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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 ;
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using System.Globalization ;
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using System.IO ;
using System.Linq ;
using System.Text ;
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using JetBrains.Annotations ;
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using osu.Game.Audio ;
using osu.Game.Beatmaps.ControlPoints ;
using osu.Game.Beatmaps.Legacy ;
using osu.Game.Rulesets.Objects ;
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using osu.Game.Rulesets.Objects.Legacy ;
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using osu.Game.Rulesets.Objects.Types ;
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using osu.Game.Skinning ;
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using osuTK ;
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using osuTK.Graphics ;
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namespace osu.Game.Beatmaps.Formats
{
public class LegacyBeatmapEncoder
{
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public const int LATEST_VERSION = 128 ;
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/// <summary>
/// osu! is generally slower than taiko, so a factor is added to increase
/// speed. This must be used everywhere slider length or beat length is used.
/// </summary>
public const float LEGACY_TAIKO_VELOCITY_MULTIPLIER = 1.4f ;
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private readonly IBeatmap beatmap ;
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[CanBeNull]
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private readonly ISkin skin ;
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/// <summary>
/// Creates a new <see cref="LegacyBeatmapEncoder"/>.
/// </summary>
/// <param name="beatmap">The beatmap to encode.</param>
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/// <param name="skin">The beatmap's skin, used for encoding combo colours.</param>
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public LegacyBeatmapEncoder ( IBeatmap beatmap , [ CanBeNull ] ISkin skin )
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{
this . beatmap = beatmap ;
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this . skin = skin ;
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if ( beatmap . BeatmapInfo . RulesetID < 0 | | beatmap . BeatmapInfo . RulesetID > 3 )
throw new ArgumentException ( "Only beatmaps in the osu, taiko, catch, or mania rulesets can be encoded to the legacy beatmap format." , nameof ( beatmap ) ) ;
}
public void Encode ( TextWriter writer )
{
writer . WriteLine ( $"osu file format v{LATEST_VERSION}" ) ;
writer . WriteLine ( ) ;
handleGeneral ( writer ) ;
writer . WriteLine ( ) ;
handleEditor ( writer ) ;
writer . WriteLine ( ) ;
handleMetadata ( writer ) ;
writer . WriteLine ( ) ;
handleDifficulty ( writer ) ;
writer . WriteLine ( ) ;
handleEvents ( writer ) ;
writer . WriteLine ( ) ;
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handleControlPoints ( writer ) ;
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writer . WriteLine ( ) ;
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handleColours ( writer ) ;
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writer . WriteLine ( ) ;
handleHitObjects ( writer ) ;
}
private void handleGeneral ( TextWriter writer )
{
writer . WriteLine ( "[General]" ) ;
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if ( beatmap . Metadata . AudioFile ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"AudioFilename: {Path.GetFileName(beatmap.Metadata.AudioFile)}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"AudioLeadIn: {beatmap.BeatmapInfo.AudioLeadIn}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"PreviewTime: {beatmap.Metadata.PreviewTime}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"Countdown: {(int)beatmap.BeatmapInfo.Countdown}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"SampleSet: {toLegacySampleBank((beatmap.HitObjects.FirstOrDefault()?.SampleControlPoint ?? SampleControlPoint.DEFAULT).SampleBank)}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"StackLeniency: {beatmap.BeatmapInfo.StackLeniency}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"Mode: {beatmap.BeatmapInfo.RulesetID}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"LetterboxInBreaks: {(beatmap.BeatmapInfo.LetterboxInBreaks ? '1' : '0')}" ) ) ;
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// if (beatmap.BeatmapInfo.UseSkinSprites)
// writer.WriteLine(@"UseSkinSprites: 1");
// if (b.AlwaysShowPlayfield)
// writer.WriteLine(@"AlwaysShowPlayfield: 1");
// if (b.OverlayPosition != OverlayPosition.NoChange)
// writer.WriteLine(@"OverlayPosition: " + b.OverlayPosition);
// if (!string.IsNullOrEmpty(b.SkinPreference))
// writer.WriteLine(@"SkinPreference:" + b.SkinPreference);
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if ( beatmap . BeatmapInfo . EpilepsyWarning )
writer . WriteLine ( @"EpilepsyWarning: 1" ) ;
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if ( beatmap . BeatmapInfo . CountdownOffset > 0 )
writer . WriteLine ( FormattableString . Invariant ( $@"CountdownOffset: {beatmap.BeatmapInfo.CountdownOffset}" ) ) ;
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if ( beatmap . BeatmapInfo . RulesetID = = 3 )
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writer . WriteLine ( FormattableString . Invariant ( $"SpecialStyle: {(beatmap.BeatmapInfo.SpecialStyle ? '1' : '0')}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"WidescreenStoryboard: {(beatmap.BeatmapInfo.WidescreenStoryboard ? '1' : '0')}" ) ) ;
