// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using NUnit.Framework; using osu.Framework.Bindables; using osu.Framework.Graphics; using osu.Framework.MathUtils; using osu.Framework.Testing; using osu.Framework.Timing; using osu.Game.Beatmaps; using osu.Game.Rulesets.Judgements; using osu.Game.Rulesets.Objects; using osu.Game.Rulesets.Scoring; using osu.Game.Tests.Visual; namespace osu.Game.Tests.Gameplay { [HeadlessTest] public class TestSceneDrainingHealthProcessor : OsuTestScene { private Bindable breakTime; private HealthProcessor processor; private ManualClock clock; [Test] public void TestInitialHealthStartsAtOne() { createProcessor(createBeatmap(1000, 2000)); assertHealthEqualTo(1); } [Test] public void TestHealthNotDrainedBeforeGameplayStart() { createProcessor(createBeatmap(1000, 2000)); setTime(100); assertHealthEqualTo(1); setTime(900); assertHealthEqualTo(1); } [Test] public void TestHealthNotDrainedAfterGameplayEnd() { createProcessor(createBeatmap(1000, 2000)); setTime(2001); // After the hitobjects setHealth(1); // Reset the current health for assertions to take place setTime(2100); assertHealthEqualTo(1); setTime(3000); assertHealthEqualTo(1); } [Test] public void TestHealthNotDrainedDuringBreak() { createProcessor(createBeatmap(0, 2000)); setBreak(true); setTime(700); assertHealthEqualTo(1); setTime(900); assertHealthEqualTo(1); } [Test] public void TestHealthDrainedDuringGameplay() { createProcessor(createBeatmap(0, 1000)); setTime(500); assertHealthNotEqualTo(1); } [Test] public void TestHealthGainedAfterRewind() { createProcessor(createBeatmap(0, 1000)); setTime(500); setTime(0); assertHealthEqualTo(1); } [Test] public void TestHealthGainedOnHit() { Beatmap beatmap = createBeatmap(0, 1000); createProcessor(beatmap); setTime(10); // Decrease health slightly assertHealthNotEqualTo(1); AddStep("apply hit result", () => processor.ApplyResult(new JudgementResult(beatmap.HitObjects[0], new Judgement()) { Type = HitResult.Perfect })); assertHealthEqualTo(1); } [Test] public void TestHealthRemovedOnRevert() { var beatmap = createBeatmap(0, 1000); JudgementResult result = null; createProcessor(beatmap); setTime(10); // Decrease health slightly AddStep("apply hit result", () => processor.ApplyResult(result = new JudgementResult(beatmap.HitObjects[0], new Judgement()) { Type = HitResult.Perfect })); AddStep("revert hit result", () => processor.RevertResult(result)); assertHealthNotEqualTo(1); } private Beatmap createBeatmap(double startTime, double endTime) { var beatmap = new Beatmap { BeatmapInfo = { BaseDifficulty = { DrainRate = 5 } }, }; for (double time = startTime; time <= endTime; time += 100) beatmap.HitObjects.Add(new JudgeableHitObject { StartTime = time }); return beatmap; } private void createProcessor(Beatmap beatmap) => AddStep("create processor", () => { breakTime = new Bindable(); Child = processor = new DrainingHealthProcessor(beatmap.HitObjects[0].StartTime).With(d => { d.RelativeSizeAxes = Axes.Both; d.Clock = new FramedClock(clock = new ManualClock()); }); processor.IsBreakTime.BindTo(breakTime); processor.ApplyBeatmap(beatmap); }); private void setTime(double time) => AddStep($"set time = {time}", () => clock.CurrentTime = time); private void setHealth(double health) => AddStep($"set health = {health}", () => processor.Health.Value = health); private void setBreak(bool enabled) => AddStep($"{(enabled ? "enable" : "disable")} break", () => breakTime.Value = enabled); private void assertHealthEqualTo(double value) => AddAssert($"health = {value}", () => Precision.AlmostEquals(value, processor.Health.Value, 0.0001f)); private void assertHealthNotEqualTo(double value) => AddAssert($"health != {value}", () => !Precision.AlmostEquals(value, processor.Health.Value, 0.0001f)); private class JudgeableHitObject : HitObject { public override Judgement CreateJudgement() => new Judgement(); } } }