PKHeX/PKHeX.Core/Saves/SAV3.cs

using System;
using System.Collections.Generic;
using System.Runtime.InteropServices;
using static System.Buffers.Binary.BinaryPrimitives;

namespace PKHeX.Core;

/// <summary>
/// Generation 3 <see cref="SaveFile"/> object.
/// </summary>
public abstract class SAV3 : SaveFile, ILangDeviantSave, IEventFlag37
{
    protected internal sealed override string ShortSummary => $"{OT} ({Version}) - {PlayTimeString}";
    public sealed override string Extension => ".sav";

    public int SaveRevision => Japanese ? 0 : 1;
    public string SaveRevisionString => Japanese ? "J" : "U";
    public bool Japanese { get; }
    public bool Korean => false;

    // Similar to future games, the Generation 3 Mainline save files are comprised of separate objects:
    // Object 1 - Small, containing misc configuration data & the Pokédex.
    // Object 2 - Large, containing everything else that isn't PC Storage system data.
    // Object 3 - Storage, containing all the data for the PC storage system.

    // When the objects are serialized to the savedata, the game fragments each object and saves it to a sector.
    // The main save data for a save file occupies 14 sectors; there are a total of two serialized main saves.
    // After the serialized main save data, there is "extra data", for stuff like Hall of Fame and battle videos.
    // Extra data is always at the same sector, while the main sectors rotate sectors within their region (on each successive save?).

    private const int SIZE_SECTOR = 0x1000;
    private const int SIZE_SECTOR_USED = 0xF80;
    private const int COUNT_MAIN = 14; // sectors worth of data
    private const int SIZE_MAIN = COUNT_MAIN * SIZE_SECTOR;

    // There's no harm having buffers larger than their actual size (per format).
    // A checksum consuming extra zeroes does not change the prior checksum result.
    public readonly byte[] Small   = new byte[1 * SIZE_SECTOR_USED]; //  [0x890 RS, 0xf24 FR/LG, 0xf2c E]
    public readonly byte[] Large   = new byte[4 * SIZE_SECTOR_USED]; //3+[0xc40 RS, 0xee8 FR/LG, 0xf08 E]
    public readonly byte[] Storage = new byte[9 * SIZE_SECTOR_USED]; //  [0x83D0]

    private readonly int ActiveSlot;

    protected SAV3(bool japanese) => Japanese = japanese;

    protected SAV3(byte[] data) : base(data)
    {
        // Copy sector data to the allocated location
        ReadSectors(data, ActiveSlot = GetActiveSlot(data));

        // OT name is the first 8 bytes of Small. The game fills any unused characters with 0xFF.
        // Japanese games are limited to 5 character OT names; INT 7 characters. +1 0xFF terminator.
        // Since JPN games don't touch the last 2 bytes (alignment), they end up as zeroes!
        Japanese = ReadInt16LittleEndian(Small.AsSpan(0x6)) == 0;
    }

    private void ReadSectors(ReadOnlySpan<byte> data, int group)
    {
        int start = group * SIZE_MAIN;
        int end = start + SIZE_MAIN;
        for (int ofs = start; ofs < end; ofs += SIZE_SECTOR)
        {
            var id = ReadInt16LittleEndian(data[(ofs + 0xFF4)..]);
            switch (id)
            {
                case >=5: data.Slice(ofs, SIZE_SECTOR_USED).CopyTo(Storage.AsSpan((id - 5) * SIZE_SECTOR_USED)); break;
                case >=1: data.Slice(ofs, SIZE_SECTOR_USED).CopyTo(Large  .AsSpan((id - 1) * SIZE_SECTOR_USED)); break;
                default:  data.Slice(ofs, SIZE_SECTOR_USED).CopyTo(Small  .AsSpan(0                          )); break;
            }
        }
    }

    private void WriteSectors(Span<byte> data, int group)
    {
        int start = group * SIZE_MAIN;
        int end = start + SIZE_MAIN;
        for (int ofs = start; ofs < end; ofs += SIZE_SECTOR)
        {
            var id = ReadInt16LittleEndian(data[(ofs + 0xFF4)..]);
            switch (id)
            {
                case >=5: Storage.AsSpan((id - 5) * SIZE_SECTOR_USED, SIZE_SECTOR_USED).CopyTo(data[ofs..]); break;
                case >=1: Large  .AsSpan((id - 1) * SIZE_SECTOR_USED, SIZE_SECTOR_USED).CopyTo(data[ofs..]); break;
                default:  Small  .AsSpan(0                          , SIZE_SECTOR_USED).CopyTo(data[ofs..]); break;
            }
        }
    }

