/* Copyright (C) 2014-2018 Carl Hetherington This file is part of DCP-o-matic. DCP-o-matic is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. DCP-o-matic is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with DCP-o-matic. If not, see . */ #include "dcp_content.h" #include "video_content.h" #include "audio_content.h" #include "dcp_examiner.h" #include "job.h" #include "film.h" #include "config.h" #include "overlaps.h" #include "compose.hpp" #include "dcp_decoder.h" #include "text_content.h" #include #include #include #include #include #include #include #include #include #include "i18n.h" using std::string; using std::cout; using std::distance; using std::pair; using std::vector; using std::list; using boost::shared_ptr; using boost::scoped_ptr; using boost::optional; using boost::function; using boost::dynamic_pointer_cast; using dcp::raw_convert; int const DCPContentProperty::NEEDS_ASSETS = 600; int const DCPContentProperty::NEEDS_KDM = 601; int const DCPContentProperty::REFERENCE_VIDEO = 602; int const DCPContentProperty::REFERENCE_AUDIO = 603; int const DCPContentProperty::REFERENCE_TEXT = 604; int const DCPContentProperty::NAME = 605; int const DCPContentProperty::TEXTS = 606; int const DCPContentProperty::CPL = 607; DCPContent::DCPContent (shared_ptr film, boost::filesystem::path p) : Content (film) , _encrypted (false) , _needs_assets (false) , _kdm_valid (false) , _reference_video (false) , _reference_audio (false) , _three_d (false) { read_directory (p); set_default_colour_conversion (); for (int i = 0; i < TEXT_COUNT; ++i) { _reference_text[i] = false; } } DCPContent::DCPContent (shared_ptr film, cxml::ConstNodePtr node, int version) : Content (film, node) { video = VideoContent::from_xml (this, node, version); audio = AudioContent::from_xml (this, node, version); text = TextContent::from_xml (this, node, version); for (int i = 0; i < TEXT_COUNT; ++i) { _reference_text[i] = false; } if (video && audio) { audio->set_stream ( AudioStreamPtr ( new AudioStream ( node->number_child ("AudioFrameRate"), /* AudioLength was not present in some old metadata versions */ node->optional_number_child("AudioLength").get_value_or ( video->length() * node->number_child("AudioFrameRate") / video_frame_rate().get() ), AudioMapping (node->node_child ("AudioMapping"), version) ) ) ); } _name = node->string_child ("Name"); _encrypted = node->bool_child ("Encrypted"); _needs_assets = node->optional_bool_child("NeedsAssets").get_value_or (false); if (node->optional_node_child ("KDM")) { _kdm = dcp::EncryptedKDM (node->string_child ("KDM")); } _kdm_valid = node->bool_child ("KDMValid"); _reference_video = node->optional_bool_child ("ReferenceVideo").get_value_or (false); _reference_audio = node->optional_bool_child ("ReferenceAudio").get_value_or (false); if (version >= 37) { _reference_text[TEXT_OPEN_SUBTITLE] = node->optional_bool_child("ReferenceOpenSubtitle").get_value_or(false); _reference_text[TEXT_CLOSED_CAPTION] = node->optional_bool_child("ReferenceClosedCaption").get_value_or(false); } else { _reference_text[TEXT_OPEN_SUBTITLE] = node->optional_bool_child("ReferenceSubtitle").get_value_or(false); _reference_text[TEXT_CLOSED_CAPTION] = false; } if (node->optional_string_child("Standard")) { string const s = node->optional_string_child("Standard").get(); if (s == "Interop") { _standard = dcp::INTEROP; } else if (s == "SMPTE") { _standard = dcp::SMPTE; } else { DCPOMATIC_ASSERT (false); } } _three_d = node->optional_bool_child("ThreeD").get_value_or (false); optional ck = node->optional_string_child("ContentKind"); if (ck) { _content_kind = dcp::content_kind_from_string (*ck); } _cpl = node->optional_string_child("CPL"); BOOST_FOREACH (cxml::ConstNodePtr i, node->node_children("ReelLength")) { _reel_lengths.push_back (raw_convert (i->content ())); } } void DCPContent::read_directory (boost::filesystem::path p) { for (boost::filesystem::directory_iterator i(p); i != boost::filesystem::directory_iterator(); ++i) { if (boost::filesystem::is_regular_file (i->path())) { add_path (i->path()); } else if (boost::filesystem::is_directory (i->path ())) { read_directory (i->path()); } } } void DCPContent::examine (shared_ptr job) { bool const needed_assets = needs_assets (); bool const needed_kdm = needs_kdm (); string const old_name = name (); int const old_texts = text.size (); ChangeSignaller cc_texts (this, DCPContentProperty::TEXTS); ChangeSignaller cc_assets (this, DCPContentProperty::NEEDS_ASSETS); ChangeSignaller cc_kdm (this, DCPContentProperty::NEEDS_KDM); ChangeSignaller cc_name (this, DCPContentProperty::NAME); ChangeSignaller cc_streams (this, AudioContentProperty::STREAMS); if (job) { job->set_progress_unknown (); } Content::examine (job); shared_ptr examiner (new DCPExaminer (shared_from_this ())); if (examiner->has_video()) { { boost::mutex::scoped_lock lm (_mutex); video.reset (new VideoContent (this)); } video->take_from_examiner (examiner); set_default_colour_conversion (); } if (examiner->has_audio()) { ChangeSignaller cc (this, AudioContentProperty::STREAMS); { boost::mutex::scoped_lock lm (_mutex); audio.reset (new AudioContent (this)); } AudioStreamPtr as (new AudioStream (examiner->audio_frame_rate(), examiner->audio_length(), examiner->audio_channels())); audio->set_stream (as); AudioMapping m = as->mapping (); film()->make_audio_mapping_default (m); as->set_mapping (m); } int texts = 0; { boost::mutex::scoped_lock lm (_mutex); _name = examiner->name (); for (int i = 0; i < TEXT_COUNT; ++i) { if (examiner->has_text(static_cast(i))) { text.push_back (shared_ptr(new TextContent(this, static_cast(i), static_cast(i)))); } } texts = text.size (); _encrypted = examiner->encrypted (); _needs_assets = examiner->needs_assets (); _kdm_valid = examiner->kdm_valid (); _standard = examiner->standard (); _three_d = examiner->three_d (); _content_kind = examiner->content_kind (); _cpl = examiner->cpl (); _reel_lengths = examiner->reel_lengths (); } if (old_texts == texts) { cc_texts.abort (); } if (needed_assets == needs_assets()) { cc_assets.abort (); } if (needed_kdm == needs_kdm()) { cc_kdm.abort (); } if (old_name == name()) { cc_name.abort (); } if (video) { video->set_frame_type (_three_d ? VIDEO_FRAME_TYPE_3D : VIDEO_FRAME_TYPE_2D); } } string DCPContent::summary () const { boost::mutex::scoped_lock lm (_mutex); return String::compose (_("%1 [DCP]"), _name); } string DCPContent::technical_summary () const { string s = Content::technical_summary() + " - "; if (video) { s += video->technical_summary() + " - "; } if (audio) { s += audio->technical_summary() + " - "; } return s; } void DCPContent::as_xml (xmlpp::Node* node, bool with_paths) const { node->add_child("Type")->add_child_text ("DCP"); Content::as_xml (node, with_paths); if (video) { video->as_xml (node); } if (audio) { audio->as_xml (node); node->add_child("AudioFrameRate")->add_child_text (raw_convert (audio->stream()->frame_rate())); node->add_child("AudioLength")->add_child_text (raw_convert (audio->stream()->length())); audio->stream()->mapping().as_xml (node->add_child("AudioMapping")); } BOOST_FOREACH (shared_ptr i, text) { i->as_xml (node); } boost::mutex::scoped_lock lm (_mutex); node->add_child("Name")->add_child_text (_name); node->add_child("Encrypted")->add_child_text (_encrypted ? "1" : "0"); node->add_child("NeedsAssets")->add_child_text (_needs_assets ? "1" : "0"); if (_kdm) { node->add_child("KDM")->add_child_text (_kdm->as_xml ()); } node->add_child("KDMValid")->add_child_text (_kdm_valid ? "1" : "0"); node->add_child("ReferenceVideo")->add_child_text (_reference_video ? "1" : "0"); node->add_child("ReferenceAudio")->add_child_text (_reference_audio ? "1" : "0"); node->add_child("ReferenceOpenSubtitle")->add_child_text(_reference_text[TEXT_OPEN_SUBTITLE] ? "1" : "0"); node->add_child("ReferenceClosedCaption")->add_child_text(_reference_text[TEXT_CLOSED_CAPTION] ? "1" : "0"); if (_standard) { switch (_standard.get ()) { case dcp::INTEROP: node->add_child("Standard")->add_child_text ("Interop"); break; case dcp::SMPTE: node->add_child("Standard")->add_child_text ("SMPTE"); break; default: DCPOMATIC_ASSERT (false); } } node->add_child("ThreeD")->add_child_text (_three_d ? "1" : "0"); if (_content_kind) { node->add_child("ContentKind")->add_child_text(dcp::content_kind_to_string(*_content_kind)); } if (_cpl) { node->add_child("CPL")->add_child_text (_cpl.get ()); } BOOST_FOREACH (int64_t i, _reel_lengths) { node->add_child("ReelLength")->add_child_text (raw_convert (i)); } } DCPTime DCPContent::full_length () const { if (!video) { return DCPTime(); } FrameRateChange const frc (active_video_frame_rate (), film()->video_frame_rate ()); return DCPTime::from_frames (llrint (video->length () * frc.factor ()), film()->video_frame_rate ()); } string DCPContent::identifier () const { string s = Content::identifier() + "_"; if (video) { s += video->identifier() + "_"; } BOOST_FOREACH (shared_ptr i, text) { s += i->identifier () + " "; } s += string (_reference_video ? "1" : "0"); for (int i = 0; i < TEXT_COUNT; ++i) { s += string (_reference_text[i] ? "1" : "0"); } return s; } void DCPContent::add_kdm (dcp::EncryptedKDM k) { _kdm = k; } void DCPContent::add_ov (boost::filesystem::path ov) { read_directory (ov); } bool DCPContent::can_be_played () const { return !needs_kdm() && !needs_assets(); } bool DCPContent::needs_kdm () const { boost::mutex::scoped_lock lm (_mutex); return _encrypted && !_kdm_valid; } bool DCPContent::needs_assets () const { boost::mutex::scoped_lock lm (_mutex); return _needs_assets; } vector DCPContent::directories () const { return dcp::DCP::directories_from_files (paths()); } void DCPContent::add_properties (list& p) const { Content::add_properties (p); if (video) { video->add_properties (p); } if (audio) { audio->add_properties (p); } } void DCPContent::set_default_colour_conversion () { /* Default to no colour conversion for DCPs */ if (video) { video->unset_colour_conversion (); } } void DCPContent::set_reference_video (bool r) { ChangeSignaller cc (this, DCPContentProperty::REFERENCE_VIDEO); { boost::mutex::scoped_lock lm (_mutex); _reference_video = r; } } void DCPContent::set_reference_audio (bool r) { ChangeSignaller cc (this, DCPContentProperty::REFERENCE_AUDIO); { boost::mutex::scoped_lock lm (_mutex); _reference_audio = r; } } void DCPContent::set_reference_text (TextType type, bool r) { ChangeSignaller cc (this, DCPContentProperty::REFERENCE_TEXT); { boost::mutex::scoped_lock lm (_mutex); _reference_text[type] = r; } } list DCPContent::reels () const { list reel_lengths = _reel_lengths; if (reel_lengths.empty ()) { /* Old metadata with no reel lengths; get them here instead */ try { scoped_ptr examiner (new DCPExaminer (shared_from_this())); reel_lengths = examiner->reel_lengths (); } catch (...) { /* Could not examine the DCP; guess reels */ reel_lengths.push_back (length_after_trim().frames_round (film()->video_frame_rate ())); } } list p; /* This content's frame rate must be the same as the output DCP rate, so we can convert `directly' from ContentTime to DCPTime. */ /* The starting point of this content on the timeline */ DCPTime pos = position() - DCPTime (trim_start().get()); BOOST_FOREACH (int64_t i, reel_lengths) { /* This reel runs from `pos' to `to' */ DCPTime const to = pos + DCPTime::from_frames (i, film()->video_frame_rate()); if (to > position()) { p.push_back (DCPTimePeriod (max(position(), pos), min(end(), to))); if (to > end()) { break; } } pos = to; } return p; } list DCPContent::reel_split_points () const { list s; BOOST_FOREACH (DCPTimePeriod i, reels()) { s.push_back (i.from); } return s; } bool DCPContent::can_reference (function)> part, string overlapping, string& why_not) const { /* We must be using the same standard as the film */ if (_standard) { if (_standard.get() == dcp::INTEROP && !film()->interop()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it is Interop and the film is set to SMPTE."); return false; } else if (_standard.get() == dcp::SMPTE && film()->interop()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it is SMPTE and the film is set to Interop."); return false; } } /* And the same frame rate */ if (!video_frame_rate() || (lrint(video_frame_rate().get()) != film()->video_frame_rate())) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it has a different frame rate to the film."); return false; } list const fr = film()->reels (); list reel_list; try { reel_list = reels (); } catch (dcp::DCPReadError) { /* We couldn't read the DCP; it's probably missing */ return false; } catch (dcp::KDMDecryptionError) { /* We have an incorrect KDM */ return false; } /* fr must contain reels(). It can also contain other reels, but it must at least contain reels(). */ BOOST_FOREACH (DCPTimePeriod i, reel_list) { if (find (fr.begin(), fr.end(), i) == fr.end ()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("its reel lengths differ from those in the film; set the reel mode to 'split by video content'."); return false; } } ContentList a = overlaps (film()->content(), part, position(), end()); if (a.size() != 1 || a.front().get() != this) { why_not = overlapping; return false; } return true; } static bool check_video (shared_ptr c) { return static_cast(c->video); } bool DCPContent::can_reference_video (string& why_not) const { if (!video) { why_not = _("There is no video in this DCP"); return false; } if (film()->frame_size() != video->size()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("its video frame size differs from the film's."); return false; } /// TRANSLATORS: this string will follow "Cannot reference this DCP: " return can_reference (bind (&check_video, _1), _("it overlaps other video content; remove the other content."), why_not); } static bool check_audio (shared_ptr c) { return static_cast(c->audio); } bool DCPContent::can_reference_audio (string& why_not) const { shared_ptr decoder; try { decoder.reset (new DCPDecoder (shared_from_this(), film()->log(), false)); } catch (dcp::DCPReadError) { /* We couldn't read the DCP, so it's probably missing */ return false; } catch (DCPError) { /* We couldn't read the DCP, so it's probably missing */ return false; } catch (dcp::KDMDecryptionError) { /* We have an incorrect KDM */ return false; } BOOST_FOREACH (shared_ptr i, decoder->reels()) { if (!i->main_sound()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it does not have sound in all its reels."); return false; } } /// TRANSLATORS: this string will follow "Cannot reference this DCP: " return can_reference (bind (&check_audio, _1), _("it overlaps other audio content; remove the other content."), why_not); } static bool check_text (shared_ptr c) { return !c->text.empty(); } bool DCPContent::can_reference_text (TextType type, string& why_not) const { shared_ptr decoder; try { decoder.reset (new DCPDecoder (shared_from_this(), film()->log(), false)); } catch (dcp::DCPReadError) { /* We couldn't read the DCP, so it's probably missing */ return false; } catch (dcp::KDMDecryptionError) { /* We have an incorrect KDM */ return false; } BOOST_FOREACH (shared_ptr i, decoder->reels()) { if (type == TEXT_OPEN_SUBTITLE && !i->main_subtitle()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it does not have open subtitles in all its reels."); return false; } if (type == TEXT_CLOSED_CAPTION && i->closed_captions().empty()) { /// TRANSLATORS: this string will follow "Cannot reference this DCP: " why_not = _("it does not have closed captions in all its reels."); return false; } } /// TRANSLATORS: this string will follow "Cannot reference this DCP: " return can_reference (bind (&check_text, _1), _("it overlaps other text content; remove the other content."), why_not); } void DCPContent::take_settings_from (shared_ptr c) { shared_ptr dc = dynamic_pointer_cast (c); if (!dc) { return; } _reference_video = dc->_reference_video; _reference_audio = dc->_reference_audio; for (int i = 0; i < TEXT_COUNT; ++i) { _reference_text[i] = dc->_reference_text[i]; } } void DCPContent::set_cpl (string id) { ChangeSignaller cc (this, DCPContentProperty::CPL); { boost::mutex::scoped_lock lm (_mutex); _cpl = id; } } bool DCPContent::kdm_timing_window_valid () const { if (!_kdm) { return true; } dcp::LocalTime now; return _kdm->not_valid_before() < now && now < _kdm->not_valid_after(); }