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mpv/sub/dec_sub.c
wm4 c54174b40e sub: prefer ffmpeg microdvd converter over internal one
We certainly don't want to maintain and improve the internal converter,
but we still need the internal one for Libav. (In the Libav case,
demux_subreader.c will be used to read the MicroDVD file.)
2014-06-15 21:10:38 +02:00

627 lines
18 KiB
C

/*
* This file is part of MPlayer.
*
* MPlayer is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* MPlayer 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 General Public License for more details.
*
* You should have received a copy of the GNU General Public License along
* with MPlayer; if not, write to the Free Software Foundation, Inc.,
* 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA.
*/
#include <stdlib.h>
#include <stdbool.h>
#include <string.h>
#include <math.h>
#include <assert.h>
#include <pthread.h>
#include "config.h"
#include "demux/demux.h"
#include "sd.h"
#include "dec_sub.h"
#include "options/options.h"
#include "common/global.h"
#include "common/msg.h"
#include "misc/charset_conv.h"
#include "osdep/threads.h"
extern const struct sd_functions sd_ass;
extern const struct sd_functions sd_lavc;
extern const struct sd_functions sd_movtext;
extern const struct sd_functions sd_srt;
extern const struct sd_functions sd_microdvd;
extern const struct sd_functions sd_lavf_srt;
extern const struct sd_functions sd_lavc_conv;
static const struct sd_functions *const sd_list[] = {
#if HAVE_LIBASS
&sd_ass,
#endif
&sd_lavc,
&sd_movtext,
&sd_srt,
&sd_lavf_srt,
&sd_lavc_conv,
&sd_microdvd,
NULL
};
#define MAX_NUM_SD 3
struct dec_sub {
pthread_mutex_t lock;
struct mp_log *log;
struct MPOpts *opts;
struct sd init_sd;
double video_fps;
const char *charset;
struct sd *sd[MAX_NUM_SD];
int num_sd;
};
struct packet_list {
struct demux_packet **packets;
int num_packets;
};
void sub_lock(struct dec_sub *sub)
{
pthread_mutex_lock(&sub->lock);
}
void sub_unlock(struct dec_sub *sub)
{
pthread_mutex_unlock(&sub->lock);
}
// Thread-safety of the returned object: all functions are thread-safe,
// except sub_get_bitmaps() and sub_get_text(). Decoder backends (sd_*)
// do not need to acquire locks.
struct dec_sub *sub_create(struct mpv_global *global)
{
struct dec_sub *sub = talloc_zero(NULL, struct dec_sub);
sub->log = mp_log_new(sub, global->log, "sub");
sub->opts = global->opts;
mpthread_mutex_init_recursive(&sub->lock);
return sub;
}
static void sub_uninit(struct dec_sub *sub)
{
sub_reset(sub);
for (int n = 0; n < sub->num_sd; n++) {
if (sub->sd[n]->driver->uninit)
sub->sd[n]->driver->uninit(sub->sd[n]);
talloc_free(sub->sd[n]);
}
sub->num_sd = 0;
}
void sub_destroy(struct dec_sub *sub)
{
if (!sub)
return;
sub_uninit(sub);
pthread_mutex_destroy(&sub->lock);
talloc_free(sub);
}
bool sub_is_initialized(struct dec_sub *sub)
{
pthread_mutex_lock(&sub->lock);
bool r = !!sub->num_sd;
pthread_mutex_unlock(&sub->lock);
return r;
}
static struct sd *sub_get_last_sd(struct dec_sub *sub)
{
return sub->num_sd ? sub->sd[sub->num_sd - 1] : NULL;
}
void sub_set_video_res(struct dec_sub *sub, int w, int h)
{
pthread_mutex_lock(&sub->lock);
sub->init_sd.sub_video_w = w;
sub->init_sd.sub_video_h = h;