    /// <summary>
    /// Checks the input data to see if all required sectors for the main save data are present for the <see cref="slot"/>.
    /// </summary>
    /// <param name="data">Data to check</param>
    /// <param name="slot">Which main to check (primary or secondary)</param>
    /// <param name="sector0">Offset of the sector that has the small object data</param>
    public static bool IsAllMainSectorsPresent(ReadOnlySpan<byte> data, int slot, out int sector0)
    {
        System.Diagnostics.Debug.Assert(slot is 0 or 1);
        int start = SIZE_MAIN * slot;
        int end = start + SIZE_MAIN;
        int bitTrack = 0;
        sector0 = 0;
        for (int ofs = start; ofs < end; ofs += SIZE_SECTOR)
        {
            var span = data[ofs..];
            var id = ReadInt16LittleEndian(span[0xFF4..]);
            bitTrack |= (1 << id);
            if (id == 0)
                sector0 = ofs;
        }
        // all 14 fragments present
        return bitTrack == 0b_0011_1111_1111_1111;
    }

    private static int GetActiveSlot(ReadOnlySpan<byte> data)
    {
        if (data.Length == SaveUtil.SIZE_G3RAWHALF)
            return 0;

        var v0 = IsAllMainSectorsPresent(data, 0, out var sectorZero0);
        var v1 = IsAllMainSectorsPresent(data, 1, out var sectorZero1);
        if (!v0)
            return v1 ? 1 : 0;
        if (!v1)
            return 0;

        var count0 = ReadUInt32LittleEndian(data[(sectorZero0 + 0x0FFC)..]);
        var count1 = ReadUInt32LittleEndian(data[(sectorZero1 + 0x0FFC)..]);
        // don't care about 32bit overflow. a 10 second save would take 1,000 years to overflow!
        return count1 > count0 ? 1 : 0;
    }

    protected sealed override byte[] GetFinalData()
    {
        // Copy Box data back
        WriteSectors(Data, ActiveSlot);
        return base.GetFinalData();
    }

    protected sealed override int SIZE_STORED => PokeCrypto.SIZE_3STORED;
    protected sealed override int SIZE_PARTY => PokeCrypto.SIZE_3PARTY;
    public sealed override PKM BlankPKM => new PK3();
    public sealed override Type PKMType => typeof(PK3);

    public sealed override int MaxMoveID => Legal.MaxMoveID_3;
    public sealed override int MaxSpeciesID => Legal.MaxSpeciesID_3;
    public sealed override int MaxAbilityID => Legal.MaxAbilityID_3;
    public sealed override int MaxItemID => Legal.MaxItemID_3;
    public sealed override int MaxBallID => Legal.MaxBallID_3;
    public sealed override int MaxGameID => Legal.MaxGameID_3;

    public abstract int EventFlagCount { get; }
    public abstract int EventWorkCount { get; }
    protected abstract int EventFlag { get; }
    protected abstract int EventWork { get; }

    /// <summary>
    /// Force loads a new <see cref="SAV3"/> object to the requested <see cref="version"/>.
    /// </summary>
    /// <param name="version"> Version to retrieve for</param>
    /// <returns>New <see cref="SaveFile"/> object.</returns>
    public SAV3 ForceLoad(GameVersion version) => version switch
    {
        GameVersion.R or GameVersion.S or GameVersion.RS     => new SAV3RS(Data),
        GameVersion.E                                        => new SAV3E(Data),
        GameVersion.FR or GameVersion.LG or GameVersion.FRLG => new SAV3FRLG(Data),
        _ => throw new ArgumentOutOfRangeException(nameof(version)),
    };

    public sealed override IReadOnlyList<ushort> HeldItems => Legal.HeldItems_RS;

