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osu-lazer/osu.Game.Tests/Beatmaps/Formats/LegacyBeatmapEncoderTest.cs

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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;
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using System.Collections.Generic;
using System.IO;
using System.Linq;
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using System.Text;
using NUnit.Framework;
using osu.Framework.Audio.Track;
using osu.Framework.Graphics.Textures;
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using osu.Framework.IO.Stores;
using osu.Game.Beatmaps;
using osu.Game.Beatmaps.ControlPoints;
using osu.Game.Beatmaps.Formats;
using osu.Game.Beatmaps.Legacy;
using osu.Game.IO;
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using osu.Game.IO.Serialization;
using osu.Game.Rulesets.Catch;
using osu.Game.Rulesets.Mania;
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using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Objects.Types;
using osu.Game.Rulesets.Osu;
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using osu.Game.Rulesets.Osu.Objects;
using osu.Game.Rulesets.Taiko;
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using osu.Game.Skinning;
using osu.Game.Tests.Resources;
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using osuTK;
namespace osu.Game.Tests.Beatmaps.Formats
{
[TestFixture]
public class LegacyBeatmapEncoderTest
{
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private static readonly DllResourceStore beatmaps_resource_store = TestResources.GetStore();
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private static IEnumerable<string> allBeatmaps = beatmaps_resource_store.GetAvailableResources().Where(res => res.EndsWith(".osu", StringComparison.Ordinal));
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[TestCaseSource(nameof(allBeatmaps))]
public void TestEncodeDecodeStability(string name)
{
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var decoded = decodeFromLegacy(beatmaps_resource_store.GetStream(name), name);
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var decodedAfterEncode = decodeFromLegacy(encodeToLegacy(decoded), name);
sort(decoded.beatmap);
sort(decodedAfterEncode.beatmap);
compareBeatmaps(decoded, decodedAfterEncode);
}
[TestCaseSource(nameof(allBeatmaps))]
public void TestEncodeDecodeStabilityDoubleConvert(string name)
{
var decoded = decodeFromLegacy(beatmaps_resource_store.GetStream(name), name);
var decodedAfterEncode = decodeFromLegacy(encodeToLegacy(decoded), name);
// run an extra convert. this is expected to be stable.
decodedAfterEncode.beatmap = convert(decodedAfterEncode.beatmap);
sort(decoded.beatmap);
sort(decodedAfterEncode.beatmap);
compareBeatmaps(decoded, decodedAfterEncode);
}
[TestCaseSource(nameof(allBeatmaps))]
public void TestEncodeDecodeStabilityWithNonLegacyControlPoints(string name)
{
var decoded = decodeFromLegacy(beatmaps_resource_store.GetStream(name), name);
// we are testing that the transfer of relevant data to hitobjects (from legacy control points) sticks through encode/decode.
// before the encode step, the legacy information is removed here.
decoded.beatmap.ControlPointInfo = removeLegacyControlPointTypes(decoded.beatmap.ControlPointInfo);
var decodedAfterEncode = decodeFromLegacy(encodeToLegacy(decoded), name);
compareBeatmaps(decoded, decodedAfterEncode);
ControlPointInfo removeLegacyControlPointTypes(ControlPointInfo controlPointInfo)
{
// emulate non-legacy control points by cloning the non-legacy portion.
// the assertion is that the encoder can recreate this losslessly from hitobject data.
Assert.IsInstanceOf<LegacyControlPointInfo>(controlPointInfo);
var newControlPoints = new ControlPointInfo();
foreach (var point in controlPointInfo.AllControlPoints)
{
// completely ignore "legacy" types, which have been moved to HitObjects.
// even though these would mostly be ignored by the Add call, they will still be available in groups,
// which isn't what we want to be testing here.
if (point is SampleControlPoint || point is DifficultyControlPoint)
continue;
newControlPoints.Add(point.Time, point.DeepClone());
}
return newControlPoints;
}
}
private void compareBeatmaps((IBeatmap beatmap, TestLegacySkin skin) expected, (IBeatmap beatmap, TestLegacySkin skin) actual)
{
// Check all control points that are still considered to be at a global level.
Assert.That(expected.beatmap.ControlPointInfo.TimingPoints.Serialize(), Is.EqualTo(actual.beatmap.ControlPointInfo.TimingPoints.Serialize()));
Assert.That(expected.beatmap.ControlPointInfo.EffectPoints.Serialize(), Is.EqualTo(actual.beatmap.ControlPointInfo.EffectPoints.Serialize()));
// Check all hitobjects.
Assert.That(expected.beatmap.HitObjects.Serialize(), Is.EqualTo(actual.beatmap.HitObjects.Serialize()));
// Check skin.
Assert.IsTrue(areComboColoursEqual(expected.skin.Configuration, actual.skin.Configuration));
}
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[Test]
public void TestEncodeMultiSegmentSliderWithFloatingPointError()
{
var beatmap = new Beatmap
{
HitObjects =
{
new Slider
{
Position = new Vector2(0.6f),
Path = new SliderPath(new[]
{
new PathControlPoint(Vector2.Zero, PathType.Bezier),
new PathControlPoint(new Vector2(0.5f)),
new PathControlPoint(new Vector2(0.51f)), // This is actually on the same position as the previous one in legacy beatmaps (truncated to int).
new PathControlPoint(new Vector2(1f), PathType.Bezier),
new PathControlPoint(new Vector2(2f))
})
},
}
};
var decodedAfterEncode = decodeFromLegacy(encodeToLegacy((beatmap, new TestLegacySkin(beatmaps_resource_store, string.Empty))), string.Empty);
var decodedSlider = (Slider)decodedAfterEncode.beatmap.HitObjects[0];
Assert.That(decodedSlider.Path.ControlPoints.Count, Is.EqualTo(5));
}
private bool areComboColoursEqual(IHasComboColours a, IHasComboColours b)
{
// equal to null, no need to SequenceEqual
if (a.ComboColours == null && b.ComboColours == null)
return true;
if (a.ComboColours == null || b.ComboColours == null)
return false;
return a.ComboColours.SequenceEqual(b.ComboColours);
}
private void sort(IBeatmap beatmap)
{
// Sort control points to ensure a sane ordering, as they may be parsed in different orders. This works because each group contains only uniquely-typed control points.
foreach (var g in beatmap.ControlPointInfo.Groups)
{
ArrayList.Adapter((IList)g.ControlPoints).Sort(
Comparer<ControlPoint>.Create((c1, c2) => string.Compare(c1.GetType().ToString(), c2.GetType().ToString(), StringComparison.Ordinal)));
}
}
private (IBeatmap beatmap, TestLegacySkin skin) decodeFromLegacy(Stream stream, string name)
{
using (var reader = new LineBufferedReader(stream))
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{
var beatmap = new LegacyBeatmapDecoder { ApplyOffsets = false }.Decode(reader);
var beatmapSkin = new TestLegacySkin(beatmaps_resource_store, name);
return (convert(beatmap), beatmapSkin);
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}
}
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private class TestLegacySkin : LegacySkin
{
public TestLegacySkin(IResourceStore<byte[]> storage, string fileName)
: base(new SkinInfo { Name = "Test Skin", Creator = "Craftplacer" }, null, storage, fileName)
{
}
}
private MemoryStream encodeToLegacy((IBeatmap beatmap, ISkin skin) fullBeatmap)
{
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var (beatmap, beatmapSkin) = fullBeatmap;
var stream = new MemoryStream();
using (var writer = new StreamWriter(stream, Encoding.UTF8, 1024, true))
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new LegacyBeatmapEncoder(beatmap, beatmapSkin).Encode(writer);
stream.Position = 0;
return stream;
}
private IBeatmap convert(IBeatmap beatmap)
{
switch (beatmap.BeatmapInfo.Ruleset.OnlineID)
{
case 0:
beatmap.BeatmapInfo.Ruleset = new OsuRuleset().RulesetInfo;
break;
case 1:
beatmap.BeatmapInfo.Ruleset = new TaikoRuleset().RulesetInfo;
break;
case 2:
beatmap.BeatmapInfo.Ruleset = new CatchRuleset().RulesetInfo;
break;
case 3:
beatmap.BeatmapInfo.Ruleset = new ManiaRuleset().RulesetInfo;
break;
}
return new TestWorkingBeatmap(beatmap).GetPlayableBeatmap(beatmap.BeatmapInfo.Ruleset);
}
private class TestWorkingBeatmap : WorkingBeatmap
{
private readonly IBeatmap beatmap;
public TestWorkingBeatmap(IBeatmap beatmap)
: base(beatmap.BeatmapInfo, null)
{
this.beatmap = beatmap;
}
protected override IBeatmap GetBeatmap() => beatmap;
public override Texture GetBackground() => throw new NotImplementedException();
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protected override Track GetBeatmapTrack() => throw new NotImplementedException();
protected internal override ISkin GetSkin() => throw new NotImplementedException();
public override Stream GetStream(string storagePath) => throw new NotImplementedException();
}
}
}