Commit 3dc18b87 authored by Laurent Aimar's avatar Laurent Aimar

Reworked the way the vout select the pictures to be displayed.

It allows to:
 - properly support filters that do not have 1:1 input/output relation
 (yadif2x, bob, ... are back).
 - filter only once each picture (for the 'static' filter chain). It
 fixes filters with state behavior.
 - display as soon as possible the first frame after a flush.

There are still a few issues:
 - when paused, on filter changes, the picture displayed step forward the
 first time.
 - preventive frame dropping is not enough agressive.
parent 0441cf8f
......@@ -68,7 +68,7 @@ static void VoutDestructor(vlc_object_t *);
#define VOUT_DISPLAY_LATE_THRESHOLD (INT64_C(20000))
/* Better be in advance when awakening than late... */
#define VOUT_MWAIT_TOLERANCE (INT64_C(1000))
#define VOUT_MWAIT_TOLERANCE (INT64_C(4000))
/* */
static int VoutValidateFormat(video_format_t *dst,
......@@ -567,217 +567,235 @@ static int VoutVideoFilterInteractiveAllocationSetup(filter_t *filter, void *dat
}
/* */
static picture_t *ThreadDisplayGetDecodedPicture(vout_thread_t *vout,
int *lost_count, bool *is_forced,
bool now, mtime_t *deadline)
static int ThreadDisplayPreparePicture(vout_thread_t *vout, bool reuse)
{
vout_display_t *vd = vout->p->display.vd;
int lost_count = 0;
const mtime_t date = mdate();
const bool is_paused = vout->p->pause.is_on;
bool redisplay = is_paused && !now && vout->p->displayed.decoded;
vlc_mutex_lock(&vout->p->filter.lock);
mtime_t filter_delay = 0;
for (int i = 0; i < VOUT_FILTER_DELAYS; i++)
filter_delay = __MAX(filter_delay, vout->p->filter.delay[i]);
picture_t *picture = filter_chain_VideoFilter(vout->p->filter.chain_static, NULL);
assert(!reuse || !picture);
/* FIXME/XXX we must redisplay the last decoded picture (because
* of potential vout updated, or filters update or SPU update)
* For now a high update period is needed but it coulmd be removed
* if and only if:
* - vout module emits events from theselves.
* - *and* SPU is modified to emit an event or a deadline when needed.
*
* So it will be done latter.
*/
if (!redisplay) {
picture_t *peek = picture_fifo_Peek(vout->p->decoder_fifo);
if (peek) {
*is_forced = peek->b_force || is_paused || now;
*deadline = (*is_forced ? date : peek->date) -
vout_chrono_GetHigh(&vout->p->render) -
filter_delay;
picture_Release(peek);
while (!picture) {
picture_t *decoded;
if (reuse && vout->p->displayed.decoded) {
decoded = picture_Hold(vout->p->displayed.decoded);
} else {
redisplay = true;
}
}
if (redisplay) {
/* FIXME a better way for this delay is needed */
const mtime_t date_update = vout->p->displayed.date + VOUT_REDISPLAY_DELAY;
if (date_update > date || !vout->p->displayed.decoded) {
*deadline = vout->p->displayed.decoded ? date_update : VLC_TS_INVALID;
return NULL;
}
/* */
*is_forced = true;
*deadline = date - vout_chrono_GetHigh(&vout->p->render) - filter_delay;
}
if (*deadline > VOUT_MWAIT_TOLERANCE)
*deadline -= VOUT_MWAIT_TOLERANCE;
/* If we are too early and can wait, do it */
if (date < *deadline && !now)
return NULL;
picture_t *decoded;
if (redisplay) {
decoded = vout->p->displayed.decoded;
vout->p->displayed.decoded = NULL;
} else {
decoded = picture_fifo_Pop(vout->p->decoder_fifo);
assert(decoded);
if (!*is_forced && !vout->p->is_late_dropped) {
const mtime_t predicted = date + vout_chrono_GetLow(&vout->p->render);
const mtime_t late = predicted - decoded->date;
if (late > 0) {
msg_Dbg(vout, "picture might be displayed late (missing %d ms)", (int)(late/1000));
decoded = picture_fifo_Pop(vout->p->decoder_fifo);
