using System; namespace PKHeX.Core; ///

/// Group that checks the source of a move in . ///

public sealed class LearnGroup4 : ILearnGroup { public static readonly LearnGroup4 Instance = new(); private const int Generation = 4; public ushort MaxMoveID => Legal.MaxMoveID_4; public ILearnGroup? GetPrevious(PKM pk, EvolutionHistory history, IEncounterTemplate enc, LearnOption option) => enc.Generation is Generation ? null : LearnGroup3.Instance; public bool HasVisited(PKM pk, EvolutionHistory history) => history.HasVisitedGen4; public bool Check(Span result, ReadOnlySpan current, PKM pk, EvolutionHistory history, IEncounterTemplate enc, MoveSourceType types = MoveSourceType.All, LearnOption option = LearnOption.Current) { var evos = history.Gen4; for (var i = 0; i < evos.Length; i++) Check(result, current, pk, evos[i], i); if (types.HasFlag(MoveSourceType.Encounter) && enc is EncounterEgg { Generation: Generation } egg) CheckEncounterMoves(result, current, egg); if (types.HasFlag(MoveSourceType.LevelUp) && enc.Species is (int)Species.Nincada && evos is [{ Species: (int)Species.Shedinja }, _]) CheckNincadaMoves(result, current, evos[^1]); return MoveResult.AllParsed(result); } private static void CheckNincadaMoves(Span result, ReadOnlySpan current, EvoCriteria nincada) { if (MoveResult.AllParsed(result)) return; // If a result is not valid, check to see if it is a Shedinja move. // Ninjask's Gen4 learnset is a superset of Gen3, so don't bother re-checking in that group. var shedinja = LearnSource4Pt.Instance; var moves = shedinja.GetLearnset((int)Species.Ninjask, 0); for (var i = 0; i < result.Length; i++) { if (result[i].Valid) continue; var move = current[i]; if (move == 0) break; var level = moves.GetLevelLearnMove(move); if (level == -1 || !nincada.InsideLevelRange(level)) continue; var info = new MoveLearnInfo(LearnMethod.ShedinjaEvo, LearnEnvironment.Pt, (byte)level); result[i] = new MoveResult(info, 0, Generation); break; // Can only have one Ninjask move. } } private static void CheckEncounterMoves(Span result, ReadOnlySpan current, EncounterEgg egg) { ILearnSource inst = egg.Version switch { // HG/SS <= GameVersion.SS => LearnSource4HGSS.Instance, GameVersion.Pt => LearnSource4Pt.Instance, _ => LearnSource4DP.Instance, }; var eggMoves = inst.GetEggMoves(egg.Species, egg.Form); var levelMoves = inst.GetInheritMoves(egg.Species, egg.Form); for (var i = result.Length - 1; i >= 0; i--) { if (result[i].Valid) continue; var move = current[i]; if (eggMoves.Contains(move)) result[i] = new(LearnMethod.EggMove); else if (levelMoves.Contains(move)) result[i] = new(LearnMethod.InheritLevelUp); else if (move is (int)Move.VoltTackle && egg.CanHaveVoltTackle) result[i] = new(LearnMethod.SpecialEgg); } } private static void Check(Span result, ReadOnlySpan current, PKM pk, EvoCriteria evo, int stage) { if (evo.Species is not ((int)Species.Deoxys or (int)Species.Giratina or (int)Species.Shaymin)) { CheckInternal(result, current, pk, evo, stage); return; } // Check all forms var inst = LearnSource4HGSS.Instance; if (!inst.TryGetPersonal(evo.Species, evo.Form, out var pi)) return; var fc = pi.FormCount; for (int i = 0; i < fc; i++) CheckInternal(result, current, pk, evo with { Form = (byte)i }, stage); } private static void CheckInternal(Span result, ReadOnlySpan current, PKM pk, EvoCriteria evo, int stage) { var hgss = LearnSource4HGSS.Instance; var species = evo.Species; if (!hgss.TryGetPersonal(species, evo.Form, out var hgss_pi)) return; // should never happen. var pt = LearnSource4Pt.Instance; if (!pt.TryGetPersonal(species, evo.Form, out var pt_pi)) return; // should never happen. var dp = LearnSource4DP.Instance; for (int i = result.Length - 1; i >= 0; i--) { if (result[i].Valid) continue; // Level Up moves are different for each game, but others (TM/Tutor) are same (except Pt Defog). var move = current[i]; var chk = hgss.GetCanLearn(pk, hgss_pi, evo, move); if (chk != default) { result[i] = new(chk, (byte)stage, Generation); continue; } chk = pt.GetCanLearn(pk, pt_pi, evo, move, MoveSourceType.LevelUp | MoveSourceType.AllMachines); if (chk != default) { result[i] = new(chk, (byte)stage, Generation); continue; } chk = dp.GetCanLearn(pk, pt_pi, evo, move, MoveSourceType.LevelUp); if (chk != default) { result[i] = new(chk, (byte)stage, Generation); } } } public void GetAllMoves(Span result, PKM pk, EvolutionHistory history, IEncounterTemplate enc, MoveSourceType types = MoveSourceType.All, LearnOption option = LearnOption.Current) { if (types.HasFlag(MoveSourceType.Encounter) && enc.Generation == Generation) FlagEncounterMoves(enc, result); var evos = history.Gen4; foreach (var evo in evos) GetAllMoves(result, pk, evo, types); if (evos is [{ Species: (int)Species.Shedinja }, _]) { var shedinja = LearnSource4Pt.Instance; var moves = shedinja.GetLearnset((int)Species.Ninjask, 0); var span = moves.GetMoveRange(evos[0].LevelMax, 20); foreach (var move in span) result[move] = true; } } private static void GetAllMoves(Span result, PKM pk, EvoCriteria evo, MoveSourceType types) { LearnSource4HGSS.Instance.GetAllMoves(result, pk, evo, types); LearnSource4Pt.Instance.GetAllMoves(result, pk, evo, types & (MoveSourceType.LevelUp | MoveSourceType.AllMachines)); LearnSource4DP.Instance.GetAllMoves(result, pk, evo, types & (MoveSourceType.LevelUp)); } private static void FlagEncounterMoves(IEncounterTemplate enc, Span result) { if (enc is IMoveset { Moves: { HasMoves: true } x }) { result[x.Move4] = true; result[x.Move3] = true; result[x.Move2] = true; result[x.Move1] = true; } } }