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osu-lazer/osu.Game/Beatmaps/Formats/LegacyBeatmapEncoder.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.Generic;
using System.Globalization;
using System.IO;
using System.Linq;
using System.Text;
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using JetBrains.Annotations;
using osu.Game.Audio;
using osu.Game.Beatmaps.ControlPoints;
using osu.Game.Beatmaps.Legacy;
using osu.Game.Rulesets.Objects;
using osu.Game.Rulesets.Objects.Legacy;
using osu.Game.Rulesets.Objects.Types;
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using osu.Game.Skinning;
using osuTK;
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using osuTK.Graphics;
namespace osu.Game.Beatmaps.Formats
{
public class LegacyBeatmapEncoder
{
public const int FIRST_LAZER_VERSION = 128;
/// <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;
private readonly IBeatmap beatmap;
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[CanBeNull]
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private readonly ISkin skin;
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private readonly int onlineRulesetID;
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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)
{
this.beatmap = beatmap;
this.skin = skin;
onlineRulesetID = beatmap.BeatmapInfo.Ruleset.OnlineID;
if (onlineRulesetID < 0 || onlineRulesetID > 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($"osu file format v{FIRST_LAZER_VERSION}");
writer.WriteLine();
handleGeneral(writer);
writer.WriteLine();
handleEditor(writer);
writer.WriteLine();
handleMetadata(writer);
writer.WriteLine();
handleDifficulty(writer);
writer.WriteLine();
handleEvents(writer);
writer.WriteLine();
handleControlPoints(writer);
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writer.WriteLine();
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handleColours(writer);
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writer.WriteLine();
handleHitObjects(writer);
}
private void handleGeneral(TextWriter writer)
{
writer.WriteLine("[General]");
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if (!string.IsNullOrEmpty(beatmap.Metadata.AudioFile)) writer.WriteLine(FormattableString.Invariant($"AudioFilename: {Path.GetFileName(beatmap.Metadata.AudioFile)}"));
writer.WriteLine(FormattableString.Invariant($"AudioLeadIn: {beatmap.BeatmapInfo.AudioLeadIn}"));
writer.WriteLine(FormattableString.Invariant($"PreviewTime: {beatmap.Metadata.PreviewTime}"));
writer.WriteLine(FormattableString.Invariant($"Countdown: {(int)beatmap.BeatmapInfo.Countdown}"));
writer.WriteLine(FormattableString.Invariant($"SampleSet: {toLegacySampleBank((beatmap.HitObjects.FirstOrDefault()?.SampleControlPoint ?? SampleControlPoint.DEFAULT).SampleBank)}"));
writer.WriteLine(FormattableString.Invariant($"StackLeniency: {beatmap.BeatmapInfo.StackLeniency}"));
writer.WriteLine(FormattableString.Invariant($"Mode: {onlineRulesetID}"));
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writer.WriteLine(FormattableString.Invariant($"LetterboxInBreaks: {(beatmap.BeatmapInfo.LetterboxInBreaks ? '1' : '0')}"));
// if (beatmap.BeatmapInfo.UseSkinSprites)
// writer.WriteLine(@"UseSkinSprites: 1");
// if (b.AlwaysShowPlayfield)
// writer.WriteLine(@"AlwaysShowPlayfield: 1");
// if (b.OverlayPosition != OverlayPosition.NoChange)
// writer.WriteLine(@"OverlayPosition: " + b.OverlayPosition);
// if (!string.IsNullOrEmpty(b.SkinPreference))
// writer.WriteLine(@"SkinPreference:" + b.SkinPreference);
if (beatmap.BeatmapInfo.EpilepsyWarning)
writer.WriteLine(@"EpilepsyWarning: 1");
if (beatmap.BeatmapInfo.CountdownOffset > 0)