pthread_mutex_unlock(&sub->lock);
}
void sub_set_video_fps(struct dec_sub *sub, double fps)
{
pthread_mutex_lock(&sub->lock);
sub->video_fps = fps;
pthread_mutex_unlock(&sub->lock);
}
void sub_set_extradata(struct dec_sub *sub, void *data, int data_len)
{
pthread_mutex_lock(&sub->lock);
sub->init_sd.extradata = data_len ? talloc_memdup(sub, data, data_len) : NULL;
sub->init_sd.extradata_len = data_len;
pthread_mutex_unlock(&sub->lock);
}
void sub_set_ass_renderer(struct dec_sub *sub, struct ass_library *ass_library,
struct ass_renderer *ass_renderer)
{
pthread_mutex_lock(&sub->lock);
sub->init_sd.ass_library = ass_library;
sub->init_sd.ass_renderer = ass_renderer;
pthread_mutex_unlock(&sub->lock);
}
static void print_chain(struct dec_sub *sub)
{
MP_VERBOSE(sub, "Subtitle filter chain: ");
for (int n = 0; n < sub->num_sd; n++) {
struct sd *sd = sub->sd[n];
MP_VERBOSE(sub, "%s%s (%s)", n > 0 ? " -> " : "",
sd->driver->name, sd->codec);
}
MP_VERBOSE(sub, "\n");
}
static int sub_init_decoder(struct dec_sub *sub, struct sd *sd)
{
sd->driver = NULL;
for (int n = 0; sd_list[n]; n++) {
if (sd_list[n]->supports_format(sd->codec)) {
sd->driver = sd_list[n];
break;
}
}
if (!sd->driver)
return -1;
sd->log = mp_log_new(sd, sub->log, sd->driver->name);
if (sd->driver->init(sd) < 0)
return -1;
return 0;
}
void sub_init_from_sh(struct dec_sub *sub, struct sh_stream *sh)
{
assert(!sub->num_sd);
assert(sh && sh->sub);
pthread_mutex_lock(&sub->lock);
if (sh->sub->extradata && !sub->init_sd.extradata)
sub_set_extradata(sub, sh->sub->extradata, sh->sub->extradata_len);
struct sd init_sd = sub->init_sd;
init_sd.codec = sh->codec;
init_sd.sub_stream_w = sh->sub->w;
init_sd.sub_stream_h = sh->sub->h;
while (sub->num_sd < MAX_NUM_SD) {
struct sd *sd = talloc(NULL, struct sd);
*sd = init_sd;
sd->opts = sub->opts;
if (sub_init_decoder(sub, sd) < 0) {
talloc_free(sd);
break;
}
sub->sd[sub->num_sd] = sd;
sub->num_sd++;
// Try adding new converters until a decoder is reached
if (sd->driver->get_bitmaps || sd->driver->get_text) {
print_chain(sub);
pthread_mutex_unlock(&sub->lock);
return;
}
init_sd = (struct sd) {
.codec = sd->output_codec,
.converted_from = sd->codec,
.extradata = sd->output_extradata,
.extradata_len = sd->output_extradata_len,
.ass_library = sub->init_sd.ass_library,
.ass_renderer = sub->init_sd.ass_renderer,
};
}
sub_uninit(sub);
MP_ERR(sub, "Could not find subtitle decoder for format '%s'.\n",
sh->codec ? sh->codec : "<unknown>");
pthread_mutex_unlock(&sub->lock);
}
static struct demux_packet *get_decoded_packet(struct sd *sd)
{
return sd->driver->get_converted ? sd->driver->get_converted(sd) : NULL;
}
static void decode_chain(struct sd **sd, int num_sd, struct demux_packet *packet)
{
if (num_sd == 0)
return;
struct sd *dec = sd[0];
dec->driver->decode(dec, packet);
if (num_sd > 1) {
while (1) {
struct demux_packet *next = get_decoded_packet(dec);
if (!next)
break;
decode_chain(sd + 1, num_sd - 1, next);
}
}
}
static struct demux_packet *recode_packet(struct mp_log *log,
struct demux_packet *in,
const char *charset)
{
struct demux_packet *pkt = NULL;
bstr in_buf = {in->buffer, in->len};
bstr conv = mp_iconv_to_utf8(log, in_buf, charset, MP_ICONV_VERBOSE);
if (conv.start && conv.start != in_buf.start) {
