/* Copyright (C) 2012-2020 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 "audio_buffers.h" #include "compose.hpp" #include "config.h" #include "constants.h" #include "cross.h" #include "dcpomatic_log.h" #include "digester.h" #include "film.h" #include "film_util.h" #include "image.h" #include "image_png.h" #include "job.h" #include "log.h" #include "reel_writer.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "i18n.h" using std::dynamic_pointer_cast; using std::exception; using std::list; using std::make_shared; using std::map; using std::set; using std::shared_ptr; using std::string; using std::vector; using std::weak_ptr; using boost::optional; #if BOOST_VERSION >= 106100 using namespace boost::placeholders; #endif using dcp::ArrayData; using dcp::Data; using dcp::raw_convert; using namespace dcpomatic; int const ReelWriter::_info_size = 48; static dcp::MXFMetadata mxf_metadata () { dcp::MXFMetadata meta; auto config = Config::instance(); if (!config->dcp_company_name().empty()) { meta.company_name = config->dcp_company_name (); } if (!config->dcp_product_name().empty()) { meta.product_name = config->dcp_product_name (); } if (!config->dcp_product_version().empty()) { meta.product_version = config->dcp_product_version (); } return meta; } /** @param job Related job, or 0. * @param text_only true to enable a special mode where the writer will expect only subtitles and closed captions to be written * (no picture nor sound) and not give errors in that case. This is used by the hints system to check the potential sizes of * subtitle / closed caption files. */ ReelWriter::ReelWriter ( weak_ptr weak_film, DCPTimePeriod period, shared_ptr job, int reel_index, int reel_count, bool text_only ) : WeakConstFilm (weak_film) , _period (period) , _reel_index (reel_index) , _reel_count (reel_count) , _content_summary (film()->content_summary(period)) , _job (job) , _text_only (text_only) , _font_metrics(film()->frame_size().height) { /* Create or find our picture asset in a subdirectory, named according to those film's parameters which affect the video output. We will hard-link it into the DCP later. */ auto const standard = film()->interop() ? dcp::Standard::INTEROP : dcp::Standard::SMPTE; boost::filesystem::path const asset = film()->internal_video_asset_dir() / film()->internal_video_asset_filename(_period); _first_nonexistent_frame = check_existing_picture_asset (asset); if (_first_nonexistent_frame < period.duration().frames_round(film()->video_frame_rate())) { /* We do not have a complete picture asset. If there is an existing asset, break any hard links to it as we are about to change its contents (if only by changing the IDs); see #1126. */ if (dcp::filesystem::exists(asset) && dcp::filesystem::hard_link_count(asset) > 1) { if (job) { job->sub (_("Copying old video file")); copy_in_bits (asset, asset.string() + ".tmp", bind(&Job::set_progress, job.get(), _1, false)); } else { dcp::filesystem::copy_file(asset, asset.string() + ".tmp"); } dcp::filesystem::remove(asset); dcp::filesystem::rename(asset.string() + ".tmp", asset); } if (film()->three_d()) { _picture_asset.reset (new dcp::StereoPictureAsset(dcp::Fraction(film()->video_frame_rate(), 1), standard)); } else { _picture_asset.reset (new dcp::MonoPictureAsset(dcp::Fraction(film()->video_frame_rate(), 1), standard)); } _picture_asset->set_size (film()->frame_size()); _picture_asset->set_metadata (mxf_metadata()); if (film()->encrypted()) { _picture_asset->set_key (film()->key()); _picture_asset->set_context_id (film()->context_id()); } _picture_asset->set_file (asset); _picture_asset_writer = _picture_asset->start_write(asset, _first_nonexistent_frame > 0 ? dcp::PictureAsset::Behaviour::OVERWRITE_EXISTING : dcp::PictureAsset::Behaviour::MAKE_NEW); } else