writer.WriteLine(FormattableString.Invariant($@"CountdownOffset: {beatmap.BeatmapInfo.CountdownOffset}"));
if (onlineRulesetID == 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')}"));
if (beatmap.BeatmapInfo.SamplesMatchPlaybackRate)
writer.WriteLine(@"SamplesMatchPlaybackRate: 1");
}
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 (!string.IsNullOrEmpty(beatmap.Metadata.TitleUnicode)) writer.WriteLine(FormattableString.Invariant($"TitleUnicode: {beatmap.Metadata.TitleUnicode}"));
writer.WriteLine(FormattableString.Invariant($"Artist: {beatmap.Metadata.Artist}"));
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if (!string.IsNullOrEmpty(beatmap.Metadata.ArtistUnicode)) writer.WriteLine(FormattableString.Invariant($"ArtistUnicode: {beatmap.Metadata.ArtistUnicode}"));
writer.WriteLine(FormattableString.Invariant($"Creator: {beatmap.Metadata.Author.Username}"));
writer.WriteLine(FormattableString.Invariant($"Version: {beatmap.BeatmapInfo.DifficultyName}"));
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if (!string.IsNullOrEmpty(beatmap.Metadata.Source)) writer.WriteLine(FormattableString.Invariant($"Source: {beatmap.Metadata.Source}"));
if (!string.IsNullOrEmpty(beatmap.Metadata.Tags)) writer.WriteLine(FormattableString.Invariant($"Tags: {beatmap.Metadata.Tags}"));
if (beatmap.BeatmapInfo.OnlineID > 0) writer.WriteLine(FormattableString.Invariant($"BeatmapID: {beatmap.BeatmapInfo.OnlineID}"));
if (beatmap.BeatmapInfo.BeatmapSet?.OnlineID > 0) writer.WriteLine(FormattableString.Invariant($"BeatmapSetID: {beatmap.BeatmapInfo.BeatmapSet.OnlineID}"));
}
private void handleDifficulty(TextWriter writer)
{
writer.WriteLine("[Difficulty]");
writer.WriteLine(FormattableString.Invariant($"HPDrainRate: {beatmap.Difficulty.DrainRate}"));
writer.WriteLine(FormattableString.Invariant($"CircleSize: {beatmap.Difficulty.CircleSize}"));
writer.WriteLine(FormattableString.Invariant($"OverallDifficulty: {beatmap.Difficulty.OverallDifficulty}"));
writer.WriteLine(FormattableString.Invariant($"ApproachRate: {beatmap.Difficulty.ApproachRate}"));
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// Taiko adjusts the slider multiplier (see: LEGACY_TAIKO_VELOCITY_MULTIPLIER)
writer.WriteLine(onlineRulesetID == 1
? FormattableString.Invariant($"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}"));
}
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}"));
}
private void handleControlPoints(TextWriter writer)
{
if (beatmap.ControlPointInfo.Groups.Count == 0)
return;
var legacyControlPoints = new LegacyControlPointInfo();
foreach (var point in beatmap.ControlPointInfo.AllControlPoints)
legacyControlPoints.Add(point.Time, point.DeepClone());
writer.WriteLine("[TimingPoints]");
SampleControlPoint lastRelevantSamplePoint = null;
DifficultyControlPoint lastRelevantDifficultyPoint = null;
// In osu!taiko and osu!mania, a scroll speed is stored as "slider velocity" in legacy formats.
// In that case, a scrolling speed change is a global effect and per-hit object difficulty control points are ignored.
bool scrollSpeedEncodedAsSliderVelocity = onlineRulesetID == 1 || onlineRulesetID == 3;
// iterate over hitobjects and pull out all required sample and difficulty changes
extractDifficultyControlPoints(beatmap.HitObjects);
extractSampleControlPoints(beatmap.HitObjects);
if (scrollSpeedEncodedAsSliderVelocity)
{
foreach (var point in legacyControlPoints.EffectPoints)
legacyControlPoints.Add(point.Time, new DifficultyControlPoint { SliderVelocity = point.ScrollSpeed });
}
foreach (var group in legacyControlPoints.Groups)
{
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},"));
outputControlPointAt(groupTimingPoint.Time, true);
}
// Output any remaining effects as secondary non-timing control point.
