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osu-lazer/osu.Game/Beatmaps/Formats/LegacyBeatmapDecoder.cs
Salman Ahmed 0eaea8ef9d Create a constructor for break period
For simple construction of break periods (e.g. filling a method with an array of break periods inside a test case)
2020-04-05 21:29:03 +03:00

445 lines
16 KiB
C#

// 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.IO;
using System.Linq;
using osu.Framework.Extensions;
using osu.Game.Beatmaps.ControlPoints;
using osu.Game.Beatmaps.Legacy;
using osu.Game.Beatmaps.Timing;
using osu.Game.IO;
using osu.Game.Rulesets.Objects.Legacy;
namespace osu.Game.Beatmaps.Formats
{
public class LegacyBeatmapDecoder : LegacyDecoder<Beatmap>
{
public const int LATEST_VERSION = 14;
private Beatmap beatmap;
private ConvertHitObjectParser parser;
private LegacySampleBank defaultSampleBank;
private int defaultSampleVolume = 100;
public static void Register()
{
AddDecoder<Beatmap>(@"osu file format v", m => new LegacyBeatmapDecoder(Parsing.ParseInt(m.Split('v').Last())));
SetFallbackDecoder<Beatmap>(() => new LegacyBeatmapDecoder());
}
/// <summary>
/// Whether or not beatmap or runtime offsets should be applied. Defaults on; only disable for testing purposes.
/// </summary>
public bool ApplyOffsets = true;
private readonly int offset;
public LegacyBeatmapDecoder(int version = LATEST_VERSION)
: base(version)
{
// BeatmapVersion 4 and lower had an incorrect offset (stable has this set as 24ms off)
offset = FormatVersion < 5 ? 24 : 0;
}
protected override void ParseStreamInto(LineBufferedReader stream, Beatmap beatmap)
{
this.beatmap = beatmap;
this.beatmap.BeatmapInfo.BeatmapVersion = FormatVersion;
base.ParseStreamInto(stream, beatmap);
flushPendingPoints();
// Objects may be out of order *only* if a user has manually edited an .osu file.
// Unfortunately there are ranked maps in this state (example: https://osu.ppy.sh/s/594828).
// OrderBy is used to guarantee that the parsing order of hitobjects with equal start times is maintained (stably-sorted)
// The parsing order of hitobjects matters in mania difficulty calculation
this.beatmap.HitObjects = this.beatmap.HitObjects.OrderBy(h => h.StartTime).ToList();
foreach (var hitObject in this.beatmap.HitObjects)
hitObject.ApplyDefaults(this.beatmap.ControlPointInfo, this.beatmap.BeatmapInfo.BaseDifficulty);
}
protected override bool ShouldSkipLine(string line) => base.ShouldSkipLine(line) || line.StartsWith(' ') || line.StartsWith('_');
protected override void ParseLine(Beatmap beatmap, Section section, string line)
{
var strippedLine = StripComments(line);
switch (section)
{
case Section.General:
handleGeneral(strippedLine);
return;
case Section.Editor:
handleEditor(strippedLine);
return;
case Section.Metadata:
handleMetadata(line);
return;
case Section.Difficulty:
handleDifficulty(strippedLine);
return;
case Section.Events:
handleEvent(strippedLine);
return;
case Section.TimingPoints:
handleTimingPoint(strippedLine);
return;
case Section.HitObjects:
handleHitObject(strippedLine);
return;
}
base.ParseLine(beatmap, section, line);
}
private void handleGeneral(string line)
{
var pair = SplitKeyVal(line);
var metadata = beatmap.BeatmapInfo.Metadata;
switch (pair.Key)
{
case @"AudioFilename":
metadata.AudioFile = pair.Value.ToStandardisedPath();
break;
case @"AudioLeadIn":
beatmap.BeatmapInfo.AudioLeadIn = Parsing.ParseInt(pair.Value);
break;
case @"PreviewTime":
metadata.PreviewTime = getOffsetTime(Parsing.ParseInt(pair.Value));
break;
case @"Countdown":
beatmap.BeatmapInfo.Countdown = Parsing.ParseInt(pair.Value) == 1;
break;
case @"SampleSet":
defaultSampleBank = (LegacySampleBank)Enum.Parse(typeof(LegacySampleBank), pair.Value);
break;