if (!text_only) { /* We already have a complete picture asset that we can just re-use */ /* XXX: what about if the encryption key changes? */ if (film()->three_d()) { _picture_asset = make_shared(asset); } else { _picture_asset = make_shared(asset); } } if (film()->audio_channels()) { auto lang = film()->audio_language(); _sound_asset = make_shared ( dcp::Fraction(film()->video_frame_rate(), 1), film()->audio_frame_rate(), film()->audio_channels(), lang ? *lang : dcp::LanguageTag("en-US"), standard ); _sound_asset->set_metadata (mxf_metadata()); if (film()->encrypted()) { _sound_asset->set_key (film()->key()); } DCPOMATIC_ASSERT (film()->directory()); std::vector extra_active_channels; for (auto channel: std::vector{dcp::Channel::HI, dcp::Channel::VI, dcp::Channel::BSL, dcp::Channel::BSR}) { if (channel_is_mapped(film(), channel)) { extra_active_channels.push_back(channel); } } /* Write the sound asset into the film directory so that we leave the creation of the DCP directory until the last minute. */ _sound_asset_writer = _sound_asset->start_write ( film()->directory().get() / audio_asset_filename (_sound_asset, _reel_index, _reel_count, _content_summary), extra_active_channels, film()->contains_atmos_content() ? dcp::SoundAsset::AtmosSync::ENABLED : dcp::SoundAsset::AtmosSync::DISABLED, film()->limit_to_smpte_bv20() ? dcp::SoundAsset::MCASubDescriptors::DISABLED : dcp::SoundAsset::MCASubDescriptors::ENABLED ); } _default_font = dcp::ArrayData(default_font_file()); } /** @param frame reel-relative frame */ void ReelWriter::write_frame_info (Frame frame, Eyes eyes, dcp::FrameInfo info) const { auto handle = film()->info_file_handle(_period, false); handle->get().seek(frame_info_position(frame, eyes), SEEK_SET); handle->get().checked_write(&info.offset, sizeof(info.offset)); handle->get().checked_write(&info.size, sizeof(info.size)); handle->get().checked_write(info.hash.c_str(), info.hash.size()); } dcp::FrameInfo ReelWriter::read_frame_info (shared_ptr info, Frame frame, Eyes eyes) const { dcp::FrameInfo frame_info; info->get().seek(frame_info_position(frame, eyes), SEEK_SET); info->get().checked_read(&frame_info.offset, sizeof(frame_info.offset)); info->get().checked_read(&frame_info.size, sizeof(frame_info.size)); char hash_buffer[33]; info->get().checked_read(hash_buffer, 32); hash_buffer[32] = '\0'; frame_info.hash = hash_buffer; return frame_info; } long ReelWriter::frame_info_position (Frame frame, Eyes eyes) const { switch (eyes) { case Eyes::BOTH: return frame * _info_size; case Eyes::LEFT: return frame * _info_size * 2; case Eyes::RIGHT: return frame * _info_size * 2 + _info_size; default: DCPOMATIC_ASSERT (false); } DCPOMATIC_ASSERT (false); } Frame ReelWriter::check_existing_picture_asset (boost::filesystem::path asset) { auto job = _job.lock (); if (job) { job->sub (_("Checking existing image data")); } /* Try to open the existing asset */ dcp::File asset_file(asset, "rb"); if (!asset_file) { LOG_GENERAL ("Could not open existing asset at %1 (errno=%2)", asset.string(), errno); return 0; } else { LOG_GENERAL ("Opened existing asset at %1", asset.string()); } shared_ptr info_file; try { info_file = film()->info_file_handle (_period, true); } catch (OpenFileError &) { LOG_GENERAL_NC ("Could not open film info file"); return 0; } /* Offset of the last dcp::FrameInfo in the info file */ int const n = (dcp::filesystem::file_size(info_file->get().path()) / _info_size) - 1; LOG_GENERAL ("The last FI is %1; info file is %2, info size %3", n, dcp::filesystem::file_size(info_file->get().path()), _info_size); Frame first_nonexistent_frame; if (film()->three_d()) { /* Start looking at the last left frame */ first_nonexistent_frame = n / 2; } else { first_nonexistent_frame = n; } while (!existing_picture_frame_ok(asset_file, info_file, first_nonexistent_frame) && first_nonexistent_frame > 0) { --first_nonexistent_frame; } if (!film()->three_d() && first_nonexistent_frame > 0) { /* If we are doing 3D we might have found a good L frame with no R, so only do this if we're in 2D and we've just found a good B(oth) frame. */ ++first_nonexistent_frame; } LOG_GENERAL ("Proceeding with first nonexistent frame %1", first_nonexistent_frame); return first_nonexistent_frame; } void ReelWriter::write (shared_ptr encoded, Frame frame, Eyes eyes) { if (!