var difficultyPoint = legacyControlPoints.DifficultyPointAt(group.Time);
writer.Write(FormattableString.Invariant($"{group.Time},"));
writer.Write(FormattableString.Invariant($"{-100 / difficultyPoint.SliderVelocity},"));
outputControlPointAt(group.Time, false);
}
void outputControlPointAt(double time, bool isTimingPoint)
{
var samplePoint = legacyControlPoints.SamplePointAt(time);
var effectPoint = legacyControlPoints.EffectPointAt(time);
// 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));
// Convert effect flags to the legacy format
LegacyEffectFlags effectFlags = LegacyEffectFlags.None;
if (effectPoint.KiaiMode)
effectFlags |= LegacyEffectFlags.Kiai;
if (effectPoint.OmitFirstBarLine)
effectFlags |= LegacyEffectFlags.OmitFirstBarLine;
writer.Write(FormattableString.Invariant($"{legacyControlPoints.TimingPointAt(time).TimeSignature.Numerator},"));
writer.Write(FormattableString.Invariant($"{(int)toLegacySampleBank(tempHitSample.Bank)},"));
writer.Write(FormattableString.Invariant($"{toLegacyCustomSampleBank(tempHitSample)},"));
writer.Write(FormattableString.Invariant($"{tempHitSample.Volume},"));
writer.Write(FormattableString.Invariant($"{(isTimingPoint ? '1' : '0')},"));
writer.Write(FormattableString.Invariant($"{(int)effectFlags}"));
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writer.WriteLine();
}
IEnumerable<DifficultyControlPoint> collectDifficultyControlPoints(IEnumerable<HitObject> hitObjects)
{
if (scrollSpeedEncodedAsSliderVelocity)
yield break;
foreach (var hitObject in hitObjects)
yield return hitObject.DifficultyControlPoint;
}
void extractDifficultyControlPoints(IEnumerable<HitObject> hitObjects)
{
foreach (var hDifficultyPoint in collectDifficultyControlPoints(hitObjects).OrderBy(dp => dp.Time))
{
if (!hDifficultyPoint.IsRedundant(lastRelevantDifficultyPoint))
{
legacyControlPoints.Add(hDifficultyPoint.Time, hDifficultyPoint);
lastRelevantDifficultyPoint = hDifficultyPoint;
}
}
}
IEnumerable<SampleControlPoint> collectSampleControlPoints(IEnumerable<HitObject> hitObjects)
{
foreach (var hitObject in hitObjects)
{
yield return hitObject.SampleControlPoint;
foreach (var nested in collectSampleControlPoints(hitObject.NestedHitObjects))
yield return nested;
}
}
void extractSampleControlPoints(IEnumerable<HitObject> hitObject)
{
foreach (var hSamplePoint in collectSampleControlPoints(hitObject).OrderBy(sp => sp.Time))
{
if (!hSamplePoint.IsRedundant(lastRelevantSamplePoint))
{
legacyControlPoints.Add(hSamplePoint.Time, hSamplePoint);
lastRelevantSamplePoint = hSamplePoint;
}
}
}
}
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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 (int i = 0; i < colours.Count; i++)
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{
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)},"));
writer.Write(FormattableString.Invariant($"{(byte)(comboColour.A * byte.MaxValue)}"));
writer.WriteLine();
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}
}
private void handleHitObjects(TextWriter writer)
{
writer.WriteLine("[HitObjects]");
if (beatmap.HitObjects.Count == 0)
return;
foreach (var h in beatmap.HitObjects)
handleHitObject(writer, h);
}
private void handleHitObject(TextWriter writer, HitObject hitObject)
{
Vector2 position = new Vector2(256, 192);
switch (onlineRulesetID)
{
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case 0:
case 2:
position = ((IHasPosition)hitObject).Position;
break;
case 3:
int totalColumns = (int)Math.Max(1, beatmap.Difficulty.CircleSize);
position.X = (int)Math.Ceiling(((IHasXPosition)hitObject).X * (512f / totalColumns));
break;
}
writer.Write(FormattableString.Invariant($"{position.X},"));
writer.Write(FormattableString.Invariant($"{position.Y},"));
writer.Write(FormattableString.Invariant($"{hitObject.StartTime},"));
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writer.Write(FormattableString.Invariant($"{(int)getObjectType(hitObject)},"));
writer.Write(FormattableString.Invariant($"{(int)toLegacyHitSoundType(hitObject.Samples)},"));
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if (hitObject is IHasPath path)
{
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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)
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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{
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)
{
case IHasPath _:
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type |= LegacyHitObjectType.Slider;
break;
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case IHasDuration _:
if (onlineRulesetID == 3)
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type |= LegacyHitObjectType.Hold;
else
type |= LegacyHitObjectType.Spinner;
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break;
default:
type |= LegacyHitObjectType.Circle;
break;
}
return type;
}
private void addPathData(TextWriter writer, IHasPath pathData, Vector2 position)
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{
PathType? lastType = null;
for (int i = 0; i < pathData.Path.ControlPoints.Count; i++)
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{
PathControlPoint point = pathData.Path.ControlPoints[i];
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if (point.Type != null)
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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.
