// Copyright (c) 2007-2017 ppy Pty Ltd . // Licensed under the MIT Licence - https://raw.githubusercontent.com/ppy/osu/master/LICENCE using System; using System.Linq; using osu.Game.Audio; using osu.Game.Beatmaps; using osu.Game.Rulesets.Mania.MathUtils; using osu.Game.Rulesets.Objects; using osu.Game.Rulesets.Objects.Types; using osu.Game.Rulesets.Mania.Objects; using osu.Game.Beatmaps.ControlPoints; namespace osu.Game.Rulesets.Mania.Beatmaps.Patterns.Legacy { /// /// A pattern generator for IHasDistance hit objects. /// internal class DistanceObjectPatternGenerator : PatternGenerator { /// /// Base osu! slider scoring distance. /// private const float osu_base_scoring_distance = 100; private readonly double endTime; private readonly double segmentDuration; private readonly int repeatCount; private PatternType convertType; public DistanceObjectPatternGenerator(FastRandom random, HitObject hitObject, Beatmap beatmap, Pattern previousPattern) : base(random, hitObject, beatmap, previousPattern) { convertType = PatternType.None; if (Beatmap.ControlPointInfo.EffectPointAt(hitObject.StartTime).KiaiMode) convertType = PatternType.LowProbability; var distanceData = hitObject as IHasDistance; var repeatsData = hitObject as IHasRepeats; repeatCount = repeatsData?.RepeatCount ?? 1; TimingControlPoint timingPoint = beatmap.ControlPointInfo.TimingPointAt(hitObject.StartTime); DifficultyControlPoint difficultyPoint = beatmap.ControlPointInfo.DifficultyPointAt(hitObject.StartTime); // The true distance, accounting for any repeats double distance = (distanceData?.Distance ?? 0) * repeatCount; // The velocity of the osu! hit object - calculated as the velocity of a slider double osuVelocity = osu_base_scoring_distance * beatmap.BeatmapInfo.Difficulty.SliderMultiplier / (timingPoint.BeatLength * difficultyPoint.SpeedMultiplier); // The duration of the osu! hit object double osuDuration = distance / osuVelocity; endTime = hitObject.StartTime + osuDuration; segmentDuration = (endTime - HitObject.StartTime) / repeatCount; } public override Pattern Generate() { if (repeatCount > 1) { if (segmentDuration <= 90) return generateRandomHoldNotes(HitObject.StartTime, 1); if (segmentDuration <= 120) { convertType |= PatternType.ForceNotStack; return generateRandomNotes(HitObject.StartTime, repeatCount + 1); } if (segmentDuration <= 160) return generateStair(HitObject.StartTime); if (segmentDuration <= 200 && ConversionDifficulty > 3) return generateRandomMultipleNotes(HitObject.StartTime); double duration = endTime - HitObject.StartTime; if (duration >= 4000) return generateNRandomNotes(HitObject.StartTime, 0.23, 0, 0); if (segmentDuration > 400 && repeatCount < AvailableColumns - 1 - RandomStart) return generateTiledHoldNotes(HitObject.StartTime); return generateHoldAndNormalNotes(HitObject.StartTime); } if (segmentDuration <= 110) { if (PreviousPattern.ColumnWithObjects < AvailableColumns) convertType |= PatternType.ForceNotStack; else convertType &= ~PatternType.ForceNotStack; return generateRandomNotes(HitObject.StartTime, segmentDuration < 80 ? 1 : 2); } if (ConversionDifficulty > 6.5) { if ((convertType & PatternType.LowProbability) > 0) return generateNRandomNotes(HitObject.StartTime, 0.78, 0.3, 0); return generateNRandomNotes(HitObject.StartTime, 0.85, 0.36, 0.03); } if (ConversionDifficulty > 4) { if ((convertType & PatternType.LowProbability) > 0) return generateNRandomNotes(HitObject.StartTime, 0.43, 0.08, 0); return generateNRandomNotes(HitObject.StartTime, 0.56, 0.18, 0); } if (ConversionDifficulty > 2.5) { if ((convertType & PatternType.LowProbability) > 0) return generateNRandomNotes(HitObject.StartTime, 0.3, 0, 0); return generateNRandomNotes(HitObject.StartTime, 0.37, 0.08, 0); } if ((convertType & PatternType.LowProbability) > 0) return generateNRandomNotes(HitObject.StartTime, 0.17, 0, 0); return generateNRandomNotes(HitObject.StartTime, 0.27, 0, 0); } /// /// Generates random hold notes that start at an span the same amount of rows. /// /// Start time of each hold note. /// Number of hold notes. /// The containing the hit objects. private Pattern generateRandomHoldNotes(double startTime, int noteCount) { // - - - - // ■ - ■ ■ // □ - □ □ // ■ - ■ ■ var pattern = new Pattern(); int usableColumns = AvailableColumns - RandomStart - PreviousPattern.ColumnWithObjects; int nextColumn = Random.Next(RandomStart, AvailableColumns); for (int i = 0; i < Math.Min(usableColumns, noteCount); i++) { while (pattern.ColumnHasObject(nextColumn) || PreviousPattern.ColumnHasObject(nextColumn)) //find available column nextColumn = Random.Next(RandomStart, AvailableColumns); addToPattern(pattern, nextColumn, startTime, endTime); } // This is can't be combined with the above loop due to RNG for (int i = 0; i < noteCount - usableColumns; i++) { while (pattern.ColumnHasObject(nextColumn)) nextColumn = Random.Next(RandomStart, AvailableColumns); addToPattern(pattern, nextColumn, startTime, endTime); } return pattern; } /// /// Generates random notes, with one note per row and no stacking. /// /// The start time. /// The number of notes. /// The containing the hit objects. private Pattern generateRandomNotes(double startTime, int noteCount) { // - - - - // x - - - // - - x - // - - - x // x - - - var pattern = new Pattern(); int nextColumn = GetColumn((HitObject as IHasXPosition)?.X ?? 0, true); if ((convertType & PatternType.ForceNotStack) > 0 && PreviousPattern.ColumnWithObjects < AvailableColumns) { while (PreviousPattern.ColumnHasObject(nextColumn)) nextColumn = Random.Next(RandomStart, AvailableColumns); } int lastColumn = nextColumn; for (int i = 0; i < noteCount; i++) { addToPattern(pattern, nextColumn, startTime, startTime); while (nextColumn == lastColumn) nextColumn = Random.Next(RandomStart, AvailableColumns); lastColumn = nextColumn; startTime += segmentDuration; } return pattern; } /// /// Generates a stair of notes, with one note per row. /// /// The start time. /// The containing the hit objects. private Pattern generateStair(double startTime) { // - - - - // x - - - // - x - - // - - x - // - - - x // - - x - // - x - - // x - - - var pattern = new Pattern(); int column = GetColumn((HitObject as IHasXPosition)?.X ?? 0, true); bool increasing = Random.NextDouble() > 0.5; for (int i = 0; i <= repeatCount; i++) { addToPattern(pattern, column, startTime, startTime); startTime += segmentDuration; // Check if we're at the borders of the stage, and invert the pattern if so if (increasing) { if (column >= AvailableColumns - 1) { increasing = false; column--; } else column++; } else { if (column <= RandomStart) { increasing = true; column++; } else column--; } } return pattern; } /// /// Generates random notes with 1-2 notes per row and no stacking. /// /// The start time. /// The containing the hit objects. private Pattern generateRandomMultipleNotes(double startTime) { // - - - - // x - - - // - x x - // - - - x // x - x - var pattern = new Pattern(); bool legacy = AvailableColumns >= 4 && AvailableColumns <= 8; int interval = Random.Next(1, AvailableColumns - (legacy ? 1 : 0)); int nextColumn = GetColumn((HitObject as IHasXPosition)?.X ?? 0, true); for (int i = 0; i <= repeatCount; i++) { addToPattern(pattern, nextColumn, startTime, startTime); nextColumn += interval; if (nextColumn >= AvailableColumns - RandomStart) nextColumn = nextColumn - AvailableColumns - RandomStart + (legacy ? 1 : 0); nextColumn += RandomStart; // If we're in 2K, let's not add many consecutive doubles if (AvailableColumns > 2) addToPattern(pattern, nextColumn, startTime, startTime); nextColumn = Random.Next(RandomStart, AvailableColumns); startTime += segmentDuration; } return pattern; } /// /// Generates random hold notes. The amount of hold notes generated is determined by probabilities. /// /// The hold note start time. /// The probability required for 2 hold notes to be generated. /// The probability required for 3 hold notes to be generated. /// The probability required for 4 hold notes to be generated. /// The containing the hit objects. private Pattern generateNRandomNotes(double startTime, double p2, double p3, double p4) { // - - - - // ■ - ■ ■ // □ - □ □ // ■ - ■ ■ switch (AvailableColumns) { case 2: p2 = 0; p3 = 0; p4 = 0; break; case 3: p2 = Math.Max(p2, 0.1); p3 = 0; p4 = 0; break; case 4: p2 = Math.Max(p2, 0.3); p3 = Math.Max(p3, 0.04); p4 = 0; break; case 5: p2 = Math.Max(p2, 0.34); p3 = Math.Max(p3, 