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if ( beatmap . BeatmapInfo . SamplesMatchPlaybackRate )
writer . WriteLine ( @"SamplesMatchPlaybackRate: 1" ) ;
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}
private void handleEditor ( TextWriter writer )
{
writer . WriteLine ( "[Editor]" ) ;
if ( beatmap . BeatmapInfo . Bookmarks . Length > 0 )
writer . WriteLine ( FormattableString . Invariant ( $"Bookmarks: {string.Join(',', beatmap.BeatmapInfo.Bookmarks)}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"DistanceSpacing: {beatmap.BeatmapInfo.DistanceSpacing}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"BeatDivisor: {beatmap.BeatmapInfo.BeatDivisor}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"GridSize: {beatmap.BeatmapInfo.GridSize}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"TimelineZoom: {beatmap.BeatmapInfo.TimelineZoom}" ) ) ;
}
private void handleMetadata ( TextWriter writer )
{
writer . WriteLine ( "[Metadata]" ) ;
writer . WriteLine ( FormattableString . Invariant ( $"Title: {beatmap.Metadata.Title}" ) ) ;
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if ( beatmap . Metadata . TitleUnicode ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"TitleUnicode: {beatmap.Metadata.TitleUnicode}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"Artist: {beatmap.Metadata.Artist}" ) ) ;
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if ( beatmap . Metadata . ArtistUnicode ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"ArtistUnicode: {beatmap.Metadata.ArtistUnicode}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"Creator: {beatmap.Metadata.AuthorString}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"Version: {beatmap.BeatmapInfo.Version}" ) ) ;
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if ( beatmap . Metadata . Source ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"Source: {beatmap.Metadata.Source}" ) ) ;
if ( beatmap . Metadata . Tags ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"Tags: {beatmap.Metadata.Tags}" ) ) ;
if ( beatmap . BeatmapInfo . OnlineBeatmapID ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"BeatmapID: {beatmap.BeatmapInfo.OnlineBeatmapID}" ) ) ;
if ( beatmap . BeatmapInfo . BeatmapSet ? . OnlineBeatmapSetID ! = null ) writer . WriteLine ( FormattableString . Invariant ( $"BeatmapSetID: {beatmap.BeatmapInfo.BeatmapSet.OnlineBeatmapSetID}" ) ) ;
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}
private void handleDifficulty ( TextWriter writer )
{
writer . WriteLine ( "[Difficulty]" ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"HPDrainRate: {beatmap.Difficulty.DrainRate}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"CircleSize: {beatmap.Difficulty.CircleSize}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"OverallDifficulty: {beatmap.Difficulty.OverallDifficulty}" ) ) ;
writer . WriteLine ( FormattableString . Invariant ( $"ApproachRate: {beatmap.Difficulty.ApproachRate}" ) ) ;
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// Taiko adjusts the slider multiplier (see: LEGACY_TAIKO_VELOCITY_MULTIPLIER)
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writer . WriteLine ( beatmap . BeatmapInfo . RulesetID = = 1
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? FormattableString . Invariant ( $"SliderMultiplier: {beatmap.Difficulty.SliderMultiplier / LEGACY_TAIKO_VELOCITY_MULTIPLIER}" )
: FormattableString . Invariant ( $"SliderMultiplier: {beatmap.Difficulty.SliderMultiplier}" ) ) ;
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writer . WriteLine ( FormattableString . Invariant ( $"SliderTickRate: {beatmap.Difficulty.SliderTickRate}" ) ) ;
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}
private void handleEvents ( TextWriter writer )
{
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writer . WriteLine ( "[Events]" ) ;
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if ( ! string . IsNullOrEmpty ( beatmap . BeatmapInfo . Metadata . BackgroundFile ) )
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writer . WriteLine ( FormattableString . Invariant ( $"{(int)LegacyEventType.Background},0,\" { beatmap . BeatmapInfo . Metadata . BackgroundFile } \ ",0,0" ) ) ;
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foreach ( var b in beatmap . Breaks )
writer . WriteLine ( FormattableString . Invariant ( $"{(int)LegacyEventType.Break},{b.StartTime},{b.EndTime}" ) ) ;
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}
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private void handleControlPoints ( TextWriter writer )
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{
if ( beatmap . ControlPointInfo . Groups . Count = = 0 )
return ;
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var legacyControlPoints = new LegacyControlPointInfo ( ) ;
foreach ( var point in beatmap . ControlPointInfo . AllControlPoints )
legacyControlPoints . Add ( point . Time , point . DeepClone ( ) ) ;
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writer . WriteLine ( "[TimingPoints]" ) ;
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SampleControlPoint lastRelevantSamplePoint = null ;
DifficultyControlPoint lastRelevantDifficultyPoint = null ;
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bool isOsuRuleset = beatmap . BeatmapInfo . RulesetID = = 0 ;
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// iterate over hitobjects and pull out all required sample and difficulty changes
