/*
- Copyright (C) 2012-2018 Carl Hetherington <cth@carlh.net>
+ Copyright (C) 2012-2020 Carl Hetherington <cth@carlh.net>
This file is part of DCP-o-matic.
* how they should be presented in a DCP.
*/
+#include "atmos_content.h"
#include "film.h"
#include "job.h"
#include "util.h"
#include "upload_job.h"
#include "null_log.h"
#include "file_log.h"
+#include "dcpomatic_log.h"
#include "exceptions.h"
#include "examine_content_job.h"
#include "config.h"
#include "text_content.h"
#include "ffmpeg_content.h"
#include "dcp_content.h"
-#include "screen_kdm.h"
+#include "kdm_with_metadata.h"
#include "cinema.h"
#include "change_signaller.h"
#include "check_content_change_job.h"
+#include "ffmpeg_subtitle_stream.h"
+#include "font.h"
#include <libcxml/cxml.h>
#include <dcp/cpl.h>
#include <dcp/certificate_chain.h>
using std::copy;
using std::back_inserter;
using std::map;
+using std::exception;
+using std::find;
using boost::shared_ptr;
using boost::weak_ptr;
using boost::dynamic_pointer_cast;
using boost::optional;
using boost::is_any_of;
using dcp::raw_convert;
-
-#define LOG_GENERAL(...) log()->log (String::compose (__VA_ARGS__), LogEntry::TYPE_GENERAL);
-#define LOG_GENERAL_NC(...) log()->log (__VA_ARGS__, LogEntry::TYPE_GENERAL);
+using namespace dcpomatic;
string const Film::metadata_file = "metadata.xml";
* 36 -> 37
* TextContent can be in a Caption tag, and some of the tag names
* have had Subtitle prefixes or suffixes removed.
+ * 37 -> 38
+ * VideoContent scale expressed just as "guess" or "custom"
*/
-int const Film::current_state_version = 37;
+int const Film::current_state_version = 38;
/** Construct a Film object in a given directory.
*
, _dcp_content_type (Config::instance()->default_dcp_content_type ())
, _container (Config::instance()->default_container ())
, _resolution (RESOLUTION_2K)
- , _signed (true)
, _encrypted (false)
, _context_id (dcp::make_uuid ())
, _j2k_bandwidth (Config::instance()->default_j2k_bandwidth ())
, _audio_processor (0)
, _reel_type (REELTYPE_SINGLE)
, _reel_length (2000000000)
- , _upload_after_make_dcp (Config::instance()->default_upload_after_make_dcp())
+ , _reencode_j2k (false)
+ , _user_explicit_video_frame_rate (false)
+ , _user_explicit_container (false)
+ , _user_explicit_resolution (false)
, _state_version (current_state_version)
, _dirty (false)
+ , _tolerant (false)
{
set_isdcf_date_today ();
_playlist_change_connection = _playlist->Change.connect (bind (&Film::playlist_change, this, _1));
- _playlist_order_changed_connection = _playlist->OrderChanged.connect (bind (&Film::playlist_order_changed, this));
+ _playlist_order_changed_connection = _playlist->OrderChange.connect (bind (&Film::playlist_order_changed, this));
_playlist_content_change_connection = _playlist->ContentChange.connect (bind (&Film::playlist_content_change, this, _1, _2, _3, _4));
+ _playlist_length_change_connection = _playlist->LengthChange.connect (bind(&Film::playlist_length_change, this));
if (dir) {
/* Make state.directory a complete path without ..s (where possible)
boost::filesystem::path result;
for (boost::filesystem::path::iterator i = p.begin(); i != p.end(); ++i) {
if (*i == "..") {
- if (boost::filesystem::is_symlink (result) || result.filename() == "..") {
+ boost::system::error_code ec;
+ if (boost::filesystem::is_symlink(result, ec) || result.filename() == "..") {
result /= *i;
} else {
result = result.parent_path ();
+ "_" + raw_convert<string>(j2k_bandwidth());
if (encrypted ()) {
- s += "_E";
+ /* This is insecure but hey, the key is in plaintext in metadata.xml */
+ s += "_E" + _key.hex();
} else {
s += "_P";
}
digester.add (audio_processor()->id ());
}
+ digester.add (audio_channels());
+
+ p /= digester.get ();
+ return p;
+}
+
+
+boost::filesystem::path
+Film::subtitle_analysis_path (shared_ptr<const Content> content) const
+{
+ boost::filesystem::path p = dir ("analysis");
+
+ Digester digester;
+ digester.add (content->digest());
+
+ if (!content->text.empty()) {
+ shared_ptr<TextContent> tc = content->text.front();
+ digester.add (tc->x_scale());
+ digester.add (tc->y_scale());
+ BOOST_FOREACH (shared_ptr<dcpomatic::Font> i, tc->fonts()) {
+ digester.add (i->id());
+ }
+ if (tc->effect()) {
+ digester.add (tc->effect().get());
+ }
+ digester.add (tc->line_spacing());
+ digester.add (tc->outline_width());
+ }
+
+ shared_ptr<const FFmpegContent> fc = dynamic_pointer_cast<const FFmpegContent>(content);
+ if (fc) {
+ digester.add (fc->subtitle_stream()->identifier());
+ }
+
p /= digester.get ();
return p;
}
-/** Add suitable Jobs to the JobManager to create a DCP for this Film */
+
+/** Add suitable Jobs to the JobManager to create a DCP for this Film.
