/* Copyright (C) 2013-2016 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 "playlist.h" #include "video_content.h" #include "subtitle_content.h" #include "ffmpeg_decoder.h" #include "ffmpeg_content.h" #include "image_decoder.h" #include "audio_content.h" #include "content_factory.h" #include "dcp_content.h" #include "job.h" #include "config.h" #include "util.h" #include "digester.h" #include #include #include #include #include #include "i18n.h" using std::list; using std::cout; using std::vector; using std::min; using std::max; using std::string; using std::pair; using boost::optional; using boost::shared_ptr; using boost::weak_ptr; using boost::dynamic_pointer_cast; Playlist::Playlist () : _sequence (true) , _sequencing (false) { } Playlist::~Playlist () { _content.clear (); reconnect (); } void Playlist::content_changed (weak_ptr content, int property, bool frequent) { if (property == ContentProperty::LENGTH || property == VideoContentProperty::FRAME_TYPE) { /* Don't respond to position changes here, as: - sequencing after earlier/later changes is handled by move_earlier/move_later - any other position changes will be timeline drags which should not result in content being sequenced. */ maybe_sequence (); } if ( property == ContentProperty::POSITION || property == ContentProperty::LENGTH || property == ContentProperty::TRIM_START || property == ContentProperty::TRIM_END) { ContentList old = _content; sort (_content.begin(), _content.end(), ContentSorter ()); if (_content != old) { OrderChanged (); } } ContentChanged (content, property, frequent); } void Playlist::maybe_sequence () { if (!_sequence || _sequencing) { return; } _sequencing = true; /* Keep track of the content that we've set the position of so that we don't do it twice. */ ContentList placed; /* Video */ DCPTime next_left; DCPTime next_right; BOOST_FOREACH (shared_ptr i, _content) { if (!i->video) { continue; } if (i->video->frame_type() == VIDEO_FRAME_TYPE_3D_RIGHT) { i->set_position (next_right); next_right = i->end(); } else { i->set_position (next_left); next_left = i->end(); } placed.push_back (i); } /* Subtitles */ DCPTime next; BOOST_FOREACH (shared_ptr i, _content) { if (!i->subtitle || find (placed.begin(), placed.end(), i) != placed.end()) { continue; } i->set_position (next); next = i->end(); } /* This won't change order, so it does not need a sort */ _sequencing = false; } string Playlist::video_identifier () const { string t; BOOST_FOREACH (shared_ptr i, _content) { if (i->video || (i->subtitle && i->subtitle->burn())) { t += i->identifier (); } } Digester digester; digester.add (t.c_str(), t.length()); return digester.get (); } /** @param film Film that this Playlist is for. * @param node <Playlist> node. * @param version Metadata version number. * @param notes Output notes about that happened. */ void Playlist::set_from_xml (shared_ptr film, cxml::ConstNodePtr node, int version, list& notes) { BOOST_FOREACH (cxml::NodePtr i, node->node_children ("Content")) { _content.push_back (content_factory (film, i, version, notes)); } /* This shouldn't be necessary but better safe than sorry (there could be old files) */ sort (_content.begin(), _content.end(), ContentSorter ()); reconnect (); } /** @param node <Playlist> node. * @param with_content_paths true to include <Path> nodes in <Content> nodes, false to omit them. */ void Playlist::as_xml (xmlpp::Node* node, bool with_content_paths) { BOOST_FOREACH (shared_ptr i, _content) { i->as_xml (node->add_child ("Content"), with_content_paths); } } void Playlist::add (shared_ptr c) { _content.push_back (c); sort (_content.begin(), _content.end(), ContentSorter ()); reconnect (); Changed (); } void Playlist::remove (shared_ptr c) { ContentList::iterator i = _content.begin (); while (i != _content.end() && *i != c) { ++i; } if (i != _content.end ()) { _content.erase (i); Changed (); } /* This won't change order, so it does not need a sort */ } void Playlist::remove (ContentList c) { BOOST_FOREACH (shared_ptr i, c) { ContentList::iterator j = _content.begin (); while (j != _content.end() && *j != i) { ++j; } if (j != _content.end ()) { _content.erase (j); } } /* This won't change order, so it does not need a sort */ Changed (); } class FrameRateCandidate { public: FrameRateCandidate (float source_, int dcp_) : source (source_) , dcp (dcp_) {} float source; int dcp; }; int Playlist::best_video_frame_rate () const { list const allowed_dcp_frame_rates = Config::instance()->allowed_dcp_frame_rates (); /* Work out what rates we could manage, including those achieved by using skip / repeat */ list candidates; /* Start with the ones without skip / repeat so they will get matched in preference to skipped/repeated ones */ for (list::const_iterator i = allowed_dcp_frame_rates.begin(); i != allowed_dcp_frame_rates.end(); ++i) { candidates.push_back (FrameRateCandidate (*i, *i)); } /* Then the skip/repeat ones */ for (list::const_iterator i = allowed_dcp_frame_rates.begin(); i != allowed_dcp_frame_rates.end(); ++i) { candidates.push_back (FrameRateCandidate (float (*i) / 2, *i)); candidates.push_back (FrameRateCandidate (float (*i) * 2, *i)); } /* Pick the best one */ float error = std::numeric_limits::max (); optional best; list::iterator i = candidates.begin(); while (i != candidates.end()) { float this_error = 0; BOOST_FOREACH (shared_ptr j, _content) { if (!j->video || !j->video_frame_rate()) { continue; } /* Best error for this content; we could use the content as-is or double its rate */ float best_error = min ( float (fabs (i->source - j->video_frame_rate().get())), float (fabs (i->source - j->video_frame_rate().get() * 2)) ); /* Use the largest difference between DCP and source as the "error" */ this_error = max (this_error, best_error); } if (this_error < error) { error = this_error; best = *i; } ++i; } if (!best) { return 24; } return best->dcp; } /** @return length of the playlist from time 0 to the last thing on the playlist */ DCPTime Playlist::length () const { DCPTime len; BOOST_FOREACH (shared_ptr i, _content) { len = max (len, i->end()); } return len; } /** @return position of the first thing on the playlist, if it's not empty */ optional Playlist::start () const { if (_content.empty ()) { return optional (); } DCPTime start = DCPTime::max (); BOOST_FOREACH (shared_ptr i, _content) { start = min (start, i->position ()); } return start; } void Playlist::reconnect () { for (list::iterator i = _content_connections.begin(); i != _content_connections.end(); ++i) { i->disconnect (); } _content_connections.clear (); BOOST_FOREACH (shared_ptr i, _content) { _content_connections.push_back (i->Changed.connect (bind (&Playlist::content_changed, this, _1, _2, _3))); } } DCPTime Playlist::video_end () const { DCPTime end; BOOST_FOREACH (shared_ptr i, _content) { if (i->video) { end = max (end, i->end ()); } } return end; } DCPTime Playlist::subtitle_end () const { DCPTime end; BOOST_FOREACH (shared_ptr i, _content) { if (i->subtitle) { end = max (end, i->end ()); } } return end; } FrameRateChange Playlist::active_frame_rate_change (DCPTime t, int dcp_video_frame_rate) const { for (ContentList::const_reverse_iterator i = _content.rbegin(); i != _content.rend(); ++i) { if (!