using System;
using System.Collections.Generic;
using System.Linq;
using ConfusedPolarBear.Plugin.IntroSkipper.Configuration;
using ConfusedPolarBear.Plugin.IntroSkipper.Data;
using Jellyfin.Data.Enums;
using Microsoft.Extensions.Logging;
namespace ConfusedPolarBear.Plugin.IntroSkipper.Analyzers
{
///
/// Analyzer Helper.
///
public class AnalyzerHelper
{
private readonly ILogger _logger;
private readonly double _silenceDetectionMinimumDuration;
///
/// Initializes a new instance of the class.
///
/// Logger.
public AnalyzerHelper(ILogger logger)
{
var config = Plugin.Instance?.Configuration ?? new PluginConfiguration();
_silenceDetectionMinimumDuration = config.SilenceDetectionMinimumDuration;
_logger = logger;
}
///
/// Adjusts the end timestamps of all intros so that they end at silence.
///
/// QueuedEpisodes to adjust.
/// Original introductions.
/// Analysis mode.
/// Modified Intro Timestamps.
public Dictionary AdjustIntroTimes(
IReadOnlyList episodes,
IReadOnlyDictionary originalIntros,
MediaSegmentType mode)
{
return episodes
.Where(episode => originalIntros.TryGetValue(episode.EpisodeId, out var _))
.ToDictionary(
episode => episode.EpisodeId,
episode => AdjustIntroForEpisode(episode, originalIntros[episode.EpisodeId], mode));
}
private Segment AdjustIntroForEpisode(QueuedEpisode episode, Segment originalIntro, MediaSegmentType mode)
{
_logger.LogTrace("{Name} original intro: {Start} - {End}", episode.Name, originalIntro.Start, originalIntro.End);
var adjustedIntro = new Segment(originalIntro);
var originalIntroStart = new TimeRange(Math.Max(0, (int)originalIntro.Start - 5), (int)originalIntro.Start + 10);
var originalIntroEnd = new TimeRange((int)originalIntro.End - 10, Math.Min(episode.Duration, (int)originalIntro.End + 5));
if (!AdjustIntroBasedOnChapters(episode, adjustedIntro, originalIntroStart, originalIntroEnd) && mode == MediaSegmentType.Intro)
{
AdjustIntroBasedOnSilence(episode, adjustedIntro, originalIntroEnd);
}
return adjustedIntro;
}
private bool AdjustIntroBasedOnChapters(QueuedEpisode episode, Segment adjustedIntro, TimeRange originalIntroStart, TimeRange originalIntroEnd)
{
var chapters = Plugin.Instance?.GetChapters(episode.EpisodeId) ?? [];
double previousTime = 0;
for (int i = 0; i <= chapters.Count; i++)
{
double currentTime = i < chapters.Count
? TimeSpan.FromTicks(chapters[i].StartPositionTicks).TotalSeconds
: episode.Duration;
if (originalIntroStart.Start < previousTime && previousTime < originalIntroStart.End)
{
adjustedIntro.Start = previousTime;
_logger.LogTrace("{Name} chapter found close to intro start: {Start}", episode.Name, previousTime);
}
if (originalIntroEnd.Start < currentTime && currentTime < originalIntroEnd.End)
{
adjustedIntro.End = currentTime;
_logger.LogTrace("{Name} chapter found close to intro end: {End}", episode.Name, currentTime);
return true;
}
previousTime = currentTime;
}
return false;
}
private void AdjustIntroBasedOnSilence(QueuedEpisode episode, Segment adjustedIntro, TimeRange originalIntroEnd)
{
var silence = FFmpegWrapper.DetectSilence(episode, originalIntroEnd);
foreach (var currentRange in silence)
{
_logger.LogTrace("{Name} silence: {Start} - {End}", episode.Name, currentRange.Start, currentRange.End);
if (IsValidSilenceForIntroAdjustment(currentRange, originalIntroEnd, adjustedIntro))
{
adjustedIntro.End = currentRange.Start;
break;
}
}
}
private bool IsValidSilenceForIntroAdjustment(TimeRange silenceRange, TimeRange originalIntroEnd, Segment adjustedIntro)
{
return originalIntroEnd.Intersects(silenceRange) &&
silenceRange.Duration >= _silenceDetectionMinimumDuration &&
silenceRange.Start >= adjustedIntro.Start;
}
}
}