+ * @param gui true if this is being called from a GUI tool.
+ * @param check true to check the content in the project for changes before making the DCP.
+ */
void
-Film::make_dcp ()
+Film::make_dcp (bool gui, bool check)
{
if (dcp_name().find ("/") != string::npos) {
throw BadSettingError (_("name"), _("Cannot contain slashes"));
throw runtime_error (_("You must add some content to the DCP before creating it"));
}
+ if (length() == DCPTime()) {
+ throw runtime_error (_("The DCP is empty, perhaps because all the content has zero length."));
+ }
+
if (dcp_content_type() == 0) {
throw MissingSettingError (_("content type"));
}
shared_ptr<TranscodeJob> tj (new TranscodeJob (shared_from_this()));
tj->set_encoder (shared_ptr<Encoder> (new DCPEncoder (shared_from_this(), tj)));
- shared_ptr<CheckContentChangeJob> cc (new CheckContentChangeJob (shared_from_this(), tj));
- JobManager::instance()->add (cc);
+ if (check) {
+ shared_ptr<CheckContentChangeJob> cc (new CheckContentChangeJob(shared_from_this(), tj, gui));
+ JobManager::instance()->add (cc);
+ } else {
+ JobManager::instance()->add (tj);
+ }
}
/** Start a job to send our DCP to the configured TMS */
root->add_child("ThreeD")->add_child_text (_three_d ? "1" : "0");
root->add_child("Sequence")->add_child_text (_sequence ? "1" : "0");
root->add_child("Interop")->add_child_text (_interop ? "1" : "0");
- root->add_child("Signed")->add_child_text (_signed ? "1" : "0");
root->add_child("Encrypted")->add_child_text (_encrypted ? "1" : "0");
root->add_child("Key")->add_child_text (_key.hex ());
root->add_child("ContextID")->add_child_text (_context_id);
}
root->add_child("ReelType")->add_child_text (raw_convert<string> (static_cast<int> (_reel_type)));
root->add_child("ReelLength")->add_child_text (raw_convert<string> (_reel_length));
- root->add_child("UploadAfterMakeDCP")->add_child_text (_upload_after_make_dcp ? "1" : "0");
+ root->add_child("ReencodeJ2K")->add_child_text (_reencode_j2k ? "1" : "0");
+ root->add_child("UserExplicitVideoFrameRate")->add_child_text(_user_explicit_video_frame_rate ? "1" : "0");
+ for (map<dcp::Marker, DCPTime>::const_iterator i = _markers.begin(); i != _markers.end(); ++i) {
+ xmlpp::Element* m = root->add_child("Marker");
+ m->set_attribute("Type", dcp::marker_to_string(i->first));
+ m->add_child_text(raw_convert<string>(i->second.get()));
+ }
+ BOOST_FOREACH (dcp::Rating i, _ratings) {
+ i.as_xml (root->add_child("Rating"));
+ }
+ root->add_child("ContentVersion")->add_child_text(_content_version);
+ root->add_child("UserExplicitContainer")->add_child_text(_user_explicit_container ? "1" : "0");
+ root->add_child("UserExplicitResolution")->add_child_text(_user_explicit_resolution ? "1" : "0");
_playlist->as_xml (root->add_child ("Playlist"), with_content_paths);
return doc;
}
+void
+Film::write_metadata (boost::filesystem::path path) const
+{
+ shared_ptr<xmlpp::Document> doc = metadata ();
+ doc->write_to_file_formatted (path.string());
+}
+
/** Write state to our `metadata' file */
void
Film::write_metadata () const
path = file (metadata_file);
}
+ if (!boost::filesystem::exists(*path)) {
+ throw FileNotFoundError(*path);
+ }
+
cxml::Document f ("Metadata");
f.read_file (path.get ());
_state_version = f.number_child<int> ("Version");
if (_state_version > current_state_version) {
throw runtime_error (_("This film was created with a newer version of DCP-o-matic, and it cannot be loaded into this version. Sorry!"));
+ } else if (_state_version < current_state_version) {
+ /* This is an older version; save a copy (if we haven't already) */
+ boost::filesystem::path const older = path->parent_path() / String::compose("metadata.%1.xml", _state_version);
+ if (!boost::filesystem::is_regular_file(older)) {
+ try {
+ boost::filesystem::copy_file(*path, older);
+ } catch (...) {
+ /* Never mind; at least we tried */
+ }
+ }
}
_name = f.string_child ("Name");
_isdcf_date = boost::gregorian::from_undelimited_string (f.string_child ("DCIDate"));
}
+
{