0.1); p4 = Math.Max(p4, 0.03); break; } Func isDoubleSample = sample => sample.Name == SampleInfo.HIT_CLAP && sample.Name == SampleInfo.HIT_FINISH; bool canGenerateTwoNotes = (convertType & PatternType.LowProbability) == 0; canGenerateTwoNotes &= HitObject.Samples.Any(isDoubleSample) || sampleInfoListAt(HitObject.StartTime).Any(isDoubleSample); if (canGenerateTwoNotes) p2 = 1; return generateRandomHoldNotes(startTime, GetRandomNoteCount(p2, p3, p4)); } /// /// Generates tiled hold notes. You can think of this as a stair of hold notes. /// /// The first hold note start time. /// The containing the hit objects. private Pattern generateTiledHoldNotes(double startTime) { // - - - - // ■ ■ ■ ■ // □ □ □ □ // □ □ □ □ // □ □ □ ■ // □ □ ■ - // □ ■ - - // ■ - - - var pattern = new Pattern(); int columnRepeat = Math.Min(repeatCount, AvailableColumns); int nextColumn = GetColumn((HitObject as IHasXPosition)?.X ?? 0, true); if ((convertType & PatternType.ForceNotStack) > 0 && PreviousPattern.ColumnWithObjects < AvailableColumns) { while (PreviousPattern.ColumnHasObject(nextColumn)) nextColumn = Random.Next(RandomStart, AvailableColumns); } for (int i = 0; i < columnRepeat; i++) { while (pattern.ColumnHasObject(nextColumn)) nextColumn = Random.Next(RandomStart, AvailableColumns); addToPattern(pattern, nextColumn, startTime, endTime); startTime += segmentDuration; } return pattern; } /// /// Generates a hold note alongside normal notes. /// /// The start time of notes. /// The containing the hit objects. private Pattern generateHoldAndNormalNotes(double startTime) { // - - - - // ■ x x - // ■ - x x // ■ x - x // ■ - x x var pattern = new Pattern(); int holdColumn = GetColumn((HitObject as IHasXPosition)?.X ?? 0, true); if ((convertType & PatternType.ForceNotStack) > 0 && PreviousPattern.ColumnWithObjects < AvailableColumns) { while (PreviousPattern.ColumnHasObject(holdColumn)) holdColumn = Random.Next(RandomStart, AvailableColumns); } // Create the hold note addToPattern(pattern, holdColumn, startTime, endTime); int noteCount = 1; if (ConversionDifficulty > 6.5) noteCount = GetRandomNoteCount(0.63, 0); else if (ConversionDifficulty > 4) noteCount = GetRandomNoteCount(AvailableColumns < 6 ? 0.12 : 0.45, 0); else if (ConversionDifficulty > 2.5) noteCount = GetRandomNoteCount(AvailableColumns < 6 ? 0 : 0.24, 0); noteCount = Math.Min(AvailableColumns - 1, noteCount); bool ignoreHead = !sampleInfoListAt(startTime).Any(s => s.Name == SampleInfo.HIT_WHISTLE || s.Name == SampleInfo.HIT_FINISH || s.Name == SampleInfo.HIT_CLAP); int nextColumn = Random.Next(RandomStart, AvailableColumns); var rowPattern = new Pattern(); for (int i = 0; i <= repeatCount; i++) { if (!(ignoreHead && startTime == HitObject.StartTime)) { for (int j = 0; j < noteCount; j++) { while (rowPattern.ColumnHasObject(nextColumn) || nextColumn == holdColumn) nextColumn = Random.Next(RandomStart, AvailableColumns); addToPattern(rowPattern, nextColumn, startTime, startTime); } } pattern.Add(rowPattern); rowPattern.Clear(); startTime += segmentDuration; } return pattern; } /// /// Retrieves the sample info list at a point in time. /// /// The time to retrieve the sample info list from. /// private SampleInfoList sampleInfoListAt(double time) { var curveData = HitObject as IHasCurve; if (curveData == null) return HitObject.Samples; double segmentTime = (endTime - HitObject.StartTime) / repeatCount; int index = (int)(segmentTime == 0 ? 0 : (time - HitObject.StartTime) / segmentTime); return curveData.RepeatSamples[index]; } /// /// Constructs and adds a note to a pattern. /// /// The pattern to add to. /// The column to add the note to. /// The start time of the note. /// The end time of the note (set to for a non-hold note). private void addToPattern(Pattern pattern, int column, double startTime, double endTime) { ManiaHitObject newObject; if (startTime == endTime) { newObject = new Note { StartTime = startTime, Samples = sampleInfoListAt(startTime), Column = column }; } else { newObject = new HoldNote { StartTime = startTime, Samples = sampleInfoListAt(startTime), EndSamples = sampleInfoListAt(endTime), Column = column, Duration = endTime - startTime }; } pattern.Add(newObject); } } }