_picture_asset_writer) { /* We're not writing any data */ return; } auto fin = _picture_asset_writer->write (encoded->data(), encoded->size()); write_frame_info (frame, eyes, fin); _last_written[eyes] = encoded; } void ReelWriter::write (shared_ptr atmos, AtmosMetadata metadata) { if (!_atmos_asset) { _atmos_asset = metadata.create (dcp::Fraction(film()->video_frame_rate(), 1)); if (film()->encrypted()) { _atmos_asset->set_key(film()->key()); } _atmos_asset_writer = _atmos_asset->start_write ( film()->directory().get() / atmos_asset_filename (_atmos_asset, _reel_index, _reel_count, _content_summary) ); } _atmos_asset_writer->write (atmos); } void ReelWriter::fake_write (int size) { if (!_picture_asset_writer) { /* We're not writing any data */ return; } _picture_asset_writer->fake_write (size); } void ReelWriter::repeat_write (Frame frame, Eyes eyes) { if (!_picture_asset_writer) { /* We're not writing any data */ return; } auto fin = _picture_asset_writer->write(_last_written[eyes]->data(), _last_written[eyes]->size()); write_frame_info (frame, eyes, fin); } void ReelWriter::finish (boost::filesystem::path output_dcp) { if (_picture_asset_writer && !_picture_asset_writer->finalize ()) { /* Nothing was written to the picture asset */ LOG_GENERAL ("Nothing was written to reel %1 of %2", _reel_index, _reel_count); _picture_asset.reset (); } if (_sound_asset_writer && !_sound_asset_writer->finalize ()) { /* Nothing was written to the sound asset */ _sound_asset.reset (); } /* Hard-link any video asset file into the DCP */ if (_picture_asset) { DCPOMATIC_ASSERT (_picture_asset->file()); boost::filesystem::path video_from = _picture_asset->file().get(); boost::filesystem::path video_to = output_dcp; video_to /= video_asset_filename (_picture_asset, _reel_index, _reel_count, _content_summary); /* There may be an existing "to" file if we are recreating a DCP in the same place without changing any video. */ boost::system::error_code ec; dcp::filesystem::remove(video_to, ec); dcp::filesystem::create_hard_link(video_from, video_to, ec); if (ec) { LOG_WARNING("Hard-link failed (%1); copying instead", error_details(ec)); auto job = _job.lock (); if (job) { job->sub (_("Copying video file into DCP")); try { copy_in_bits (video_from, video_to, bind(&Job::set_progress, job.get(), _1, false)); } catch (exception& e) { LOG_ERROR ("Failed to copy video file from %1 to %2 (%3)", video_from.string(), video_to.string(), e.what()); throw FileError (e.what(), video_from); } } else { dcp::filesystem::copy_file(video_from, video_to, ec); if (ec) { LOG_ERROR("Failed to copy video file from %1 to %2 (%3)", video_from.string(), video_to.string(), error_details(ec)); throw FileError (ec.message(), video_from); } } } _picture_asset->set_file (video_to); } /* Move the audio asset into the DCP */ if (_sound_asset) { boost::filesystem::path audio_to = output_dcp; auto const aaf = audio_asset_filename (_sound_asset, _reel_index, _reel_count, _content_summary); audio_to /= aaf; boost::system::error_code ec; dcp::filesystem::rename(film()->file(aaf), audio_to, ec); if (ec) { throw FileError ( String::compose(_("could not move audio asset into the DCP (%1)"), error_details(ec)), aaf ); } _sound_asset->set_file (audio_to); } if (_atmos_asset) { _atmos_asset_writer->finalize (); boost::filesystem::path atmos_to = output_dcp; auto const aaf = atmos_asset_filename (_atmos_asset, _reel_index, _reel_count, _content_summary); atmos_to /= aaf; boost::system::error_code ec; dcp::filesystem::rename(film()->file(aaf), atmos_to, ec); if (ec) { throw FileError ( String::compose(_("could not move atmos asset into the DCP (%1)"), error_details(ec)), aaf ); } _atmos_asset->set_file (atmos_to); } } /** Try to make a ReelAsset for a subtitles or closed captions in a given period in the DCP. * A SubtitleAsset can be provided, or we will use one from @ref refs if not. */ template shared_ptr maybe_add_text ( shared_ptr asset, int64_t picture_duration, shared_ptr reel, int reel_index, int reel_count, optional content_summary, list const & refs, shared_ptr film, DCPTimePeriod period, boost::filesystem::path output_dcp, bool text_only ) { Frame const period_duration = period.duration().frames_round(film->video_frame_rate()); shared_ptr reel_asset; if (asset) { if (auto interop = dynamic_pointer_cast(asset)) { auto directory = output_dcp / interop->id (); dcp::filesystem::create_directories(directory); interop->write (directory / subtitle_asset_filename(asset, reel_index, reel_count, content_summary, ".xml")); reel_asset = make_shared ( interop, dcp::Fraction(film->video_frame_rate(), 1), picture_duration, 0 ); } else if (auto smpte = dynamic_pointer_cast(asset)) { /* All our assets should be the same length; use the picture asset length here as a reference to set the subtitle one. We'll use the duration rather than the intrinsic duration; we don't care if the picture asset has been trimmed, we're just interested in its presentation length. */ smpte->set_intrinsic_duration(picture_duration); smpte->write ( output_dcp / subtitle_asset_filename(asset, reel_index, reel_count, content_summary, ".mxf") ); reel_asset = make_shared ( smpte, dcp::Fraction(film->video_frame_rate(), 1), picture_duration, 0 ); } } else { /* We don't have a subtitle asset of our own; hopefully we have one to reference */ for (auto j: refs) { auto k = dynamic_pointer_cast (j.asset); if (k && j.period == period) { reel_asset = k; /* If we have a hash for this asset in the CPL, assume that it is correct */ if (k->hash()) { k->asset_ref()->set_hash (k->hash().get()); } } } } if (reel_asset) { if (!text_only && reel_asset->actual_duration() != period_duration) { throw ProgrammingError ( __FILE__, __LINE__, String::compose ("%1 vs %2", reel_asset->actual_duration(), period_duration) ); } reel->add (reel_asset); } return reel_asset; } shared_ptr ReelWriter::create_reel_picture (shared_ptr reel, list const & refs) const { shared_ptr reel_asset; if (_picture_asset) { /* We have made a picture asset of our own. Put it into the reel */ auto mono = dynamic_pointer_cast (_picture_asset); if (mono) { reel_asset = make_shared(mono, 0); } auto stereo = dynamic_pointer_cast (_picture_asset); if (stereo) { reel_asset = make_shared(stereo, 0); } } else { LOG_GENERAL ("no picture asset of our own; look through %1", refs.size()); /* We don't have a picture asset of our own; hopefully we have one to reference */ for (auto j: refs) { auto k = dynamic_pointer_cast (j.asset); if (k) { LOG_GENERAL ("candidate picture asset period is %1-%2", j.period.from.get(), j.period.to.get()); } if (k && j.period == _period) { reel_asset = k; } } } Frame const period_duration = _period.duration().frames_round(film()->video_frame_rate()); DCPOMATIC_ASSERT (reel_asset); if (reel_asset->duration() != period_duration) { throw ProgrammingError ( __FILE__, __LINE__, String::compose ("%1 vs %2", reel_asset->actual_duration(), period_duration) ); } reel->add (reel_asset); /* If we have a hash for this asset in the CPL, assume that it