optional<string> c = f.optional_string_child ("DCPContentType");
if (c) {
_resolution = string_to_resolution (f.string_child ("Resolution"));
_j2k_bandwidth = f.number_child<int> ("J2KBandwidth");
_video_frame_rate = f.number_child<int> ("VideoFrameRate");
- _signed = f.optional_bool_child("Signed").get_value_or (true);
_encrypted = f.bool_child ("Encrypted");
_audio_channels = f.number_child<int> ("AudioChannels");
/* We used to allow odd numbers (and zero) channels, but it's just not worth
_audio_processor = 0;
}
+ if (_audio_processor && !Config::instance()->show_experimental_audio_processors()) {
+ list<AudioProcessor const *> ap = AudioProcessor::visible();
+ if (find(ap.begin(), ap.end(), _audio_processor) == ap.end()) {
+ Config::instance()->set_show_experimental_audio_processors(true);
+ }
+ }
+
_reel_type = static_cast<ReelType> (f.optional_number_child<int>("ReelType").get_value_or (static_cast<int>(REELTYPE_SINGLE)));
_reel_length = f.optional_number_child<int64_t>("ReelLength").get_value_or (2000000000);
- _upload_after_make_dcp = f.optional_bool_child("UploadAfterMakeDCP").get_value_or (false);
+ _reencode_j2k = f.optional_bool_child("ReencodeJ2K").get_value_or(false);
+ _user_explicit_video_frame_rate = f.optional_bool_child("UserExplicitVideoFrameRate").get_value_or(false);
+
+ BOOST_FOREACH (cxml::ConstNodePtr i, f.node_children("Marker")) {
+ _markers[dcp::marker_from_string(i->string_attribute("Type"))] = DCPTime(dcp::raw_convert<DCPTime::Type>(i->content()));
+ }
+
+ BOOST_FOREACH (cxml::ConstNodePtr i, f.node_children("Rating")) {
+ _ratings.push_back (dcp::Rating(i));
+ }
+
+ _content_version = f.optional_string_child("ContentVersion").get_value_or("");
+
+ /* Disable guessing for files made in previous DCP-o-matic versions */
+ _user_explicit_container = f.optional_bool_child("UserExplicitContainer").get_value_or(true);
+ _user_explicit_resolution = f.optional_bool_child("UserExplicitResolution").get_value_or(true);
list<string> notes;
- /* This method is the only one that can return notes (so far) */
_playlist->set_from_xml (shared_from_this(), f.node_child ("Playlist"), _state_version, notes);
/* Write backtraces to this film's directory, until another film is loaded */
BOOST_FOREACH (shared_ptr<Content> i, content ()) {
if (i->video) {
/* Here's the first piece of video content */
- if (i->video->scale().ratio ()) {
- content_ratio = i->video->scale().ratio ();
- } else {
- content_ratio = Ratio::from_ratio (i->video->size().ratio ());
- }
+ content_ratio = Ratio::nearest_from_ratio(i->video->scaled_size(frame_size()).ratio());
break;
}
}
if (!dm.audio_language.empty ()) {
d += "_" + dm.audio_language;
- if (!dm.subtitle_language.empty()) {
- /* I'm not clear on the precise details of the convention for CCAP labelling;
- for now I'm just appending -CCAP if we have any closed captions.
- */
+ /* I'm not clear on the precise details of the convention for CCAP labelling;
+ for now I'm just appending -CCAP if we have any closed captions.
+ */
- bool burnt_in = true;
- bool ccap = false;
- BOOST_FOREACH (shared_ptr<Content> i, content()) {
- BOOST_FOREACH (shared_ptr<TextContent> j, i->text) {
- if (j->type() == TEXT_OPEN_SUBTITLE && j->use() && !j->burn()) {
+ optional<string> subtitle_language;
+ bool burnt_in = true;
+ bool ccap = false;
+ BOOST_FOREACH (shared_ptr<Content> i, content()) {
+ BOOST_FOREACH (shared_ptr<TextContent> j, i->text) {
+ if (j->type() == TEXT_OPEN_SUBTITLE && j->use()) {
+ subtitle_language = j->language ();
+ if (!j->burn()) {
burnt_in = false;
- } else if (j->type() == TEXT_CLOSED_CAPTION) {
- ccap = true;
}
+ } else if (j->type() == TEXT_CLOSED_CAPTION && j->use()) {
+ ccap = true;
}
}
+ }
- string language = dm.subtitle_language;
- if (burnt_in && language != "XX") {
- transform (language.begin(), language.end(), language.begin(), ::tolower);
+ if (dm.subtitle_language) {
+ /* Subtitle language is overridden in ISDCF metadata, primarily to handle
+ content with pre-burnt subtitles.
