// 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 osu.Game.Beatmaps; using osu.Game.Rulesets.Judgements; using osu.Game.Rulesets.Mods; using osu.Game.Rulesets.Objects; using osu.Game.Rulesets.Objects.Types; using osu.Game.Rulesets.Osu.Mods; using osu.Game.Rulesets.Osu.Objects; using osu.Game.Rulesets.Scoring; using osu.Game.Rulesets.Scoring.Legacy; namespace osu.Game.Rulesets.Osu.Difficulty { internal class OsuLegacyScoreSimulator : ILegacyScoreSimulator { private int legacyBonusScore; private int standardisedBonusScore; private int combo; private double scoreMultiplier; public LegacyScoreAttributes Simulate(IWorkingBeatmap workingBeatmap, IBeatmap playableBeatmap) { IBeatmap baseBeatmap = workingBeatmap.Beatmap; int countNormal = 0; int countSlider = 0; int countSpinner = 0; foreach (HitObject obj in workingBeatmap.Beatmap.HitObjects) { switch (obj) { case IHasPath: countSlider++; break; case IHasDuration: countSpinner++; break; default: countNormal++; break; } } int objectCount = countNormal + countSlider + countSpinner; int drainLength = 0; if (baseBeatmap.HitObjects.Count > 0) { int breakLength = baseBeatmap.Breaks.Select(b => (int)Math.Round(b.EndTime) - (int)Math.Round(b.StartTime)).Sum(); drainLength = ((int)Math.Round(baseBeatmap.HitObjects[^1].StartTime) - (int)Math.Round(baseBeatmap.HitObjects[0].StartTime) - breakLength) / 1000; } int difficultyPeppyStars = (int)Math.Round( (baseBeatmap.Difficulty.DrainRate + baseBeatmap.Difficulty.OverallDifficulty + baseBeatmap.Difficulty.CircleSize + Math.Clamp((float)objectCount / drainLength * 8, 0, 16)) / 38 * 5); scoreMultiplier = difficultyPeppyStars; LegacyScoreAttributes attributes = new LegacyScoreAttributes(); foreach (var obj in playableBeatmap.HitObjects) simulateHit(obj, ref attributes); attributes.BonusScoreRatio = legacyBonusScore == 0 ? 0 : (double)standardisedBonusScore / legacyBonusScore; return attributes; } private void simulateHit(HitObject hitObject, ref LegacyScoreAttributes attributes) { bool increaseCombo = true; bool addScoreComboMultiplier = false; bool isBonus = false; HitResult bonusResult = HitResult.None; int scoreIncrease = 0; switch (hitObject) { case SliderHeadCircle: case SliderTailCircle: case SliderRepeat: scoreIncrease = 30; break; case SliderTick: scoreIncrease = 10; break; case SpinnerBonusTick: scoreIncrease = 1100; increaseCombo = false; isBonus = true; bonusResult = HitResult.LargeBonus; break; case SpinnerTick: scoreIncrease = 100; increaseCombo = false; isBonus = true; bonusResult = HitResult.SmallBonus; break; case HitCircle: scoreIncrease = 300; addScoreComboMultiplier = true; break; case Slider: foreach (var nested in hitObject.NestedHitObjects) simulateHit(nested, ref attributes); scoreIncrease = 300; increaseCombo = false; addScoreComboMultiplier = true; break; case Spinner spinner: // The spinner object applies a lenience because gameplay mechanics differ from osu-stable. // We'll redo the calculations to match osu-stable here... const double maximum_rotations_per_second = 477.0 / 60; // Normally, this value depends on the final overall difficulty. For simplicity, we'll only consider the worst case that maximises bonus score. // As we're primarily concerned with computing the maximum theoretical final score, // this will have the final effect of slightly underestimating bonus score achieved on stable when converting from score V1. const double minimum_rotations_per_second = 3; double secondsDuration = spinner.Duration / 1000; // The total amount of half spins possible for the entire spinner. int totalHalfSpinsPossible = (int)(secondsDuration * maximum_rotations_per_second * 2); // The amount of half spins that are required to successfully complete the spinner (i.e. get a 300). int halfSpinsRequiredForCompletion = (int)(secondsDuration * minimum_rotations_per_second); // To be able to receive bonus points, the spinner must be rotated another 1.5 times. int halfSpinsRequiredBeforeBonus = halfSpinsRequiredForCompletion + 3; for (int i = 0; i <= totalHalfSpinsPossible; i++) { if (i > halfSpinsRequiredBeforeBonus && (i - halfSpinsRequiredBeforeBonus) % 2 == 0) simulateHit(new SpinnerBonusTick(), ref attributes); else if (i > 1 && i % 2 == 0) simulateHit(new SpinnerTick(), ref attributes); } scoreIncrease = 300; addScoreComboMultiplier = true; break; } if (addScoreComboMultiplier) { // ReSharper disable once PossibleLossOfFraction (intentional to match osu-stable...) attributes.ComboScore += (int)(Math.Max(0, combo - 1) * (scoreIncrease / 25 * scoreMultiplier)); } if (isBonus) { legacyBonusScore += scoreIncrease; standardisedBonusScore += Judgement.ToNumericResult(bonusResult); } else attributes.AccuracyScore += scoreIncrease; if (increaseCombo) combo++; } public double GetLegacyScoreMultiplier(IReadOnlyList mods, LegacyBeatmapConversionDifficultyInfo difficulty) { bool scoreV2 = mods.Any(m => m is ModScoreV2); double multiplier = 1.0; foreach (var mod in mods) { switch (mod) { case OsuModNoFail: multiplier *= scoreV2 ? 1.0 : 0.5; break; case OsuModEasy: multiplier *= 0.5; break; case OsuModHalfTime: case OsuModDaycore: multiplier *= 0.3; break; case OsuModHidden: multiplier *= 1.06; break; case OsuModHardRock: multiplier *= scoreV2 ? 1.10 : 1.06; break; case OsuModDoubleTime: case OsuModNightcore: multiplier *= scoreV2 ? 1.20 : 1.12; break; case OsuModFlashlight: multiplier *= 1.12; break; case OsuModSpunOut: multiplier *= 0.9; break; case OsuModRelax: case OsuModAutopilot: return 0; } } return multiplier; } } }