    public sealed override int BoxCount => 14;
    public sealed override int MaxEV => 255;
    public sealed override int Generation => 3;
    public sealed override EntityContext Context => EntityContext.Gen3;
    protected sealed override int GiftCountMax => 1;
    public sealed override int OTLength => 7;
    public sealed override int NickLength => 10;
    public sealed override int MaxMoney => 999999;

    public sealed override bool HasParty => true;

    public sealed override bool IsPKMPresent(ReadOnlySpan<byte> data) => EntityDetection.IsPresentGBA(data);
    protected sealed override PKM GetPKM(byte[] data) => new PK3(data);
    protected sealed override byte[] DecryptPKM(byte[] data) => PokeCrypto.DecryptArray3(data);

    protected sealed override byte[] BoxBuffer => Storage;
    protected sealed override byte[] PartyBuffer => Large;

    private const int COUNT_BOX = 14;
    private const int COUNT_SLOTSPERBOX = 30;

    // Checksums
    protected sealed override void SetChecksums()
    {
        int start = ActiveSlot * SIZE_MAIN;
        int end = start + SIZE_MAIN;
        for (int ofs = start; ofs < end; ofs += SIZE_SECTOR)
        {
            var sector = Data.AsSpan(ofs, SIZE_SECTOR);
            ushort chk = Checksums.CheckSum32(sector[..SIZE_SECTOR_USED]);
            WriteUInt16LittleEndian(sector[0xFF6..], chk);
        }

        if (Data.Length < SaveUtil.SIZE_G3RAW) // don't update HoF for half-sizes
            return;

        // Hall of Fame Checksums
        {
            var sector2 = Data.AsSpan(0x1C000, SIZE_SECTOR);
            ushort chk = Checksums.CheckSum32(sector2[..SIZE_SECTOR_USED]);
            WriteUInt16LittleEndian(sector2[0xFF4..], chk);
        }
        {
            var sector2 = Data.AsSpan(0x1D000, SIZE_SECTOR);
            ushort chk = Checksums.CheckSum32(sector2[..SIZE_SECTOR_USED]);
            WriteUInt16LittleEndian(sector2[0xFF4..], chk);
        }
    }

    public sealed override bool ChecksumsValid
    {
        get
        {
            for (int i = 0; i < COUNT_MAIN; i++)
            {
                if (!IsSectorValid(i))
                    return false;
            }

            if (Data.Length < SaveUtil.SIZE_G3RAW) // don't check HoF for half-sizes
                return true;

            if (!IsSectorValidExtra(0x1C000))
                return false;
            if (!IsSectorValidExtra(0x1D000))
                return false;
            return true;
        }
    }

    private bool IsSectorValidExtra(int ofs)
    {
        var sector = Data.AsSpan(ofs, SIZE_SECTOR);
        ushort chk = Checksums.CheckSum32(sector[..SIZE_SECTOR_USED]);
        return chk == ReadUInt16LittleEndian(sector[0xFF4..]);
    }

    private bool IsSectorValid(int sectorIndex)
    {
        int start = ActiveSlot * SIZE_MAIN;
        int ofs = start + (sectorIndex * SIZE_SECTOR);
        var sector = Data.AsSpan(ofs, SIZE_SECTOR);
        ushort chk = Checksums.CheckSum32(sector[..SIZE_SECTOR_USED]);
        return chk == ReadUInt16LittleEndian(sector[0xFF6..]);
    }

    public sealed override string ChecksumInfo
    {
        get
        {
            var list = new List<string>();
            for (int i = 0; i < COUNT_MAIN; i++)
            {
                if (!IsSectorValid(i))
                    list.Add($"Sector {i} @ {i*SIZE_SECTOR:X5} invalid.");
            }

            if (Data.Length > SaveUtil.SIZE_G3RAW) // don't check HoF for half-sizes
            {
                if (!IsSectorValidExtra(0x1C000))
                    list.Add("HoF first sector invalid.");
                if (!IsSectorValidExtra(0x1D000))
                    list.Add("HoF second sector invalid.");
            }
            return list.Count != 0 ? string.Join(Environment.NewLine, list) : "Checksums are valid.";
        }
    }