+ */
+ d += "-" + *dm.subtitle_language;
+ if (ccap) {
+ d += "-CCAP";
+ }
+ } else if (subtitle_language) {
+ /* Language is worked out from the content */
+ if (burnt_in && *subtitle_language != "XX") {
+ transform (subtitle_language->begin(), subtitle_language->end(), subtitle_language->begin(), ::tolower);
} else {
- transform (language.begin(), language.end(), language.begin(), ::toupper);
+ transform (subtitle_language->begin(), subtitle_language->end(), subtitle_language->begin(), ::toupper);
}
- d += "-" + language;
+ d += "-" + *subtitle_language;
if (ccap) {
d += "-CCAP";
}
} else {
+ /* No subtitles */
d += "-XX";
}
}
/* Count mapped audio channels */
- pair<int, int> ch = audio_channel_types (mapped_audio_channels(), audio_channels());
+ list<int> mapped = mapped_audio_channels ();
+
+ pair<int, int> ch = audio_channel_types (mapped, audio_channels());
if (!ch.first && !ch.second) {
d += "_MOS";
} else if (ch.first) {
d += String::compose("_%1%2", ch.first, ch.second);
}
- /* XXX: HI/VI */
+ if (audio_channels() > static_cast<int>(dcp::HI) && find(mapped.begin(), mapped.end(), dcp::HI) != mapped.end()) {
+ d += "-HI";
+ }
+ if (audio_channels() > static_cast<int>(dcp::VI) && find(mapped.begin(), mapped.end(), dcp::VI) != mapped.end()) {
+ d += "-VI";
+ }
d += "_" + resolution_to_string (_resolution);
_dcp_content_type = t;
}
+
+/** @param explicit_user true if this is being set because of
+ * a direct user request, false if it is being done because
+ * DCP-o-matic is guessing the best container to use.
+ */
void
-Film::set_container (Ratio const * c)
+Film::set_container (Ratio const * c, bool explicit_user)
{
ChangeSignaller<Film> ch (this, CONTAINER);
_container = c;
+
+ if (explicit_user) {
+ _user_explicit_container = true;
+ }
}
+
+/** @param explicit_user true if this is being set because of
+ * a direct user request, false if it is being done because
+ * DCP-o-matic is guessing the best resolution to use.
+ */
void
-Film::set_resolution (Resolution r)
+Film::set_resolution (Resolution r, bool explicit_user)
{
ChangeSignaller<Film> ch (this, RESOLUTION);
_resolution = r;
+
+ if (explicit_user) {
+ _user_explicit_resolution = true;
+ }
}
+
void
Film::set_j2k_bandwidth (int b)
{
_isdcf_metadata = m;
}
+/** @param f New frame rate.
+ * @param user_explicit true if this comes from a direct user instruction, false if it is from
+ * DCP-o-matic being helpful.
+ */
void
-Film::set_video_frame_rate (int f)
+Film::set_video_frame_rate (int f, bool user_explicit)
{
ChangeSignaller<Film> ch (this, VIDEO_FRAME_RATE);
_video_frame_rate = f;
+ if (user_explicit) {
+ _user_explicit_video_frame_rate = true;
+ }
}
void
}
void
-Film::set_upload_after_make_dcp (bool u)
+Film::set_reencode_j2k (bool r)
{
- ChangeSignaller<Film> ch (this, UPLOAD_AFTER_MAKE_DCP);
- _upload_after_make_dcp = u;
+ ChangeSignaller<Film> ch (this, REENCODE_J2K);
+ _reencode_j2k = r;
}
void
if (type == CHANGE_TYPE_DONE) {
_dirty = true;
- switch (p) {
- case Film::CONTENT:
- set_video_frame_rate (_playlist->best_video_frame_rate ());
- break;
- case Film::VIDEO_FRAME_RATE:
- case Film::SEQUENCE:
- _playlist->maybe_sequence ();
- break;
- default:
- break;
+ if (p == Film::CONTENT) {
+ if (!_user_explicit_video_frame_rate) {
+ set_video_frame_rate (best_video_frame_rate());
+ }
}
emit (boost::bind (boost::ref (Change), type, p));
+
+ if (p == Film::VIDEO_FRAME_RATE || p == Film::SEQUENCE) {
+ /* We want to call Playlist::maybe_sequence but this must happen after the
+ main signal emission (since the butler will see that emission and un-suspend itself).
+ */
+ emit (boost::bind(&Playlist::maybe_sequence, _playlist.get(), shared_from_this()));
+ }
} else {
Change (type, p);
}
return file (p);
}
-/** Find all the DCPs in our directory that can be dcp::DCP::read() and return details of their CPLs */
+static
+bool
+cpl_summary_compare (CPLSummary const & a, CPLSummary const & b)
+{
+ return a.last_write_time > b.last_write_time;
+}
+
+/** Find all the DCPs in our directory that can be dcp::DCP::read() and return details of their CPLs.
+ * The list will be returned in reverse order of timestamp (i.e. most recent first).
