using System;
using System.Diagnostics;
using System.Linq;
using System.Reflection;
namespace PKHeX.Core
{
///
/// Logic for converting a from one generation specific format to another.
///
public static class PKMConverter
{
public static int Country { get; private set; } = 49;
public static int Region { get; private set; } = 7;
public static int ConsoleRegion { get; private set; } = 1;
public static string OT_Name { get; private set; } = "PKHeX";
public static int OT_Gender { get; private set; } // Male
public static int Language { get; private set; } = 1; // en
public static bool AllowIncompatibleConversion { private get; set; }
public static void UpdateConfig(int SUBREGION, int COUNTRY, int _3DSREGION, string TRAINERNAME, int TRAINERGENDER, int LANGUAGE)
{
Region = SUBREGION;
Country = COUNTRY;
ConsoleRegion = _3DSREGION;
OT_Name = TRAINERNAME;
OT_Gender = TRAINERGENDER;
Language = LANGUAGE;
}
///
/// Gets the generation of the Pokemon data.
///
/// Raw data representing a Pokemon.
/// An integer indicating the generation of the PKM file, or -1 if the data is invalid.
public static int GetPKMDataFormat(byte[] data)
{
if (!PKX.IsPKM(data.Length))
return -1;
switch (data.Length)
{
case PKX.SIZE_1JLIST:
case PKX.SIZE_1ULIST:
return 1;
case PKX.SIZE_2ULIST:
case PKX.SIZE_2JLIST:
return 2;
case PKX.SIZE_3PARTY:
case PKX.SIZE_3STORED:
case PKX.SIZE_3CSTORED:
case PKX.SIZE_3XSTORED:
return 3;
case PKX.SIZE_4PARTY:
case PKX.SIZE_4STORED:
case PKX.SIZE_5PARTY:
if ((BitConverter.ToUInt16(data, 0x4) == 0) && (BitConverter.ToUInt16(data, 0x80) >= 0x3333 || data[0x5F] >= 0x10) && BitConverter.ToUInt16(data, 0x46) == 0) // PK5
return 5;
return 4;
case PKX.SIZE_6STORED:
return 6;
case PKX.SIZE_6PARTY: // collision with PGT, same size.
if (BitConverter.ToUInt16(data, 0x4) != 0) // Bad Sanity?
return -1;
if (BitConverter.ToUInt32(data, 0x06) == PKX.GetCHK(data))
return 6;
if (BitConverter.ToUInt16(data, 0x58) != 0) // Encrypted?
{
for (int i = data.Length - 0x10; i < data.Length; i++) // 0x10 of 00's at the end != PK6
if (data[i] != 0)
return 6;
return -1;
}
return 6;
}
return -1;
}
///
/// Creates an instance of from the given data.
///
/// Raw data of the Pokemon file.
/// Optional identifier for the Pokemon. Usually the full path of the source file.
/// Optional identifier for the preferred generation. Usually the generation of the destination save file.
/// An instance of created from the given , or null if is invalid.
public static PKM GetPKMfromBytes(byte[] data, string ident = null, int prefer = 7)
{
CheckEncrypted(ref data);
switch (GetPKMDataFormat(data))
{
case 1:
var PL1 = new PokemonList1(data, PokemonList1.CapacityType.Single, data.Length == PKX.SIZE_1JLIST);
if (ident != null)
PL1[0].Identifier = ident;
return PL1[0];
case 2:
var PL2 = new PokemonList2(data, PokemonList2.CapacityType.Single, data.Length == PKX.SIZE_2JLIST);
if (ident != null)
PL2[0].Identifier = ident;
return PL2[0];
case 3:
switch (data.Length) {
case PKX.SIZE_3CSTORED: return new CK3(data, ident);
case PKX.SIZE_3XSTORED: return new XK3(data, ident);
default: return new PK3(data, ident);
}
case 4:
var pk = new PK4(data, ident);
if (!pk.Valid || pk.Sanity != 0)
{
var bk = new BK4(data, ident);
if (bk.Valid)
return bk;
}
return pk;
case 5:
return new PK5(data, ident);
case 6:
var pkx = new PK6(data, ident);
return CheckPKMFormat7(pkx, prefer);
default:
return null;
}
}
///
/// Checks if the input PK6 file is really a PK7, if so, updates the object.
///
/// PKM to check
/// Prefer a certain generation over another
/// Updated PKM if actually PK7
private static PKM CheckPKMFormat7(PK6 pk, int prefer) => IsPK6FormatReallyPK7(pk, prefer) ? new PK7(pk.Data, pk.Identifier) : (PKM)pk;
///
/// Checks if the input PK6 file is really a PK7.
