_lock );
804 * Display the previously rendered picture
806 if( p_picture != NULL )
808 /* Display the direct buffer returned by vout_RenderPicture */
809 if( p_vout->pf_display )
811 p_vout->pf_display( p_vout, p_directbuffer );
814 /* Reinitialize idle loop count */
817 /* Tell the vout this was the last picture and that it does not
818 * need to be forced anymore. */
819 p_last_picture = p_picture;
820 p_last_picture->b_force = 0;
824 * Check events and manage thread
826 if( p_vout->pf_manage && p_vout->pf_manage( p_vout ) )
828 /* A fatal error occured, and the thread must terminate
829 * immediately, without displaying anything - setting b_error to 1
830 * causes the immediate end of the main while() loop. */
834 if( p_vout->i_changes & VOUT_SIZE_CHANGE )
836 /* this must only happen when the vout plugin is incapable of
837 * rescaling the picture itself. In this case we need to destroy
838 * the current picture buffers and recreate new ones with the right
842 p_vout->i_changes &= ~VOUT_SIZE_CHANGE;
844 p_vout->pf_end( p_vout );
845 for( i = 0; i < I_OUTPUTPICTURES; i++ )
846 p_vout->p_picture[ i ].i_status = FREE_PICTURE;
848 I_OUTPUTPICTURES = 0;
849 if( p_vout->pf_init( p_vout ) )
851 msg_Err( p_vout, "cannot resize display" );
852 /* FIXME: pf_end will be called again in EndThread() */
856 /* Need to reinitialise the chroma plugin */
857 p_vout->chroma.p_module->pf_deactivate( VLC_OBJECT(p_vout) );
858 p_vout->chroma.p_module->pf_activate( VLC_OBJECT(p_vout) );
863 * Error loop - wait until the thread destruction is requested
865 if( p_vout->b_error )
867 ErrorThread( p_vout );
873 /* Destroy thread structures allocated by CreateThread */
874 DestroyThread( p_vout );
877 /*****************************************************************************
878 * ErrorThread: RunThread() error loop
879 *****************************************************************************
880 * This function is called when an error occured during thread main's loop. The
881 * thread can still receive feed, but must be ready to terminate as soon as
883 *****************************************************************************/
884 static void ErrorThread( vout_thread_t *p_vout )
886 /* Wait until a `die' order */
887 while( !p_vout->b_die )
890 msleep( VOUT_IDLE_SLEEP );
894 /*****************************************************************************
895 * EndThread: thread destruction
896 *****************************************************************************
897 * This function is called when the thread ends after a sucessful
898 * initialization. It frees all ressources allocated by InitThread.
899 *****************************************************************************/
900 static void EndThread( vout_thread_t *p_vout )
902 int i_index; /* index in heap */
906 struct tms cpu_usage;
909 msg_Dbg( p_vout, "cpu usage (user: %d, system: %d)",
910 cpu_usage.tms_utime, cpu_usage.tms_stime );
914 if( !p_vout->b_direct )
916 module_Unneed( p_vout, p_vout->chroma.p_module );
919 /* Destroy all remaining pictures */
920 for( i_index = 0; i_index < 2 * VOUT_MAX_PICTURES; i_index++ )
922 if ( p_vout->p_picture[i_index].i_type == MEMORY_PICTURE )
924 free( p_vout->p_picture[i_index].p_data_orig );
928 /* Destroy all remaining subpictures */
929 for( i_index = 0; i_index < VOUT_MAX_SUBPICTURES; i_index++ )
931 if( p_vout->p_subpicture[i_index].i_status != FREE_SUBPICTURE )
933 free( p_vout->p_subpicture[i_index].p_sys );
937 /* Destroy translation tables */
938 p_vout->pf_end( p_vout );
940 /* Release the change lock */
941 vlc_mutex_unlock( &p_vout->change_lock );
944 /*****************************************************************************
945 * DestroyThread: thread destruction
946 *****************************************************************************
947 * This function is called when the thread ends. It frees all ressources
948 * allocated by CreateThread. Status is available at this stage.
