// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using System; using System.Collections.Generic; using System.Linq; using JetBrains.Annotations; using osu.Framework.Allocation; using osu.Framework.Audio; using osu.Framework.Audio.Track; using osu.Framework.Bindables; using osu.Framework.Graphics; using osu.Framework.Graphics.Audio; using osu.Framework.Graphics.Containers; using osu.Framework.Utils; using osu.Framework.Threading; using osu.Game.Beatmaps; using osu.Game.Rulesets.Mods; namespace osu.Game.Overlays { /// /// Handles playback of the global music track. /// public class MusicController : CompositeDrawable { [Resolved] private BeatmapManager beatmaps { get; set; } public IBindableList BeatmapSets { get { if (LoadState < LoadState.Ready) throw new InvalidOperationException($"{nameof(BeatmapSets)} should not be accessed before the music controller is loaded."); return beatmapSets; } } /// /// Point in time after which the current track will be restarted on triggering a "previous track" action. /// private const double restart_cutoff_point = 5000; private readonly BindableList beatmapSets = new BindableList(); public bool IsUserPaused { get; private set; } /// /// Fired when the global has changed. /// Includes direction information for display purposes. /// public event Action TrackChanged; [Resolved] private IBindable beatmap { get; set; } [Resolved] private IBindable> mods { get; set; } [NotNull] public DrawableTrack CurrentTrack { get; private set; } = new DrawableTrack(new TrackVirtual(1000)); private IBindable> managerUpdated; private IBindable> managerRemoved; [BackgroundDependencyLoader] private void load() { managerUpdated = beatmaps.ItemUpdated.GetBoundCopy(); managerUpdated.BindValueChanged(beatmapUpdated); managerRemoved = beatmaps.ItemRemoved.GetBoundCopy(); managerRemoved.BindValueChanged(beatmapRemoved); beatmapSets.AddRange(beatmaps.GetAllUsableBeatmapSets(IncludedDetails.Minimal, true).OrderBy(_ => RNG.Next())); // Todo: These binds really shouldn't be here, but are unlikely to cause any issues for now. // They are placed here for now since some tests rely on setting the beatmap _and_ their hierarchies inside their load(), which runs before the MusicController's load(). beatmap.BindValueChanged(beatmapChanged, true); mods.BindValueChanged(_ => ResetTrackAdjustments(), true); } /// /// Change the position of a in the current playlist. /// /// The beatmap to move. /// The new position. public void ChangeBeatmapSetPosition(BeatmapSetInfo beatmapSetInfo, int index) { beatmapSets.Remove(beatmapSetInfo); beatmapSets.Insert(index, beatmapSetInfo); } /// /// Returns whether the beatmap track is playing. /// public bool IsPlaying => CurrentTrack.IsRunning; /// /// Returns whether the beatmap track is loaded. /// public bool TrackLoaded => CurrentTrack.TrackLoaded; private void beatmapUpdated(ValueChangedEvent> weakSet) { if (weakSet.NewValue.TryGetTarget(out var set)) { Schedule(() => { beatmapSets.Remove(set); beatmapSets.Add(set); }); } } private void beatmapRemoved(ValueChangedEvent> weakSet) { if (weakSet.NewValue.TryGetTarget(out var set)) { Schedule(() => { beatmapSets.RemoveAll(s => s.ID == set.ID); }); } } private ScheduledDelegate seekDelegate; public void SeekTo(double position) { seekDelegate?.Cancel(); seekDelegate = Schedule(() => { if (!beatmap.Disabled) CurrentTrack.Seek(position); }); } /// /// Ensures music is playing, no matter what, unless the user has explicitly paused. /// This means that if the current beatmap has a virtual track (see ) a new beatmap will be selected. /// public void EnsurePlayingSomething() { if (IsUserPaused) return; if (CurrentTrack.IsDummyDevice) { if (beatmap.Disabled) return; NextTrack(); } else if (!IsPlaying) { Play(); } } /// /// Start playing the current track (if not already playing). /// /// Whether the operation was successful. public bool Play(bool restart = false) { IsUserPaused = false; if (restart) CurrentTrack.Restart(); else if (!IsPlaying) CurrentTrack.Start(); return true; } /// /// Stop playing the current track and pause at the current position. /// public void Stop() { IsUserPaused = true; if (CurrentTrack.IsRunning) CurrentTrack.Stop(); } /// /// Toggle pause / play. /// /// Whether the operation was successful. public bool TogglePause() { if (CurrentTrack.IsRunning) Stop(); else Play(); return true; } /// /// Play the previous track or restart the current track if it's current time below . /// /// Invoked when the operation has been performed successfully. public void PreviousTrack(Action onSuccess = null) => Schedule(() => { PreviousTrackResult res = prev(); if (res != PreviousTrackResult.None) onSuccess?.Invoke(res); }); /// /// Play the previous track or restart the current track if it's current time below . /// /// The that indicate the decided action. private PreviousTrackResult prev() { if (beatmap.Disabled) return PreviousTrackResult.None; var currentTrackPosition = CurrentTrack.CurrentTime; if (currentTrackPosition >= restart_cutoff_point) { SeekTo(0); return