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extractDifficultyControlPoints ( beatmap . HitObjects ) ;
extractSampleControlPoints ( beatmap . HitObjects ) ;
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// handle scroll speed, which is stored as "slider velocity" in legacy formats.
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// this is relevant for scrolling ruleset beatmaps.
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if ( ! isOsuRuleset )
{
foreach ( var point in legacyControlPoints . EffectPoints )
legacyControlPoints . Add ( point . Time , new DifficultyControlPoint { SliderVelocity = point . ScrollSpeed } ) ;
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}
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foreach ( var group in legacyControlPoints . Groups )
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{
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var groupTimingPoint = group . ControlPoints . OfType < TimingControlPoint > ( ) . FirstOrDefault ( ) ;
// If the group contains a timing control point, it needs to be output separately.
if ( groupTimingPoint ! = null )
{
writer . Write ( FormattableString . Invariant ( $"{groupTimingPoint.Time}," ) ) ;
writer . Write ( FormattableString . Invariant ( $"{groupTimingPoint.BeatLength}," ) ) ;
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outputControlPointAt ( groupTimingPoint . Time , true ) ;
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}
// Output any remaining effects as secondary non-timing control point.
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var difficultyPoint = legacyControlPoints . DifficultyPointAt ( group . Time ) ;
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writer . Write ( FormattableString . Invariant ( $"{group.Time}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{-100 / difficultyPoint.SliderVelocity}," ) ) ;
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outputControlPointAt ( group . Time , false ) ;
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}
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void outputControlPointAt ( double time , bool isTimingPoint )
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{
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var samplePoint = legacyControlPoints . SamplePointAt ( time ) ;
var effectPoint = legacyControlPoints . EffectPointAt ( time ) ;
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// Apply the control point to a hit sample to uncover legacy properties (e.g. suffix)
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HitSampleInfo tempHitSample = samplePoint . ApplyTo ( new ConvertHitObjectParser . LegacyHitSampleInfo ( string . Empty ) ) ;
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// Convert effect flags to the legacy format
LegacyEffectFlags effectFlags = LegacyEffectFlags . None ;
if ( effectPoint . KiaiMode )
effectFlags | = LegacyEffectFlags . Kiai ;
if ( effectPoint . OmitFirstBarLine )
effectFlags | = LegacyEffectFlags . OmitFirstBarLine ;
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writer . Write ( FormattableString . Invariant ( $"{(int)legacyControlPoints.TimingPointAt(time).TimeSignature}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(int)toLegacySampleBank(tempHitSample.Bank)}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{toLegacyCustomSampleBank(tempHitSample)}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{tempHitSample.Volume}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(isTimingPoint ? '1' : '0')}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(int)effectFlags}" ) ) ;
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writer . WriteLine ( ) ;
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}
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IEnumerable < DifficultyControlPoint > collectDifficultyControlPoints ( IEnumerable < HitObject > hitObjects )
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{
if ( ! isOsuRuleset )
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yield break ;
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foreach ( var hitObject in hitObjects )
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{
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yield return hitObject . DifficultyControlPoint ;
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foreach ( var nested in collectDifficultyControlPoints ( hitObject . NestedHitObjects ) )
yield return nested ;
}
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}
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void extractDifficultyControlPoints ( IEnumerable < HitObject > hitObjects )
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{
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foreach ( var hDifficultyPoint in collectDifficultyControlPoints ( hitObjects ) . OrderBy ( dp = > dp . Time ) )
{
if ( ! hDifficultyPoint . IsRedundant ( lastRelevantDifficultyPoint ) )
{
legacyControlPoints . Add ( hDifficultyPoint . Time , hDifficultyPoint ) ;
lastRelevantDifficultyPoint = hDifficultyPoint ;
}
}
}
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IEnumerable < SampleControlPoint > collectSampleControlPoints ( IEnumerable < HitObject > hitObjects )
{
foreach ( var hitObject in hitObjects )
{
yield return hitObject . SampleControlPoint ;
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foreach ( var nested in collectSampleControlPoints ( hitObject . NestedHitObjects ) )
yield return nested ;
}
}