case @"SampleVolume":
defaultSampleVolume = Parsing.ParseInt(pair.Value);
break;
case @"StackLeniency":
beatmap.BeatmapInfo.StackLeniency = Parsing.ParseFloat(pair.Value);
break;
case @"Mode":
beatmap.BeatmapInfo.RulesetID = Parsing.ParseInt(pair.Value);
switch (beatmap.BeatmapInfo.RulesetID)
{
case 0:
parser = new Rulesets.Objects.Legacy.Osu.ConvertHitObjectParser(getOffsetTime(), FormatVersion);
break;
case 1:
parser = new Rulesets.Objects.Legacy.Taiko.ConvertHitObjectParser(getOffsetTime(), FormatVersion);
break;
case 2:
parser = new Rulesets.Objects.Legacy.Catch.ConvertHitObjectParser(getOffsetTime(), FormatVersion);
break;
case 3:
parser = new Rulesets.Objects.Legacy.Mania.ConvertHitObjectParser(getOffsetTime(), FormatVersion);
break;
}
break;
case @"LetterboxInBreaks":
beatmap.BeatmapInfo.LetterboxInBreaks = Parsing.ParseInt(pair.Value) == 1;
break;
case @"SpecialStyle":
beatmap.BeatmapInfo.SpecialStyle = Parsing.ParseInt(pair.Value) == 1;
break;
case @"WidescreenStoryboard":
beatmap.BeatmapInfo.WidescreenStoryboard = Parsing.ParseInt(pair.Value) == 1;
break;
}
}
private void handleEditor(string line)
{
var pair = SplitKeyVal(line);
switch (pair.Key)
{
case @"Bookmarks":
beatmap.BeatmapInfo.StoredBookmarks = pair.Value;
break;
case @"DistanceSpacing":
beatmap.BeatmapInfo.DistanceSpacing = Math.Max(0, Parsing.ParseDouble(pair.Value));
break;
case @"BeatDivisor":
beatmap.BeatmapInfo.BeatDivisor = Parsing.ParseInt(pair.Value);
break;
case @"GridSize":
beatmap.BeatmapInfo.GridSize = Parsing.ParseInt(pair.Value);
break;
case @"TimelineZoom":
beatmap.BeatmapInfo.TimelineZoom = Math.Max(0, Parsing.ParseDouble(pair.Value));
break;
}
}
private void handleMetadata(string line)
{
var pair = SplitKeyVal(line);
var metadata = beatmap.BeatmapInfo.Metadata;
switch (pair.Key)
{
case @"Title":
metadata.Title = pair.Value;
break;
case @"TitleUnicode":
metadata.TitleUnicode = pair.Value;
break;
case @"Artist":
metadata.Artist = pair.Value;
break;
case @"ArtistUnicode":
metadata.ArtistUnicode = pair.Value;
break;
case @"Creator":
metadata.AuthorString = pair.Value;
break;
case @"Version":
beatmap.BeatmapInfo.Version = pair.Value;
break;
case @"Source":
metadata.Source = pair.Value;
break;
case @"Tags":
metadata.Tags = pair.Value;
break;
case @"BeatmapID":
beatmap.BeatmapInfo.OnlineBeatmapID = Parsing.ParseInt(pair.Value);
break;
case @"BeatmapSetID":
beatmap.BeatmapInfo.BeatmapSet = new BeatmapSetInfo { OnlineBeatmapSetID = Parsing.ParseInt(pair.Value) };
break;
}
}
private void handleDifficulty(string line)
{
var pair = SplitKeyVal(line);
var difficulty = beatmap.BeatmapInfo.BaseDifficulty;
switch (pair.Key)
{
case @"HPDrainRate":
difficulty.DrainRate = Parsing.ParseFloat(pair.Value);
break;
case @"CircleSize":
difficulty.CircleSize = Parsing.ParseFloat(pair.Value);
break;
case @"OverallDifficulty":
difficulty.OverallDifficulty = Parsing.ParseFloat(pair.Value);
break;
case @"ApproachRate":
difficulty.ApproachRate = Parsing.ParseFloat(pair.Value);
break;
case @"SliderMultiplier":
difficulty.SliderMultiplier = Parsing.ParseDouble(pair.Value);
break;
case @"SliderTickRate":
difficulty.SliderTickRate = Parsing.ParseDouble(pair.Value);
break;
}
}
private void handleEvent(string line)
{
string[] split = line.Split(',');
if (!Enum.TryParse(split[0], out LegacyEventType type))
throw new InvalidDataException($@"Unknown event type: {split[0]}");
switch (type)
{
case LegacyEventType.Background:
beatmap.BeatmapInfo.Metadata.BackgroundFile = CleanFilename(split[2]);
break;
case LegacyEventType.Break:
double start = getOffsetTime(Parsing.ParseDouble(split[1]));
double end = Math.Max(start, getOffsetTime(Parsing.ParseDouble(split[2])));
