/*
- Copyright (C) 2012-2016 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2012-2020 Carl Hetherington <cth@carlh.net>
This file is part of libdcp.
You should have received a copy of the GNU General Public License
along with libdcp. If not, see <http://www.gnu.org/licenses/>.
+ In addition, as a special exception, the copyright holders give
+ permission to link the code of portions of this program with the
+ OpenSSL library under certain conditions as described in each
+ individual source file, and distribute linked combinations
+ including the two.
+
+ You must obey the GNU General Public License in all respects
+ for all of the code used other than OpenSSL. If you modify
+ file(s) with this exception, you may extend this exception to your
+ version of the file(s), but you are not obligated to do so. If you
+ do not wish to do so, delete this exception statement from your
+ version. If you delete this exception statement from all source
+ files in the program, then also delete it here.
*/
/** @file src/sound_mxf.cc
#include "sound_asset_writer.h"
#include "sound_asset_reader.h"
#include "compose.hpp"
-#include "KM_fileio.h"
-#include "AS_DCP.h"
#include "dcp_assert.h"
+#include <asdcp/AS_DCP.h>
+#include <asdcp/KM_fileio.h>
+#include <asdcp/Metadata.h>
#include <libxml++/nodes/element.h>
#include <boost/filesystem.hpp>
-#include <iostream>
#include <stdexcept>
using std::string;
-using std::stringstream;
-using std::ostream;
using std::vector;
using std::list;
-using boost::shared_ptr;
-using boost::dynamic_pointer_cast;
+using std::shared_ptr;
+using std::dynamic_pointer_cast;
using namespace dcp;
+
SoundAsset::SoundAsset (boost::filesystem::path file)
: Asset (file)
+ /* XXX: this is a fallback language, which will be used if we can't find the RFC5646SpokenLanguage
+ * in the MXF header. Perhaps RFC5646SpokenLanguage is optional and we should just not write it
+ * if we don't know it.
+ */
+ , _language ("en-US")
{
ASDCP::PCM::MXFReader reader;
Kumu::Result_t r = reader.OpenRead (file.string().c_str());
ASDCP::PCM::AudioDescriptor desc;
if (ASDCP_FAILURE (reader.FillAudioDescriptor (desc))) {
- boost::throw_exception (DCPReadError ("could not read audio MXF information"));
+ boost::throw_exception (ReadError ("could not read audio MXF information"));
}
_sampling_rate = desc.AudioSamplingRate.Numerator / desc.AudioSamplingRate.Denominator;
ASDCP::WriterInfo info;
if (ASDCP_FAILURE (reader.FillWriterInfo (info))) {
- boost::throw_exception (DCPReadError ("could not read audio MXF information"));
+ boost::throw_exception (ReadError ("could not read audio MXF information"));
+ }
+
+ ASDCP::MXF::SoundfieldGroupLabelSubDescriptor* soundfield;
+ ASDCP::Result_t rr = reader.OP1aHeader().GetMDObjectByType(
+ asdcp_smpte_dict->ul(ASDCP::MDD_SoundfieldGroupLabelSubDescriptor),
+ reinterpret_cast<ASDCP::MXF::InterchangeObject**>(&soundfield)
+ );
+
+ if (KM_SUCCESS(rr)) {
+ if (!soundfield->RFC5646SpokenLanguage.empty()) {
+ char buffer[64];
+ soundfield->RFC5646SpokenLanguage.get().EncodeString(buffer, sizeof(buffer));
+ _language = buffer;
+ }
}
_id = read_writer_info (info);
}
-SoundAsset::SoundAsset (Fraction edit_rate, int sampling_rate, int channels)
- : _edit_rate (edit_rate)
+SoundAsset::SoundAsset (Fraction edit_rate, int sampling_rate, int channels, LanguageTag language, Standard standard)
+ : MXF (standard)
+ , _edit_rate (edit_rate)
, _intrinsic_duration (0)
, _channels (channels)
, _sampling_rate (sampling_rate)
+ , _language (language.to_string())
{
}
SoundAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, NoteHandler note) const
{
ASDCP::PCM::MXFReader reader_A;
- Kumu::Result_t r = reader_A.OpenRead (file().string().c_str());
+ DCP_ASSERT (file ());
+ Kumu::Result_t r = reader_A.OpenRead (file()->string().c_str());
if (ASDCP_FAILURE (r)) {
- boost::throw_exception (MXFFileError ("could not open MXF file for reading", file().string(), r));
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", file()->string(), r));
}
ASDCP::PCM::MXFReader reader_B;
- r = reader_B.OpenRead (other->file().string().c_str());
+ r = reader_B.OpenRead (other->file()->string().c_str());
if (ASDCP_FAILURE (r)) {
- boost::throw_exception (MXFFileError ("could not open MXF file for reading", file().string(), r));
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", other->file()->string(), r));