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void extractSampleControlPoints ( IEnumerable < HitObject > hitObject )
{
foreach ( var hSamplePoint in collectSampleControlPoints ( hitObject ) . OrderBy ( sp = > sp . Time ) )
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{
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if ( ! hSamplePoint . IsRedundant ( lastRelevantSamplePoint ) )
{
legacyControlPoints . Add ( hSamplePoint . Time , hSamplePoint ) ;
lastRelevantSamplePoint = hSamplePoint ;
}
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}
}
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}
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private void handleColours ( TextWriter writer )
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{
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var colours = skin ? . GetConfig < GlobalSkinColours , IReadOnlyList < Color4 > > ( GlobalSkinColours . ComboColours ) ? . Value ;
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if ( colours = = null | | colours . Count = = 0 )
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return ;
writer . WriteLine ( "[Colours]" ) ;
for ( var i = 0 ; i < colours . Count ; i + + )
{
var comboColour = colours [ i ] ;
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writer . Write ( FormattableString . Invariant ( $"Combo{i}: " ) ) ;
writer . Write ( FormattableString . Invariant ( $"{(byte)(comboColour.R * byte.MaxValue)}," ) ) ;
writer . Write ( FormattableString . Invariant ( $"{(byte)(comboColour.G * byte.MaxValue)}," ) ) ;
writer . Write ( FormattableString . Invariant ( $"{(byte)(comboColour.B * byte.MaxValue)}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(byte)(comboColour.A * byte.MaxValue)}" ) ) ;
writer . WriteLine ( ) ;
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}
}
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private void handleHitObjects ( TextWriter writer )
{
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writer . WriteLine ( "[HitObjects]" ) ;
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if ( beatmap . HitObjects . Count = = 0 )
return ;
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foreach ( var h in beatmap . HitObjects )
handleHitObject ( writer , h ) ;
}
private void handleHitObject ( TextWriter writer , HitObject hitObject )
{
Vector2 position = new Vector2 ( 256 , 192 ) ;
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switch ( beatmap . BeatmapInfo . RulesetID )
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{
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case 0 :
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case 2 :
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position = ( ( IHasPosition ) hitObject ) . Position ;
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break ;
case 3 :
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int totalColumns = ( int ) Math . Max ( 1 , beatmap . Difficulty . CircleSize ) ;
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position . X = ( int ) Math . Ceiling ( ( ( IHasXPosition ) hitObject ) . X * ( 512f / totalColumns ) ) ;
break ;
}
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writer . Write ( FormattableString . Invariant ( $"{position.X}," ) ) ;
writer . Write ( FormattableString . Invariant ( $"{position.Y}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{hitObject.StartTime}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(int)getObjectType(hitObject)}," ) ) ;
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writer . Write ( FormattableString . Invariant ( $"{(int)toLegacyHitSoundType(hitObject.Samples)}," ) ) ;
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if ( hitObject is IHasPath path )
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{
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addPathData ( writer , path , position ) ;
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writer . Write ( getSampleBank ( hitObject . Samples ) ) ;
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}
else
{
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if ( hitObject is IHasDuration )
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addEndTimeData ( writer , hitObject ) ;
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writer . Write ( getSampleBank ( hitObject . Samples ) ) ;
}
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writer . WriteLine ( ) ;
}
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private LegacyHitObjectType getObjectType ( HitObject hitObject )
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{
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LegacyHitObjectType type = 0 ;
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if ( hitObject is IHasCombo combo )
{
type = ( LegacyHitObjectType ) ( combo . ComboOffset < < 4 ) ;
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if ( combo . NewCombo )
type | = LegacyHitObjectType . NewCombo ;
}
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switch ( hitObject )
{
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case IHasPath _ :
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type | = LegacyHitObjectType . Slider ;
break ;
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case IHasDuration _ :
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if ( beatmap . BeatmapInfo . RulesetID = = 3 )
type | = LegacyHitObjectType . Hold ;
else
type | = LegacyHitObjectType . Spinner ;
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break ;
default :
type | = LegacyHitObjectType . Circle ;
break ;
}
return type ;
}
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private void addPathData ( TextWriter writer , IHasPath pathData , Vector2 position )
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{
PathType ? lastType = null ;
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for ( int i = 0 ; i < pathData . Path . ControlPoints . Count ; i + + )
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{
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PathControlPoint point = pathData . Path . ControlPoints [ i ] ;
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if ( point . Type ! = null )
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{
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// We've reached a new (explicit) segment!
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// Explicit segments have a new format in which the type is injected into the middle of the control point string.
// To preserve compatibility with osu-stable as much as possible, explicit segments with the same type are converted to use implicit segments by duplicating the control point.
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// One exception are consecutive perfect curves, which aren't supported in osu!stable and can lead to decoding issues if encoded as implicit segments
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bool needsExplicitSegment = point . Type ! = lastType | | point . Type = = PathType . PerfectCurve ;
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// Another exception to this is when the last two control points of the last segment were duplicated. This is not a scenario supported by osu!stable.
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// Lazer does not add implicit segments for the last two control points of _any_ explicit segment, so an explicit segment is forced in order to maintain consistency with the decoder.
if ( i > 1 )
{
// We need to use the absolute control point position to determine equality, otherwise floating point issues may arise.
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Vector2 p1 = position + pathData . Path . ControlPoints [ i - 1 ] . Position ;
Vector2 p2 = position + pathData . Path . ControlPoints [ i - 2 ] . Position ;
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if ( ( int ) p1 . X = = ( int ) p2 . X & & ( int ) p1 . Y = = ( int ) p2 . Y )
needsExplicitSegment = true ;
}
if ( needsExplicitSegment )
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{
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switch ( point . Type )
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{
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case PathType . Bezier :
writer . Write ( "B|" ) ;
break ;
case PathType . Catmull :
writer . Write ( "C|" ) ;
break ;
case PathType . PerfectCurve :
writer . Write ( "P|" ) ;
break ;
case PathType . Linear :
writer . Write ( "L|" ) ;
break ;
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}
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lastType = point . Type ;
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}
else
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{
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// New segment with the same type - duplicate the control point
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writer . Write ( FormattableString . Invariant ( $"{position.X + point.Position.X}:{position.Y + point.Position.Y}|" ) ) ;
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}
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}
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if ( i ! = 0 )
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{
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writer . Write ( FormattableString . Invariant ( $"{position.X + point.Position.X}:{position.Y + point.Position.Y}" ) ) ;
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writer . Write ( i ! = pathData . Path . ControlPoints . Count - 1 ? "|" : "," ) ;
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}
}
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var curveData = pathData as IHasPathWithRepeats ;
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writer . Write ( FormattableString . Invariant ( $"{(curveData?.RepeatCount ?? 0) + 1}," ) ) ;
writer . Write ( FormattableString . Invariant ( $"{pathData.Path.Distance}," ) ) ;
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if ( curveData ! = null )
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{
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for ( int i = 0 ; i < curveData . NodeSamples . Count ; i + + )
{
writer . Write ( FormattableString . Invariant ( $"{(int)toLegacyHitSoundType(curveData.NodeSamples[i])}" ) ) ;
writer . Write ( i ! = curveData . NodeSamples . Count - 1 ? "|" : "," ) ;
}
for ( int i = 0 ; i < curveData . NodeSamples . Count ; i + + )
{
writer . Write ( getSampleBank ( curveData . NodeSamples [ i ] , true ) ) ;
writer . Write ( i ! = curveData . NodeSamples . Count - 1 ? "|" : "," ) ;
}
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}
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}
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private void addEndTimeData ( TextWriter writer , HitObject hitObject )
{
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var endTimeData = ( IHasDuration ) hitObject ;
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var type = getObjectType ( hitObject ) ;
char suffix = ',' ;
// Holds write the end time as if it's part of sample data.
