*/
+/** @file src/sound_asset.cc
+ * @brief An asset made up of WAV files
+ */
+
#include <iostream>
#include <stdexcept>
#include <boost/filesystem.hpp>
+#include <boost/lexical_cast.hpp>
+#include "KM_fileio.h"
#include "AS_DCP.h"
#include "sound_asset.h"
#include "util.h"
+#include "exceptions.h"
using namespace std;
using namespace boost;
using namespace libdcp;
-/** Construct a SoundAsset, generating the MXF from the WAV files.
- * This may take some time; progress is indicated by emission of the Progress signal.
- * @param files Pathnames of sound files, in the order Left, Right, Centre, Lfe (sub), Left surround, Right surround.
- * @param p Pathname of MXF file to create.
- * @param fps Frames per second.
- * @param len Length in frames.
- */
+SoundAsset::SoundAsset (
+ vector<string> const & files, string directory, string mxf_name, sigc::signal1<void, float>* progress, int fps, int length
+ )
+ : Asset (directory, mxf_name, progress, fps, length)
+ , _channels (files.size ())
+{
+ construct (sigc::bind (sigc::mem_fun (*this, &SoundAsset::path_from_channel), files));
+}
+
+SoundAsset::SoundAsset (
+ sigc::slot<string, Channel> get_path, string directory, string mxf_name, sigc::signal1<void, float>* progress, int fps, int length, int channels
+ )
+ : Asset (directory, mxf_name, progress, fps, length)
+ , _channels (channels)
+{
+ construct (get_path);
+}
+
+SoundAsset::SoundAsset (string directory, string mxf_name, int fps, int length)
+ : Asset (directory, mxf_name, 0, fps, length)
+ , _channels (0)
+{
+
+}
-SoundAsset::SoundAsset (list<string> const & files, string p, sigc::signal1<void, float>* progress, int fps, int len)
- : Asset (p, progress, fps, len)
+string
+SoundAsset::path_from_channel (Channel channel, vector<string> const & files)
+{
+ unsigned int const c = int (channel);
+ assert (c < files.size ());
+ return files[c];
+}
+
+void
+SoundAsset::construct (sigc::slot<string, Channel> get_path)
{
ASDCP::Rational asdcp_fps (_fps, 1);
- ASDCP::PCM::WAVParser pcm_parser_channel[files.size()];
- if (pcm_parser_channel[0].OpenRead (files.front().c_str(), asdcp_fps)) {
- throw runtime_error ("could not open WAV file for reading");
+ ASDCP::PCM::WAVParser pcm_parser_channel[_channels];
+ if (pcm_parser_channel[0].OpenRead (get_path(LEFT).c_str(), asdcp_fps)) {
+ throw FileError ("could not open WAV file for reading", get_path(LEFT));
}
ASDCP::PCM::AudioDescriptor audio_desc;
audio_desc.ChannelCount = 0;
audio_desc.BlockAlign = 0;
audio_desc.EditRate = asdcp_fps;
- audio_desc.AvgBps = audio_desc.AvgBps * files.size ();
+ audio_desc.AvgBps = audio_desc.AvgBps * _channels;
- ASDCP::PCM::FrameBuffer frame_buffer_channel[files.size()];
- ASDCP::PCM::AudioDescriptor audio_desc_channel[files.size()];
-
- int j = 0;
- for (list<string>::const_iterator i = files.begin(); i != files.end(); ++i) {
+ Channel channels[] = {
+ LEFT,
+ RIGHT,
+ CENTRE,
+ LFE,
+ LS,
+ RS
+ };
+
+ ASDCP::PCM::FrameBuffer frame_buffer_channel[_channels];
+ ASDCP::PCM::AudioDescriptor audio_desc_channel[_channels];
+
+ for (int i = 0; i < _channels; ++i) {
+
+ string const path = get_path (channels[i]);
- if (ASDCP_FAILURE (pcm_parser_channel[j].OpenRead (i->c_str(), asdcp_fps))) {
- throw runtime_error ("could not open WAV file for reading");
+ if (ASDCP_FAILURE (pcm_parser_channel[i].OpenRead (path.c_str(), asdcp_fps))) {
+ throw FileError ("could not open WAV file for reading", path);
}
- pcm_parser_channel[j].FillAudioDescriptor (audio_desc_channel[j]);
- frame_buffer_channel[j].Capacity (ASDCP::PCM::CalcFrameBufferSize (audio_desc_channel[j]));
+ pcm_parser_channel[i].FillAudioDescriptor (audio_desc_channel[i]);
+ frame_buffer_channel[i].Capacity (ASDCP::PCM::CalcFrameBufferSize (audio_desc_channel[i]));
- audio_desc.ChannelCount += audio_desc_channel[j].ChannelCount;
- audio_desc.BlockAlign += audio_desc_channel[j].BlockAlign;
- ++j;
+ audio_desc.ChannelCount += audio_desc_channel[i].ChannelCount;
+ audio_desc.BlockAlign += audio_desc_channel[i].BlockAlign;
}
ASDCP::PCM::FrameBuffer frame_buffer;
fill_writer_info (&writer_info);
ASDCP::PCM::MXFWriter mxf_writer;
- if (ASDCP_FAILURE (mxf_writer.OpenWrite (_mxf_path.c_str(), writer_info, audio_desc))) {
- throw runtime_error ("could not open audio MXF for writing");