    public abstract uint SecurityKey { get; set; }

    public sealed override string OT
    {
        get => GetString(Small.AsSpan(0, 8));
        set
        {
            int len = Japanese ? 5 : OTLength;
            SetString(Small.AsSpan(0, len), value.AsSpan(), len, StringConverterOption.ClearFF);
        }
    }

    public sealed override int Gender
    {
        get => Small[8];
        set => Small[8] = (byte)value;
    }

    public sealed override int TID
    {
        get => ReadUInt16LittleEndian(Small.AsSpan(0xA));
        set => WriteUInt16LittleEndian(Small.AsSpan(0xA), (ushort)value);
    }

    public sealed override int SID
    {
        get => ReadUInt16LittleEndian(Small.AsSpan(0xC));
        set => WriteUInt16LittleEndian(Small.AsSpan(0xC), (ushort)value);
    }

    public sealed override int PlayedHours
    {
        get => ReadUInt16LittleEndian(Small.AsSpan(0xE));
        set => WriteUInt16LittleEndian(Small.AsSpan(0xE), (ushort)value);
    }

    public sealed override int PlayedMinutes
    {
        get => Small[0x10];
        set => Small[0x10] = (byte)value;
    }

    public sealed override int PlayedSeconds
    {
        get => Small[0x11];
        set => Small[0x11] = (byte)value;
    }

    public int PlayedFrames
    {
        get => Small[0x12];
        set => Small[0x12] = (byte)value;
    }

    #region Event Flag/Event Work
    public bool GetEventFlag(int flagNumber)
    {
        if ((uint)flagNumber >= EventFlagCount)
            throw new ArgumentOutOfRangeException(nameof(flagNumber), $"Event Flag to get ({flagNumber}) is greater than max ({EventFlagCount}).");
        return GetFlag(EventFlag + (flagNumber >> 3), flagNumber & 7);
    }

    public void SetEventFlag(int flagNumber, bool value)
    {
        if ((uint)flagNumber >= EventFlagCount)
            throw new ArgumentOutOfRangeException(nameof(flagNumber), $"Event Flag to set ({flagNumber}) is greater than max ({EventFlagCount}).");
        SetFlag(EventFlag + (flagNumber >> 3), flagNumber & 7, value);
    }

    public ushort GetWork(int index) => ReadUInt16LittleEndian(Large.AsSpan(EventWork + (index * 2)));
    public void SetWork(int index, ushort value) => WriteUInt16LittleEndian(Large.AsSpan(EventWork)[(index * 2)..], value);
    #endregion

    public sealed override bool GetFlag(int offset, int bitIndex) => FlagUtil.GetFlag(Large, offset, bitIndex);
    public sealed override void SetFlag(int offset, int bitIndex, bool value) => FlagUtil.SetFlag(Large, offset, bitIndex, value);

    protected abstract int BadgeFlagStart { get; }
    public abstract uint Coin { get; set; }

    public int Badges
    {
        get
        {
            int startFlag = BadgeFlagStart;
            int val = 0;
            for (int i = 0; i < 8; i++)
            {
                if (GetEventFlag(startFlag + i))
                    val |= 1 << i;
            }

            return val;
        }
        set
        {
            int startFlag = BadgeFlagStart;
            for (int i = 0; i < 8; i++)
                SetEventFlag(startFlag + i, (value & (1 << i)) != 0);
        }
    }

    public sealed override IReadOnlyList<InventoryPouch> Inventory
    {
        get
        {
            var pouch = GetItems();
            foreach (var p in pouch)
            {
                if (p.Type != InventoryType.PCItems)
                    p.SecurityKey = SecurityKey;
            }
            return pouch.LoadAll(Large);
        }
        set => value.SaveAll(Large);
    }

    protected abstract InventoryPouch3[] GetItems();

    protected abstract int DaycareSlotSize { get; }

    public sealed override uint? GetDaycareEXP(int loc, int slot) => ReadUInt32LittleEndian(Large.AsSpan(GetDaycareEXPOffset(slot)));
    public sealed override void SetDaycareEXP(int loc, int slot, uint EXP) => WriteUInt32LittleEndian(Large.AsSpan(GetDaycareEXPOffset(slot)), EXP);
    public sealed override bool? IsDaycareOccupied(int loc, int slot) => IsPKMPresent(Large.AsSpan(GetDaycareSlotOffset(loc, slot)));
    public sealed override void SetDaycareOccupied(int loc, int slot, bool occupied) { /* todo */ }
    public sealed override int GetDaycareSlotOffset(int loc, int slot) => DaycareOffset + (slot * DaycareSlotSize);

