using std::pair;
using std::map;
using std::vector;
-using std::ifstream;
-using std::ofstream;
using std::setfill;
using std::min;
using std::make_pair;
using boost::ends_with;
using boost::starts_with;
using boost::optional;
-using libdcp::Size;
-using libdcp::Signer;
+using dcp::Size;
+using dcp::Signer;
-int const Film::state_version = 4;
+/* 5 -> 6
+ * AudioMapping XML changed.
+ * 6 -> 7
+ * Subtitle offset changed to subtitle y offset, and subtitle x offset added.
+ */
+int const Film::state_version = 7;
/** Construct a Film object in a given directory.
*
, _resolution (RESOLUTION_2K)
, _scaler (Scaler::from_id ("bicubic"))
, _with_subtitles (false)
+ , _signed (true)
, _encrypted (false)
, _j2k_bandwidth (Config::instance()->default_j2k_bandwidth ())
, _dci_metadata (Config::instance()->default_dci_metadata ())
<< "_" << scaler()->id()
<< "_" << j2k_bandwidth();
+ if (encrypted ()) {
+ s << "_E";
+ } else {
+ s << "_P";
+ }
+
if (_interop) {
s << "_I";
} else {
#else
log()->log ("libdcp built in optimised mode.");
#endif
+
+#ifdef DCPOMATIC_WINDOWS
+ OSVERSIONINFO info;
+ info.dwOSVersionInfoSize = sizeof (info);
+ GetVersionEx (&info);
+ log()->log (String::compose ("Windows version %1.%2.%3 SP %4", info.dwMajorVersion, info.dwMinorVersion, info.dwBuildNumber, info.szCSDVersion));
+#endif
+
log()->log (String::compose ("CPU: %1, %2 processors", cpu_info(), boost::thread::hardware_concurrency ()));
list<pair<string, string> > const m = mount_info ();
for (list<pair<string, string> >::const_iterator i = m.begin(); i != m.end(); ++i) {
root->add_child("ThreeD")->add_child_text (_three_d ? "1" : "0");
root->add_child("SequenceVideo")->add_child_text (_sequence_video ? "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 ());
_playlist->as_xml (root->add_child ("Playlist"));
cxml::Document f ("Metadata");
f.read_file (file ("metadata.xml"));
+
+ int const version = f.number_child<int> ("Version");
_name = f.string_child ("Name");
_use_dci_name = f.bool_child ("UseDCIName");
_dci_metadata = DCIMetadata (f.node_child ("DCIMetadata"));
_video_frame_rate = f.number_child<int> ("VideoFrameRate");
_dci_date = boost::gregorian::from_undelimited_string (f.string_child ("DCIDate"));
+ _signed = f.optional_bool_child("Signed").get_value_or (true);
_encrypted = f.bool_child ("Encrypted");
_audio_channels = f.number_child<int> ("AudioChannels");
_sequence_video = f.bool_child ("SequenceVideo");
_three_d = f.bool_child ("ThreeD");
_interop = f.bool_child ("Interop");
- _key = libdcp::Key (f.string_child ("Key"));
- _playlist->set_from_xml (shared_from_this(), f.node_child ("Playlist"));
+ _key = dcp::Key (f.string_child ("Key"));
+ _playlist->set_from_xml (shared_from_this(), f.node_child ("Playlist"), version);
_dirty = false;
}
if (!dm.audio_language.empty ()) {
d << "_" << dm.audio_language;
- if (!dm.subtitle_language.empty() && with_subtitles()) {
+ if (!dm.subtitle_language.empty()) {
d << "-" << dm.subtitle_language;
} else {
d << "-XX";
return file (p);
}
-/** @return List of subdirectories (not full paths) containing DCPs that can be successfully libdcp::DCP::read() */
+/** @return List of subdirectories (not full paths) containing DCPs that can be successfully dcp::DCP::read() */
list<boost::filesystem::path>
Film::dcps () const
{
) {
try {
- libdcp::DCP dcp (*i);
+ dcp::DCP dcp (*i);
dcp.read ();
out.push_back (i->path().leaf ());
} catch (...) {
return shared_ptr<Player> (new Player (shared_from_this (), _playlist));
}
+void
+Film::set_signed (bool s)