var breakEvent = new BreakPeriod(start, end);
if (!breakEvent.HasEffect)
return;
beatmap.Breaks.Add(breakEvent);
break;
}
}
private void handleTimingPoint(string line)
{
string[] split = line.Split(',');
double time = getOffsetTime(Parsing.ParseDouble(split[0].Trim()));
double beatLength = Parsing.ParseDouble(split[1].Trim());
double speedMultiplier = beatLength < 0 ? 100.0 / -beatLength : 1;
TimeSignatures timeSignature = TimeSignatures.SimpleQuadruple;
if (split.Length >= 3)
timeSignature = split[2][0] == '0' ? TimeSignatures.SimpleQuadruple : (TimeSignatures)Parsing.ParseInt(split[2]);
LegacySampleBank sampleSet = defaultSampleBank;
if (split.Length >= 4)
sampleSet = (LegacySampleBank)Parsing.ParseInt(split[3]);
int customSampleBank = 0;
if (split.Length >= 5)
customSampleBank = Parsing.ParseInt(split[4]);
int sampleVolume = defaultSampleVolume;
if (split.Length >= 6)
sampleVolume = Parsing.ParseInt(split[5]);
bool timingChange = true;
if (split.Length >= 7)
timingChange = split[6][0] == '1';
bool kiaiMode = false;
bool omitFirstBarSignature = false;
if (split.Length >= 8)
{
LegacyEffectFlags effectFlags = (LegacyEffectFlags)Parsing.ParseInt(split[7]);
kiaiMode = effectFlags.HasFlag(LegacyEffectFlags.Kiai);
omitFirstBarSignature = effectFlags.HasFlag(LegacyEffectFlags.OmitFirstBarLine);
}
string stringSampleSet = sampleSet.ToString().ToLowerInvariant();
if (stringSampleSet == @"none")
stringSampleSet = @"normal";
if (timingChange)
{
var controlPoint = CreateTimingControlPoint();
controlPoint.BeatLength = beatLength;
controlPoint.TimeSignature = timeSignature;
addControlPoint(time, controlPoint, true);
}
addControlPoint(time, new LegacyDifficultyControlPoint
{
SpeedMultiplier = speedMultiplier,
}, timingChange);
addControlPoint(time, new EffectControlPoint
{
KiaiMode = kiaiMode,
OmitFirstBarLine = omitFirstBarSignature,
}, timingChange);
addControlPoint(time, new LegacySampleControlPoint
{
SampleBank = stringSampleSet,
SampleVolume = sampleVolume,
CustomSampleBank = customSampleBank,
}, timingChange);
// To handle the scenario where a non-timing line shares the same time value as a subsequent timing line but
// appears earlier in the file, we buffer non-timing control points and rewrite them *after* control points from the timing line
// with the same time value (allowing them to overwrite as necessary).
//
// The expected outcome is that we prefer the non-timing line's adjustments over the timing line's adjustments when time is equal.
if (timingChange)
flushPendingPoints();
}
private readonly List<ControlPoint> pendingControlPoints = new List<ControlPoint>();
private double pendingControlPointsTime;
private void addControlPoint(double time, ControlPoint point, bool timingChange)
{
if (time != pendingControlPointsTime)
flushPendingPoints();
if (timingChange)
{
beatmap.ControlPointInfo.Add(time, point);
return;
}
pendingControlPoints.Add(point);
pendingControlPointsTime = time;
}
private void flushPendingPoints()
{
foreach (var p in pendingControlPoints)
beatmap.ControlPointInfo.Add(pendingControlPointsTime, p);
pendingControlPoints.Clear();
}
private void handleHitObject(string line)
{
// If the ruleset wasn't specified, assume the osu!standard ruleset.
if (parser == null)
parser = new Rulesets.Objects.Legacy.Osu.ConvertHitObjectParser(getOffsetTime(), FormatVersion);
var obj = parser.Parse(line);
if (obj != null)
beatmap.HitObjects.Add(obj);
}
private int getOffsetTime(int time) => time + (ApplyOffsets ? offset : 0);
private double getOffsetTime() => ApplyOffsets ? offset : 0;
private double getOffsetTime(double time) => time + (ApplyOffsets ? offset : 0);
protected virtual TimingControlPoint CreateTimingControlPoint() => new TimingControlPoint();
}
}