if ( type = = LegacyHitObjectType . Hold )
suffix = ':' ;
writer . Write ( FormattableString . Invariant ( $"{endTimeData.EndTime}{suffix}" ) ) ;
}
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private string getSampleBank ( IList < HitSampleInfo > samples , bool banksOnly = false )
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{
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LegacySampleBank normalBank = toLegacySampleBank ( samples . SingleOrDefault ( s = > s . Name = = HitSampleInfo . HIT_NORMAL ) ? . Bank ) ;
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LegacySampleBank addBank = toLegacySampleBank ( samples . FirstOrDefault ( s = > ! string . IsNullOrEmpty ( s . Name ) & & s . Name ! = HitSampleInfo . HIT_NORMAL ) ? . Bank ) ;
StringBuilder sb = new StringBuilder ( ) ;
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sb . Append ( FormattableString . Invariant ( $"{(int)normalBank}:" ) ) ;
sb . Append ( FormattableString . Invariant ( $"{(int)addBank}" ) ) ;
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if ( ! banksOnly )
{
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string customSampleBank = toLegacyCustomSampleBank ( samples . FirstOrDefault ( s = > ! string . IsNullOrEmpty ( s . Name ) ) ) ;
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string sampleFilename = samples . FirstOrDefault ( s = > string . IsNullOrEmpty ( s . Name ) ) ? . LookupNames . First ( ) ? ? string . Empty ;
int volume = samples . FirstOrDefault ( ) ? . Volume ? ? 100 ;
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sb . Append ( ':' ) ;
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sb . Append ( FormattableString . Invariant ( $"{customSampleBank}:" ) ) ;
sb . Append ( FormattableString . Invariant ( $"{volume}:" ) ) ;
sb . Append ( FormattableString . Invariant ( $"{sampleFilename}" ) ) ;
}
return sb . ToString ( ) ;
}
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private LegacyHitSoundType toLegacyHitSoundType ( IList < HitSampleInfo > samples )
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{
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LegacyHitSoundType type = LegacyHitSoundType . None ;
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foreach ( var sample in samples )
{
switch ( sample . Name )
{
case HitSampleInfo . HIT_WHISTLE :
type | = LegacyHitSoundType . Whistle ;
break ;
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case HitSampleInfo . HIT_FINISH :
type | = LegacyHitSoundType . Finish ;
break ;
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case HitSampleInfo . HIT_CLAP :
type | = LegacyHitSoundType . Clap ;
break ;
}
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}
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return type ;
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}
private LegacySampleBank toLegacySampleBank ( string sampleBank )
{
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switch ( sampleBank ? . ToLowerInvariant ( ) )
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{
case "normal" :
return LegacySampleBank . Normal ;
case "soft" :
return LegacySampleBank . Soft ;
case "drum" :
return LegacySampleBank . Drum ;
default :
return LegacySampleBank . None ;
}
}
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private string toLegacyCustomSampleBank ( HitSampleInfo hitSampleInfo )
{
if ( hitSampleInfo is ConvertHitObjectParser . LegacyHitSampleInfo legacy )
return legacy . CustomSampleBank . ToString ( CultureInfo . InvariantCulture ) ;
return "0" ;
}
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}
}