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osu-lazer/osu.Game/Scoring/Legacy/LegacyScoreParser.cs
2019-02-04 12:56:55 +09:00

298 lines
13 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.IO;
using System.Linq;
using osu.Game.Beatmaps;
using osu.Game.Beatmaps.Legacy;
using osu.Game.IO.Legacy;
using osu.Game.Replays;
using osu.Game.Replays.Legacy;
using osu.Game.Rulesets;
using osu.Game.Rulesets.Mods;
using osu.Game.Rulesets.Replays;
using osu.Game.Rulesets.Scoring;
using osu.Game.Users;
using SharpCompress.Compressors.LZMA;
namespace osu.Game.Scoring.Legacy
{
public abstract class LegacyScoreParser
{
private IBeatmap currentBeatmap;
private Ruleset currentRuleset;
public Score Parse(Stream stream)
{
var score = new Score
{
ScoreInfo = new ScoreInfo(),
Replay = new Replay()
};
using (SerializationReader sr = new SerializationReader(stream))
{
currentRuleset = GetRuleset(sr.ReadByte());
score.ScoreInfo = new ScoreInfo { Ruleset = currentRuleset.RulesetInfo };
var version = sr.ReadInt32();
var workingBeatmap = GetBeatmap(sr.ReadString());
if (workingBeatmap is DummyWorkingBeatmap)
throw new BeatmapNotFoundException();
currentBeatmap = workingBeatmap.Beatmap;
score.ScoreInfo.Beatmap = currentBeatmap.BeatmapInfo;
score.ScoreInfo.User = new User { Username = sr.ReadString() };
// MD5Hash
sr.ReadString();
var count300 = (int)sr.ReadUInt16();
var count100 = (int)sr.ReadUInt16();
var count50 = (int)sr.ReadUInt16();
var countGeki = (int)sr.ReadUInt16();
var countKatu = (int)sr.ReadUInt16();
var countMiss = (int)sr.ReadUInt16();
switch (currentRuleset.LegacyID)
{
case 0:
score.ScoreInfo.Statistics[HitResult.Great] = count300;
score.ScoreInfo.Statistics[HitResult.Good] = count100;
score.ScoreInfo.Statistics[HitResult.Meh] = count50;
score.ScoreInfo.Statistics[HitResult.Miss] = countMiss;
break;
case 1:
score.ScoreInfo.Statistics[HitResult.Great] = count300;
score.ScoreInfo.Statistics[HitResult.Good] = count100;
score.ScoreInfo.Statistics[HitResult.Miss] = countMiss;
break;
case 2:
score.ScoreInfo.Statistics[HitResult.Perfect] = count300;
score.ScoreInfo.Statistics[HitResult.Miss] = countMiss;
break;
case 3:
score.ScoreInfo.Statistics[HitResult.Perfect] = countGeki;
score.ScoreInfo.Statistics[HitResult.Great] = count300;
score.ScoreInfo.Statistics[HitResult.Good] = countKatu;
score.ScoreInfo.Statistics[HitResult.Ok] = count100;
score.ScoreInfo.Statistics[HitResult.Meh] = count50;
score.ScoreInfo.Statistics[HitResult.Miss] = countMiss;
break;
}
score.ScoreInfo.TotalScore = sr.ReadInt32();
score.ScoreInfo.MaxCombo = sr.ReadUInt16();
/* score.Perfect = */
sr.ReadBoolean();
score.ScoreInfo.Mods = currentRuleset.ConvertLegacyMods((LegacyMods)sr.ReadInt32()).ToArray();
/* score.HpGraphString = */
sr.ReadString();
score.ScoreInfo.Date = sr.ReadDateTime();
var compressedReplay = sr.ReadByteArray();
if (version >= 20140721)
score.ScoreInfo.OnlineScoreID = sr.ReadInt64();
else if (version >= 20121008)
score.ScoreInfo.OnlineScoreID = sr.ReadInt32();
if (compressedReplay?.Length > 0)
{
using (var replayInStream = new MemoryStream(compressedReplay))
{
byte[] properties = new byte[5];
if (replayInStream.Read(properties, 0, 5) != 5)
throw new IOException("input .lzma is too short");
long outSize = 0;
for (int i = 0; i < 8; i++)
{
int v = replayInStream.ReadByte();
if (v < 0)
throw new IOException("Can't Read 1");
outSize |= (long)(byte)v << (8 * i);
}
long compressedSize = replayInStream.Length - replayInStream.Position;
using (var lzma = new LzmaStream(properties, replayInStream, compressedSize, outSize))
using (var reader = new StreamReader(lzma))
readLegacyReplay(score.Replay, reader);
}
}
}
CalculateAccuracy(score.ScoreInfo);
return score;
}
protected void CalculateAccuracy(ScoreInfo score)
{
score.Statistics.TryGetValue(HitResult.Miss, out int countMiss);
score.Statistics.TryGetValue(HitResult.Meh, out int count50);
score.Statistics.TryGetValue(HitResult.Good, out int count100);
score.Statistics.TryGetValue(HitResult.Great, out int count300);
score.Statistics.TryGetValue(HitResult.Perfect, out int countGeki);
score.Statistics.TryGetValue(HitResult.Ok, out int countKatu);
switch (score.Ruleset.ID)
{
case 0:
{
int totalHits = count50 + count100 + count300 + countMiss;
score.Accuracy = totalHits > 0 ? (double)(count50 * 50 + count100 * 100 + count300 * 300) / (totalHits * 300) : 1;
