#include "util.h"
#include "exceptions.h"
#include "picture_frame.h"
+#include "xyz_frame.h"
+#include "picture_asset_writer.h"
using std::string;
using std::ostream;
using std::vector;
using std::max;
using std::stringstream;
+using std::pair;
+using std::make_pair;
+using std::istream;
+using std::cout;
using boost::shared_ptr;
using boost::dynamic_pointer_cast;
using boost::lexical_cast;
using namespace libdcp;
-PictureAsset::PictureAsset (string directory, string mxf_name, boost::signals2::signal<void (float)>* progress, int fps, int entry_point, int length, bool encrypted)
- : MXFAsset (directory, mxf_name, progress, fps, entry_point, length, encrypted)
- , _width (0)
- , _height (0)
+PictureAsset::PictureAsset (string directory, string mxf_name, boost::signals2::signal<void (float)>* progress, int fps, int intrinsic_duration, Size size)
+ : MXFAsset (directory, mxf_name, progress, fps, intrinsic_duration)
+ , _size (size)
{
}
+PictureAsset::PictureAsset (string directory, string mxf_name)
+ : MXFAsset (directory, mxf_name)
+{
+
+}
+
+string
+MonoPictureAsset::cpl_node_name () const
+{
+ return "MainPicture";
+}
+
+int
+MonoPictureAsset::edit_rate_factor () const
+{
+ return 1;
+}
+
+string
+StereoPictureAsset::cpl_node_name () const
+{
+ return "msp-cpl:MainStereoscopicPicture";
+}
+
+pair<string, string>
+StereoPictureAsset::cpl_node_attribute (bool interop) const
+{
+ if (interop) {
+ return make_pair ("xmlns:msp-cpl", "http://www.digicine.com/schemas/437-Y/2007/Main-Stereo-Picture-CPL");
+ } else {
+ return make_pair ("xmlns:msp-cpl", "http://www.smpte-ra.org/schemas/429-10/2008/Main-Stereo-Picture-CPL");
+ }
+
+ return make_pair ("", "");
+}
+
+int
+StereoPictureAsset::edit_rate_factor () const
+{
+ return 2;
+}
+
void
-PictureAsset::write_to_cpl (xmlpp::Element* parent) const
+PictureAsset::write_to_cpl (xmlpp::Element* node, bool interop) const
{
- xmlpp::Element* main_picture = parent->add_child("MainPicture");
- main_picture->add_child("Id")->add_child_text("urn:uuid:" + _uuid);
- main_picture->add_child("AnnotationText")->add_child_text(_file_name);
- main_picture->add_child("EditRate")->add_child_text(boost::lexical_cast<string> (_fps) + " 1");
- main_picture->add_child("IntrinsicDuration")->add_child_text(boost::lexical_cast<string> (_length));
- main_picture->add_child("EntryPoint")->add_child_text("0");
- main_picture->add_child("Duration")->add_child_text(boost::lexical_cast<string> (_length));
- if (_encrypted) {
- main_picture->add_child("KeyId")->add_child_text("urn:uuid:" + _key_id);
+ MXFAsset::write_to_cpl (node, interop);
+
+ xmlpp::Node::NodeList c = node->get_children ();
+ xmlpp::Node::NodeList::iterator i = c.begin();
+ while (i != c.end() && (*i)->get_name() != cpl_node_name ()) {
+ ++i;
+ }
+
+ assert (i != c.end ());
+
+ (*i)->add_child ("FrameRate")->add_child_text (lexical_cast<string> (_edit_rate * edit_rate_factor ()) + " 1");
+ if (interop) {
+ (*i)->add_child ("ScreenAspectRatio")->add_child_text (lexical_cast<string> (float (_size.width) / _size.height));
+ } else {
+ (*i)->add_child ("ScreenAspectRatio")->add_child_text (lexical_cast<string> (_size.width) + " " + lexical_cast<string> (_size.height));
}
- main_picture->add_child("FrameRate")->add_child_text(boost::lexical_cast<string> (_fps) + " 1");
- stringstream sar;
- sar << _width << " " << _height;
- main_picture->add_child("ScreenAspectRatio")->add_child_text(sar.str());
}
bool
-PictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, list<string>& notes) const
+PictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, boost::function<void (NoteType, string)> note) const