is correct */ if (reel_asset->hash()) { reel_asset->asset_ref()->set_hash (reel_asset->hash().get()); } return reel_asset; } void ReelWriter::create_reel_sound (shared_ptr reel, list const & refs) const { shared_ptr reel_asset; if (_sound_asset) { /* We have made a sound asset of our own. Put it into the reel */ reel_asset = make_shared(_sound_asset, 0); } else { LOG_GENERAL ("no sound asset of our own; look through %1", refs.size()); /* We don't have a sound asset of our own; hopefully we have one to reference */ for (auto j: refs) { auto k = dynamic_pointer_cast (j.asset); if (k) { LOG_GENERAL ("candidate sound asset period is %1-%2", j.period.from.get(), j.period.to.get()); } if (k && j.period == _period) { reel_asset = k; /* If we have a hash for this asset in the CPL, assume that it is correct */ if (k->hash()) { k->asset_ref()->set_hash (k->hash().get()); } } } } auto const period_duration = _period.duration().frames_round(film()->video_frame_rate()); DCPOMATIC_ASSERT (reel_asset); if (reel_asset->actual_duration() != period_duration) { LOG_ERROR ( "Reel sound asset has length %1 but reel period is %2", reel_asset->actual_duration(), period_duration ); if (reel_asset->actual_duration() != period_duration) { throw ProgrammingError ( __FILE__, __LINE__, String::compose ("%1 vs %2", reel_asset->actual_duration(), period_duration) ); } } reel->add (reel_asset); } void ReelWriter::create_reel_text ( shared_ptr reel, list const & refs, int64_t duration, boost::filesystem::path output_dcp, bool ensure_subtitles, set ensure_closed_captions ) const { auto subtitle = maybe_add_text ( _subtitle_asset, duration, reel, _reel_index, _reel_count, _content_summary, refs, film(), _period, output_dcp, _text_only ); if (!subtitle && ensure_subtitles) { /* We had no subtitle asset, but we've been asked to make sure there is one */ subtitle = maybe_add_text ( empty_text_asset(TextType::OPEN_SUBTITLE, optional(), true), duration, reel, _reel_index, _reel_count, _content_summary, refs, film(), _period, output_dcp, _text_only ); } if (subtitle) { /* We have a subtitle asset that we either made or are referencing */ if (auto main_language = film()->subtitle_languages().first) { subtitle->set_language (*main_language); } } for (auto const& i: _closed_caption_assets) { auto a = maybe_add_text ( i.second, duration, reel, _reel_index, _reel_count, _content_summary, refs, film(), _period, output_dcp, _text_only ); DCPOMATIC_ASSERT (a); a->set_annotation_text (i.first.name); if (i.first.language) { a->set_language (i.first.language.get()); } ensure_closed_captions.erase (i.first); } /* Make empty tracks for anything we've been asked to ensure but that we haven't added */ for (auto i: ensure_closed_captions) { auto a = maybe_add_text ( empty_text_asset(TextType::CLOSED_CAPTION, i, true), duration, reel, _reel_index, _reel_count, _content_summary, refs, film(), _period, output_dcp, _text_only ); DCPOMATIC_ASSERT (a); a->set_annotation_text (i.name); if (i.language) { a->set_language (i.language.get()); } } } void ReelWriter::create_reel_markers (shared_ptr reel) const { auto markers = film()->markers(); film()->add_ffoc_lfoc(markers); Film::Markers reel_markers; for (auto const& i: markers) { if (_period.contains(i.second)) { reel_markers[i.first] = i.second; } } if (!reel_markers.empty ()) { auto ma = make_shared(dcp::Fraction(film()->video_frame_rate(), 1), reel->duration()); for (auto const& i: reel_markers) { DCPTime relative = i.second - _period.from; auto hmsf = relative.split (film()->video_frame_rate()); ma->set (i.first, dcp::Time(hmsf.h, hmsf.m, hmsf.s, hmsf.f, film()->video_frame_rate())); } reel->add (ma); } } /** @param ensure_subtitles true to make sure the reel has a subtitle asset. * @param ensure_closed_captions make sure