949 *****************************************************************************/
950 static void DestroyThread( vout_thread_t *p_vout )
952 /* Destroy the locks */
953 vlc_mutex_destroy( &p_vout->picture_lock );
954 vlc_mutex_destroy( &p_vout->subpicture_lock );
955 vlc_mutex_destroy( &p_vout->change_lock );
957 /* Release the module */
958 module_Unneed( p_vout, p_vout->p_module );
961 /* following functions are local */
963 static int ReduceHeight( int i_ratio )
965 int i_dummy = VOUT_ASPECT_FACTOR;
973 /* VOUT_ASPECT_FACTOR is (2^7 * 3^3 * 5^3), we just check for 2, 3 and 5 */
974 while( !(i_ratio & 1) && !(i_dummy & 1) )
981 while( !(i_ratio % 3) && !(i_dummy % 3) )
988 while( !(i_ratio % 5) && !(i_dummy % 5) )
998 /*****************************************************************************
999 * BinaryLog: computes the base 2 log of a binary value
1000 *****************************************************************************
1001 * This functions is used by MaskToShift, to get a bit index from a binary
1003 *****************************************************************************/
1004 static int BinaryLog( uint32_t i )
1008 if( i == 0 ) return -31337;
1010 if( i & 0xffff0000 ) i_log += 16;
1011 if( i & 0xff00ff00 ) i_log += 8;
1012 if( i & 0xf0f0f0f0 ) i_log += 4;
1013 if( i & 0xcccccccc ) i_log += 2;
1014 if( i & 0xaaaaaaaa ) i_log += 1;
1019 /*****************************************************************************
1020 * MaskToShift: transform a color mask into right and left shifts
1021 *****************************************************************************
1022 * This function is used for obtaining color shifts from masks.
1023 *****************************************************************************/
1024 static void MaskToShift( int *pi_left, int *pi_right, uint32_t i_mask )
1026 uint32_t i_low, i_high; /* lower hand higher bits of the mask */
1030 *pi_left = *pi_right = 0;
1035 i_low = i_mask & (- (int32_t)i_mask); /* lower bit of the mask */
1036 i_high = i_mask + i_low; /* higher bit of the mask */
1038 /* Transform bits into an index */
1039 i_low = BinaryLog (i_low);
1040 i_high = BinaryLog (i_high);
1042 /* Update pointers and return */
1044 *pi_right = (8 - i_high + i_low);
1047 /*****************************************************************************
1048 * InitWindowSize: find the initial dimensions the video window should have.
1049 *****************************************************************************
1050 * This function will check the "width", "height" and "zoom" config options and
1051 * will calculate the size that the video window should have.
1052 *****************************************************************************/
1053 static void InitWindowSize( vout_thread_t *p_vout, int *pi_width,
1056 int i_width, i_height;
1059 #define FP_FACTOR 1000 /* our fixed point factor */
1061 i_width = config_GetInt( p_vout, "width" );
1062 i_height = config_GetInt( p_vout, "height" );
1063 ll_zoom = (uint64_t)( FP_FACTOR * config_GetFloat( p_vout, "zoom" ) );
1065 if( (i_width >= 0) && (i_height >= 0))
1067 *pi_width = (int)( i_width * ll_zoom / FP_FACTOR );
1068 *pi_height = (int)( i_height * ll_zoom / FP_FACTOR );
1071 else if( i_width >= 0 )
1073 *pi_width = (int)( i_width * ll_zoom / FP_FACTOR );
1074 *pi_height = (int)( i_width * ll_zoom * VOUT_ASPECT_FACTOR /
1075 p_vout->render.i_aspect / FP_FACTOR );
1078 else if( i_height >= 0 )
1080 *pi_height = (int)( i_height * ll_zoom / FP_FACTOR );
1081 *pi_width = (int)( i_height * ll_zoom * p_vout->render.i_aspect /
1082 VOUT_ASPECT_FACTOR / FP_FACTOR );
1086 if( p_vout->render.i_height * p_vout->render.i_aspect
1087 >= p_vout->render.i_width * VOUT_ASPECT_FACTOR )
1089 *pi_width = (int)( p_vout->render.i_height * ll_zoom
1090 * p_vout->render.i_aspect / VOUT_ASPECT_FACTOR / FP_FACTOR );
1091 *pi_height = (int)( p_vout->render.i_height * ll_zoom / FP_FACTOR );
1095 *pi_width = (int)( p_vout->render.i_width * ll_zoom / FP_FACTOR );
1096 *pi_height = (int)( p_vout->render.i_width * ll_zoom
1097 * VOUT_ASPECT_FACTOR / p_vout->render.i_aspect / FP_FACTOR );
1103 /*****************************************************************************
1104 * vout_VarCallback: generic callback for intf variables
1105 *****************************************************************************/
1106 int vout_VarCallback( vlc_object_t * p_this, const char * psz_variable,
1107 vlc_value_t old_value, vlc_value_t new_value,
1110 vout_thread_t * p_vout = (vout_thread_t *)p_this;
1113 var_Set( p_vout, "intf-change", val );