pkt = talloc_ptrtype(NULL, pkt);
talloc_steal(pkt, conv.start);
*pkt = (struct demux_packet) {
.buffer = conv.start,
.len = conv.len,
.pts = in->pts,
.duration = in->duration,
.avpacket = in->avpacket, // questionable, but gives us sidedata
};
}
return pkt;
}
static void decode_chain_recode(struct dec_sub *sub, struct sd **sd, int num_sd,
struct demux_packet *packet)
{
if (num_sd > 0) {
struct demux_packet *recoded = NULL;
if (sub->charset)
recoded = recode_packet(sub->log, packet, sub->charset);
decode_chain(sd, num_sd, recoded ? recoded : packet);
talloc_free(recoded);
}
}
void sub_decode(struct dec_sub *sub, struct demux_packet *packet)
{
pthread_mutex_lock(&sub->lock);
decode_chain_recode(sub, sub->sd, sub->num_sd, packet);
pthread_mutex_unlock(&sub->lock);
}
static const char *guess_sub_cp(struct mp_log *log, struct packet_list *subs,
const char *usercp)
{
if (!mp_charset_requires_guess(usercp))
return usercp;
// Concat all subs into a buffer. We can't probably do much better without
// having the original data (which we don't, not anymore).
int max_size = 2 * 1024 * 1024;
const char *sep = "\n\n"; // In utf-16: U+0A0A GURMUKHI LETTER UU
int sep_len = strlen(sep);
int num_pkt = 0;
int size = 0;
for (int n = 0; n < subs->num_packets; n++) {
struct demux_packet *pkt = subs->packets[n];
if (size + pkt->len > max_size)
break;
size += pkt->len + sep_len;
num_pkt++;
}
bstr text = {talloc_size(NULL, size), 0};
for (int n = 0; n < num_pkt; n++) {
struct demux_packet *pkt = subs->packets[n];
memcpy(text.start + text.len, pkt->buffer, pkt->len);
memcpy(text.start + text.len + pkt->len, sep, sep_len);
text.len += pkt->len + sep_len;
}
const char *guess = mp_charset_guess(log, text, usercp, 0);
talloc_free(text.start);
return guess;
}
static void multiply_timings(struct packet_list *subs, double factor)
{
for (int n = 0; n < subs->num_packets; n++) {
struct demux_packet *pkt = subs->packets[n];
if (pkt->pts != MP_NOPTS_VALUE)
pkt->pts *= factor;
if (pkt->duration > 0)
pkt->duration *= factor;
}
}
#define MS_TS(f_ts) ((int)((f_ts) * 1000 + 0.5))
// Remove overlaps and fill gaps between adjacent subtitle packets. This is done
// by adjusting the duration of the earlier packet. If the gaps or overlap are
// larger than the threshold, or if the durations are close to the threshold,
// don't change the events.
// The algorithm is maximally naive and doesn't work if there are multiple
// overlapping lines. (It's not worth the trouble.)
static void fix_overlaps_and_gaps(struct packet_list *subs)
{
double threshold = 0.2; // up to 200 ms overlaps or gaps are removed
double keep = threshold * 2;// don't change timings if durations are smaller
for (int i = 0; i < subs->num_packets - 1; i++) {
struct demux_packet *cur = subs->packets[i];
struct demux_packet *next = subs->packets[i + 1];
if (cur->pts != MP_NOPTS_VALUE && cur->duration > 0 &&
next->pts != MP_NOPTS_VALUE && next->duration > 0)
{
double end = cur->pts + cur->duration;
if (fabs(next->pts - end) <= threshold && cur->duration >= keep &&
next->duration >= keep)
{
// Conceptually: cur->duration = next->pts - cur->pts;
// But make sure the rounding and conversion to integers in
// sd_ass.c can't produce overlaps.