+ */
vector<CPLSummary>
Film::cpls () const
{
) {
try {
- dcp::DCP dcp (*i);
- dcp.read ();
- DCPOMATIC_ASSERT (dcp.cpls().front()->file());
- out.push_back (
- CPLSummary (
- i->path().leaf().string(),
- dcp.cpls().front()->id(),
- dcp.cpls().front()->annotation_text(),
- dcp.cpls().front()->file().get()
- )
- );
+ out.push_back (CPLSummary(*i));
} catch (...) {
}
}
}
- return out;
-}
+ sort (out.begin(), out.end(), cpl_summary_compare);
-void
-Film::set_signed (bool s)
-{
- ChangeSignaller<Film> ch (this, SIGNED);
- _signed = s;
+ return out;
}
void
_encrypted = e;
}
-void
-Film::set_key (dcp::Key key)
-{
- ChangeSignaller<Film> ch (this, KEY);
- _key = key;
-}
-
ContentList
Film::content () const
{
Film::examine_and_add_content (shared_ptr<Content> content, bool disable_audio_analysis)
{
if (dynamic_pointer_cast<FFmpegContent> (content) && _directory) {
- run_ffprobe (content->path(0), file ("ffprobe.log"), _log);
+ run_ffprobe (content->path(0), file("ffprobe.log"));
}
shared_ptr<Job> j (new ExamineContentJob (shared_from_this(), content));
if (Config::instance()->automatic_audio_analysis() && content->audio && !disable_audio_analysis) {
shared_ptr<Playlist> playlist (new Playlist);
- playlist->add (content);
+ playlist->add (shared_from_this(), content);
boost::signals2::connection c;
JobManager::instance()->analyse_audio (
shared_from_this(), playlist, false, c, bind (&Film::audio_analysis_finished, this)
{
/* Add {video,subtitle} content after any existing {video,subtitle} content */
if (c->video) {
- c->set_position (_playlist->video_end());
+ c->set_position (shared_from_this(), _playlist->video_end(shared_from_this()));
} else if (!c->text.empty()) {
- c->set_position (_playlist->text_end());
+ c->set_position (shared_from_this(), _playlist->text_end(shared_from_this()));
}
if (_template_film) {
}
}
- _playlist->add (c);
+ _playlist->add (shared_from_this(), c);
+
+ maybe_set_container_and_resolution ();
+ if (c->atmos) {
+ set_audio_channels (14);
+ set_interop (false);
+ }
+}
+
+
+void
+Film::maybe_set_container_and_resolution ()
+{
+ /* Get the only piece of video content, if there is only one */
+ shared_ptr<VideoContent> video;
+ BOOST_FOREACH (shared_ptr<const Content> i, _playlist->content()) {
+ if (i->video) {
+ if (!video) {
+ video = i->video;
+ } else {
+ video.reset ();
+ }
+ }
+ }
+
+ if (video) {
+ /* This is the only piece of video content in this Film. Use it to make a guess for
+ * DCP container size and resolution, unless the user has already explicitly set these
+ * things.
+ */
+ if (!_user_explicit_container) {
+ if (video->size().ratio() > 2.3) {
+ set_container (Ratio::from_id("239"), false);
+ } else {
+ set_container (Ratio::from_id("185"), false);
+ }
+ }
+
+ if (!_user_explicit_resolution) {
+ if (video->size_after_crop().width > 2048 || video->size_after_crop().height > 1080) {
+ set_resolution (RESOLUTION_4K, false);
+ } else {
+ set_resolution (RESOLUTION_2K, false);
+ }
+ }
+ }
}
void
Film::remove_content (shared_ptr<Content> c)
{
_playlist->remove (c);
+ maybe_set_container_and_resolution ();
}
void
Film::move_content_earlier (shared_ptr<Content> c)
{
- _playlist->move_earlier (c);
+ _playlist->move_earlier (shared_from_this(), c);
}
void
Film::move_content_later (shared_ptr<Content> c)
{
- _playlist->move_later (c);
+ _playlist->move_later (shared_from_this(), c);
}
-/** @return length of the film from time 0 to the last thing on the playlist */
+/** @return length of the film from time 0 to the last thing on the playlist,
+ * with a minimum length of 1 second.
+ */
DCPTime
Film::length () const
{
- return _playlist->length().ceil(video_frame_rate());
+ return max(DCPTime::from_seconds(1), _playlist->length(shared_from_this()).ceil(video_frame_rate()));
}
int
Film::best_video_frame_rate () const
{
- return _playlist->best_video_frame_rate ();
+ /* Don't default to anything above 30fps (make the user select that explicitly) */
+ int best = _playlist->best_video_frame_rate ();
+ if (best > 30) {
+ best /= 2;
+ }
+ return best;
}
FrameRateChange
if (type == CHANGE_TYPE_DONE) {
emit (boost::bind (boost::ref (ContentChange), type, c, p, frequent));
+ if (!frequent) {
+ check_settings_consistency ();
+ }
} else {
ContentChange (type, c, p, frequent);
}
+
+ _dirty = true;
+}
+
+void
+Film::playlist_length_change ()
+{
+ LengthChange ();
}
void
{
signal_change (type, CONTENT);
signal_change (type, NAME);
+
+ if (type == CHANGE_TYPE_DONE) {
+ check_settings_consistency ();
+ }
+
+ _dirty = true;
+}
+
+/** Check for (and if necessary fix) impossible settings combinations, like
+ * video set to being referenced when it can't be.