{
- if (!MXFAsset::equals (other, opt, notes)) {
+ if (!MXFAsset::equals (other, opt, note)) {
return false;
}
ASDCP::JP2K::MXFReader reader_A;
if (ASDCP_FAILURE (reader_A.OpenRead (path().string().c_str()))) {
- throw MXFFileError ("could not open MXF file for reading", path().string());
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", path().string()));
}
ASDCP::JP2K::MXFReader reader_B;
if (ASDCP_FAILURE (reader_B.OpenRead (other->path().string().c_str()))) {
- throw MXFFileError ("could not open MXF file for reading", path().string());
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", path().string()));
}
ASDCP::JP2K::PictureDescriptor desc_A;
if (ASDCP_FAILURE (reader_A.FillPictureDescriptor (desc_A))) {
- throw DCPReadError ("could not read video MXF information");
+ boost::throw_exception (DCPReadError ("could not read video MXF information"));
}
ASDCP::JP2K::PictureDescriptor desc_B;
if (ASDCP_FAILURE (reader_B.FillPictureDescriptor (desc_B))) {
- throw DCPReadError ("could not read video MXF information");
+ boost::throw_exception (DCPReadError ("could not read video MXF information"));
}
if (
desc_A.EditRate != desc_B.EditRate ||
- desc_A.ContainerDuration != desc_B.ContainerDuration ||
desc_A.SampleRate != desc_B.SampleRate ||
desc_A.StoredWidth != desc_B.StoredWidth ||
desc_A.StoredHeight != desc_B.StoredHeight ||
// desc_A.QuantizationDefault != desc_B.QuantizationDefault
) {
- notes.push_back ("video MXF picture descriptors differ");
+ note (ERROR, "video MXF picture descriptors differ");
return false;
}
+ if (desc_A.ContainerDuration != desc_B.ContainerDuration) {
+ note (ERROR, "video container durations differ");
+ }
+
// for (unsigned int j = 0; j < ASDCP::JP2K::MaxComponents; ++j) {
// if (desc_A.ImageComponents[j] != desc_B.ImageComponents[j]) {
// notes.pack_start ("video MXF picture descriptors differ");
string mxf_name,
boost::signals2::signal<void (float)>* progress,
int fps,
- int length,
- int width,
- int height,
- bool encrypted)
- : PictureAsset (directory, mxf_name, progress, fps, 0, length, encrypted)
+ int intrinsic_duration,
+ Size size,
+ bool interop,
+ MXFMetadata const & metadata
+ )
+ : PictureAsset (directory, mxf_name, progress, fps, intrinsic_duration, size)
{
- _width = width;
- _height = height;
- construct (get_path);
+ construct (get_path, interop, metadata);
}
MonoPictureAsset::MonoPictureAsset (
string mxf_name,
boost::signals2::signal<void (float)>* progress,
int fps,
- int length,
- int width,
- int height,
- bool encrypted)
- : PictureAsset (directory, mxf_name, progress, fps, 0, length, encrypted)
+ int intrinsic_duration,
+ Size size,
+ bool interop,
+ MXFMetadata const & metadata
+ )
+ : PictureAsset (directory, mxf_name, progress, fps, intrinsic_duration, size)
{
- _width = width;
- _height = height;
- construct (boost::bind (&MonoPictureAsset::path_from_list, this, _1, files));
+ construct (boost::bind (&MonoPictureAsset::path_from_list, this, _1, files), interop, metadata);
}
-MonoPictureAsset::MonoPictureAsset (string directory, string mxf_name, int fps, int entry_point, int length)
- : PictureAsset (directory, mxf_name, 0, fps, entry_point, length, false)
+MonoPictureAsset::MonoPictureAsset (string directory, string mxf_name, int fps, Size size)
+ : PictureAsset (directory, mxf_name, 0, fps, 0, size)
+{
+
+}
+
+MonoPictureAsset::MonoPictureAsset (string directory, string mxf_name)
+ : PictureAsset (directory, mxf_name)
{
ASDCP::JP2K::MXFReader reader;
if (ASDCP_FAILURE (reader.OpenRead (path().string().c_str()))) {