PreviousTrackResult.Restart; } queuedDirection = TrackChangeDirection.Prev; var playable = BeatmapSets.TakeWhile(i => i.ID != current.BeatmapSetInfo.ID).LastOrDefault() ?? BeatmapSets.LastOrDefault(); if (playable != null) { changeBeatmap(beatmaps.GetWorkingBeatmap(playable.Beatmaps.First(), beatmap.Value)); restartTrack(); return PreviousTrackResult.Previous; } return PreviousTrackResult.None; } /// /// Play the next random or playlist track. /// /// Invoked when the operation has been performed successfully. /// A of the operation. public void NextTrack(Action onSuccess = null) => Schedule(() => { bool res = next(); if (res) onSuccess?.Invoke(); }); private bool next() { if (beatmap.Disabled) return false; queuedDirection = TrackChangeDirection.Next; var playable = BeatmapSets.SkipWhile(i => i.ID != current.BeatmapSetInfo.ID).ElementAtOrDefault(1) ?? BeatmapSets.FirstOrDefault(); if (playable != null) { changeBeatmap(beatmaps.GetWorkingBeatmap(playable.Beatmaps.First(), beatmap.Value)); restartTrack(); return true; } return false; } private void restartTrack() { // if not scheduled, the previously track will be stopped one frame later (see ScheduleAfterChildren logic in GameBase). // we probably want to move this to a central method for switching to a new working beatmap in the future. Schedule(() => CurrentTrack.Restart()); } private WorkingBeatmap current; private TrackChangeDirection? queuedDirection; private void beatmapChanged(ValueChangedEvent beatmap) => changeBeatmap(beatmap.NewValue); private void changeBeatmap(WorkingBeatmap newWorking) { // This method can potentially be triggered multiple times as it is eagerly fired in next() / prev() to ensure correct execution order // (changeBeatmap must be called before consumers receive the bindable changed event, which is not the case when the local beatmap bindable is updated directly). if (newWorking == current) return; var lastWorking = current; TrackChangeDirection direction = TrackChangeDirection.None; bool audioEquals = newWorking?.BeatmapInfo?.AudioEquals(current?.BeatmapInfo) ?? false; if (current != null) { if (audioEquals) direction = TrackChangeDirection.None; else if (queuedDirection.HasValue) { direction = queuedDirection.Value; queuedDirection = null; } else { // figure out the best direction based on order in playlist. var last = BeatmapSets.TakeWhile(b => b.ID != current.BeatmapSetInfo?.ID).Count(); var next = newWorking == null ? -1 : BeatmapSets.TakeWhile(b => b.ID != newWorking.BeatmapSetInfo?.ID).Count(); direction = last > next ? TrackChangeDirection.Prev : TrackChangeDirection.Next; } } current = newWorking; if (!audioEquals || CurrentTrack.IsDummyDevice) { changeTrack(); } else { // transfer still valid track to new working beatmap current.TransferTrack(lastWorking.Track); } TrackChanged?.Invoke(current, direction); ResetTrackAdjustments(); queuedDirection = null; // this will be a noop if coming from the beatmapChanged event. // the exception is local operations like next/prev, where we want to complete loading the track before sending out a change. if (beatmap.Value != current && beatmap is Bindable working) working.Value = current; } private void changeTrack() { var lastTrack = CurrentTrack; var queuedTrack = new DrawableTrack(current.LoadTrack()); queuedTrack.Completed += () => onTrackCompleted(current); CurrentTrack = queuedTrack; // At this point we may potentially be in an async context from tests. This is extremely dangerous but we have to make do for now. // CurrentTrack is immediately updated above for situations where a immediate knowledge about the new track is required, // but the mutation of the hierarchy is scheduled to avoid exceptions. Schedule(() => { lastTrack.VolumeTo(0, 500, Easing.Out).Expire(); if (queuedTrack == CurrentTrack) { AddInternal(queuedTrack); queuedTrack.VolumeTo(0).Then().VolumeTo(1, 300, Easing.Out); } else { // If the track has changed since the call to changeTrack, it is safe to dispose the // queued track rather than consume it. queuedTrack.Dispose(); } }); } private void onTrackCompleted(WorkingBeatmap workingBeatmap) { // the source of track completion is the audio thread, so the beatmap may have changed before firing. if (current != workingBeatmap) return; if (!CurrentTrack.Looping && !beatmap.Disabled) NextTrack(); } private bool allowRateAdjustments; /// /// Whether mod rate adjustments are allowed to be applied. /// public bool AllowRateAdjustments { get => allowRateAdjustments; set { if (allowRateAdjustments == value) return; allowRateAdjustments = value; ResetTrackAdjustments(); } } /// /// Resets the speed adjustments currently applied on and applies the mod adjustments if is true. /// /// /// Does not reset speed adjustments applied directly to the beatmap track. /// public void ResetTrackAdjustments() { CurrentTrack.ResetSpeedAdjustments(); if (allowRateAdjustments) { foreach (var mod in mods.Value.OfType()) mod.ApplyToTrack(CurrentTrack); } } } public enum TrackChangeDirection { None, Next, Prev } public enum PreviousTrackResult { None, Restart, Previous } }