#include "filter.h"
#include "delay_line.h"
#include "ffmpeg_compatibility.h"
+#include "subtitle.h"
using namespace std;
using namespace boost;
, _delay_in_bytes (0)
, _audio_frames_processed (0)
{
- if (_opt->decode_video_frequency != 0 && _fs->length == 0) {
+ if (_opt->decode_video_frequency != 0 && _fs->length() == 0) {
throw DecodeError ("cannot do a partial decode if length == 0");
}
}
void
Decoder::process_begin ()
{
- _delay_in_bytes = _fs->audio_delay * _fs->audio_sample_rate * _fs->audio_channels * _fs->bytes_per_sample() / 1000;
+ _delay_in_bytes = _fs->audio_delay() * _fs->audio_sample_rate() * _fs->audio_channels() * _fs->bytes_per_sample() / 1000;
delete _delay_line;
_delay_line = new DelayLine (_delay_in_bytes);
if (_delay_in_bytes < 0) {
uint8_t remainder[-_delay_in_bytes];
_delay_line->get_remaining (remainder);
- _audio_frames_processed += _delay_in_bytes / (_fs->audio_channels * _fs->bytes_per_sample());
- Audio (remainder, _delay_in_bytes);
+ _audio_frames_processed += _delay_in_bytes / (_fs->audio_channels() * _fs->bytes_per_sample());
+ emit_audio (remainder, _delay_in_bytes);
}
/* If we cut the decode off, the audio may be short; push some silence
*/
int64_t const audio_short_by_frames =
- ((int64_t) _fs->dcp_length() * _fs->target_sample_rate() / _fs->frames_per_second)
+ ((int64_t) _fs->dcp_length() * _fs->target_sample_rate() / _fs->frames_per_second())
- _audio_frames_processed;
if (audio_short_by_frames >= 0) {
s << "Adding " << audio_short_by_frames << " frames of silence to the end.";
_log->log (s.str ());
- int64_t bytes = audio_short_by_frames * _fs->audio_channels * _fs->bytes_per_sample();
+ int64_t bytes = audio_short_by_frames * _fs->audio_channels() * _fs->bytes_per_sample();
int64_t const silence_size = 64 * 1024;
uint8_t silence[silence_size];
while (bytes) {
int64_t const t = min (bytes, silence_size);
- Audio (silence, t);
+ emit_audio (silence, t);
bytes -= t;
}
}
}
/** Called by subclasses to tell the world that some audio data is ready
- * @param data Interleaved audio data, in FilmState::audio_sample_format.
+ * @param data Audio data, in FilmState::audio_sample_format.
* @param size Number of bytes of data.
*/
void
Decoder::process_audio (uint8_t* data, int size)
{
- /* Samples per channel */
- int const samples = size / _fs->bytes_per_sample();
+ /* Push into the delay line */
+ size = _delay_line->feed (data, size);
- /* Maybe apply gain */
- if (_fs->audio_gain != 0) {
- float const linear_gain = pow (10, _fs->audio_gain / 20);
- uint8_t* p = data;
- switch (_fs->audio_sample_format) {
- case AV_SAMPLE_FMT_S16:
- for (int i = 0; i < samples; ++i) {
- /* XXX: assumes little-endian; also we should probably be dithering here */
+ emit_audio (data, size);
+}
- /* unsigned sample */
- int const ou = p[0] | (p[1] << 8);
+void
+Decoder::emit_audio (uint8_t* data, int size)
+{
+ /* Deinterleave and convert to float */
- /* signed sample */
- int const os = ou >= 0x8000 ? (- 0x10000 + ou) : ou;
+ float* samples[_fs->audio_channels()];
+ int const total_samples = size / _fs->bytes_per_sample();
+ int const frames = total_samples / _fs->audio_channels();
+ for (int i = 0; i < _fs->audio_channels(); ++i) {
+ samples[i] = new float[frames];
+ }
- /* signed sample with altered gain */
- int const gs = int (os * linear_gain);
+ switch (_fs->audio_sample_format()) {
+ case AV_SAMPLE_FMT_S16:
+ {
+ uint8_t* p = data;
+ int sample = 0;
+ int channel = 0;
+ for (int i = 0; i < total_samples; ++i) {
+ /* unsigned sample */
+ int const ou = p[0] | (p[1] << 8);
+ /* signed sample */
+ int const os = ou >= 0x8000 ? (- 0x10000 + ou) : ou;
+ /* float sample */
+ samples[channel][sample] = float(os) / 0x8000;
+
+ cout << samples[channel][sample] << " from s16\n";
+
+ ++channel;
+ if (channel == _fs->audio_channels()) {
+ channel = 0;
+ ++sample;
+ }
+
+ p += 2;
+ }
+ }
+ break;
+
+ case AV_SAMPLE_FMT_FLTP:
+ {
+ float* p = reinterpret_cast<float*> (data);
+ for (int i = 0; i < _fs->audio_channels(); ++i) {
+ for (int j = 0; j < frames; ++j) {
+ samples[i][j] = *p++;
+ cout << samples[i][j] << " from float.\n";
+ ++p;
+ }
+ }
+ }
+ break;
- /* unsigned sample with altered gain */
- int const gu = gs > 0 ? gs : (0x10000 + gs);
+ default:
+ assert (false);
+ }
- /* write it back */
- p[0] = gu & 0xff;
- p[1] = (gu & 0xff00) >> 8;
- p += 2;
+ /* Maybe apply gain */
+ if (_fs->audio_gain() != 0) {
+ float const linear_gain = pow (10, _fs->audio_gain() / 20);
+ for (int i = 0; i < _fs->audio_channels(); ++i) {
+ for (int j = 0; j < frames; ++j) {
+ samples[i][j] *= linear_gain;
}
- break;
- default:
- assert (false);
}
}
/* Update the number of audio frames we've pushed to the encoder */
- _audio_frames_processed += size / (_fs->audio_channels * _fs->bytes_per_sample ());
+ _audio_frames_processed += frames;
+
+ Audio (samples, frames);
- /* Push into the delay line and then tell the world what we've got */
- int available = _delay_line->feed (data, size);
- Audio (data, available);
+ for (int i = 0; i < _fs->audio_channels(); ++i) {
+ delete[] samples[i];
+ }
}
/** Called by subclasses to tell the world that some video data is ready.
* @param frame to decode; caller manages memory.
*/
void
-Decoder::process_video (AVFrame* frame, shared_ptr<Subtitle> sub)
+Decoder::process_video (AVFrame* frame)
{
if (_minimal) {
++_video_frame;
int gap = 0;
if (_opt->decode_video_frequency != 0) {
- gap = _fs->length / _opt->decode_video_frequency;
+ gap = _fs->length() / _opt->decode_video_frequency;
}
if (_opt->decode_video_frequency != 0 && gap != 0 && (_video_frame % gap) != 0) {
image->make_black ();
}
+ shared_ptr<Subtitle> sub;
+ if (_timed_subtitle && _timed_subtitle->displayed_at (double (last_video_frame()) / rint (_fs->frames_per_second()))) {
+ sub = _timed_subtitle->subtitle ();
+ }
+
TIMING ("Decoder emits %1", _video_frame);
Video (image, _video_frame, sub);
++_video_frame;
if (_opt->apply_crop) {
size_after_crop = _fs->cropped_size (native_size ());
- fs << crop_string (Position (_fs->crop.left, _fs->crop.top), size_after_crop);
+ fs << crop_string (Position (_fs->crop().left, _fs->crop().top), size_after_crop);
} else {
size_after_crop = native_size ();
fs << crop_string (Position (0, 0), size_after_crop);
}
- string filters = Filter::ffmpeg_strings (_fs->filters).first;
+ string filters = Filter::ffmpeg_strings (_fs->filters()).first;
if (!filters.empty ()) {
filters += ",";
}
/* XXX: leaking `inputs' / `outputs' ? */
}
+void
+Decoder::process_subtitle (shared_ptr<TimedSubtitle> s)
+{
+ _timed_subtitle = s;
+
+ if (_opt->apply_crop) {
+ Position const p = _timed_subtitle->subtitle()->position ();
+ _timed_subtitle->subtitle()->set_position (Position (p.x - _fs->crop().left, p.y - _fs->crop().top));
+ }
+}