#include "audio_analysis.h"
#include "audio_buffers.h"
#include "analyse_audio_job.h"
+#include "audio_content.h"
#include "compose.hpp"
#include "film.h"
#include "player.h"
+#include "playlist.h"
#include <boost/foreach.hpp>
+#include <iostream>
#include "i18n.h"
int const AnalyseAudioJob::_num_points = 1024;
-AnalyseAudioJob::AnalyseAudioJob (shared_ptr<const Film> f, shared_ptr<const Playlist> p)
- : Job (f)
- , _playlist (p)
+AnalyseAudioJob::AnalyseAudioJob (shared_ptr<const Film> film, shared_ptr<const Playlist> playlist)
+ : Job (film)
+ , _playlist (playlist)
, _done (0)
, _samples_per_point (1)
+ , _current (0)
, _overall_peak (0)
, _overall_peak_frame (0)
{
}
+AnalyseAudioJob::~AnalyseAudioJob ()
+{
+ delete[] _current;
+}
+
string
AnalyseAudioJob::name () const
{
void
AnalyseAudioJob::run ()
{
- shared_ptr<Player> player (new Player (_film));
+ shared_ptr<Player> player (new Player (_film, _playlist));
player->set_ignore_video ();
-
- int64_t const len = _film->length().frames (_film->audio_frame_rate());
+ player->set_fast ();
+ player->set_play_referenced ();
+
+ DCPTime const start = _playlist->start().get_value_or (DCPTime ());
+ DCPTime const length = _playlist->length ();
+
+ Frame const len = DCPTime (length - start).frames_round (_film->audio_frame_rate());
_samples_per_point = max (int64_t (1), len / _num_points);
- _current.resize (_film->audio_channels ());
+ delete[] _current;
+ _current = new AudioPoint[_film->audio_channels ()];
_analysis.reset (new AudioAnalysis (_film->audio_channels ()));
bool has_any_audio = false;
- BOOST_FOREACH (shared_ptr<Content> c, _film->content ()) {
+ BOOST_FOREACH (shared_ptr<Content> c, _playlist->content ()) {
if (dynamic_pointer_cast<AudioContent> (c)) {
has_any_audio = true;
}
if (has_any_audio) {
_done = 0;
DCPTime const block = DCPTime::from_seconds (1.0 / 8);
- for (DCPTime t; t < _film->length(); t += block) {
+ for (DCPTime t = start; t < length; t += block) {
analyse (player->get_audio (t, block, false));
- set_progress (t.seconds() / _film->length().seconds());
+ set_progress ((t.seconds() - start.seconds()) / (length.seconds() - start.seconds()));
}
}
_analysis->set_peak (_overall_peak, DCPTime::from_frames (_overall_peak_frame, _film->audio_frame_rate ()));
- _analysis->write (_film->audio_analysis_path ());
-
+
+ if (_playlist->content().size() == 1) {
+ /* If there was only one piece of content in this analysis we may later need to know what its
+ gain was when we analysed it.
+ */
+ shared_ptr<const AudioContent> ac = dynamic_pointer_cast<const AudioContent> (_playlist->content().front ());
+ DCPOMATIC_ASSERT (ac);
+ _analysis->set_analysis_gain (ac->audio_gain ());
+ }
+
+ _analysis->write (_film->audio_analysis_path (_playlist));
+
set_progress (1);
set_state (FINISHED_OK);
}
void
AnalyseAudioJob::analyse (shared_ptr<const AudioBuffers> b)
{
- for (int i = 0; i < b->frames(); ++i) {
- for (int j = 0; j < b->channels(); ++j) {
- float s = b->data(j)[i];
- if (fabsf (s) < 10e-7) {
+ int const frames = b->frames ();
+ int const channels = b->channels ();
+
+ for (int j = 0; j < channels; ++j) {
+ float* data = b->data(j);
+ for (int i = 0; i < frames; ++i) {
+ float s = data[i];
+ float as = fabsf (s);
+ if (as < 10e-7) {
/* SafeStringStream can't serialise and recover inf or -inf, so prevent such
values by replacing with this (140dB down) */
- s = 10e-7;
+ s = as = 10e-7;
}
_current[j][AudioPoint::RMS] += pow (s, 2);
- _current[j][AudioPoint::PEAK] = max (_current[j][AudioPoint::PEAK], fabsf (s));
-
- float const as = fabs (s);
-
_current[j][AudioPoint::PEAK] = max (_current[j][AudioPoint::PEAK], as);
if (as > _overall_peak) {
_overall_peak_frame = _done + i;
}
- if ((_done % _samples_per_point) == 0) {
+ if (((_done + i) % _samples_per_point) == 0) {
_current[j][AudioPoint::RMS] = sqrt (_current[j][AudioPoint::RMS] / _samples_per_point);
_analysis->add_point (j, _current[j]);
-
_current[j] = AudioPoint ();
}
}
-
- ++_done;
}
-}
+ _done += frames;
+}