- throw MXFFileError ("could not open MXF file for reading", path().string());
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", path().string()));
}
ASDCP::JP2K::PictureDescriptor desc;
if (ASDCP_FAILURE (reader.FillPictureDescriptor (desc))) {
- throw DCPReadError ("could not read video MXF information");
+ boost::throw_exception (DCPReadError ("could not read video MXF information"));
}
- _width = desc.StoredWidth;
- _height = desc.StoredHeight;
+ _size.width = desc.StoredWidth;
+ _size.height = desc.StoredHeight;
+ _edit_rate = desc.EditRate.Numerator;
+ assert (desc.EditRate.Denominator == 1);
+ _intrinsic_duration = desc.ContainerDuration;
}
void
-MonoPictureAsset::construct (boost::function<string (int)> get_path)
+MonoPictureAsset::construct (boost::function<string (int)> get_path, bool interop, MXFMetadata const & metadata)
{
ASDCP::JP2K::CodestreamParser j2k_parser;
ASDCP::JP2K::FrameBuffer frame_buffer (4 * Kumu::Megabyte);
if (ASDCP_FAILURE (j2k_parser.OpenReadFrame (get_path(0).c_str(), frame_buffer))) {
- throw FileError ("could not open JPEG2000 file for reading", get_path (0));
+ boost::throw_exception (FileError ("could not open JPEG2000 file for reading", get_path (0)));
}
ASDCP::JP2K::PictureDescriptor picture_desc;
j2k_parser.FillPictureDescriptor (picture_desc);
- picture_desc.EditRate = ASDCP::Rational (_fps, 1);
+ picture_desc.EditRate = ASDCP::Rational (_edit_rate, 1);
ASDCP::WriterInfo writer_info;
- fill_writer_info (&writer_info);
-
+ fill_writer_info (&writer_info, _uuid, interop, metadata);
+
ASDCP::JP2K::MXFWriter mxf_writer;
- if (ASDCP_FAILURE (mxf_writer.OpenWrite (path().string().c_str(), writer_info, picture_desc))) {
- throw MXFFileError ("could not open MXF file for writing", path().string());
+ if (ASDCP_FAILURE (mxf_writer.OpenWrite (path().string().c_str(), writer_info, picture_desc, 16384, false))) {
+ boost::throw_exception (MXFFileError ("could not open MXF file for writing", path().string()));
}
- for (int i = 0; i < _length; ++i) {
+ for (int i = 0; i < _intrinsic_duration; ++i) {
string const path = get_path (i);
if (ASDCP_FAILURE (j2k_parser.OpenReadFrame (path.c_str(), frame_buffer))) {
- throw FileError ("could not open JPEG2000 file for reading", path);
+ boost::throw_exception (FileError ("could not open JPEG2000 file for reading", path));
}
if (ASDCP_FAILURE (mxf_writer.WriteFrame (frame_buffer, _encryption_context, 0))) {
- throw MiscError ("error in writing video MXF");
+ boost::throw_exception (MXFFileError ("error in writing video MXF", this->path().string()));
}
if (_progress) {
- (*_progress) (0.5 * float (i) / _length);
+ (*_progress) (0.5 * float (i) / _intrinsic_duration);
}
}
if (ASDCP_FAILURE (mxf_writer.Finalize())) {
- throw MiscError ("error in finalising video MXF");
+ boost::throw_exception (MXFFileError ("error in finalising video MXF", path().string()));
}
}
shared_ptr<const MonoPictureFrame>
MonoPictureAsset::get_frame (int n) const
{
- return shared_ptr<const MonoPictureFrame> (new MonoPictureFrame (path().string(), n + _entry_point));
+ return shared_ptr<const MonoPictureFrame> (new MonoPictureFrame (path().string(), n, _decryption_context));
}
bool
-MonoPictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, list<string>& notes) const
+MonoPictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, boost::function<void (NoteType, string)> note) const
{
- if (!PictureAsset::equals (other, opt, notes)) {
+ if (!PictureAsset::equals (other, opt, note)) {
return false;
}
shared_ptr<const MonoPictureAsset> other_picture = dynamic_pointer_cast<const MonoPictureAsset> (other);
assert (other_picture);