///
/// PK6 to check
/// Prefer a certain generation over another
/// Boolean is a PK7
private static bool IsPK6FormatReallyPK7(PK6 pk, int preferredFormat)
{
if (pk.Version > Legal.MaxGameID_6)
return true;
if (pk.Enjoyment != 0 || pk.Fullness != 0)
return false;
// Check Ranges
if (pk.Species > Legal.MaxSpeciesID_6)
return true;
if (pk.Moves.Any(move => move > Legal.MaxMoveID_6_AO))
return true;
if (pk.RelearnMoves.Any(move => move > Legal.MaxMoveID_6_AO))
return true;
if (pk.Ability > Legal.MaxAbilityID_6_AO)
return true;
if (pk.HeldItem > Legal.MaxItemID_6_AO)
return true;
int et = pk.EncounterType;
if (et != 0)
{
if (pk.CurrentLevel < 100) // can't be hyper trained
return false;
if (pk.GenNumber != 4) // can't have encounter type
return true;
if (et > 24) // invalid encountertype
return true;
}
int mb = BitConverter.ToUInt16(pk.Data, 0x16);
if (mb > 0xAAA)
return false;
for (int i = 0; i < 6; i++)
if ((mb >> (i << 1) & 3) == 3) // markings are 10 or 01 (or 00), never 11
return false;
return preferredFormat > 6;
}
///
/// Checks if the input file is capable of being converted to the desired format.
///
///
///
///
public static bool IsConvertibleToFormat(PKM pk, int format)
{
if (pk.Format >= 3 && pk.Format > format)
return false; // pk3->upward can't go backwards
if (pk.Format <= 2 && format > 2 && format < 7)
return false; // pk1/2->upward has to be 7 or greater
return true;
}
///
/// Converts a PKM from one Generation 3 format to another. If it matches the destination format, the conversion will automatically return.
///
/// PKM to convert
/// Format/Type to convert to
/// Comments regarding the transfer's success/failure
/// Converted PKM
public static PKM ConvertToType(PKM pk, Type PKMType, out string comment)
{
if (pk == null)
{
comment = $"Bad {nameof(pk)} input. Aborting.";
return null;
}
Type fromType = pk.GetType();
if (fromType == PKMType)
{
comment = "No need to convert, current format matches requested format.";
return pk;
}
var pkm = ConvertPKM(pk, PKMType, fromType, out comment);
if (!AllowIncompatibleConversion || pkm != null)
return pkm;
// Try Incompatible Conversion
pkm = GetBlank(PKMType);
pk.TransferPropertiesWithReflection(pkm);
if (!SaveUtil.IsPKMCompatibleWithModifications(pkm))
return null;
comment = "Converted via reflection.";
return pkm;
}
private static PKM ConvertPKM(PKM pk, Type PKMType, Type fromType, out string comment)
{
if (IsNotTransferrable(pk, out comment))
return null;
Debug.WriteLine($"Trying to convert {fromType.Name} to {PKMType.Name}.");
int fromFormat = int.Parse(fromType.Name.Last().ToString());
int toFormat = int.Parse(PKMType.Name.Last().ToString());
if (fromFormat > toFormat && fromFormat != 2)
{
comment = $"Cannot convert a {fromType.Name} to a {PKMType.Name}.";
return null;
}
var pkm = ConvertPKM(pk, PKMType, fromType, toFormat, ref comment);
comment = pkm == null
? $"Cannot convert a {fromType.Name} to a {PKMType.Name}."
: $"Converted from {fromType.Name} to {PKMType.Name}.";
return pkm;
}
private static PKM ConvertPKM(PKM pk, Type PKMType, Type fromType, int toFormat, ref string comment)
{
PKM pkm = pk.Clone();
if (pkm.IsEgg)
ForceHatchPKM(pkm);
switch (fromType.Name)
{
case nameof(PK1):
if (toFormat == 7) // VC->Bank
pkm = ((PK1)pk).ConvertToPK7();
else if (toFormat == 2) // GB<->GB
pkm = ((PK1)pk).ConvertToPK2();
break;
case nameof(PK2):
if (toFormat == 7) // VC->Bank
pkm = ((PK2)pk).ConvertToPK7();
else if (toFormat == 1) // GB<->GB
{
if (pk.Species > 151)
{
comment = $"Cannot convert a {PKX.GetSpeciesName(pkm.Species, pkm.Japanese ? 1 : 2)} to {PKMType.Name}";
return pkm;
}
pkm = ((PK2)pk).ConvertToPK1();
pkm.ClearInvalidMoves();
}
break;
case nameof(CK3):
pkm = ((CK3)pkm).ConvertToPK3();
goto case nameof(PK3); // fall through
case nameof(XK3):
pkm = ((XK3)pkm).ConvertToPK3();
goto case nameof(PK3); // fall through
case nameof(PK3):
if (toFormat == 3)
{
if (PKMType == typeof(CK3))
pkm = ((PK3)pkm).ConvertToCK3();
else if (PKMType == typeof(XK3))
pkm = ((PK3)pkm).ConvertToXK3();
break;
}
pkm = ((PK3) pkm).ConvertToPK4();
if (toFormat == 4)
break;
goto case nameof(PK4);
case nameof(BK4):
pkm = ((BK4) pkm).ConvertToPK4();
if (toFormat == 4)
break;
goto case nameof(PK4);
case nameof(PK4):
if (PKMType == typeof(BK4))
{
pkm = ((PK4) pkm).ConvertToBK4();
break;
}
pkm = ((PK4) pkm).ConvertToPK5();
if (toFormat == 5)
break;
goto case nameof(PK5);
case nameof(PK5):
pkm = ((PK5) pkm).ConvertToPK6();
if (toFormat == 6)
break;
goto case nameof(PK6);
case nameof(PK6):
if (pkm.Species == 25 && pkm.AltForm != 0) // cosplay pikachu
{
comment = "Cannot transfer Cosplay Pikachu forward.";
return pkm;
}
pkm = ((PK6) pkm).ConvertToPK7();
if (toFormat == 7)
break;
goto case nameof(PK7);
case nameof(PK7):
break;
}
return pkm;
}
///
/// Checks to see if a PKM is transferrable relative to in-game restrictions and .
