// 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 Newtonsoft.Json; using osu.Framework.Bindables; using osu.Framework.Lists; namespace osu.Game.Beatmaps.ControlPoints { [Serializable] public class ControlPointInfo { /// /// All control points grouped by time. /// [JsonProperty] public IBindableList Groups => groups; private readonly BindableList groups = new BindableList(); /// /// All timing points. /// [JsonProperty] public IReadOnlyList TimingPoints => timingPoints; private readonly SortedList timingPoints = new SortedList(Comparer.Default); /// /// All difficulty points. /// [JsonProperty] public IReadOnlyList DifficultyPoints => difficultyPoints; private readonly SortedList difficultyPoints = new SortedList(Comparer.Default); /// /// All sound points. /// [JsonProperty] public IReadOnlyList SamplePoints => samplePoints; private readonly SortedList samplePoints = new SortedList(Comparer.Default); /// /// All effect points. /// [JsonProperty] public IReadOnlyList EffectPoints => effectPoints; private readonly SortedList effectPoints = new SortedList(Comparer.Default); /// /// All control points, of all types. /// [JsonIgnore] public IEnumerable AllControlPoints => Groups.SelectMany(g => g.ControlPoints).ToArray(); /// /// Finds the difficulty control point that is active at . /// /// The time to find the difficulty control point at. /// The difficulty control point. public DifficultyControlPoint DifficultyPointAt(double time) => binarySearchWithFallback(DifficultyPoints, time, DifficultyControlPoint.DEFAULT); /// /// Finds the effect control point that is active at . /// /// The time to find the effect control point at. /// The effect control point. public EffectControlPoint EffectPointAt(double time) => binarySearchWithFallback(EffectPoints, time, EffectControlPoint.DEFAULT); /// /// Finds the sound control point that is active at . /// /// The time to find the sound control point at. /// The sound control point. public SampleControlPoint SamplePointAt(double time) => binarySearchWithFallback(SamplePoints, time, SamplePoints.Count > 0 ? SamplePoints[0] : null); /// /// Finds the timing control point that is active at . /// /// The time to find the timing control point at. /// The timing control point. public TimingControlPoint TimingPointAt(double time) => binarySearchWithFallback(TimingPoints, time, TimingPoints.Count > 0 ? TimingPoints[0] : null); /// /// Finds the maximum BPM represented by any timing control point. /// [JsonIgnore] public double BPMMaximum => 60000 / (TimingPoints.OrderBy(c => c.BeatLength).FirstOrDefault() ?? TimingControlPoint.DEFAULT).BeatLength; /// /// Finds the minimum BPM represented by any timing control point. /// [JsonIgnore] public double BPMMinimum => 60000 / (TimingPoints.OrderByDescending(c => c.BeatLength).FirstOrDefault() ?? TimingControlPoint.DEFAULT).BeatLength; /// /// Finds the mode BPM (most common BPM) represented by the control points. /// [JsonIgnore] public double BPMMode => 60000 / (TimingPoints.GroupBy(c => c.BeatLength).OrderByDescending(grp => grp.Count()).FirstOrDefault()?.FirstOrDefault() ?? TimingControlPoint.DEFAULT).BeatLength; /// /// Remove all s and return to a pristine state. /// public void Clear() { groups.Clear(); timingPoints.Clear(); difficultyPoints.Clear(); samplePoints.Clear(); effectPoints.Clear(); } /// /// Add a new . Note that the provided control point may not be added if the correct state is already present at the provided time. /// /// The time at which the control point should be added. /// The control point to add. /// Whether the control point was added. public bool Add(double time, ControlPoint controlPoint) { if (checkAlreadyExisting(time, controlPoint)) return false; GroupAt(time, true).Add(controlPoint); return true; } public ControlPointGroup GroupAt(double time, bool addIfNotExisting = false) { var newGroup = new ControlPointGroup(time); int i = groups.BinarySearch(newGroup); if (i >= 0) return groups[i]; if (addIfNotExisting) { newGroup.ItemAdded += groupItemAdded; newGroup.ItemRemoved += groupItemRemoved; groups.Insert(~i, newGroup); return newGroup; } return null; } public void RemoveGroup(ControlPointGroup group) { group.ItemAdded -= groupItemAdded; group.ItemRemoved -= groupItemRemoved; groups.Remove(group); } /// /// Binary searches one of the control point lists to find the active control point at . /// Includes logic for returning a specific point when no matching point is found. /// /// The list to search. /// The time to find the control point at. /// The control point to use when is before any control points. /// The active control point at , or a fallback if none found. private T binarySearchWithFallback(IReadOnlyList list, double time, T fallback) where T : ControlPoint, new() { return binarySearch(list, time) ?? fallback; } /// /// Binary searches one of the control point lists to find the active control point at . /// /// The list to search. /// The time to find the control point at. /// The active control point at . private T binarySearch(IReadOnlyList list, double time) where T : ControlPoint { if (list == null) throw new ArgumentNullException(nameof(list)); if (list.Count == 0) return null; if (time < list[0].Time) return null; if (time >= list[^1].Time) return list[^1]; int l = 0; int r = list.Count - 2; while (l <= r) { int pivot = l + ((r - l) >> 1); if (list[pivot].Time < time) l = pivot + 1; else if (list[pivot].Time > time) r = pivot - 1; else return list[pivot]; } // l will be the first control point with Time > time, but we want the one before it return list[l - 1]; } /// /// Check whether should be added. /// /// The time to find the timing control point at. /// A point to be added. /// Whether the new point should be added. private bool checkAlreadyExisting(double time, ControlPoint newPoint) { ControlPoint existing = null; switch (newPoint) { case TimingControlPoint _: // Timing points are a special case and need to be added regardless of fallback availability. existing = binarySearch(TimingPoints, time); break; case EffectControlPoint _: existing = EffectPointAt(time); break; case SampleControlPoint _: existing = binarySearch(SamplePoints, time); break; case DifficultyControlPoint _: existing = DifficultyPointAt(time); break; } return newPoint?.IsRedundant(existing) == true; } private void groupItemAdded(ControlPoint controlPoint) { switch (controlPoint) { case TimingControlPoint typed: timingPoints.Add(typed); break; case EffectControlPoint typed: effectPoints.Add(typed); break; case SampleControlPoint typed: samplePoints.Add(typed); break; case DifficultyControlPoint typed: difficultyPoints.Add(typed); break; } } private void groupItemRemoved(ControlPoint controlPoint) { switch (controlPoint) { case TimingControlPoint typed: timingPoints.Remove(typed); break; case EffectControlPoint typed: effectPoints.Remove(typed); break; case SampleControlPoint typed: samplePoints.Remove(typed); break; case DifficultyControlPoint typed: difficultyPoints.Remove(typed); break; } } } }