#include "overlaps.h"
#include "compose.hpp"
#include "dcp_decoder.h"
-#include "subtitle_content.h"
+#include "text_content.h"
#include <dcp/dcp.h>
#include <dcp/raw_convert.h>
#include <dcp/exceptions.h>
int const DCPContentProperty::NEEDS_KDM = 601;
int const DCPContentProperty::REFERENCE_VIDEO = 602;
int const DCPContentProperty::REFERENCE_AUDIO = 603;
-int const DCPContentProperty::REFERENCE_SUBTITLE = 604;
+int const DCPContentProperty::REFERENCE_TEXT = 604;
int const DCPContentProperty::NAME = 605;
-int const DCPContentProperty::HAS_SUBTITLES = 606;
+int const DCPContentProperty::TEXTS = 606;
DCPContent::DCPContent (shared_ptr<const Film> film, boost::filesystem::path p)
: Content (film)
, _kdm_valid (false)
, _reference_video (false)
, _reference_audio (false)
- , _reference_subtitle (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<const Film> film, cxml::ConstNodePtr node, int version)
{
video = VideoContent::from_xml (this, node, version);
audio = AudioContent::from_xml (this, node, version);
- subtitle = SubtitleContent::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 (
_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);
- _reference_subtitle = node->optional_bool_child ("ReferenceSubtitle").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") {
bool const needed_assets = needs_assets ();
bool const needed_kdm = needs_kdm ();
string const old_name = name ();
- bool had_subtitles = static_cast<bool> (subtitle);
+ int const old_texts = text.size ();
if (job) {
job->set_progress_unknown ();
signal_changed (AudioContentProperty::STREAMS);
}
- bool has_subtitles = false;
+ int texts = 0;
{
boost::mutex::scoped_lock lm (_mutex);
_name = examiner->name ();
- if (examiner->has_subtitles ()) {
- subtitle.reset (new SubtitleContent (this));
- } else {
- subtitle.reset ();
+ for (int i = 0; i < TEXT_COUNT; ++i) {
+ if (examiner->has_text(static_cast<TextType>(i))) {
+ text.push_back (shared_ptr<TextContent>(new TextContent(this, static_cast<TextType>(i), static_cast<TextType>(i))));
+ }
}
- has_subtitles = static_cast<bool> (subtitle);
+ texts = text.size ();
_encrypted = examiner->encrypted ();
_needs_assets = examiner->needs_assets ();
_kdm_valid = examiner->kdm_valid ();
_reel_lengths = examiner->reel_lengths ();
}
- if (had_subtitles != has_subtitles) {
- signal_changed (DCPContentProperty::HAS_SUBTITLES);
+ if (old_texts != texts) {
+ signal_changed (DCPContentProperty::TEXTS);
}
if (needed_assets != needs_assets ()) {
audio->stream()->mapping().as_xml (node->add_child("AudioMapping"));
}
- if (subtitle) {
- subtitle->as_xml (node);
+ BOOST_FOREACH (shared_ptr<TextContent> i, text) {
+ i->as_xml (node);
}
boost::mutex::scoped_lock lm (_mutex);
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("ReferenceSubtitle")->add_child_text (_reference_subtitle ? "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:
s += video->identifier() + "_";
}
- if (subtitle) {
- s += subtitle->identifier () + " ";
+ BOOST_FOREACH (shared_ptr<TextContent> i, text) {
+ s += i->identifier () + " ";
}
- s += string (_reference_video ? "1" : "0") + string (_reference_subtitle ? "1" : "0");
+ 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::set_reference_subtitle (bool r)
+DCPContent::set_reference_text (TextType type, bool r)
{
{
boost::mutex::scoped_lock lm (_mutex);
- _reference_subtitle = r;
+ _reference_text[type] = r;
}
- signal_changed (DCPContentProperty::REFERENCE_SUBTITLE);
+ signal_changed (DCPContentProperty::REFERENCE_TEXT);
}
list<DCPTimePeriod>
}
bool
-DCPContent::can_reference (function<shared_ptr<ContentPart> (shared_ptr<const Content>)> part, string overlapping, string& why_not) const
+DCPContent::can_reference (function<bool (shared_ptr<const Content>)> part, string overlapping, string& why_not) const
{
/* We must be using the same standard as the film */
if (_standard) {
return true;
}
+static
+bool check_video (shared_ptr<const Content> c)
+{
+ return static_cast<bool>(c->video);
+}
+
bool
DCPContent::can_reference_video (string& why_not) const
{
}
/// TRANSLATORS: this string will follow "Cannot reference this DCP: "
- return can_reference (bind (&Content::video, _1), _("it overlaps other video content; remove the other content."), why_not);
+ return can_reference (bind (&check_video, _1), _("it overlaps other video content; remove the other content."), why_not);
+}
+
+static
+bool check_audio (shared_ptr<const Content> c)
+{
+ return static_cast<bool>(c->audio);
}
bool
}
/// TRANSLATORS: this string will follow "Cannot reference this DCP: "
- return can_reference (bind (&Content::audio, _1), _("it overlaps other audio content; remove the other content."), why_not);
+ return can_reference (bind (&check_audio, _1), _("it overlaps other audio content; remove the other content."), why_not);
}
+static
+bool check_text (shared_ptr<const Content> c)
+{
+ return !c->text.empty();
+}
bool
-DCPContent::can_reference_subtitle (string& why_not) const
+DCPContent::can_reference_text (TextType type, string& why_not) const
{
shared_ptr<DCPDecoder> decoder;
try {
}
BOOST_FOREACH (shared_ptr<dcp::Reel> i, decoder->reels()) {
- if (!i->main_subtitle()) {
+ if (type == TEXT_OPEN_SUBTITLE && !i->main_subtitle()) {
/// TRANSLATORS: this string will follow "Cannot reference this DCP: "
- why_not = _("it does not have subtitles in all its reels.");
+ why_not = _("it does not have open subtitles in all its reels.");
return false;
}
+ if (type == TEXT_CLOSED_CAPTION && !i->closed_caption()) {
+ /// 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 (&Content::subtitle, _1), _("it overlaps other subtitle content; remove the other content."), why_not);
+ return can_reference (bind (&check_text, _1), _("it overlaps other text content; remove the other content."), why_not);
}
void
_reference_video = dc->_reference_video;
_reference_audio = dc->_reference_audio;
- _reference_subtitle = dc->_reference_subtitle;
+ for (int i = 0; i < TEXT_COUNT; ++i) {
+ _reference_text[i] = dc->_reference_text[i];
+ }
}
void