the reel has these closed caption tracks. */ shared_ptr ReelWriter::create_reel ( list const & refs, boost::filesystem::path output_dcp, bool ensure_subtitles, set ensure_closed_captions ) { LOG_GENERAL ("create_reel for %1-%2; %3 of %4", _period.from.get(), _period.to.get(), _reel_index, _reel_count); auto reel = make_shared(); /* This is a bit of a hack; in the strange `_text_only' mode we have no picture, so we don't know * how long the subtitle / CCAP assets should be. However, since we're only writing them to see * how big they are, we don't care about that. */ int64_t duration = 0; if (!_text_only) { auto reel_picture_asset = create_reel_picture (reel, refs); duration = reel_picture_asset->actual_duration (); create_reel_sound (reel, refs); if (!film()->interop()) { create_reel_markers(reel); } } create_reel_text(reel, refs, duration, output_dcp, ensure_subtitles, ensure_closed_captions); if (_atmos_asset) { reel->add (make_shared(_atmos_asset, 0)); } return reel; } /** @param set_progress Method to call with progress; first parameter is the number of bytes * done, second parameter is the number of bytes in total. */ void ReelWriter::calculate_digests(std::function set_progress) try { vector> assets; if (_picture_asset) { assets.push_back(_picture_asset); } if (_sound_asset) { assets.push_back(_sound_asset); } if (_atmos_asset) { assets.push_back(_atmos_asset); } int64_t total_size = 0; for (auto asset: assets) { total_size += asset->file() ? boost::filesystem::file_size(*asset->file()) : 0; } int64_t total_done = 0; for (auto asset: assets) { asset->hash([&total_done, total_size, set_progress](int64_t done, int64_t) { set_progress(total_done + done, total_size); }); total_done += asset->file() ? boost::filesystem::file_size(*asset->file()) : 0; } } catch (boost::thread_interrupted) { /* set_progress contains an interruption_point, so any of these methods * may throw thread_interrupted, at which point we just give up. */ } Frame ReelWriter::start () const { return _period.from.frames_floor (film()->video_frame_rate()); } void ReelWriter::write (shared_ptr audio) { if (!_sound_asset_writer) { return; } DCPOMATIC_ASSERT (audio); _sound_asset_writer->write(audio->data(), audio->channels(), audio->frames()); } shared_ptr ReelWriter::empty_text_asset (TextType type, optional track, bool with_dummy) const { shared_ptr asset; optional font; auto lang = film()->subtitle_languages(); if (film()->interop()) { auto s = make_shared(); s->set_movie_title (film()->name()); if (type == TextType::OPEN_SUBTITLE) { s->set_language (lang.first ? lang.first->to_string() : "Unknown"); } else if (track->language) { s->set_language (track->language->to_string()); } s->set_reel_number (raw_convert (_reel_index + 1)); asset = s; } else { auto s = make_shared(); s->set_content_title_text (film()->name()); s->set_metadata (mxf_metadata()); if (type == TextType::OPEN_SUBTITLE && lang.first) { s->set_language (*lang.first); } else if (track && track->language) { s->set_language (dcp::LanguageTag(track->language->to_string())); } s->set_edit_rate (dcp::Fraction (film()->video_frame_rate(), 1)); s->set_reel_number (_reel_index + 1); s->set_time_code_rate (film()->video_frame_rate()); s->set_start_time (dcp::Time ()); if (film()->encrypted()) { s->set_key (film()->key()); } asset = s; } if (with_dummy) { asset->add( std::make_shared( font, false, false, false, dcp::Colour(), 42, 1.0, dcp::Time(0, 0, 0, 0, 24), dcp::Time(0, 0, 1, 0, 24), 0.5, dcp::HAlign::CENTER, 0.5, dcp::VAlign::CENTER, 0, dcp::Direction::LTR, " ", dcp::Effect::NONE, dcp::Colour(), dcp::Time(), dcp::Time(), 0, std::vector() ) ); if (!film()->interop()) { /* We must have a LoadFont since we have a Text */ font = "font"; asset->ensure_font(*font, _default_font); } } return