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osu-lazer/osu.Game.Tests/NonVisual/DifficultyAdjustmentModCombinationsTest.cs
T
StanR fadb1c3f2c Calculate clock time when creating difficulty hit objects (#36962) 
This change removes `clockRate` precalculation from
`DifficultyCalculator`.

The idea is that clock rate should be calculated in-place (ideally for
every object) since we store and access it using DHOs. This also
prevents anyone from accidentally passing clock rate to skills

Unfortunately osu uses clock rate to calculate OD for the whole map in
`CreateDifficultyAttributes` so we can't make it completely DHO-based,
but I think one single in-place call to `ModUtils.CalculateRateWithMods`
in `CreateDifficultyAttributes` is fine

---------

Co-authored-by: James Wilson <tsunyoku@gmail.com>
2026-03-16 21:17:49 +00:00

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// Copyright (c) ppy Pty Ltd <contact@ppy.sh>. 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 NUnit.Framework;
using NUnit.Framework.Legacy;
using osu.Framework.Localisation;
using osu.Game.Beatmaps;
using osu.Game.Rulesets.Difficulty;
using osu.Game.Rulesets.Difficulty.Preprocessing;
using osu.Game.Rulesets.Difficulty.Skills;
using osu.Game.Rulesets.Mods;
using osu.Game.Utils;
namespace osu.Game.Tests.NonVisual
{
[TestFixture]
public class DifficultyAdjustmentModCombinationsTest
{
[Test]
public void TestNoMods()
{
var combinations = new TestLegacyDifficultyCalculator().CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) }
}, combinations);
}
[Test]
public void TestSingleMod()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA()).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) }
}, combinations);
}
[Test]
public void TestDoubleMod()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new ModB()).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModA), typeof(ModB) },
new[] { typeof(ModB) }
}, combinations);
}
[Test]
public void TestIncompatibleMods()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new ModIncompatibleWithA()).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModIncompatibleWithA) }
}, combinations);
}
[Test]
public void TestDoubleIncompatibleMods()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new ModB(), new ModIncompatibleWithA(), new ModIncompatibleWithAAndB()).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModA), typeof(ModB) },
new[] { typeof(ModB) },
new[] { typeof(ModB), typeof(ModIncompatibleWithA) },
new[] { typeof(ModIncompatibleWithA) },
new[] { typeof(ModIncompatibleWithA), typeof(ModIncompatibleWithAAndB) },
new[] { typeof(ModIncompatibleWithAAndB) },
}, combinations);
}
[Test]
public void TestIncompatibleThroughBaseType()
{
var combinations = new TestLegacyDifficultyCalculator(new ModAofA(), new ModIncompatibleWithAofA()).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModAofA) },
new[] { typeof(ModIncompatibleWithAofA) }
}, combinations);
}
[Test]
public void TestMultiModFlattening()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new MultiMod(new ModB(), new ModC())).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModA), typeof(ModB), typeof(ModC) },
new[] { typeof(ModB), typeof(ModC) }
}, combinations);
}
[Test]
public void TestIncompatibleThroughMultiMod()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new MultiMod(new ModB(), new ModIncompatibleWithA())).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModB), typeof(ModIncompatibleWithA) }
}, combinations);
}
[Test]
public void TestIncompatibleWithSameInstanceViaMultiMod()
{
var combinations = new TestLegacyDifficultyCalculator(new ModA(), new MultiMod(new ModA(), new ModB())).CreateDifficultyAdjustmentModCombinations();
assertCombinations(new[]
{
new[] { typeof(ModNoMod) },
new[] { typeof(ModA) },
new[] { typeof(ModA), typeof(ModB) }
}, combinations);
}
private void assertCombinations(Type[][] expectedCombinations, Mod[] actualCombinations)
{
ClassicAssert.AreEqual(expectedCombinations.Length, actualCombinations.Length);
Assert.Multiple(() =>
{
for (int i = 0; i < expectedCombinations.Length; ++i)
{
Type[] expectedTypes = expectedCombinations[i];
Type[] actualTypes = ModUtils.FlattenMod(actualCombinations[i]).Select(m => m.GetType()).ToArray();
Assert.That(expectedTypes, Is.EquivalentTo(actualTypes));
}
});
}
private class ModA : Mod
{
public override string Name => nameof(ModA);
public override string Acronym => nameof(ModA);
public override LocalisableString Description => string.Empty;
public override double ScoreMultiplier => 1;
public override Type[] IncompatibleMods => new[] { typeof(ModIncompatibleWithA), typeof(ModIncompatibleWithAAndB) };
}
private class ModB : Mod
{
public override string Name => nameof(ModB);
public override LocalisableString Description => string.Empty;
public override string Acronym => nameof(ModB);
public override double ScoreMultiplier => 1;
public override Type[] IncompatibleMods => new[] { typeof(ModIncompatibleWithAAndB) };
}
private class ModC : Mod
{
public override string Name => nameof(ModC);
public override string Acronym => nameof(ModC);
public override LocalisableString Description => string.Empty;
public override double ScoreMultiplier => 1;
}
private class ModIncompatibleWithA : Mod
{
public override string Name => $"Incompatible With {nameof(ModA)}";
public override string Acronym => $"Incompatible With {nameof(ModA)}";
public override LocalisableString Description => string.Empty;
public override double ScoreMultiplier => 1;
public override Type[] IncompatibleMods => new[] { typeof(ModA) };
}
private class ModAofA : ModA
{
}
private class ModIncompatibleWithAofA : ModIncompatibleWithA
{
// Incompatible through base type
}
private class ModIncompatibleWithAAndB : Mod
{
public override string Name => $"Incompatible With {nameof(ModA)} and {nameof(ModB)}";
public override string Acronym => $"Incompatible With {nameof(ModA)} and {nameof(ModB)}";
public override LocalisableString Description => string.Empty;
public override double ScoreMultiplier => 1;
public override Type[] IncompatibleMods => new[] { typeof(ModA), typeof(ModB) };
}
private class TestLegacyDifficultyCalculator : DifficultyCalculator
{
public TestLegacyDifficultyCalculator(params Mod[] mods)
: base(null, null)
{
DifficultyAdjustmentMods = mods;
}
protected override Mod[] DifficultyAdjustmentMods { get; }
protected override DifficultyAttributes CreateDifficultyAttributes(IBeatmap beatmap, Mod[] mods, Skill[] skills)
{
throw new NotImplementedException();
}
protected override IEnumerable<DifficultyHitObject> CreateDifficultyHitObjects(IBeatmap beatmap, Mod[] mods)
{
throw new NotImplementedException();
}
protected override Skill[] CreateSkills(IBeatmap beatmap, Mod[] mods)
{
throw new NotImplementedException();
}
}
}
}
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