    protected abstract int EggEventFlag { get; }
    public sealed override bool? IsDaycareHasEgg(int loc) => GetEventFlag(EggEventFlag);
    public sealed override void SetDaycareHasEgg(int loc, bool hasEgg) => SetEventFlag(EggEventFlag, hasEgg);

    protected abstract int GetDaycareEXPOffset(int slot);

    #region Storage
    public sealed override int GetBoxOffset(int box) => Box + 4 + (SIZE_STORED * box * COUNT_SLOTSPERBOX);

    public sealed override int CurrentBox
    {
        get => Storage[0];
        set => Storage[0] = (byte)value;
    }

    public sealed override int GetBoxWallpaper(int box)
    {
        if (box > COUNT_BOX)
            return box;
        int offset = GetBoxWallpaperOffset(box);
        return Storage[offset];
    }

    private const int COUNT_BOXNAME = 8 + 1;

    public sealed override void SetBoxWallpaper(int box, int value)
    {
        if (box > COUNT_BOX)
            return;
        int offset = GetBoxWallpaperOffset(box);
        Storage[offset] = (byte)value;
    }

    protected sealed override int GetBoxWallpaperOffset(int box)
    {
        int offset = GetBoxOffset(COUNT_BOX);
        offset += (COUNT_BOX * COUNT_BOXNAME) + box;
        return offset;
    }

    public sealed override string GetBoxName(int box)
    {
        int offset = GetBoxOffset(COUNT_BOX);
        return StringConverter3.GetString(Storage.AsSpan(offset + (box * COUNT_BOXNAME), COUNT_BOXNAME), Japanese);
    }

    public sealed override void SetBoxName(int box, string value)
    {
        int offset = GetBoxOffset(COUNT_BOX);
        var dest = Storage.AsSpan(offset + (box * COUNT_BOXNAME), COUNT_BOXNAME);
        SetString(dest, value.AsSpan(), COUNT_BOXNAME - 1, StringConverterOption.ClearZero);
    }
    #endregion

    #region Pokédex
    protected sealed override void SetDex(PKM pk)
    {
        int species = pk.Species;
        if (species is 0 or > Legal.MaxSpeciesID_3)
            return;
        if (pk.IsEgg)
            return;

        switch (species)
        {
            case (int)Species.Unown when !GetSeen(species): // Unown
                DexPIDUnown = pk.PID;
                break;
            case (int)Species.Spinda when !GetSeen(species): // Spinda
                DexPIDSpinda = pk.PID;
                break;
        }
        SetCaught(species, true);
        SetSeen(species, true);
    }

    public uint DexPIDUnown  { get => ReadUInt32LittleEndian(Small.AsSpan(PokeDex + 0x4)); set => WriteUInt32LittleEndian(Small.AsSpan(PokeDex + 0x4), value); }
    public uint DexPIDSpinda { get => ReadUInt32LittleEndian(Small.AsSpan(PokeDex + 0x8)); set => WriteUInt32LittleEndian(Small.AsSpan(PokeDex + 0x8), value); }
    public int DexUnownForm => EntityPID.GetUnownForm3(DexPIDUnown);

    public sealed override bool GetCaught(int species)
    {
        int bit = species - 1;
        int ofs = bit >> 3;
        int caughtOffset = PokeDex + 0x10;
        return FlagUtil.GetFlag(Small, caughtOffset + ofs, bit & 7);
    }

    public sealed override void SetCaught(int species, bool caught)
    {
        int bit = species - 1;
        int ofs = bit >> 3;
        int caughtOffset = PokeDex + 0x10;
        FlagUtil.SetFlag(Small, caughtOffset + ofs, bit & 7, caught);
    }

    public sealed override bool GetSeen(int species)
    {
        int bit = species - 1;
        int ofs = bit >> 3;
        int seenOffset = PokeDex + 0x44;
        return FlagUtil.GetFlag(Small, seenOffset + ofs, bit & 7);
    }

    protected abstract int SeenOffset2 { get; }
    protected abstract int SeenOffset3 { get; }

    public sealed override void SetSeen(int species, bool seen)
    {
        int bit = species - 1;
        int ofs = bit >> 3;

        int seenOffset = PokeDex + 0x44;
        FlagUtil.SetFlag(Small, seenOffset + ofs, bit & 7, seen);
        FlagUtil.SetFlag(Large, SeenOffset2 + ofs, bit & 7, seen);
        FlagUtil.SetFlag(Large, SeenOffset3 + ofs, bit & 7, seen);
    }

    public byte PokedexSort
    {
        get => Small[PokeDex + 0x01];
        set => Small[PokeDex + 0x01] = value;
    }

    public byte PokedexMode
    {
        get => Small[PokeDex + 0x01];
        set => Small[PokeDex + 0x01] = value;
    }

    public byte PokedexNationalMagicRSE
    {
        get => Small[PokeDex + 0x02];
        set => Small[PokeDex + 0x02] = value;
    }

    public byte PokedexNationalMagicFRLG
    {
        get => Small[PokeDex + 0x03];
        set => Small[PokeDex + 0x03] = value;
    }

    protected const byte PokedexNationalUnlockRSE = 0xDA;
    protected const byte PokedexNationalUnlockFRLG = 0xDA;
    protected const ushort PokedexNationalUnlockWorkRSE = 0x0302;
    protected const ushort PokedexNationalUnlockWorkFRLG = 0x6258;

    public abstract bool NationalDex { get; set; }
    #endregion

    public sealed override string GetString(ReadOnlySpan<byte> data) => StringConverter3.GetString(data, Japanese);

    public sealed override int SetString(Span<byte> destBuffer, ReadOnlySpan<char> value, int maxLength, StringConverterOption option)
    {
        return StringConverter3.SetString(destBuffer, value, maxLength, Japanese, option);
    }

    protected abstract int MailOffset { get; }
    public int GetMailOffset(int index) => (index * Mail3.SIZE) + MailOffset;

    public MailDetail GetMail(int mailIndex)
    {
        var ofs = GetMailOffset(mailIndex);
        var data = Large.Slice(ofs, Mail3.SIZE);
        return new Mail3(data, ofs, Japanese);
    }

    public abstract string EBerryName { get; }
    public abstract bool IsEBerryEngima { get; }
    public abstract MysteryEvent3 MysteryEvent { get; set; }

    public byte[] GetHallOfFameData()
    {
        // HoF Data is split across two sectors
        byte[] data = new byte[SIZE_SECTOR_USED * 2];
        Data.AsSpan(0x1C000, SIZE_SECTOR_USED).CopyTo(data.AsSpan(0               , SIZE_SECTOR_USED));
        Data.AsSpan(0x1D000, SIZE_SECTOR_USED).CopyTo(data.AsSpan(SIZE_SECTOR_USED, SIZE_SECTOR_USED));
        return data;
    }

    public void SetHallOfFameData(ReadOnlySpan<byte> value)
    {
        if (value.Length != SIZE_SECTOR_USED * 2)
            throw new ArgumentException("Invalid size", nameof(value));
        // HoF Data is split across two sav sectors
        Span<byte> savedata = Data;
        value[..SIZE_SECTOR_USED].CopyTo(savedata[0x1C000..]);
        value.Slice(SIZE_SECTOR_USED, SIZE_SECTOR_USED).CopyTo(savedata[0x1D000..]);
    }

    public bool IsCorruptPokedexFF() => MemoryMarshal.Read<ulong>(Small.AsSpan(0xAC)) == ulong.MaxValue;

    public override void CopyChangesFrom(SaveFile sav)
    {
        SetData(sav.Data, 0);
        var s3 = (SAV3)sav;
        SetData(Small, s3.Small, 0);
        SetData(Large, s3.Large, 0);
        SetData(Storage, s3.Storage, 0);
    }