float ratio300 = (float)count300 / totalHits;
float ratio50 = (float)count50 / totalHits;
if (ratio300 == 1)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.XH : ScoreRank.X;
else if (ratio300 > 0.9 && ratio50 <= 0.01 && countMiss == 0)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.SH : ScoreRank.S;
else if (ratio300 > 0.8 && countMiss == 0 || ratio300 > 0.9)
score.Rank = ScoreRank.A;
else if (ratio300 > 0.7 && countMiss == 0 || ratio300 > 0.8)
score.Rank = ScoreRank.B;
else if (ratio300 > 0.6)
score.Rank = ScoreRank.C;
else
score.Rank = ScoreRank.D;
break;
}
case 1:
{
int totalHits = count50 + count100 + count300 + countMiss;
score.Accuracy = totalHits > 0 ? (double)(count100 * 150 + count300 * 300) / (totalHits * 300) : 1;
float ratio300 = (float)count300 / totalHits;
float ratio50 = (float)count50 / totalHits;
if (ratio300 == 1)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.XH : ScoreRank.X;
else if (ratio300 > 0.9 && ratio50 <= 0.01 && countMiss == 0)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.SH : ScoreRank.S;
else if (ratio300 > 0.8 && countMiss == 0 || ratio300 > 0.9)
score.Rank = ScoreRank.A;
else if (ratio300 > 0.7 && countMiss == 0 || ratio300 > 0.8)
score.Rank = ScoreRank.B;
else if (ratio300 > 0.6)
score.Rank = ScoreRank.C;
else
score.Rank = ScoreRank.D;
break;
}
case 2:
{
int totalHits = count50 + count100 + count300 + countMiss + countKatu;
score.Accuracy = totalHits > 0 ? (double)(count50 + count100 + count300) / totalHits : 1;
if (score.Accuracy == 1)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.XH : ScoreRank.X;
else if (score.Accuracy > 0.98)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.SH : ScoreRank.S;
else if (score.Accuracy > 0.94)
score.Rank = ScoreRank.A;
else if (score.Accuracy > 0.9)
score.Rank = ScoreRank.B;
else if (score.Accuracy > 0.85)
score.Rank = ScoreRank.C;
else
score.Rank = ScoreRank.D;
break;
}
case 3:
{
int totalHits = count50 + count100 + count300 + countMiss + countGeki + countKatu;
score.Accuracy = totalHits > 0 ? (double)(count50 * 50 + count100 * 100 + countKatu * 200 + (count300 + countGeki) * 300) / (totalHits * 300) : 1;
if (score.Accuracy == 1)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.XH : ScoreRank.X;
else if (score.Accuracy > 0.95)
score.Rank = score.Mods.Any(m => m is ModHidden || m is ModFlashlight) ? ScoreRank.SH : ScoreRank.S;
else if (score.Accuracy > 0.9)
score.Rank = ScoreRank.A;
else if (score.Accuracy > 0.8)
score.Rank = ScoreRank.B;
else if (score.Accuracy > 0.7)
score.Rank = ScoreRank.C;
else
score.Rank = ScoreRank.D;
break;
}
}
}
private void readLegacyReplay(Replay replay, StreamReader reader)
{
float lastTime = 0;
foreach (var l in reader.ReadToEnd().Split(','))
{
var split = l.Split('|');
if (split.Length < 4)
continue;
if (split[0] == "-12345")
{
// Todo: The seed is provided in split[3], which we'll need to use at some point
continue;
}
var diff = float.Parse(split[0]);
lastTime += diff;
// Todo: At some point we probably want to rewind and play back the negative-time frames
// but for now we'll achieve equal playback to stable by skipping negative frames
if (diff < 0)
continue;
replay.Frames.Add(convertFrame(new LegacyReplayFrame(lastTime, float.Parse(split[1]), float.Parse(split[2]), (ReplayButtonState)int.Parse(split[3]))));
}
}
private ReplayFrame convertFrame(LegacyReplayFrame legacyFrame)
{
var convertible = currentRuleset.CreateConvertibleReplayFrame();
if (convertible == null)
throw new InvalidOperationException($"Legacy replay cannot be converted for the ruleset: {currentRuleset.Description}");
convertible.ConvertFrom(legacyFrame, currentBeatmap);
var frame = (ReplayFrame)convertible;
frame.Time = legacyFrame.Time;
return frame;
}
/// <summary>
/// Retrieves the <see cref="Ruleset"/> for a specific id.
/// </summary>
/// <param name="rulesetId">The id.</param>
/// <returns>The <see cref="Ruleset"/>.</returns>
protected abstract Ruleset GetRuleset(int rulesetId);
/// <summary>
/// Retrieves the <see cref="WorkingBeatmap"/> corresponding to an MD5 hash.
/// </summary>
/// <param name="md5Hash">The MD5 hash.</param>
/// <returns>The <see cref="WorkingBeatmap"/>.</returns>
protected abstract WorkingBeatmap GetBeatmap(string md5Hash);
public class BeatmapNotFoundException : Exception
{
public BeatmapNotFoundException()
: base("No corresponding beatmap for the score could be found.")
{
}
}
}
}