+ */
+void
+Film::check_settings_consistency ()
+{
+ optional<int> atmos_rate;
+ BOOST_FOREACH (shared_ptr<Content> i, content()) {
+
+ if (i->atmos) {
+ int rate = lrintf (i->atmos->edit_rate().as_float());
+ if (atmos_rate && *atmos_rate != rate) {
+ Message (_("You have more than one piece of Atmos content, and they do not have the same frame rate. You must remove some Atmos content."));
+ } else if (!atmos_rate && rate != video_frame_rate()) {
+ atmos_rate = rate;
+ set_video_frame_rate (rate, false);
+ Message (_("DCP-o-matic had to change your settings so that the film's frame rate is the same as that of your Atmos content."));
+ }
+ }
+ }
+
+ bool change_made = false;
+ BOOST_FOREACH (shared_ptr<Content> i, content()) {
+ shared_ptr<DCPContent> d = dynamic_pointer_cast<DCPContent>(i);
+ if (!d) {
+ continue;
+ }
+
+ string why_not;
+ if (d->reference_video() && !d->can_reference_video(shared_from_this(), why_not)) {
+ d->set_reference_video(false);
+ change_made = true;
+ }
+ if (d->reference_audio() && !d->can_reference_audio(shared_from_this(), why_not)) {
+ d->set_reference_audio(false);
+ change_made = true;
+ }
+ }
+
+ if (change_made) {
+ Message (_("DCP-o-matic had to change your settings for referring to DCPs as OV. Please review those settings to make sure they are what you want."));
+ }
}
void
int
Film::audio_frame_rate () const
{
- BOOST_FOREACH (shared_ptr<Content> i, content ()) {
- if (i->audio && i->audio->has_rate_above_48k ()) {
- return 96000;
- }
- }
-
+ /* It seems that nobody makes 96kHz DCPs at the moment, so let's avoid them.
+ See #1436.
+ */
return 48000;
}
}
/** @param recipient KDM recipient certificate.
- * @param trusted_devices Certificates of other trusted devices (can be empty).
+ * @param trusted_devices Certificate thumbprints of other trusted devices (can be empty).
* @param cpl_file CPL filename.
* @param from KDM from time expressed as a local time with an offset from UTC.
* @param until KDM to time expressed as a local time with an offset from UTC.
dcp::EncryptedKDM
Film::make_kdm (
dcp::Certificate recipient,
- vector<dcp::Certificate> trusted_devices,
+ vector<string> trusted_devices,
boost::filesystem::path cpl_file,
dcp::LocalTime from,
dcp::LocalTime until,
map<shared_ptr<const dcp::ReelMXF>, dcp::Key> keys;
- BOOST_FOREACH(shared_ptr<const dcp::ReelAsset> i, cpl->reel_assets ()) {
- shared_ptr<const dcp::ReelMXF> mxf = boost::dynamic_pointer_cast<const dcp::ReelMXF> (i);
- if (!mxf || !mxf->key_id()) {
+ BOOST_FOREACH(shared_ptr<const dcp::ReelMXF> i, cpl->reel_mxfs()) {
+ if (!i->key_id()) {
continue;
}
/* Get any imported key for this ID */
bool done = false;
BOOST_FOREACH (dcp::DecryptedKDMKey j, imported_keys) {
- if (j.id() == mxf->key_id().get()) {
- LOG_GENERAL ("Using imported key for %1", mxf->key_id().get());
- keys[mxf] = j.key();
+ if (j.id() == i->key_id().get()) {
+ LOG_GENERAL ("Using imported key for %1", i->key_id().get());
+ keys[i] = j.key();
done = true;
}
}
if (!done) {
/* No imported key; it must be an asset that we encrypted */
- LOG_GENERAL ("Using our own key for %1", mxf->key_id().get());
- keys[mxf] = key();
+ LOG_GENERAL ("Using our own key for %1", i->key_id().get());
+ keys[i] = key();
}
}
).encrypt (signer, recipient, trusted_devices, formulation, disable_forensic_marking_picture, disable_forensic_marking_audio);
}
-/** @param screens Screens to make KDMs for.
- * @param cpl_file Path to CPL to make KDMs for.
- * @param from KDM from time expressed as a local time in the time zone of the Screen's Cinema.
- * @param until KDM to time expressed as a local time in the time zone of the Screen's Cinema.
- * @param formulation KDM formulation to use.
- * @param disable_forensic_marking_picture true to disable forensic marking of picture.
- * @param disable_forensic_marking_audio if not set, don't disable forensic marking of audio. If set to 0,
- * disable all forensic marking; if set above 0, disable forensic marking above that channel.