    #region External Connections
    protected abstract int ExternalEventData { get; }
    protected int ExternalEventFlags => ExternalEventData + 0x14;

    public uint ColosseumRaw1
    {
        get => ReadUInt32LittleEndian(Large.AsSpan(ExternalEventData + 7));
        set => WriteUInt32LittleEndian(Large.AsSpan(ExternalEventData + 7), value);
    }

    public uint ColosseumRaw2
    {
        get => ReadUInt32LittleEndian(Large.AsSpan(ExternalEventData + 11));
        set => WriteUInt32LittleEndian(Large.AsSpan(ExternalEventData + 11), value);
    }

    /// <summary>
    /// PokéCoupons stored by Pokémon Colosseum and XD from Mt. Battle runs. Earned PokéCoupons are also added to <see cref="ColosseumCouponsTotal"/>.
    /// </summary>
    /// <remarks>Colosseum/XD caps this at 9,999,999, but will read up to 16,777,215.</remarks>
    public uint ColosseumCoupons
    {
        get => ColosseumRaw1 >> 8;
        set => ColosseumRaw1 = (value << 8) | (ColosseumRaw1 & 0xFF);
    }

    /// <summary> Master Ball from JP Colosseum Bonus Disc; for reaching 30,000 <see cref="ColosseumCouponsTotal"/> </summary>
    public bool ColosseumPokeCouponTitleGold
    {
        get => (ColosseumRaw2 & (1 << 0)) != 0;
        set => ColosseumRaw2 = (ColosseumRaw2 & (1 << 0)) | ((value ? 1u : 0) << 0);
    }

    /// <summary> Light Ball Pikachu from JP Colosseum Bonus Disc; for reaching 5000 <see cref="ColosseumCouponsTotal"/> </summary>
    public bool ColosseumPokeCouponTitleSilver
    {
        get => (ColosseumRaw2 & (1 << 1)) != 0;
        set => ColosseumRaw2 = (ColosseumRaw2 & (1 << 1)) | ((value ? 1u : 0) << 1);
    }

    /// <summary> PP Max from JP Colosseum Bonus Disc; for reaching 2500 <see cref="ColosseumCouponsTotal"/> </summary>
    public bool ColosseumPokeCouponTitleBronze
    {
        get => (ColosseumRaw2 & (1 << 2)) != 0;
        set => ColosseumRaw2 = (ColosseumRaw2 & (1 << 2)) | ((value ? 1u : 0) << 2);
    }

    /// <summary> Received Celebi Gift from JP Colosseum Bonus Disc </summary>
    public bool ColosseumReceivedAgeto
    {
        get => (ColosseumRaw2 & (1 << 3)) != 0;
        set => ColosseumRaw2 = (ColosseumRaw2 & (1 << 3)) | ((value ? 1u : 0) << 3);
    }

    /// <summary>
    /// Used by the JP Colosseum bonus disc. Determines PokéCoupon rank to distribute rewards. Unread in International games.
    /// </summary>
    /// <remarks>
    /// Colosseum/XD caps this at 9,999,999.
    /// </remarks>
    public uint ColosseumCouponsTotal
    {
        get => ColosseumRaw2 >> 8;
        set => ColosseumRaw2 = (value << 8) | (ColosseumRaw2 & 0xFF);
    }

    /// <summary> Indicates if this save has connected to RSBOX and triggered the free False Swipe Swablu Egg giveaway. </summary>
    public bool HasUsedRSBOX
    {
        get => GetFlag(ExternalEventFlags + 0, 0);
        set => SetFlag(ExternalEventFlags + 0, 0, value);
    }

    /// <summary>
    /// 1 for ExtremeSpeed Zigzagoon (at 100 deposited), 2 for Pay Day Skitty (at 500 deposited), 3 for Surf Pichu (at 1499 deposited)
    /// </summary>
    public int RSBoxDepositEggsUnlocked
    {
        get => (Large[ExternalEventFlags] >> 1) & 3;
        set => Large[ExternalEventFlags] = (byte)((Large[ExternalEventFlags] & ~(3 << 1)) | ((value & 3) << 1));
    }

    /// <summary> Received Jirachi Gift from Colosseum Bonus Disc </summary>
    public bool HasReceivedWishmkrJirachi
    {
        get => GetFlag(ExternalEventFlags + 2, 0);
        set => SetFlag(ExternalEventFlags + 2, 0, value);
    }
    #endregion
}