+{
+ _signed = s;
+ signal_changed (SIGNED);
+}
+
void
Film::set_encrypted (bool e)
{
_playlist->move_later (c);
}
-Time
+DCPTime
Film::length () const
{
return _playlist->length ();
return _playlist->has_subtitles ();
}
-OutputVideoFrame
+VideoFrame
Film::best_video_frame_rate () const
{
return _playlist->best_dcp_frame_rate ();
}
+FrameRateChange
+Film::active_frame_rate_change (DCPTime t) const
+{
+ return _playlist->active_frame_rate_change (t, video_frame_rate ());
+}
+
void
Film::playlist_content_changed (boost::weak_ptr<Content> c, int p)
{
signal_changed (CONTENT);
}
-OutputAudioFrame
-Film::time_to_audio_frames (Time t) const
+AudioFrame
+Film::time_to_audio_frames (DCPTime t) const
{
return t * audio_frame_rate () / TIME_HZ;
}
-OutputVideoFrame
-Film::time_to_video_frames (Time t) const
+VideoFrame
+Film::time_to_video_frames (DCPTime t) const
{
return t * video_frame_rate () / TIME_HZ;
}
-Time
-Film::audio_frames_to_time (OutputAudioFrame f) const
+DCPTime
+Film::audio_frames_to_time (AudioFrame f) const
{
return f * TIME_HZ / audio_frame_rate ();
}
-Time
-Film::video_frames_to_time (OutputVideoFrame f) const
+DCPTime
+Film::video_frames_to_time (VideoFrame f) const
{
return f * TIME_HZ / video_frame_rate ();
}
-OutputAudioFrame
+AudioFrame
Film::audio_frame_rate () const
{
/* XXX */
signal_changed (SEQUENCE_VIDEO);
}
-libdcp::Size
+dcp::Size
Film::full_frame () const
{
switch (_resolution) {
case RESOLUTION_2K:
- return libdcp::Size (2048, 1080);
+ return dcp::Size (2048, 1080);
case RESOLUTION_4K:
- return libdcp::Size (4096, 2160);
+ return dcp::Size (4096, 2160);
}
assert (false);
- return libdcp::Size ();
+ return dcp::Size ();
}
-libdcp::KDM
+dcp::KDM
Film::make_kdm (
- shared_ptr<libdcp::Certificate> target,
+ shared_ptr<dcp::Certificate> target,
boost::filesystem::path dcp_dir,
boost::posix_time::ptime from,
boost::posix_time::ptime until
{
shared_ptr<const Signer> signer = make_signer ();
- libdcp::DCP dcp (dir (dcp_dir.string ()));
+ dcp::DCP dcp (dir (dcp_dir.string ()));
try {
dcp.read ();
time_t now = time (0);
struct tm* tm = localtime (&now);
- string const issue_date = libdcp::tm_to_string (tm);
+ string const issue_date = dcp::tm_to_string (tm);
dcp.cpls().front()->set_mxf_keys (key ());
- return libdcp::KDM (dcp.cpls().front(), signer, target, from, until, "DCP-o-matic", issue_date);
+ return dcp::KDM (dcp.cpls().front(), signer, target, from, until, "DCP-o-matic", issue_date);
}
-list<libdcp::KDM>
+list<dcp::KDM>
Film::make_kdms (
list<shared_ptr<Screen> > screens,
boost::filesystem::path dcp,
boost::posix_time::ptime until
) const
{
- list<libdcp::KDM> kdms;
+ list<dcp::KDM> kdms;
for (list<shared_ptr<Screen> >::iterator i = screens.begin(); i != screens.end(); ++i) {
kdms.push_back (make_kdm ((*i)->certificate, dcp, from, until));
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 uint64_t (j2k_bandwidth() / 8) * length() / TIME_HZ;
+}
+
+/** 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 availabe are filled in with the amount of disk space
+ * required and available respectively (in Gb).
+ *
+ * Note: the decision made by this method isn't, of course, 100% reliable.
+ */
+bool
+Film::should_be_enough_disk_space (double& required, double& available) const
+{
+ boost::filesystem::space_info s = boost::filesystem::space (internal_video_mxf_dir ());
+ required = double (required_disk_space ()) / 1073741824.0f;
+ available = double (s.available) / 1073741824.0f;
+ return (available - required) > 1;
+}