- for (int i = 0; i < _length; ++i) {
+ for (int i = 0; i < _intrinsic_duration; ++i) {
+ if (i >= other_picture->intrinsic_duration()) {
+ return false;
+ }
+
+ note (PROGRESS, "Comparing video frame " + lexical_cast<string> (i) + " of " + lexical_cast<string> (_intrinsic_duration));
shared_ptr<const MonoPictureFrame> frame_A = get_frame (i);
shared_ptr<const MonoPictureFrame> frame_B = other_picture->get_frame (i);
if (!frame_buffer_equals (
- i, opt, notes,
- frame_A->j2k_frame()->RoData(), frame_A->j2k_frame()->Size(),
- frame_B->j2k_frame()->RoData(), frame_B->j2k_frame()->Size()
+ i, opt, note,
+ frame_A->j2k_data(), frame_A->j2k_size(),
+ frame_B->j2k_data(), frame_B->j2k_size()
)) {
return false;
}
}
bool
-StereoPictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, list<string>& notes) const
+StereoPictureAsset::equals (shared_ptr<const Asset> other, EqualityOptions opt, boost::function<void (NoteType, string)> note) const
{
- if (!PictureAsset::equals (other, opt, notes)) {
+ if (!PictureAsset::equals (other, opt, note)) {
return false;
}
shared_ptr<const StereoPictureAsset> other_picture = dynamic_pointer_cast<const StereoPictureAsset> (other);
assert (other_picture);
- for (int i = 0; i < _length; ++i) {
+ for (int i = 0; i < _intrinsic_duration; ++i) {
shared_ptr<const StereoPictureFrame> frame_A = get_frame (i);
shared_ptr<const StereoPictureFrame> frame_B = other_picture->get_frame (i);
if (!frame_buffer_equals (
- i, opt, notes,
- frame_A->j2k_frame()->Left.RoData(), frame_A->j2k_frame()->Left.Size(),
- frame_B->j2k_frame()->Left.RoData(), frame_B->j2k_frame()->Left.Size()
+ i, opt, note,
+ frame_A->left_j2k_data(), frame_A->left_j2k_size(),
+ frame_B->left_j2k_data(), frame_B->left_j2k_size()
)) {
return false;
}
if (!frame_buffer_equals (
- i, opt, notes,
- frame_A->j2k_frame()->Right.RoData(), frame_A->j2k_frame()->Right.Size(),
- frame_B->j2k_frame()->Right.RoData(), frame_B->j2k_frame()->Right.Size()
+ i, opt, note,
+ frame_A->right_j2k_data(), frame_A->right_j2k_size(),
+ frame_B->right_j2k_data(), frame_B->right_j2k_size()
)) {
return false;
}
bool
PictureAsset::frame_buffer_equals (
- int frame, EqualityOptions opt, list<string>& notes, uint8_t const * data_A, unsigned int size_A, uint8_t const * data_B, unsigned int size_B
+ int frame, EqualityOptions opt, boost::function<void (NoteType, string)> note,
+ uint8_t const * data_A, unsigned int size_A, uint8_t const * data_B, unsigned int size_B
) const
{
if (size_A == size_B && memcmp (data_A, data_B, size_A) == 0) {
+ note (NOTE, "J2K identical");
/* Easy result; the J2K data is identical */
return true;
}
/* Decompress the images to bitmaps */
- opj_image_t* image_A = decompress_j2k (const_cast<uint8_t*> (data_A), size_A, 0);
- opj_image_t* image_B = decompress_j2k (const_cast<uint8_t*> (data_B), size_B, 0);
+ shared_ptr<XYZFrame> image_A = decompress_j2k (const_cast<uint8_t*> (data_A), size_A, 0);
+ shared_ptr<XYZFrame> image_B = decompress_j2k (const_cast<uint8_t*> (data_B), size_B, 0);
/* Compare them */
- if (image_A->numcomps != image_B->numcomps) {
- notes.push_back ("image component counts for frame " + lexical_cast<string>(frame) + " differ");
- return false;
- }
-
- vector<int> abs_diffs (image_A->comps[0].w * image_A->comps[0].h * image_A->numcomps);
+ vector<int> abs_diffs (image_A->size().width * image_A->size().height * 3);
int d = 0;
int max_diff = 0;
- for (int c = 0; c < image_A->numcomps; ++c) {
+ for (int c = 0; c < 3; ++c) {
- if (image_A->comps[c].w != image_B->comps[c].w || image_A->comps[c].h != image_B->comps[c].h) {