+ if (ASDCP_FAILURE (mxf_writer.OpenWrite (mxf_path().string().c_str(), writer_info, audio_desc))) {
+ throw FileError ("could not open audio MXF for writing", mxf_path().string());
}
for (int i = 0; i < _length; ++i) {
byte_t sample_size = ASDCP::PCM::CalcSampleSize (audio_desc_channel[0]);
int offset = 0;
- for (list<string>::size_type j = 0; j < files.size(); ++j) {
+ for (int j = 0; j < _channels; ++j) {
memset (frame_buffer_channel[j].Data(), 0, frame_buffer_channel[j].Capacity());
if (ASDCP_FAILURE (pcm_parser_channel[j].ReadFrame (frame_buffer_channel[j]))) {
- throw runtime_error ("could not read audio frame");
+ throw MiscError ("could not read audio frame");
}
if (frame_buffer_channel[j].Size() != frame_buffer_channel[j].Capacity()) {
- throw runtime_error ("short audio frame");
+ throw MiscError ("short audio frame");
}
}
while (data_s < data_e) {
- for (list<string>::size_type j = 0; j < files.size(); ++j) {
+ for (int j = 0; j < _channels; ++j) {
byte_t* frame = frame_buffer_channel[j].Data() + offset;
memcpy (data_s, frame, sample_size);
data_s += sample_size;
}
if (ASDCP_FAILURE (mxf_writer.WriteFrame (frame_buffer, 0, 0))) {
- throw runtime_error ("could not write audio MXF frame");
+ throw MiscError ("could not write audio MXF frame");
}
(*_progress) (0.5 * float (i) / _length);
}
if (ASDCP_FAILURE (mxf_writer.Finalize())) {
- throw runtime_error ("could not finalise audio MXF");
+ throw MiscError ("could not finalise audio MXF");
}
-
- _digest = make_digest (_mxf_path, _progress);
}
-/** Write details of this asset to a CPL stream.
- * @param s Stream.
- */
-
void
SoundAsset::write_to_cpl (ostream& s) const
{
s << " <MainSound>\n"
<< " <Id>urn:uuid:" << _uuid << "</Id>\n"
- << " <AnnotationText>" << filesystem::path(_mxf_path).filename() << "</AnnotationText>\n"
+ << " <AnnotationText>" << _mxf_name << "</AnnotationText>\n"
<< " <EditRate>" << _fps << " 1</EditRate>\n"
<< " <IntrinsicDuration>" << _length << "</IntrinsicDuration>\n"
<< " <EntryPoint>0</EntryPoint>\n"
<< " </MainSound>\n";
}
+list<string>
+SoundAsset::equals (shared_ptr<const Asset> other, EqualityFlags flags) const
+{
+ list<string> notes = Asset::equals (other, flags);
+
+ if (flags & MXF_INSPECT) {
+ ASDCP::PCM::MXFReader reader_A;
+ if (ASDCP_FAILURE (reader_A.OpenRead (mxf_path().string().c_str()))) {
+ cout << "failed " << mxf_path() << "\n";
+ throw FileError ("could not open MXF file for reading", mxf_path().string());
+ }
+
+ ASDCP::PCM::MXFReader reader_B;
+ if (ASDCP_FAILURE (reader_B.OpenRead (other->mxf_path().string().c_str()))) {
+ cout << "failed " << other->mxf_path() << "\n";
+ throw FileError ("could not open MXF file for reading", mxf_path().string());
+ }
+
+ ASDCP::PCM::AudioDescriptor desc_A;
+ if (ASDCP_FAILURE (reader_A.FillAudioDescriptor (desc_A))) {
+ throw DCPReadError ("could not read audio MXF information");
+ }
+ ASDCP::PCM::AudioDescriptor desc_B;
+ if (ASDCP_FAILURE (reader_B.FillAudioDescriptor (desc_B))) {
+ throw DCPReadError ("could not read audio MXF information");
+ }
+
+ if (
+ desc_A.EditRate != desc_B.EditRate ||
+ desc_A.AudioSamplingRate != desc_B.AudioSamplingRate ||
+ desc_A.Locked != desc_B.Locked ||
+ desc_A.ChannelCount != desc_B.ChannelCount ||
+ desc_A.QuantizationBits != desc_B.QuantizationBits ||
+ desc_A.BlockAlign != desc_B.BlockAlign ||
+ desc_A.AvgBps != desc_B.AvgBps ||
+ desc_A.LinkedTrackID != desc_B.LinkedTrackID ||
+ desc_A.ContainerDuration != desc_B.ContainerDuration
+// desc_A.ChannelFormat != desc_B.ChannelFormat ||
+ ) {
+
+ notes.push_back ("audio MXF picture descriptors differ");
+ }
+
+ ASDCP::PCM::FrameBuffer buffer_A (1 * Kumu::Megabyte);
+ ASDCP::PCM::FrameBuffer buffer_B (1 * Kumu::Megabyte);
+
+ for (int i = 0; i < _length; ++i) {
+ if (ASDCP_FAILURE (reader_A.ReadFrame (0, buffer_A))) {
+ throw DCPReadError ("could not read audio frame");
+ }
+
+ if (ASDCP_FAILURE (reader_B.ReadFrame (0, buffer_B))) {
+ throw DCPReadError ("could not read audio frame");
+ }
+
+ if (buffer_A.Size() != buffer_B.Size()) {
+ notes.push_back ("sizes of video data for frame " + lexical_cast<string>(i) + " differ");
+ continue;
+ }
+
+ if (memcmp (buffer_A.RoData(), buffer_B.RoData(), buffer_A.Size()) != 0) {
+ notes.push_back ("PCM data for frame " + lexical_cast<string>(i) + " differ");
+ continue;
+ }
+ }
+ }
+
+ return notes;
+}