/*
- Copyright (C) 2012-2020 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2012-2021 Carl Hetherington <cth@carlh.net>
This file is part of libdcp.
files in the program, then also delete it here.
*/
+
+/** @file src/sound_asset_writer.cc
+ * @brief SoundAssetWriter class
+ */
+
+
#include "bitstream.h"
#include "sound_asset_writer.h"
#include "sound_asset.h"
#include "crypto_context.h"
#include <asdcp/AS_DCP.h>
#include <asdcp/Metadata.h>
-#include <boost/foreach.hpp>
#include <iostream>
+
using std::min;
using std::max;
using std::cout;
ASDCP::PCM::AudioDescriptor desc;
};
-SoundAssetWriter::SoundAssetWriter (SoundAsset* asset, boost::filesystem::path file, vector<Channel> active_channels, bool sync)
+
+SoundAssetWriter::SoundAssetWriter (SoundAsset* asset, boost::filesystem::path file, bool sync)
: AssetWriter (asset, file)
, _state (new SoundAssetWriter::ASDCPState)
, _asset (asset)
- , _frame_buffer_offset (0)
, _sync (sync)
- , _sync_packet (0)
- , _active_channels (active_channels)
{
DCP_ASSERT (!_sync || _asset->channels() >= 14);
DCP_ASSERT (!_sync || _asset->standard() == Standard::SMPTE);
_state->desc.EditRate = ASDCP::Rational (_asset->edit_rate().numerator, _asset->edit_rate().denominator);
_state->desc.AudioSamplingRate = ASDCP::Rational (_asset->sampling_rate(), 1);
_state->desc.Locked = 0;
- _state->desc.ChannelCount = _asset->channels ();
+ _state->desc.ChannelCount = _asset->channels();
_state->desc.QuantizationBits = 24;
_state->desc.BlockAlign = 3 * _asset->channels();
_state->desc.AvgBps = _asset->sampling_rate() * _state->desc.BlockAlign;
if (asset->standard() == Standard::INTEROP) {
_state->desc.ChannelFormat = ASDCP::PCM::CF_NONE;
} else {
- /* Just use WTF ("wild track format") for SMPTE for now; searches suggest that this
- uses the same assignment as Interop.
- */
+ /* As required by Bv2.1 */
_state->desc.ChannelFormat = ASDCP::PCM::CF_CFG_4;
}
void
SoundAssetWriter::start ()
{
- Kumu::Result_t r = _state->mxf_writer.OpenWrite (_file.string().c_str(), _state->writer_info, _state->desc);
- if (ASDCP_FAILURE (r)) {
- boost::throw_exception (FileError ("could not open audio MXF for writing", _file.string(), r));
+ auto r = _state->mxf_writer.OpenWrite (_file.string().c_str(), _state->writer_info, _state->desc);
+ if (ASDCP_FAILURE(r)) {
+ boost::throw_exception (FileError("could not open audio MXF for writing", _file.string(), r));
}
- if (_asset->standard() == Standard::SMPTE && !_active_channels.empty()) {
+ if (_asset->standard() == Standard::SMPTE) {
- ASDCP::MXF::WaveAudioDescriptor* essence_descriptor = 0;
+ ASDCP::MXF::WaveAudioDescriptor* essence_descriptor = nullptr;
_state->mxf_writer.OP1aHeader().GetMDObjectByType(
asdcp_smpte_dict->ul(ASDCP::MDD_WaveAudioDescriptor), reinterpret_cast<ASDCP::MXF::InterchangeObject**>(&essence_descriptor)
);
DCP_ASSERT (essence_descriptor);
essence_descriptor->ChannelAssignment = asdcp_smpte_dict->ul(ASDCP::MDD_DCAudioChannelCfg_MCA);
- ASDCP::MXF::SoundfieldGroupLabelSubDescriptor* soundfield = new ASDCP::MXF::SoundfieldGroupLabelSubDescriptor(asdcp_smpte_dict);
+ auto soundfield = new ASDCP::MXF::SoundfieldGroupLabelSubDescriptor(asdcp_smpte_dict);
GenRandomValue (soundfield->MCALinkID);
soundfield->RFC5646SpokenLanguage = _asset->language();
_state->mxf_writer.OP1aHeader().AddChildObject(soundfield);
