using System; using System.Buffers.Binary; using System.Runtime.InteropServices; namespace PKHeX.Core; /// /// Base class for GB Era Stadium files. /// public abstract class SAV_STADIUM : SaveFile, ILangDeviantSave { protected internal sealed override string ShortSummary => $"{OT} ({Version})"; public sealed override string Extension => ".sav"; public abstract int SaveRevision { get; } public abstract string SaveRevisionString { get; } public bool Japanese { get; } public bool Korean => false; public sealed override int MaxBallID => 0; // unused public sealed override int MaxGameID => 99; // unused public sealed override int MaxMoney => 999999; public sealed override int MaxCoins => 9999; /// If the original input data was swapped endianness. private readonly bool IsPairSwapped; protected abstract int TeamCount { get; } public sealed override string OT { get; set; } public sealed override int Language => Japanese ? 1 : 2; protected SAV_STADIUM(byte[] data, bool japanese, bool swap) : base(data) { Japanese = japanese; OT = SaveUtil.GetSafeTrainerName(this, (LanguageID)Language); if (!swap) return; ReverseEndianness(Data); IsPairSwapped = true; } protected SAV_STADIUM(bool japanese, int size) : base(size) { Japanese = japanese; OT = SaveUtil.GetSafeTrainerName(this, (LanguageID)Language); } protected sealed override byte[] DecryptPKM(byte[] data) => data; public sealed override int GetPartyOffset(int slot) => -1; public override string GetBoxName(int box) => $"Box {box + 1}"; public sealed override void SetBoxName(int box, string value) { } public sealed override bool ChecksumsValid => GetBoxChecksumsValid(); public sealed override string ChecksumInfo => ChecksumsValid ? "Checksum valid." : "Checksum invalid"; protected abstract void SetBoxChecksum(int box); protected abstract bool GetIsBoxChecksumValid(int box); protected sealed override void SetChecksums() => SetBoxChecksums(); protected abstract void SetBoxMetadata(int box); protected void SetBoxChecksums() { for (int i = 0; i < BoxCount; i++) { SetBoxMetadata(i); SetBoxChecksum(i); } } private bool GetBoxChecksumsValid() { for (int i = 0; i < BoxCount; i++) { if (!GetIsBoxChecksumValid(i)) return false; } return true; } protected sealed override byte[] GetFinalData() { var result = base.GetFinalData(); if (IsPairSwapped) ReverseEndianness(result = (byte[])result.Clone()); return result; } public abstract SlotGroup GetTeam(int team); public virtual SlotGroup[] GetRegisteredTeams() { var result = new SlotGroup[TeamCount]; for (int i = 0; i < result.Length; i++) result[i] = GetTeam(i); return result; } public sealed override string GetString(ReadOnlySpan data) => StringConverter12.GetString(data, Japanese); public sealed override int SetString(Span destBuffer, ReadOnlySpan value, int maxLength, StringConverterOption option) { return StringConverter12.SetString(destBuffer, value, maxLength, Japanese, option); } /// /// Some emulators emit with system architecture endianness (Little Endian) instead of the original Big Endian ordering. /// This will efficiently swap 32-bit endianness for the entire span. /// /// Full savedata private static void ReverseEndianness(Span data) { var uintArr = MemoryMarshal.Cast(data); for (int i = 0; i < uintArr.Length; i++) uintArr[i] = BinaryPrimitives.ReverseEndianness(uintArr[i]); } }