cur->duration = (MS_TS(next->pts) - MS_TS(cur->pts)) / 1000.0;
}
}
}
}
static void add_sub_list(struct dec_sub *sub, int at, struct packet_list *subs)
{
struct sd *sd = sub_get_last_sd(sub);
assert(sd);
sd->no_remove_duplicates = true;
for (int n = 0; n < subs->num_packets; n++)
decode_chain_recode(sub, sub->sd + at, sub->num_sd - at, subs->packets[n]);
// Hack for broken FFmpeg packet format: make sd_ass keep the subtitle
// events on reset(), even if broken FFmpeg ASS packets were received
// (from sd_lavc_conv.c). Normally, these events are removed on seek/reset,
// but this is obviously unwanted in this case.
if (sd->driver->fix_events)
sd->driver->fix_events(sd);
sd->no_remove_duplicates = false;
}
static void add_packet(struct packet_list *subs, struct demux_packet *pkt)
{
pkt = demux_copy_packet(pkt);
talloc_steal(subs, pkt);
MP_TARRAY_APPEND(subs, subs->packets, subs->num_packets, pkt);
}
// Read all packets from the demuxer and decode/add them. Returns false if
// there are circumstances which makes this not possible.
bool sub_read_all_packets(struct dec_sub *sub, struct sh_stream *sh)
{
assert(sh && sh->sub);
struct MPOpts *opts = sub->opts;
pthread_mutex_lock(&sub->lock);
if (!sub_accept_packets_in_advance(sub) || sub->num_sd < 1) {
pthread_mutex_unlock(&sub->lock);
return false;
}
struct packet_list *subs = talloc_zero(NULL, struct packet_list);
// In some cases, we want to put the packets through a decoder first.
// Preprocess until sub->sd[preprocess].
int preprocess = 0;
// movtext is currently the only subtitle format that has text output,
// but binary input. Do charset conversion after converting to text.
if (sub->sd[0]->driver == &sd_movtext)
preprocess = 1;
// Broken Libav libavformat srt packet format (fix timestamps first).
if (sub->sd[0]->driver == &sd_lavf_srt)
preprocess = 1;
for (;;) {
struct demux_packet *pkt = demux_read_packet(sh);
if (!pkt)
break;
if (preprocess) {
decode_chain(sub->sd, preprocess, pkt);
talloc_free(pkt);
while (1) {
pkt = get_decoded_packet(sub->sd[preprocess - 1]);
if (!pkt)
break;
add_packet(subs, pkt);
}
} else {
add_packet(subs, pkt);
talloc_free(pkt);
}
}
if (opts->sub_cp && !sh->sub->is_utf8)
sub->charset = guess_sub_cp(sub->log, subs, opts->sub_cp);
if (sub->charset && sub->charset[0] && !mp_charset_is_utf8(sub->charset))
MP_INFO(sub, "Using subtitle charset: %s\n", sub->charset);
double sub_speed = 1.0;
if (sub->video_fps && sh->sub->frame_based > 0) {
MP_VERBOSE(sub, "Frame based format, dummy FPS: %f, video FPS: %f\n",
sh->sub->frame_based, sub->video_fps);
sub_speed *= sh->sub->frame_based / sub->video_fps;
}
if (opts->sub_fps && sub->video_fps)
sub_speed *= opts->sub_fps / sub->video_fps;
sub_speed *= opts->sub_speed;
if (sub_speed != 1.0)
multiply_timings(subs, sub_speed);
if (opts->sub_fix_timing)
fix_overlaps_and_gaps(subs);
if (sh->codec && strcmp(sh->codec, "microdvd") == 0) {
// The last subtitle event in MicroDVD subs can have duration unset,
// which means show the subtitle until end of video.
// See FFmpeg FATE MicroDVD_capability_tester.sub
if (subs->num_packets) {
struct demux_packet *last = subs->packets[subs->num_packets - 1];
if (last->duration <= 0)
last->duration = 10; // arbitrary
}
}
add_sub_list(sub, preprocess, subs);
pthread_mutex_unlock(&sub->lock);
talloc_free(subs);
return true;
}
bool sub_accept_packets_in_advance(struct dec_sub *sub)
{
pthread_mutex_lock(&sub->lock);
// Converters are assumed to always accept packets in advance
struct sd *sd = sub_get_last_sd(sub);
bool r = sd && sd->driver->accept_packets_in_advance;
pthread_mutex_unlock(&sub->lock);
return r;
}
// You must call sub_lock/sub_unlock if more than 1 thread access sub.