essence_descriptor->SubDescriptors.push_back(soundfield->InstanceUID);
- BOOST_FOREACH (Channel i, _active_channels) {
- ASDCP::MXF::AudioChannelLabelSubDescriptor* channel = new ASDCP::MXF::AudioChannelLabelSubDescriptor(asdcp_smpte_dict);
+ /* We must describe at least the number of channels in `field', even if they aren't
+ * in the asset (I think)
+ */
+ int descriptors = max(_asset->channels(), field == MCASoundField::FIVE_POINT_ONE ? 6 : 8);
+
+ auto const used = used_audio_channels();
+
+ for (auto i = 0; i < descriptors; ++i) {
+ auto dcp_channel = static_cast<dcp::Channel>(i);
+ if (find(used.begin(), used.end(), dcp_channel) == used.end()) {
+ continue;
+ }
+ auto channel = new ASDCP::MXF::AudioChannelLabelSubDescriptor(asdcp_smpte_dict);
GenRandomValue (channel->MCALinkID);
channel->SoundfieldGroupLinkID = soundfield->MCALinkID;
- channel->MCAChannelID = static_cast<int>(i) + 1;
- channel->MCATagSymbol = "ch" + channel_to_mca_id(i, field);
- channel->MCATagName = channel_to_mca_name(i, field);
+ channel->MCAChannelID = i + 1;
+ channel->MCATagSymbol = "ch" + channel_to_mca_id(dcp_channel, field);
+ channel->MCATagName = channel_to_mca_name(dcp_channel, field);
channel->RFC5646SpokenLanguage = _asset->language();
- channel->MCALabelDictionaryID = channel_to_mca_universal_label(i, field, asdcp_smpte_dict);
+ channel->MCALabelDictionaryID = channel_to_mca_universal_label(dcp_channel, field, asdcp_smpte_dict);
_state->mxf_writer.OP1aHeader().AddChildObject(channel);
essence_descriptor->SubDescriptors.push_back(channel->InstanceUID);
}
}
-/** @param data Pointer an array of float pointers, one for each channel.
- * @param frames Number of frames i.e. number of floats that are given for each channel.
- */
void
SoundAssetWriter::write (float const * const * data, int frames)
{
}
_frame_buffer_offset += 3 * ch;
- DCP_ASSERT (_frame_buffer_offset <= int (_state->frame_buffer.Capacity()));
+ DCP_ASSERT (_frame_buffer_offset <= int(_state->frame_buffer.Capacity()));
/* Finish the MXF frame if required */
if (_frame_buffer_offset == int (_state->frame_buffer.Capacity())) {
void
SoundAssetWriter::write_current_frame ()
{
- ASDCP::Result_t const r = _state->mxf_writer.WriteFrame (_state->frame_buffer, _crypto_context->context(), _crypto_context->hmac());
- if (ASDCP_FAILURE (r)) {
- boost::throw_exception (MiscError (String::compose ("could not write audio MXF frame (%1)", int (r))));
+ auto const r = _state->mxf_writer.WriteFrame (_state->frame_buffer, _crypto_context->context(), _crypto_context->hmac());
+ if (ASDCP_FAILURE(r)) {
+ boost::throw_exception (MiscError(String::compose("could not write audio MXF frame (%1)", static_cast<int>(r))));
}
++_frames_written;
}
if (_started) {
- ASDCP::Result_t const r = _state->mxf_writer.Finalize();
+ auto const r = _state->mxf_writer.Finalize();
if (ASDCP_FAILURE(r)) {
- boost::throw_exception (MiscError (String::compose ("could not finalise audio MXF (%1)", int(r))));
+ boost::throw_exception (MiscError(String::compose ("could not finalise audio MXF (%1)", static_cast<int>(r))));
}
}
int remaining_bits = 0;
/* How many packets in this edit unit (i.e. "frame") */
int packets = 0;
- Fraction const edit_rate = _asset->edit_rate ();
+ auto const edit_rate = _asset->edit_rate ();
if (edit_rate == Fraction(24, 1)) {
edit_rate_code = 0;
remaining_bits = 25;