// Copyright (c) ppy Pty Ltd . Licensed under the MIT Licence. // See the LICENCE file in the repository root for full licence text. using System; using System.Diagnostics; using System.IO; using System.Linq; using System.Text; using osu.Framework.Extensions; using osu.Game.Beatmaps; using osu.Game.Beatmaps.Formats; using osu.Game.Extensions; using osu.Game.IO.Legacy; using osu.Game.IO.Serialization; using osu.Game.Replays.Legacy; using osu.Game.Rulesets.Replays; using osu.Game.Rulesets.Replays.Types; using SharpCompress.Compressors.LZMA; namespace osu.Game.Scoring.Legacy { public class LegacyScoreEncoder { /// /// Database version in stable-compatible YYYYMMDD format. /// Should be incremented if any changes are made to the format/usage. /// /// /// /// 30000001: Appends to the end of scores. /// 30000002: Score stored to replay calculated using the Score V2 algorithm. Legacy scores on this version are candidate to Score V1 -> V2 conversion. /// 30000003: First version after converting legacy total score to standardised. /// 30000004: Fixed mod multipliers during legacy score conversion. Reconvert all scores. /// /// public const int LATEST_VERSION = 30000004; /// /// The first stable-compatible YYYYMMDD format version given to lazer usage of replays. /// public const int FIRST_LAZER_VERSION = 30000000; private readonly Score score; private readonly IBeatmap? beatmap; /// /// Create a new score encoder for a specific score. /// /// The score to be encoded. /// The beatmap used to convert frames for the score. May be null if the frames are already s. /// public LegacyScoreEncoder(Score score, IBeatmap? beatmap) { this.score = score; this.beatmap = beatmap; if (beatmap == null && !score.Replay.Frames.All(f => f is LegacyReplayFrame)) throw new ArgumentException(@"Beatmap must be provided if frames are not already legacy frames.", nameof(beatmap)); if (!score.ScoreInfo.Ruleset.IsLegacyRuleset()) throw new ArgumentException(@"Only scores in the osu, taiko, catch, or mania rulesets can be encoded to the legacy score format.", nameof(score)); } public void Encode(Stream stream, bool leaveOpen = false) { using (SerializationWriter sw = new SerializationWriter(stream, leaveOpen)) { sw.Write((byte)(score.ScoreInfo.Ruleset.OnlineID)); sw.Write(LATEST_VERSION); sw.Write(score.ScoreInfo.BeatmapInfo!.MD5Hash); sw.Write(score.ScoreInfo.User.Username); sw.Write(FormattableString.Invariant($"lazer-{score.ScoreInfo.User.Username}-{score.ScoreInfo.Date}").ComputeMD5Hash()); sw.Write((ushort)(score.ScoreInfo.GetCount300() ?? 0)); sw.Write((ushort)(score.ScoreInfo.GetCount100() ?? 0)); sw.Write((ushort)(score.ScoreInfo.GetCount50() ?? 0)); sw.Write((ushort)(score.ScoreInfo.GetCountGeki() ?? 0)); sw.Write((ushort)(score.ScoreInfo.GetCountKatu() ?? 0)); sw.Write((ushort)(score.ScoreInfo.GetCountMiss() ?? 0)); sw.Write((int)(score.ScoreInfo.TotalScore)); sw.Write((ushort)score.ScoreInfo.MaxCombo); sw.Write(score.ScoreInfo.Combo == score.ScoreInfo.MaxCombo); sw.Write((int)score.ScoreInfo.Ruleset.CreateInstance().ConvertToLegacyMods(score.ScoreInfo.Mods)); sw.Write(getHpGraphFormatted()); sw.Write(score.ScoreInfo.Date.DateTime); sw.WriteByteArray(createReplayData()); sw.Write((long)0); writeModSpecificData(score.ScoreInfo, sw); sw.WriteByteArray(createScoreInfoData()); } } private void writeModSpecificData(ScoreInfo score, SerializationWriter sw) { } private byte[] createReplayData() => compress(replayStringContent); private byte[] createScoreInfoData() => compress(LegacyReplaySoloScoreInfo.FromScore(score.ScoreInfo).Serialize()); private byte[] compress(string data) { byte[] content = new ASCIIEncoding().GetBytes(data); using (var outStream = new MemoryStream()) { using (var lzma = new LzmaStream(new LzmaEncoderProperties(false, 1 << 21, 255), false, outStream)) { outStream.Write(lzma.Properties); long fileSize = content.Length; for (int i = 0; i < 8; i++) outStream.WriteByte((byte)(fileSize >> (8 * i))); lzma.Write(content); } return outStream.ToArray(); } } private string replayStringContent { get { StringBuilder replayData = new StringBuilder(); // As this is baked into hitobject timing (see `LegacyBeatmapDecoder`) we also need to apply this to replay frame timing. double offset = beatmap?.BeatmapInfo.BeatmapVersion < 5 ? -LegacyBeatmapDecoder.EARLY_VERSION_TIMING_OFFSET : 0; int lastTime = 0; if (score.Replay != null) { foreach (var f in score.Replay.Frames) { var legacyFrame = getLegacyFrame(f); // Rounding because stable could only parse integral values int time = (int)Math.Round(legacyFrame.Time + offset); replayData.Append(FormattableString.Invariant($"{time - lastTime}|{legacyFrame.MouseX ?? 0}|{legacyFrame.MouseY ?? 0}|{(int)legacyFrame.ButtonState},")); lastTime = time; } } // Warning: this is purposefully hardcoded as a string rather than interpolating, as in some cultures the minus sign is not encoded as the standard ASCII U+00C2 codepoint, // which then would break decoding. replayData.Append(@"-12345|0|0|0"); return replayData.ToString(); } } private LegacyReplayFrame getLegacyFrame(ReplayFrame replayFrame) { switch (replayFrame) { case LegacyReplayFrame legacyFrame: return legacyFrame; case IConvertibleReplayFrame convertibleFrame: Debug.Assert(beatmap != null); return convertibleFrame.ToLegacy(beatmap); default: throw new ArgumentException(@"Frame could not be converted to legacy frames", nameof(replayFrame)); } } private string getHpGraphFormatted() { // todo: implement, maybe? return string.Empty; } } }