if (vout->p->is_late_dropped && decoded && !decoded->b_force) {
const mtime_t predicted = mdate() + 0; /* TODO improve */
const mtime_t late = predicted - decoded->date;
if (late > VOUT_DISPLAY_LATE_THRESHOLD) {
msg_Warn(vout, "rejected picture because of render time");
/* TODO */
msg_Warn(vout, "picture is too late to be displayed (missing %d ms)", (int)(late/1000));
picture_Release(decoded);
(*lost_count)++;
return NULL;
lost_count++;
continue;
} else if (late > 0) {
msg_Dbg(vout, "picture might be displayed late (missing %d ms)", (int)(late/1000));
}
}
}
if (!decoded)
break;
reuse = false;
if (vout->p->displayed.decoded)
picture_Release(vout->p->displayed.decoded);
vout->p->displayed.decoded = picture_Hold(decoded);
vout->p->displayed.timestamp = decoded->date;
vout->p->displayed.is_interlaced = !decoded->b_progressive;
vout->p->displayed.qtype = decoded->i_qtype;
picture = filter_chain_VideoFilter(vout->p->filter.chain_static, decoded);
}
vout->p->displayed.timestamp = decoded->date;
/* */
if (vout->p->displayed.decoded)
picture_Release(vout->p->displayed.decoded);
picture_Hold(decoded);
vout->p->displayed.decoded = decoded;
vlc_mutex_unlock(&vout->p->filter.lock);
vout_statistic_Update(&vout->p->statistic, 0, lost_count);
if (!picture)
return VLC_EGENERIC;
return decoded;
assert(!vout->p->displayed.next);
if (!vout->p->displayed.current)
vout->p->displayed.current = picture;
else
vout->p->displayed.next = picture;
return VLC_SUCCESS;
}
static int ThreadDisplayPicture(vout_thread_t *vout,
bool now, mtime_t *deadline)
static int ThreadDisplayRenderPicture(vout_thread_t *vout, bool is_forced)
{
vout_display_t *vd = vout->p->display.vd;
int displayed_count = 0;
int lost_count = 0;
for (;;) {
bool is_forced;
picture_t *decoded = ThreadDisplayGetDecodedPicture(vout,
&lost_count, &is_forced,
now, deadline);
if (!decoded)
break;
picture_t *torender = picture_Hold(vout->p->displayed.current);
/* */
vout_chrono_Start(&vout->p->render);
picture_t *filtered = NULL;
if (decoded) {
vlc_mutex_lock(&vout->p->filter.lock);
filtered = filter_chain_VideoFilter(vout->p->filter.chain_static, decoded);
if (filtered)
filtered = filter_chain_VideoFilter(vout->p->filter.chain_interactive, filtered);
vlc_mutex_unlock(&vout->p->filter.lock);
if (!filtered)
continue;
vout->p->filter.delay[vout->p->filter.delay_index] = decoded->date - filtered->date;
vout->p->filter.delay_index = (vout->p->filter.delay_index + 1) % VOUT_FILTER_DELAYS;
}
vout_chrono_Start(&vout->p->render);
/*
* Check for subpictures to display
*/
const bool do_snapshot = vout_snapshot_IsRequested(&vout->p->snapshot);
mtime_t spu_render_time = is_forced ? mdate() : filtered->date;
if (vout->p->pause.is_on)
spu_render_time = vout->p->pause.date;
vlc_mutex_lock(&vout->p->filter.lock);
picture_t *filtered = filter_chain_VideoFilter(vout->p->filter.chain_interactive, torender);
vlc_mutex_unlock(&vout->p->filter.lock);
if (!filtered)
return VLC_EGENERIC;
if (filtered->date != vout->p->displayed.current->date)
msg_Warn(vout, "Unsupported timestamp modifications done by chain_interactive");
/*
* Check for subpictures to display
*/
const bool do_snapshot = vout_snapshot_IsRequested(&vout->p->snapshot);
mtime_t spu_render_time = is_forced ? mdate() : filtered->date;
if (vout->p->pause.is_on)
spu_render_time = vout->p->pause.date;
else
spu_render_time = filtered->date > 1 ? filtered->date : mdate();
subpicture_t *subpic = spu_SortSubpictures(vout->p->p_spu,
spu_render_time,
do_snapshot);
/*
* Perform rendering
*
* We have to:
* - be sure to end up with a direct buffer.
