#include "film.h"
#include "transcoder.h"
#include "log.h"
+#include "safe_stringstream.h"
#include "i18n.h"
+#define LOG_GENERAL_NC(...) _film->log()->log (__VA_ARGS__, Log::TYPE_GENERAL);
+#define LOG_ERROR_NC(...) _film->log()->log (__VA_ARGS__, Log::TYPE_ERROR);
+
using std::string;
-using std::stringstream;
using std::fixed;
using std::setprecision;
+using std::cout;
using boost::shared_ptr;
/** @param s Film to use.
{
try {
- _film->log()->log (N_("Transcode job starting"));
+ LOG_GENERAL_NC (N_("Transcode job starting"));
_transcoder.reset (new Transcoder (_film, shared_from_this ()));
_transcoder->go ();
set_progress (1);
set_state (FINISHED_OK);
- _film->log()->log (N_("Transcode job completed successfully"));
+ LOG_GENERAL_NC (N_("Transcode job completed successfully"));
_transcoder.reset ();
} catch (...) {
set_progress (1);
set_state (FINISHED_ERROR);
- _film->log()->log (N_("Transcode job failed or cancelled"));
+ LOG_ERROR_NC (N_("Transcode job failed or cancelled"));
_transcoder.reset ();
throw;
}
return Job::status ();
}
- stringstream s;
+ SafeStringStream s;
s << Job::status ();
if (!finished () && !_transcoder->finishing ()) {
- s << "; " << fixed << setprecision (1) << fps << " " << _("frames per second");
+ /* TRANSLATORS: fps here is an abbreviation for frames per second */
+ s << "; " << fixed << setprecision (1) << fps << " " << _("fps");
}
return s.str ();
}
+/** @return Approximate remaining time in seconds */
int
TranscodeJob::remaining_time () const
{
- if (!_transcoder) {
+ /* _transcoder might be destroyed by the job-runner thread */
+ shared_ptr<Transcoder> t = _transcoder;
+
+ if (!t) {
return 0;
}
- float fps = _transcoder->current_encoding_rate ();
+ float fps = t->current_encoding_rate ();
if (fps == 0) {
return 0;
}
/* Compute approximate proposed length here, as it's only here that we need it */
- OutputVideoFrame const left = _film->time_to_video_frames (_film->length ()) - _transcoder->video_frames_out();
- return left / fps;
+ return (_film->length().frames (_film->video_frame_rate ()) - t->video_frames_out()) / fps;
}