// The issue is that *res will contain decoder allocated data, which might
// be deallocated on the next decoder access.
void sub_get_bitmaps(struct dec_sub *sub, struct mp_osd_res dim, double pts,
struct sub_bitmaps *res)
{
struct MPOpts *opts = sub->opts;
struct sd *sd = sub_get_last_sd(sub);
*res = (struct sub_bitmaps) {0};
if (sd && opts->sub_visibility) {
if (sd->driver->get_bitmaps)
sd->driver->get_bitmaps(sd, dim, pts, res);
}
}
bool sub_has_get_text(struct dec_sub *sub)
{
pthread_mutex_lock(&sub->lock);
struct sd *sd = sub_get_last_sd(sub);
bool r = sd && sd->driver->get_text;
pthread_mutex_unlock(&sub->lock);
return r;
}
// See sub_get_bitmaps() for locking requirements.
char *sub_get_text(struct dec_sub *sub, double pts)
{
pthread_mutex_lock(&sub->lock);
struct MPOpts *opts = sub->opts;
struct sd *sd = sub_get_last_sd(sub);
char *text = NULL;
if (sd && opts->sub_visibility) {
if (sd->driver->get_text)
text = sd->driver->get_text(sd, pts);
}
pthread_mutex_unlock(&sub->lock);
return text;
}
void sub_reset(struct dec_sub *sub)
{
pthread_mutex_lock(&sub->lock);
for (int n = 0; n < sub->num_sd; n++) {
if (sub->sd[n]->driver->reset)
sub->sd[n]->driver->reset(sub->sd[n]);
}
pthread_mutex_unlock(&sub->lock);
}
int sub_control(struct dec_sub *sub, enum sd_ctrl cmd, void *arg)
{
int r = CONTROL_UNKNOWN;
pthread_mutex_lock(&sub->lock);
for (int n = 0; n < sub->num_sd; n++) {
if (sub->sd[n]->driver->control) {
r = sub->sd[n]->driver->control(sub->sd[n], cmd, arg);
if (r != CONTROL_UNKNOWN)
break;
}
}
pthread_mutex_unlock(&sub->lock);
return r;
}
#define MAX_PACKETS 10
#define MAX_BYTES 10000
struct sd_conv_buffer {
struct demux_packet pkt[MAX_PACKETS];
int num_pkt;
int read_pkt;
char buffer[MAX_BYTES];
int cur_buffer;
};
void sd_conv_add_packet(struct sd *sd, void *data, int data_len, double pts,
double duration)
{
if (!sd->sd_conv_buffer)
sd->sd_conv_buffer = talloc_zero(sd, struct sd_conv_buffer);
struct sd_conv_buffer *buf = sd->sd_conv_buffer;
if (buf->num_pkt >= MAX_PACKETS || buf->cur_buffer + data_len + 1 > MAX_BYTES)
goto out_of_space;
if (buf->read_pkt == buf->num_pkt)
sd_conv_def_reset(sd);
assert(buf->read_pkt == 0); // no mixing of reading/adding allowed
struct demux_packet *pkt = &buf->pkt[buf->num_pkt++];
*pkt = (struct demux_packet) {
.buffer = &buf->buffer[buf->cur_buffer],
.len = data_len,
.pts = pts,
.duration = duration,
};
memcpy(pkt->buffer, data, data_len);
pkt->buffer[data_len] = 0;
buf->cur_buffer += data_len + 1;
return;
out_of_space:
MP_ERR(sd, "Subtitle too big.\n");
}
struct demux_packet *sd_conv_def_get_converted(struct sd *sd)
{
struct sd_conv_buffer *buf = sd->sd_conv_buffer;
if (buf && buf->read_pkt < buf->num_pkt)
return &buf->pkt[buf->read_pkt++];
return NULL;
}
void sd_conv_def_reset(struct sd *sd)
{
struct sd_conv_buffer *buf = sd->sd_conv_buffer;
if (buf) {
buf->read_pkt = buf->num_pkt = 0;
buf->cur_buffer = 0;
}
}