* - blend subtitles, and in a fast access buffer
*/
picture_t *direct = NULL;
if (filtered &&
(vout->p->decoder_pool != vout->p->display_pool || subpic)) {
picture_t *render;
if (vout->p->is_decoder_pool_slow)
render = picture_NewFromFormat(&vd->source);
else if (vout->p->decoder_pool != vout->p->display_pool)
render = picture_pool_Get(vout->p->display_pool);
else
spu_render_time = filtered->date > 1 ? filtered->date : mdate();
subpicture_t *subpic = spu_SortSubpictures(vout->p->p_spu,
spu_render_time,
do_snapshot);
/*
* Perform rendering
*
* We have to:
* - be sure to end up with a direct buffer.
* - blend subtitles, and in a fast access buffer
*/
picture_t *direct = NULL;
if (filtered &&
(vout->p->decoder_pool != vout->p->display_pool || subpic)) {
picture_t *render;
if (vout->p->is_decoder_pool_slow)
render = picture_NewFromFormat(&vd->source);
else if (vout->p->decoder_pool != vout->p->display_pool)
render = picture_pool_Get(vout->p->display_pool);
else
render = picture_pool_Get(vout->p->private_pool);
if (render) {
picture_Copy(render, filtered);
spu_RenderSubpictures(vout->p->p_spu,
render, &vd->source,
subpic, &vd->source, spu_render_time);
}
if (vout->p->is_decoder_pool_slow) {
direct = picture_pool_Get(vout->p->display_pool);
if (direct)
picture_Copy(direct, render);
picture_Release(render);
render = picture_pool_Get(vout->p->private_pool);
if (render) {
picture_Copy(render, filtered);
spu_RenderSubpictures(vout->p->p_spu,
render, &vd->source,
subpic, &vd->source, spu_render_time);
}
if (vout->p->is_decoder_pool_slow) {
direct = picture_pool_Get(vout->p->display_pool);
if (direct)
picture_Copy(direct, render);
picture_Release(render);
} else {
direct = render;
}
picture_Release(filtered);
filtered = NULL;
} else {
direct = filtered;
direct = render;
}
picture_Release(filtered);
filtered = NULL;
} else {
direct = filtered;
}
/*
* Take a snapshot if requested
*/
if (direct && do_snapshot)
vout_snapshot_Set(&vout->p->snapshot, &vd->source, direct);
if (!direct)
return VLC_EGENERIC;
/*
* Take a snapshot if requested
*/
if (do_snapshot)
vout_snapshot_Set(&vout->p->snapshot, &vd->source, direct);
/* Render the direct buffer returned by vout_RenderPicture */
if (direct) {
vout_RenderWrapper(vout, direct);
/* Render the direct buffer returned by vout_RenderPicture */
vout_RenderWrapper(vout, direct);
vout_chrono_Stop(&vout->p->render);
vout_chrono_Stop(&vout->p->render);
#if 0
{
static int i = 0;
if (((i++)%10) == 0)
msg_Info(vout, "render: avg %d ms var %d ms",
(int)(vout->p->render.avg/1000), (int)(vout->p->render.var/1000));
}
#endif
{
static int i = 0;
if (((i++)%10) == 0)
msg_Info(vout, "render: avg %d ms var %d ms",
(int)(vout->p->render.avg/1000), (int)(vout->p->render.var/1000));
}
#endif
/* Wait the real date (for rendering jitter) */
#if 0
mtime_t delay = direct->date - mdate();
if (delay < 1000)
msg_Warn(vout, "picture is late (%lld ms)", delay / 1000);
#endif
if (!is_forced)
mwait(direct->date);
/* Display the direct buffer returned by vout_RenderPicture */
vout->p->displayed.date = mdate();
vout_DisplayWrapper(vout, direct);
/* Wait the real date (for rendering jitter) */
if (!is_forced)
mwait(direct->date);
vout_statistic_Update(&vout->p->statistic, 1, 0);
/* Display the direct buffer returned by vout_RenderPicture */
vout->p->displayed.date = mdate();
if (direct)
