PKHeX/PKHeX.Core/Legality/LearnSource/Verify/LearnVerifierEgg.cs
Kurt bf37be3ea1 Update LearnVerifierEgg.cs
Order of operations being spooky
2022-08-29 16:08:56 -07:00

106 lines
3.9 KiB
C#

using System;
namespace PKHeX.Core;
/// <summary>
/// Moveset verifier for entities currently existing as an egg.
/// </summary>
internal static class LearnVerifierEgg
{
public static void Verify(Span<MoveResult> result, ReadOnlySpan<ushort> current, IEncounterTemplate enc, PKM pk)
{
if (enc.Generation >= 6)
VerifyFromRelearn(result, current, enc, pk);
else // No relearn moves available.
VerifyPre3DS(result, current, enc);
}
private static void VerifyPre3DS(Span<MoveResult> result, ReadOnlySpan<ushort> current, IEncounterTemplate enc)
{
if (enc is EncounterEgg e)
LearnVerifierRelearn.VerifyEggMoveset(e, result, current);
else
VerifyFromEncounter(result, current, enc);
}
private static void VerifyFromEncounter(Span<MoveResult> result, ReadOnlySpan<ushort> current, IEncounterTemplate enc)
{
if (enc is IMoveset { Moves: { HasMoves: true } x })
{
VerifyMovesInitial(result, current, x);
}
else
{
ReadOnlySpan<ushort> initial = GameData.GetLearnset(enc.Version, enc.Species, enc.Form).GetBaseEggMoves(enc.LevelMin);
VerifyMovesInitial(result, current, initial);
}
}
private static void VerifyMovesInitial(Span<MoveResult> result, ReadOnlySpan<ushort> current, Moveset initial)
{
// Check that the sequence of current move matches the initial move sequence.
int i = 0;
if (initial.Move1 != 0)
{
result[i] = GetMethodInitial(current[i], initial.Move1); i++;
if (initial.Move2 != 0)
{
result[i] = GetMethodInitial(current[i], initial.Move2); i++;
if (initial.Move3 != 0)
{
result[i] = GetMethodInitial(current[i], initial.Move3); i++;
if (initial.Move4 != 0)
{
result[i] = GetMethodInitial(current[i], initial.Move4); i++;
}
}
}
}
for (; i < current.Length; i++)
result[i] = current[i] == 0 ? MoveResult.Empty : MoveResult.Unobtainable(0);
}
private static void VerifyMovesInitial(Span<MoveResult> result, ReadOnlySpan<ushort> current, ReadOnlySpan<ushort> initial)
{
// Check that the sequence of current move matches the initial move sequence.
for (int i = 0; i < initial.Length; i++)
result[i] = GetMethodInitial(current[i], initial[i]);
for (int i = initial.Length; i < current.Length; i++)
result[i] = current[i] == 0 ? MoveResult.Empty : MoveResult.Unobtainable(0);
}
private static void VerifyFromRelearn(Span<MoveResult> result, ReadOnlySpan<ushort> current, IEncounterTemplate enc, PKM pk)
{
if (enc is EncounterEgg)
VerifyMatchesRelearn(result, current, pk);
else if (enc is IMoveset { Moves: { HasMoves: true } x })
VerifyMovesInitial(result, current, x);
else
VerifyFromEncounter(result, current, enc);
}
private static void VerifyMatchesRelearn(Span<MoveResult> result, ReadOnlySpan<ushort> current, PKM pk)
{
// Check that the sequence of current move matches the relearn move sequence.
for (int i = 0; i < result.Length; i++)
result[i] = GetMethodRelearn(current[i], pk.GetRelearnMove(i));
}
private static MoveResult GetMethodInitial(ushort current, ushort initial)
{
if (current != initial)
return MoveResult.Unobtainable(initial);
if (current == 0)
return MoveResult.Empty;
return MoveResult.Initial;
}
private static MoveResult GetMethodRelearn(ushort current, ushort relearn)
{
if (current != relearn)
return MoveResult.Unobtainable(relearn);
if (current == 0)
return MoveResult.Empty;
return MoveResult.Relearn;
}
}