- */
-list<ScreenKDM>
-Film::make_kdms (
- list<shared_ptr<Screen> > screens,
- boost::filesystem::path cpl_file,
- boost::posix_time::ptime from,
- boost::posix_time::ptime until,
- dcp::Formulation formulation,
- bool disable_forensic_marking_picture,
- optional<int> disable_forensic_marking_audio
- ) const
-{
- list<ScreenKDM> kdms;
-
- BOOST_FOREACH (shared_ptr<Screen> i, screens) {
- if (i->recipient) {
- dcp::EncryptedKDM const kdm = make_kdm (
- i->recipient.get(),
- i->trusted_devices,
- cpl_file,
- dcp::LocalTime (from, i->cinema->utc_offset_hour(), i->cinema->utc_offset_minute()),
- dcp::LocalTime (until, i->cinema->utc_offset_hour(), i->cinema->utc_offset_minute()),
- formulation,
- disable_forensic_marking_picture,
- disable_forensic_marking_audio
- );
-
- kdms.push_back (ScreenKDM (i, kdm));
- }
- }
-
- return kdms;
-}
/** @return The approximate disk space required to encode a DCP of this film with the
* current settings, in bytes.
uint64_t
Film::required_disk_space () const
{
- return _playlist->required_disk_space (j2k_bandwidth(), audio_channels(), audio_frame_rate());
+ return _playlist->required_disk_space (shared_from_this(), j2k_bandwidth(), audio_channels(), audio_frame_rate());
}
/** This method checks the disk that the Film is on and tries to decide whether or not
* there will be enough space to make a DCP for it. If so, true is returned; if not,
* false is returned and required and available are filled in with the amount of disk space
- * required and available respectively (in Gb).
+ * required and available respectively (in GB).
*
* Note: the decision made by this method isn't, of course, 100% reliable.
*/
return all;
}
-/** Change the gains of the supplied AudioMapping to make it a default
- * for this film. The defaults are guessed based on what processor (if any)
- * is in use, the number of input channels and any filename supplied.
- */
-void
-Film::make_audio_mapping_default (AudioMapping& mapping, optional<boost::filesystem::path> filename) const
-{
- static string const regex[] = {
- ".*[\\._-]L[\\._-].*",
- ".*[\\._-]R[\\._-].*",
- ".*[\\._-]C[\\._-].*",
- ".*[\\._-]Lfe[\\._-].*",
- ".*[\\._-]Ls[\\._-].*",
- ".*[\\._-]Rs[\\._-].*"
- };
-
- static int const regexes = sizeof(regex) / sizeof(*regex);
-
- if (audio_processor ()) {
- audio_processor()->make_audio_mapping_default (mapping);
- } else {
- mapping.make_zero ();
- if (mapping.input_channels() == 1) {
- bool guessed = false;
-
- /* See if we can guess where this stream should go */
- if (filename) {
- for (int i = 0; i < regexes; ++i) {
- boost::regex e (regex[i], boost::regex::icase);
- if (boost::regex_match (filename->string(), e) && i < mapping.output_channels()) {
- mapping.set (0, i, 1);
- guessed = true;
- }
- }
- }
-
- if (!guessed) {
- /* If we have no idea, just put it on centre */
- mapping.set (0, static_cast<int> (dcp::CENTRE), 1);
- }
- } else {
- /* 1:1 mapping */
- for (int i = 0; i < min (mapping.input_channels(), mapping.output_channels()); ++i) {
- mapping.set (i, i, 1);
- }
- }
- }
-}
-
/** @return The names of the channels that audio contents' outputs are passed into;
* this is either the DCP or a AudioProcessor.
*/
void
Film::repeat_content (ContentList c, int n)
{
- _playlist->repeat (c, n);
+ _playlist->repeat (shared_from_this(), c, n);
}
void
break;
case REELTYPE_BY_VIDEO_CONTENT:
{
- optional<DCPTime> last_split;
- shared_ptr<Content> last_video;
- BOOST_FOREACH (shared_ptr<Content> c, content ()) {
+ /* Collect all reel boundaries */
+ list<DCPTime> split_points;
+ split_points.push_back (DCPTime());
+ split_points.push_back (len);
+ BOOST_FOREACH (shared_ptr<Content> c, content()) {
if (c->video) {
- BOOST_FOREACH (DCPTime t, c->reel_split_points()) {
- if (last_split) {
- p.push_back (DCPTimePeriod (last_split.get(), t));
- }
- last_split = t;
+ BOOST_FOREACH (DCPTime t, c->reel_split_points(shared_from_this())) {
+ split_points.push_back (t);
}
- last_video = c;
+ split_points.push_back (c->end(shared_from_this()));
}
}
- DCPTime video_end = last_video ? last_video->end() : DCPTime(0);
- if (last_split) {
- /* Definitely go from the last split to the end of the video content */
- p.push_back (DCPTimePeriod (last_split.get(), video_end));
- }
-
- if (video_end < len) {
- /* And maybe go after that as well if there is any non-video hanging over the end */
- p.push_back (DCPTimePeriod (video_end, len));
+ split_points.sort ();
+ split_points.unique ();
+
+ /* Make them into periods, coalescing any that are less than 1 second long */
+ optional<DCPTime> last;
+ BOOST_FOREACH (DCPTime t, split_points) {
+ if (last && (t - *last) >= DCPTime::from_seconds(1)) {
+ /* Period from *last to t is long enough; use it and start a new one */
+ p.push_back (DCPTimePeriod(*last, t));
+ last = t;
+ } else if (!last) {
+ /* That was the first time, so start a new period */
+ last = t;
+ }
}
break;
}
case REELTYPE_BY_LENGTH:
{
DCPTime current;
- /* Integer-divide reel length by the size of one frame to give the number of frames per reel */
- Frame const reel_in_frames = _reel_length / ((j2k_bandwidth() / video_frame_rate()) / 8);
+ /* Integer-divide reel length by the size of one frame to give the number of frames per reel,
+ * making sure we don't go less than 1s long.