(*i)->video) { continue; } if ((*i)->position() <= t) { /* This is the first piece of content (going backwards...) that starts before t, so it's the active one. */ if ((*i)->video_frame_rate ()) { /* This content specified a rate, so use it */ return FrameRateChange ((*i)->video_frame_rate().get(), dcp_video_frame_rate); } else { /* No specified rate so just use the DCP one */ return FrameRateChange (dcp_video_frame_rate, dcp_video_frame_rate); } } } return FrameRateChange (dcp_video_frame_rate, dcp_video_frame_rate); } void Playlist::set_sequence (bool s) { _sequence = s; } bool ContentSorter::operator() (shared_ptr a, shared_ptr b) { if (a->position() != b->position()) { return a->position() < b->position(); } /* Put video before audio if they start at the same time */ if (a->video && !b->video) { return true; } else if (!a->video && b->video) { return false; } /* Last resort */ return a->digest() < b->digest(); } /** @return content in ascending order of position */ ContentList Playlist::content () const { return _content; } void Playlist::repeat (ContentList c, int n) { pair range (DCPTime::max (), DCPTime ()); BOOST_FOREACH (shared_ptr i, c) { range.first = min (range.first, i->position ()); range.second = max (range.second, i->position ()); range.first = min (range.first, i->end ()); range.second = max (range.second, i->end ()); } DCPTime pos = range.second; for (int i = 0; i < n; ++i) { BOOST_FOREACH (shared_ptr j, c) { shared_ptr copy = j->clone (); copy->set_position (pos + copy->position() - range.first); _content.push_back (copy); } pos += range.second - range.first; } sort (_content.begin(), _content.end(), ContentSorter ()); reconnect (); Changed (); } void Playlist::move_earlier (shared_ptr c) { ContentList::iterator previous = _content.end (); ContentList::iterator i = _content.begin(); while (i != _content.end() && *i != c) { previous = i; ++i; } DCPOMATIC_ASSERT (i != _content.end ()); if (previous == _content.end ()) { return; } shared_ptr previous_c = *previous; DCPTime const p = previous_c->position (); previous_c->set_position (p + c->length_after_trim ()); c->set_position (p); } void Playlist::move_later (shared_ptr c) { ContentList::iterator i = _content.begin(); while (i != _content.end() && *i != c) { ++i; } DCPOMATIC_ASSERT (i != _content.end ()); ContentList::iterator next = i; ++next; if (next == _content.end ()) { return; } shared_ptr next_c = *next; next_c->set_position (c->position ()); c->set_position (c->position() + next_c->length_after_trim ()); } int64_t Playlist::required_disk_space (int j2k_bandwidth, int audio_channels, int audio_frame_rate) const { int64_t video = uint64_t (j2k_bandwidth / 8) * length().seconds (); int64_t audio = uint64_t (audio_channels * audio_frame_rate * 3) * length().seconds (); BOOST_FOREACH (shared_ptr i, _content) { shared_ptr d = dynamic_pointer_cast (i); if (d) { if (d->reference_video()) { video -= uint64_t (j2k_bandwidth / 8) * d->length_after_trim().seconds(); } if (d->reference_audio()) { audio -= uint64_t (audio_channels * audio_frame_rate * 3) * d->length_after_trim().seconds(); } } } /* Add on 64k for bits and pieces (metadata, subs etc) */ return video + audio + 65536; } string Playlist::content_summary (DCPTimePeriod period) const { string best_summary; int best_score = -1; BOOST_FOREACH (shared_ptr i, _content) { int score = 0; optional const o = DCPTimePeriod(i->position(), i->end()).overlap (period); if (o) { score += 100 * o.get().duration().get() / period.duration().get(); } if (i->video) { score += 100; } if (score > best_score) { best_summary = i->path(0).leaf().string(); best_score = score; } } return best_summary; } pair Playlist::speed_up_range (int dcp_video_frame_rate) const { pair range (DBL_MAX, -DBL_MAX); BOOST_FOREACH (shared_ptr i, _content) { if (!i->video) { continue; } if (i->video_frame_rate()) { FrameRateChange const frc (i->video_frame_rate().get(), dcp_video_frame_rate); range.first = min (range.first, frc.speed_up); range.second = max (range.second, frc.speed_up); } else { FrameRateChange const frc (dcp_video_frame_rate, dcp_video_frame_rate); range.first = min (range.first, frc.speed_up); range.second = max (range.second, frc.speed_up); } } return range; }