vout_DisplayWrapper(vout, direct);
return VLC_SUCCESS;
}
displayed_count++;
break;
static int ThreadDisplayPicture(vout_thread_t *vout,
bool now, mtime_t *deadline)
{
bool first = !vout->p->displayed.current;
if (first && ThreadDisplayPreparePicture(vout, true)) /* FIXME not sure it is ok */
return VLC_EGENERIC;
if (!vout->p->pause.is_on || now) {
while (!vout->p->displayed.next) {
if (ThreadDisplayPreparePicture(vout, false))
break;
}
}
vout_statistic_Update(&vout->p->statistic, displayed_count, lost_count);
if (displayed_count <= 0)
const mtime_t date = mdate();
const mtime_t render_delay = vout_chrono_GetHigh(&vout->p->render) + VOUT_MWAIT_TOLERANCE;
mtime_t date_next = VLC_TS_INVALID;
if (!vout->p->pause.is_on && vout->p->displayed.next)
date_next = vout->p->displayed.next->date - render_delay;
/* FIXME/XXX we must redisplay the last decoded picture (because
* of potential vout updated, or filters update or SPU update)
* For now a high update period is needed but it coulmd be removed
* if and only if:
* - vout module emits events from theselves.
* - *and* SPU is modified to emit an event or a deadline when needed.
*
* So it will be done latter.
*/
mtime_t date_refresh = VLC_TS_INVALID;
if (vout->p->displayed.date > VLC_TS_INVALID)
date_refresh = vout->p->displayed.date + VOUT_REDISPLAY_DELAY - render_delay;
bool drop = now;
if (date_next != VLC_TS_INVALID)
drop |= date_next + 0 <= date;
bool refresh = false;
if (date_refresh > VLC_TS_INVALID)
refresh = date_refresh <= date;
if (!first && !refresh && !drop) {
if (date_next != VLC_TS_INVALID && date_refresh != VLC_TS_INVALID)
*deadline = __MIN(date_next, date_refresh);
else if (date_next != VLC_TS_INVALID)
*deadline = date_next;
else if (date_refresh != VLC_TS_INVALID)
*deadline = date_refresh;
return VLC_EGENERIC;
return VLC_SUCCESS;
}
if (drop) {
picture_Release(vout->p->displayed.current);
vout->p->displayed.current = vout->p->displayed.next;
vout->p->displayed.next = NULL;
}
assert(vout->p->displayed.current);
bool is_forced = now || (!drop && refresh) || vout->p->displayed.current->b_force;
return ThreadDisplayRenderPicture(vout, is_forced);
}
static void ThreadManage(vout_thread_t *vout,
......@@ -788,7 +806,10 @@ static void ThreadManage(vout_thread_t *vout,
vlc_mutex_lock(&vout->p->picture_lock);
*deadline = VLC_TS_INVALID;
ThreadDisplayPicture(vout, false, deadline);
for (;;) {
if (ThreadDisplayPicture(vout, false, deadline))
break;
}
const int picture_qtype = vout->p->displayed.qtype;
const bool picture_interlaced = vout->p->displayed.is_interlaced;
......@@ -825,6 +846,22 @@ static void ThreadDisplayOsdTitle(vout_thread_t *vout, const char *string)
string);
}
static void ThreadFilterFlush(vout_thread_t *vout)
{
if (vout->p->displayed.current)
picture_Release( vout->p->displayed.current );
vout->p->displayed.current = NULL;
if (vout->p->displayed.next)
picture_Release( vout->p->displayed.next );
vout->p->displayed.next = NULL;
vlc_mutex_lock(&vout->p->filter.lock);
filter_chain_VideoFlush(vout->p->filter.chain_static);
filter_chain_VideoFlush(vout->p->filter.chain_interactive);
vlc_mutex_unlock(&vout->p->filter.lock);
}
typedef struct {
char *name;
config_chain_t *cfg;
......@@ -832,6 +869,8 @@ typedef struct {
static void ThreadChangeFilters(vout_thread_t *vout, const char *filters)
{
ThreadFilterFlush(vout);
vlc_array_t array_static;
vlc_array_t array_interactive;
......@@ -891,10 +930,6 @@ static void ThreadChangeFilters(vout_thread_t *vout, const char *filters)
}
vlc_mutex_unlock(&vout->p->filter.lock);
vout->p->filter.delay_index = 0;
for (int i = 0; i < VOUT_FILTER_DELAYS; i++)
vout->p->filter.delay[i] = 0;
}
static void ThreadChangeSubFilters(vout_thread_t *vout, const char *filters)
......@@ -906,14 +941,6 @@ static void ThreadChangeSubMargin(vout_thread_t *vout, int margin)
spu_ChangeMargin(vout->p->p_spu, margin);
}
static void ThreadFilterFlush(vout_thread_t *vout)
{
vlc_mutex_lock(&vout->p->filter.lock);
filter_chain_VideoFlush(vout->p->filter.chain_static);
filter_chain_VideoFlush(vout->p->filter.chain_interactive);
vlc_mutex_unlock(&vout->p->filter.lock);
}
static void ThreadChangePause(vout_thread_t *vout, bool is_paused, mtime_t date)
{
assert(!vout->p->pause.is_on || !is_paused);
......@@ -928,7 +955,6 @@ static void ThreadChangePause(vout_thread_t *vout, bool is_paused, mtime_t date)
picture_fifo_OffsetDate(vout->p->decoder_fifo, duration);
if (vout->p->displayed.decoded)
vout->p->displayed.decoded->date += duration;
spu_OffsetSubtitleDate(vout->p->p_spu, duration);
ThreadFilterFlush(vout);
......@@ -945,6 +971,8 @@ static void ThreadFlush(vout_thread_t *vout, bool below, mtime_t date)
vout->p->step.timestamp = VLC_TS_INVALID;
vout->p->step.last = VLC_TS_INVALID;
ThreadFilterFlush(vout); /* FIXME too much */
picture_t *last = vout->p->displayed.decoded;
if (last) {
if (( below && last->date <= date) ||
......@@ -956,7 +984,6 @@ static void ThreadFlush(vout_thread_t *vout, bool below, mtime_t date)
vout->p->displayed.timestamp = VLC_TS_INVALID;
}
}
ThreadFilterFlush(vout);
picture_fifo_Flush(vout->p->decoder_fifo, date, below);
}
......@@ -1087,10 +1114,6 @@ static int ThreadStart(vout_thread_t *vout, const vout_display_state_t *state)
filter_chain_New( vout, "video filter2", false,
VoutVideoFilterInteractiveAllocationSetup, NULL, vout);
vout->p->filter.delay_index = 0;
for (int i = 0; i < VOUT_FILTER_DELAYS; i++)
vout->p->filter.delay[i] = 0;
vout_display_state_t state_default;
if (!state) {
VoutGetDisplayCfg(vout, &state_default.cfg, vout->p->display.title);
......@@ -1108,9 +1131,10 @@ static int ThreadStart(vout_thread_t *vout, const vout_display_state_t *state)
return VLC_EGENERIC;
assert(vout->p->decoder_pool);
vout->p->displayed.current = NULL;
vout->p->displayed.next = NULL;
vout->p->displayed.decoded = NULL;
vout->p->displayed.date = VLC_TS_INVALID;
vout->p->displayed.decoded = NULL;
vout->p->displayed.timestamp = VLC_TS_INVALID;
vout->p->displayed.qtype = QTYPE_NONE;
vout->p->displayed.is_interlaced = false;
......
......@@ -48,12 +48,6 @@
*/
#define VOUT_MAX_PICTURES (20)
/**
* Number of frames used to estimate the maximum filter chain latency.
* For performance, it is best to use a power of 2
*/
#define VOUT_FILTER_DELAYS (8)
/* */
struct vout_thread_sys_t
{
......@@ -107,6 +101,8 @@ struct vout_thread_sys_t
int qtype;
bool is_interlaced;
picture_t *decoded;
picture_t *current;
picture_t *next;
} displayed;
struct {
......@@ -134,8 +130,6 @@ struct vout_thread_sys_t
vlc_mutex_t lock;
filter_chain_t *chain_static;
filter_chain_t *chain_interactive;
unsigned delay_index;
mtime_t delay[VOUT_FILTER_DELAYS];
} filter;
/* */
......
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