asset; } float ReelWriter::convert_vertical_position(StringText const& subtitle, dcp::TextStandard to) const { if (dcp::uses_baseline(subtitle.valign_standard) == dcp::uses_baseline(to)) { /* The from and to standards use the same alignment reference */ return subtitle.v_position(); } auto const baseline_to_bottom = _font_metrics.baseline_to_bottom(subtitle); auto const height = _font_metrics.height(subtitle); float correction = 0; switch (subtitle.v_align()) { case dcp::VAlign::TOP: correction = height - baseline_to_bottom; break; case dcp::VAlign::CENTER: correction = (height / 2) - baseline_to_bottom; break; case dcp::VAlign::BOTTOM: correction = baseline_to_bottom; break; } return subtitle.v_position() + (dcp::uses_bounding_box(subtitle.valign_standard) ? correction : -correction); } void ReelWriter::write(PlayerText subs, TextType type, optional track, DCPTimePeriod period, FontIdMap const& fonts, shared_ptr chosen_interop_font) { shared_ptr asset; switch (type) { case TextType::OPEN_SUBTITLE: asset = _subtitle_asset; break; case TextType::CLOSED_CAPTION: DCPOMATIC_ASSERT (track); asset = _closed_caption_assets[*track]; break; default: DCPOMATIC_ASSERT (false); } if (!asset) { asset = empty_text_asset (type, track, false); } switch (type) { case TextType::OPEN_SUBTITLE: _subtitle_asset = asset; break; case TextType::CLOSED_CAPTION: DCPOMATIC_ASSERT (track); _closed_caption_assets[*track] = asset; break; default: DCPOMATIC_ASSERT (false); } /* timecode rate for subtitles we emit; we might as well stick to ms accuracy here, I think */ auto const tcr = 1000; for (auto i: subs.string) { i.set_in (dcp::Time(period.from.seconds() - _period.from.seconds(), tcr)); i.set_out (dcp::Time(period.to.seconds() - _period.from.seconds(), tcr)); i.set_v_position(convert_vertical_position(i, film()->interop() ? dcp::TextStandard::INTEROP : dcp::TextStandard::SMPTE_2014)); auto sub = make_shared(i); /* i.font is a shared_ptr which uniquely identifies the font we want, * though if we are Interop we can only have one font, so we'll use the chosen * one instead. */ auto font = film()->interop() ? chosen_interop_font : i.font; /* We can get the corresponding ID from fonts */ auto const font_id_to_use = fonts.get(font); /* Give this subtitle the correct font ID */ sub->set_font(font_id_to_use); asset->add(sub); /* Make sure the asset LoadFonts the font we just asked for */ asset->ensure_font(font_id_to_use, font->data().get_value_or(_default_font)); } for (auto i: subs.bitmap) { asset->add ( make_shared( image_as_png(i.image), dcp::Time(period.from.seconds() - _period.from.seconds(), tcr), dcp::Time(period.to.seconds() - _period.from.seconds(), tcr), i.rectangle.x, dcp::HAlign::LEFT, i.rectangle.y, dcp::VAlign::TOP, 0, dcp::Time(), dcp::Time() ) ); } } bool ReelWriter::existing_picture_frame_ok (dcp::File& asset_file, shared_ptr info_file, Frame frame) const { LOG_GENERAL ("Checking existing picture frame %1", frame); /* Read the data from the info file; for 3D we just check the left frames until we find a good one. */ auto const info = read_frame_info (info_file, frame, film()->three_d() ? Eyes::LEFT : Eyes::BOTH); bool ok = true; /* Read the data from the asset and hash it */ asset_file.seek(info.offset, SEEK_SET); ArrayData data (info.size); size_t const read = asset_file.read(data.data(), 1, data.size()); LOG_GENERAL ("Read %1 bytes of asset data; wanted %2", read, info.size); if (read != static_cast (data.size ())) { LOG_GENERAL ("Existing frame %1 is incomplete", frame); ok = false; } else { Digester digester; digester.add (data.data(), data.size()); LOG_GENERAL ("Hash %1 vs %2", digester.get(), info.hash); if (digester.get() != info.hash) { LOG_GENERAL ("Existing frame %1 failed hash check", frame); ok = false; } } return ok; }