- notes.push_back ("image sizes for frame " + lexical_cast<string>(frame) + " differ");
+ if (image_A->size() != image_B->size()) {
+ note (ERROR, "image sizes for frame " + lexical_cast<string>(frame) + " differ");
return false;
}
- int const pixels = image_A->comps[c].w * image_A->comps[c].h;
+ int const pixels = image_A->size().width * image_A->size().height;
for (int j = 0; j < pixels; ++j) {
- int const t = abs (image_A->comps[c].data[j] - image_B->comps[c].data[j]);
+ int const t = abs (image_A->data(c)[j] - image_B->data(c)[j]);
abs_diffs[d++] = t;
max_diff = max (max_diff, t);
}
double const std_dev = sqrt (double (total_squared_deviation) / abs_diffs.size());
- if (mean > opt.max_mean_pixel_error || std_dev > opt.max_std_dev_pixel_error) {
- notes.push_back ("mean or standard deviation out of range for " + lexical_cast<string>(frame));
+ note (NOTE, "mean difference " + lexical_cast<string> (mean) + ", deviation " + lexical_cast<string> (std_dev));
+
+ if (mean > opt.max_mean_pixel_error) {
+ note (ERROR, "mean " + lexical_cast<string>(mean) + " out of range " + lexical_cast<string>(opt.max_mean_pixel_error) + " in frame " + lexical_cast<string>(frame));
+ return false;
+ }
+
+ if (std_dev > opt.max_std_dev_pixel_error) {
+ note (ERROR, "standard deviation " + lexical_cast<string>(std_dev) + " out of range " + lexical_cast<string>(opt.max_std_dev_pixel_error) + " in frame " + lexical_cast<string>(frame));
return false;
}
-
- opj_image_destroy (image_A);
- opj_image_destroy (image_B);
return true;
}
-StereoPictureAsset::StereoPictureAsset (string directory, string mxf_name, int fps, int entry_point, int length)
- : PictureAsset (directory, mxf_name, 0, fps, entry_point, length, false)
+StereoPictureAsset::StereoPictureAsset (string directory, string mxf_name, int fps, int intrinsic_duration)
+ : PictureAsset (directory, mxf_name, 0, fps, intrinsic_duration, Size (0, 0))
{
ASDCP::JP2K::MXFSReader reader;
if (ASDCP_FAILURE (reader.OpenRead (path().string().c_str()))) {
- throw MXFFileError ("could not open MXF file for reading", path().string());
+ boost::throw_exception (MXFFileError ("could not open MXF file for reading", path().string()));
}
ASDCP::JP2K::PictureDescriptor desc;
if (ASDCP_FAILURE (reader.FillPictureDescriptor (desc))) {
- throw DCPReadError ("could not read video MXF information");
+ boost::throw_exception (DCPReadError ("could not read video MXF information"));
}
- _width = desc.StoredWidth;
- _height = desc.StoredHeight;
+ _size.width = desc.StoredWidth;
+ _size.height = desc.StoredHeight;
}
shared_ptr<const StereoPictureFrame>
StereoPictureAsset::get_frame (int n) const
{
- return shared_ptr<const StereoPictureFrame> (new StereoPictureFrame (path().string(), n + _entry_point));
+ return shared_ptr<const StereoPictureFrame> (new StereoPictureFrame (path().string(), n));
+}
+
+shared_ptr<PictureAssetWriter>
+MonoPictureAsset::start_write (bool overwrite, bool interop, MXFMetadata const & metadata)
+{
+ /* XXX: can't we use shared_ptr here? */
+ return shared_ptr<MonoPictureAssetWriter> (new MonoPictureAssetWriter (this, overwrite, interop, metadata));
}
string
{
return "MDIK";
}
+
+StereoPictureAsset::StereoPictureAsset (string directory, string mxf_name, int fps, Size size)
+ : PictureAsset (directory, mxf_name, 0, fps, 0, size)
+{
+
+}
+
+shared_ptr<PictureAssetWriter>
+StereoPictureAsset::start_write (bool overwrite, bool interop, MXFMetadata const & metadata)
+{
+ /* XXX: can't we use shared_ptr here? */
+ return shared_ptr<StereoPictureAssetWriter> (new StereoPictureAssetWriter (this, overwrite, interop, metadata));
+}
+