// One exception are consecutive perfect curves, which aren't supported in osu!stable and can lead to decoding issues if encoded as implicit segments
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.
// 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.
Vector2 p1 = position + pathData.Path.ControlPoints[i - 1].Position;
Vector2 p2 = position + pathData.Path.ControlPoints[i - 2].Position;
if ((int)p1.X == (int)p2.X && (int)p1.Y == (int)p2.Y)
needsExplicitSegment = true;
}
if (needsExplicitSegment)
{
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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}
lastType = point.Type;
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}
else
{
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// New segment with the same type - duplicate the control point
writer.Write(FormattableString.Invariant($"{position.X + point.Position.X}:{position.Y + point.Position.Y}|"));
}
}
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if (i != 0)
{
writer.Write(FormattableString.Invariant($"{position.X + point.Position.X}:{position.Y + point.Position.Y}"));
writer.Write(i != pathData.Path.ControlPoints.Count - 1 ? "|" : ",");
}
}
var curveData = pathData as IHasPathWithRepeats;
writer.Write(FormattableString.Invariant($"{(curveData?.RepeatCount ?? 0) + 1},"));
writer.Write(FormattableString.Invariant($"{pathData.Path.ExpectedDistance.Value ?? pathData.Path.Distance},"));
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if (curveData != null)
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{
for (int i = 0; i < curveData.NodeSamples.Count; i++)
{
writer.Write(FormattableString.Invariant($"{(int)toLegacyHitSoundType(curveData.NodeSamples[i])}"));
writer.Write(i != curveData.NodeSamples.Count - 1 ? "|" : ",");
}
for (int i = 0; i < curveData.NodeSamples.Count; i++)
{
writer.Write(getSampleBank(curveData.NodeSamples[i], true));
writer.Write(i != curveData.NodeSamples.Count - 1 ? "|" : ",");
}
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}
}
private void addEndTimeData(TextWriter writer, HitObject hitObject)
{
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var endTimeData = (IHasDuration)hitObject;
var type = getObjectType(hitObject);
char suffix = ',';
// Holds write the end time as if it's part of sample data.
if (type == LegacyHitObjectType.Hold)
suffix = ':';
writer.Write(FormattableString.Invariant($"{endTimeData.EndTime}{suffix}"));
}
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private string getSampleBank(IList<HitSampleInfo> samples, bool banksOnly = false)
{
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LegacySampleBank normalBank = toLegacySampleBank(samples.SingleOrDefault(s => s.Name == HitSampleInfo.HIT_NORMAL)?.Bank);
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}"));
if (!banksOnly)
{
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;
sb.Append(':');
sb.Append(FormattableString.Invariant($"{customSampleBank}:"));
sb.Append(FormattableString.Invariant($"{volume}:"));
sb.Append(FormattableString.Invariant($"{sampleFilename}"));
}
return sb.ToString();
}
private LegacyHitSoundType toLegacyHitSoundType(IList<HitSampleInfo> samples)
{
LegacyHitSoundType type = LegacyHitSoundType.None;
foreach (var sample in samples)
{
switch (sample.Name)
{
case HitSampleInfo.HIT_WHISTLE:
type |= LegacyHitSoundType.Whistle;
break;
case HitSampleInfo.HIT_FINISH:
type |= LegacyHitSoundType.Finish;
break;
case HitSampleInfo.HIT_CLAP:
type |= LegacyHitSoundType.Clap;
break;
}
}
return type;
}
private LegacySampleBank toLegacySampleBank(string sampleBank)
{
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switch (sampleBank?.ToLowerInvariant())
{
case "normal":
return LegacySampleBank.Normal;
case "soft":
return LegacySampleBank.Soft;
case "drum":
return LegacySampleBank.Drum;
default:
return LegacySampleBank.None;
}
}
private string toLegacyCustomSampleBank(HitSampleInfo hitSampleInfo)
{
if (hitSampleInfo is ConvertHitObjectParser.LegacyHitSampleInfo legacy)
return legacy.CustomSampleBank.ToString(CultureInfo.InvariantCulture);
return "0";
}
}
}