+ */
+ Frame const reel_in_frames = max(_reel_length / ((j2k_bandwidth() / video_frame_rate()) / 8), static_cast<Frame>(video_frame_rate()));
while (current < len) {
DCPTime end = min (len, current + DCPTime::from_frames (reel_in_frames, video_frame_rate ()));
p.push_back (DCPTimePeriod (current, end));
string
Film::content_summary (DCPTimePeriod period) const
{
- return _playlist->content_summary (period);
+ return _playlist->content_summary (shared_from_this(), period);
}
void
_resolution = _template_film->_resolution;
_j2k_bandwidth = _template_film->_j2k_bandwidth;
_video_frame_rate = _template_film->_video_frame_rate;
- _signed = _template_film->_signed;
_encrypted = _template_film->_encrypted;
_audio_channels = _template_film->_audio_channels;
_sequence = _template_film->_sequence;
_audio_processor = _template_film->_audio_processor;
_reel_type = _template_film->_reel_type;
_reel_length = _template_film->_reel_length;
- _upload_after_make_dcp = _template_film->_upload_after_make_dcp;
_isdcf_metadata = _template_film->_isdcf_metadata;
}
return false;
}
+
+bool
+Film::contains_atmos_content () const
+{
+ BOOST_FOREACH (shared_ptr<Content> i, _playlist->content()) {
+ if (i->atmos) {
+ return true;
+ }
+ }
+
+ return false;
+}
+
+
list<DCPTextTrack>
Film::closed_caption_tracks () const
{
list<DCPTextTrack> tt;
BOOST_FOREACH (shared_ptr<Content> i, content()) {
BOOST_FOREACH (shared_ptr<TextContent> j, i->text) {
- /* XXX: Empty DCPTextTrack ends up being a magic value here */
+ /* XXX: Empty DCPTextTrack ends up being a magic value here - the "unknown" or "not specified" track */
DCPTextTrack dtt = j->dcp_track().get_value_or(DCPTextTrack());
if (j->type() == TEXT_CLOSED_CAPTION && find(tt.begin(), tt.end(), dtt) == tt.end()) {
tt.push_back (dtt);
return tt;
}
+
+void
+Film::set_marker (dcp::Marker type, DCPTime time)
+{
+ ChangeSignaller<Film> ch (this, MARKERS);
+ _markers[type] = time;
+}
+
+void
+Film::unset_marker (dcp::Marker type)
+{
+ ChangeSignaller<Film> ch (this, MARKERS);
+ _markers.erase (type);
+}
+
+
+void
+Film::clear_markers ()
+{
+ ChangeSignaller<Film> ch (this, MARKERS);
+ _markers.clear ();
+}
+
+
+void
+Film::set_ratings (vector<dcp::Rating> r)
+{
+ ChangeSignaller<Film> ch (this, RATINGS);
+ _ratings = r;
+}
+
+void
+Film::set_content_version (string v)
+{
+ ChangeSignaller<Film> ch (this, CONTENT_VERSION);
+ _content_version = v;
+}
+
+optional<DCPTime>
+Film::marker (dcp::Marker type) const
+{
+ map<dcp::Marker, DCPTime>::const_iterator i = _markers.find (type);
+ if (i == _markers.end()) {
+ return optional<DCPTime>();
+ }
+ return i->second;
+}
+
+shared_ptr<InfoFileHandle>
+Film::info_file_handle (DCPTimePeriod period, bool read) const
+{
+ return shared_ptr<InfoFileHandle> (new InfoFileHandle(_info_file_mutex, info_file(period), read));
+}
+
+InfoFileHandle::InfoFileHandle (boost::mutex& mutex, boost::filesystem::path file, bool read)
+ : _lock (mutex)
+ , _file (file)
+{
+ if (read) {
+ _handle = fopen_boost (file, "rb");
+ if (!_handle) {
+ throw OpenFileError (file, errno, OpenFileError::READ);
+ }
+ } else {
+ bool const exists = boost::filesystem::exists (file);
+ if (exists) {
+ _handle = fopen_boost (file, "r+b");
+ } else {
+ _handle = fopen_boost (file, "wb");
+ }
+
+ if (!_handle) {
+ throw OpenFileError (file, errno, exists ? OpenFileError::READ_WRITE : OpenFileError::WRITE);
+ }
+ }
+}
+
+InfoFileHandle::~InfoFileHandle ()
+{
+ fclose (_handle);
+}