///
/// PKM to convert
/// Comment indicating why the is not transferrable.
/// Indication if Not Transferrable
private static bool IsNotTransferrable(PKM pk, out string comment)
{
switch (pk.Species)
{
default:
comment = null;
return false;
case 025 when pk.AltForm != 0 && pk.Gen6: // Cosplay Pikachu
comment = "Cannot transfer Cosplay Pikachu forward.";
return true;
case 172 when pk.AltForm != 0 && pk.Gen4: // Spiky Eared Pichu
comment = "Cannot transfer Spiky-Eared Pichu forward.";
return true;
}
}
///
/// Force hatches a PKM by applying the current species name and a valid Met Location from the origin game.
///
/// PKM to apply hatch details to
///
/// is not checked; can be abused to re-hatch already hatched inputs.
/// is not modified; must be updated manually if desired.
///
private static void ForceHatchPKM(PKM pkm)
{
pkm.IsEgg = false;
pkm.Nickname = PKX.GetSpeciesNameGeneration(pkm.Species, pkm.Language, pkm.Format);
var loc = EncounterSuggestion.GetSuggestedEggMetLocation(pkm);
if (loc >= 0)
pkm.Met_Location = loc;
}
///
/// Checks if a PKM is encrypted; if encrypted, decrypts the PKM.
///
/// The input PKM object is decrypted; no new object is returned.
/// PKM to check encryption for (and decrypt if appropriate).
public static void CheckEncrypted(ref byte[] pkm)
{
int format = GetPKMDataFormat(pkm);
switch (format)
{
case 1:
case 2: // no encryption
return;
case 3:
if (pkm.Length == PKX.SIZE_3CSTORED || pkm.Length == PKX.SIZE_3XSTORED)
return; // no encryption for C/XD
ushort chk = 0;
for (int i = 0x20; i < PKX.SIZE_3STORED; i += 2)
chk += BitConverter.ToUInt16(pkm, i);
if (chk != BitConverter.ToUInt16(pkm, 0x1C))
pkm = PKX.DecryptArray3(pkm);
return;
case 4:
case 5:
if (BitConverter.ToUInt16(pkm, 4) != 0) // BK4
return;
if (BitConverter.ToUInt32(pkm, 0x64) != 0)
pkm = PKX.DecryptArray45(pkm);
return;
case 6:
case 7:
if (BitConverter.ToUInt16(pkm, 0xC8) != 0 && BitConverter.ToUInt16(pkm, 0x58) != 0)
pkm = PKX.DecryptArray(pkm);
return;
default:
return; // bad!
}
}
///
/// Checks if the input is compatible with the target .
///
/// Input to check -> update/sanitize
/// Target type PKM with misc properties accessible for checking.
/// Comment output
/// Output compatible PKM
/// Indication if the input is (now) compatible with the target.
public static bool TryMakePKMCompatible(PKM pk, PKM target, out string c, out PKM pkm)
{
if (!IsConvertibleToFormat(pk, target.Format))
{
pkm = null;
c = $"Can't load {pk.GetType().Name}s to Gen{target.Format} saves.";
if (!AllowIncompatibleConversion)
return false;
}
if (target.Format < 3 && pk.Japanese != target.Japanese)
{
pkm = null;
var strs = new[] { "International", "Japanese" };
var val = target.Japanese ? 0 : 1;
c = $"Cannot load {strs[val]} {pk.GetType().Name}s to {strs[val ^ 1]} saves.";
if (!AllowIncompatibleConversion)
return false;
}
pkm = ConvertToType(pk, target.GetType(), out c);
Debug.WriteLine(c);
return pkm != null;
}
///
/// Gets a Blank object of the specified type.
///
/// Type of instance desired.
/// New instance of a blank object.
public static PKM GetBlank(Type t)
{
var constructors = t.GetTypeInfo().DeclaredConstructors.Where(z => !z.IsStatic);
var argCount = constructors.First().GetParameters().Length;
return (PKM)Activator.CreateInstance(t, new object[argCount]);
}
}
}