}
ASDCP::PCM::AudioDescriptor desc_A;
if (ASDCP_FAILURE (reader_A.FillAudioDescriptor (desc_A))) {
- boost::throw_exception (DCPReadError ("could not read audio MXF information"));
+ boost::throw_exception (ReadError ("could not read audio MXF information"));
}
ASDCP::PCM::AudioDescriptor desc_B;
if (ASDCP_FAILURE (reader_B.FillAudioDescriptor (desc_B))) {
- boost::throw_exception (DCPReadError ("could not read audio MXF information"));
+ boost::throw_exception (ReadError ("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 ||
- ) {
-
- note (DCP_ERROR, "audio MXF picture descriptors differ");
+ if (desc_A.EditRate != desc_B.EditRate) {
+ note (
+ DCP_ERROR,
+ String::compose (
+ "audio edit rates differ: %1/%2 cf %3/%4",
+ desc_A.EditRate.Numerator, desc_A.EditRate.Denominator, desc_B.EditRate.Numerator, desc_B.EditRate.Denominator
+ )
+ );
+ return false;
+ } else if (desc_A.AudioSamplingRate != desc_B.AudioSamplingRate) {
+ note (
+ DCP_ERROR,
+ String::compose (
+ "audio sampling rates differ: %1 cf %2",
+ desc_A.AudioSamplingRate.Numerator, desc_A.AudioSamplingRate.Denominator,
+ desc_B.AudioSamplingRate.Numerator, desc_B.AudioSamplingRate.Numerator
+ )
+ );
+ return false;
+ } else if (desc_A.Locked != desc_B.Locked) {
+ note (DCP_ERROR, String::compose ("audio locked flags differ: %1 cf %2", desc_A.Locked, desc_B.Locked));
+ return false;
+ } else if (desc_A.ChannelCount != desc_B.ChannelCount) {
+ note (DCP_ERROR, String::compose ("audio channel counts differ: %1 cf %2", desc_A.ChannelCount, desc_B.ChannelCount));
return false;
+ } else if (desc_A.QuantizationBits != desc_B.QuantizationBits) {
+ note (DCP_ERROR, String::compose ("audio bits per sample differ: %1 cf %2", desc_A.QuantizationBits, desc_B.QuantizationBits));
+ return false;
+ } else if (desc_A.BlockAlign != desc_B.BlockAlign) {
+ note (DCP_ERROR, String::compose ("audio bytes per sample differ: %1 cf %2", desc_A.BlockAlign, desc_B.BlockAlign));
+ return false;
+ } else if (desc_A.AvgBps != desc_B.AvgBps) {
+ note (DCP_ERROR, String::compose ("audio average bps differ: %1 cf %2", desc_A.AvgBps, desc_B.AvgBps));
+ return false;
+ } else if (desc_A.LinkedTrackID != desc_B.LinkedTrackID) {
+ note (DCP_ERROR, String::compose ("audio linked track IDs differ: %1 cf %2", desc_A.LinkedTrackID, desc_B.LinkedTrackID));
+ return false;
+ } else if (desc_A.ContainerDuration != desc_B.ContainerDuration) {
+ note (DCP_ERROR, String::compose ("audio container durations differ: %1 cf %2", desc_A.ContainerDuration, desc_B.ContainerDuration));
+ return false;
+ } else if (desc_A.ChannelFormat != desc_B.ChannelFormat) {
+ /* XXX */
}
shared_ptr<const SoundAsset> other_sound = dynamic_pointer_cast<const SoundAsset> (other);
}
if (memcmp (frame_A->data(), frame_B->data(), frame_A->size()) != 0) {
- for (int i = 0; i < frame_A->size(); ++i) {
- int const d = abs (frame_A->data()[i] - frame_B->data()[i]);
- if (d > opt.max_audio_sample_error) {
- note (DCP_ERROR, String::compose ("PCM data difference of %1", d));
- return false;
+ for (int sample= 0; sample < frame_A->samples(); ++sample) {
+ for (int channel = 0; channel < frame_A->channels(); ++channel) {
+ int32_t const d = abs(frame_A->get(channel, sample) - frame_B->get(channel, sample));
+ if (d > opt.max_audio_sample_error) {
+ note (DCP_ERROR, String::compose ("PCM data difference of %1", d));
+ return false;
+ }
}
}
}
}
shared_ptr<SoundAssetWriter>
-SoundAsset::start_write (boost::filesystem::path file, Standard standard)
+SoundAsset::start_write (boost::filesystem::path file, vector<Channel> active_channels, bool atmos_sync)
{
- /* XXX: can't we use a shared_ptr here? */
- return shared_ptr<SoundAssetWriter> (new SoundAssetWriter (this, file, standard));
+ if (atmos_sync && _channels < 14) {
+ throw MiscError ("Insufficient channels to write ATMOS sync (there must be at least 14)");
+ }
+
+ return shared_ptr<SoundAssetWriter> (new SoundAssetWriter(this, file, active_channels, atmos_sync));
}
shared_ptr<SoundAssetReader>
SoundAsset::start_read () const
{
- return shared_ptr<SoundAssetReader> (new SoundAssetReader (this));
+ return shared_ptr<SoundAssetReader> (new SoundAssetReader (this, key(), standard()));
}
string
-SoundAsset::pkl_type (Standard standard) const
+SoundAsset::static_pkl_type (Standard standard)
{
switch (standard) {
case INTEROP: