PKHeX/PKHeX.Core/Legality/Encounters/Verifiers/VerifyRelearnMoves.cs
Kurt d5a8d29088 Misc updates
reduce some allocs, clearer names/enum usage
2018-12-27 20:24:24 -08:00

202 lines
9.1 KiB
C#

using System;
using System.Collections.Generic;
using System.Linq;
using static PKHeX.Core.LegalityCheckStrings;
using static PKHeX.Core.LegalityAnalysis;
namespace PKHeX.Core
{
/// <summary>
/// Logic to verify the current <see cref="PKM.RelearnMoves"/>.
/// </summary>
public static class VerifyRelearnMoves
{
private static readonly int[] RelearnEmpty = new int[4];
public static CheckResult[] VerifyRelearn(PKM pkm, LegalInfo info)
{
if (info.Generation < 6 || pkm.VC1)
return VerifyRelearnNone(pkm, info);
switch (info.EncounterMatch)
{
case EncounterLink l when l.RelearnMoves.Length > 0:
return VerifyRelearnSpecifiedMoveset(pkm, info, l.RelearnMoves);
case MysteryGift g:
return VerifyRelearnSpecifiedMoveset(pkm, info, g.RelearnMoves);
case EncounterStatic s when s.Relearn.Length > 0:
return VerifyRelearnSpecifiedMoveset(pkm, info, s.Relearn);
case EncounterEgg e:
return VerifyRelearnEggBase(pkm, info, e);
case EncounterSlot z when pkm.RelearnMove1 != 0 && z.Permissions.DexNav && EncounterSlotGenerator.IsDexNavValid(pkm):
return VerifyRelearnDexNav(pkm, info);
}
return VerifyRelearnNone(pkm, info);
}
private static CheckResult[] VerifyRelearnSpecifiedMoveset(PKM pkm, LegalInfo info, int[] moves)
{
CheckResult[] res = new CheckResult[4];
int[] RelearnMoves = pkm.RelearnMoves;
for (int i = 0; i < 4; i++)
{
res[i] = moves[i] != RelearnMoves[i]
? new CheckResult(Severity.Invalid, string.Format(LMoveFExpect_0, MoveStrings[moves[i]]), CheckIdentifier.RelearnMove)
: new CheckResult(CheckIdentifier.RelearnMove);
}
info.RelearnBase = moves;
return res;
}
private static CheckResult[] VerifyRelearnDexNav(PKM pkm, LegalInfo info)
{
var result = new CheckResult[4];
int[] RelearnMoves = pkm.RelearnMoves;
// DexNav Pokémon can have 1 random egg move as a relearn move.
result[0] = !Legal.GetValidRelearn(pkm, Legal.GetBaseEggSpecies(pkm), true).Contains(RelearnMoves[0])
? new CheckResult(Severity.Invalid, LMoveRelearnDexNav, CheckIdentifier.RelearnMove)
: new CheckResult(CheckIdentifier.RelearnMove);
// All other relearn moves must be empty.
for (int i = 1; i < 4; i++)
{
result[i] = RelearnMoves[i] != 0
? new CheckResult(Severity.Invalid, LMoveRelearnNone, CheckIdentifier.RelearnMove)
: new CheckResult(CheckIdentifier.RelearnMove);
}
// Update the relearn base moves if the first relearn move is okay.
info.RelearnBase = result[0].Valid
? RelearnMoves
: RelearnEmpty;
return result;
}
private static CheckResult[] VerifyRelearnNone(PKM pkm, LegalInfo info)
{
var result = new CheckResult[4];
int[] RelearnMoves = pkm.RelearnMoves;
// No relearn moves should be present.
for (int i = 0; i < 4; i++)
{
result[i] = RelearnMoves[i] != 0
? new CheckResult(Severity.Invalid, LMoveRelearnNone, CheckIdentifier.RelearnMove)
: new CheckResult(CheckIdentifier.RelearnMove);
}
info.RelearnBase = RelearnEmpty;
return result;
}
private static CheckResult[] VerifyRelearnEggBase(PKM pkm, LegalInfo info, EncounterEgg e)
{
int[] RelearnMoves = pkm.RelearnMoves;
var result = new CheckResult[4];
// Level up moves cannot be inherited if Ditto is the parent
// that means genderless species and male only species except Nidoran and Volbeat (they breed with female nidoran and illumise) could not have level up moves as an egg
bool inheritLvlMoves = Legal.GetCanInheritMoves(e.Species);
// Obtain level1 moves
var baseMoves = Legal.GetBaseEggMoves(pkm, e.Species, e.Version, 1);
int baseCt = Math.Min(4, baseMoves.Length);
// Obtain Inherited moves
var inheritMoves = Legal.GetValidRelearn(pkm, e.Species, inheritLvlMoves, e.Version).ToList();
int reqBase = GetRequiredBaseMoves(RelearnMoves, baseMoves, baseCt, inheritMoves);
// Check if the required amount of Base Egg Moves are present.
FlagBaseEggMoves(result, reqBase, baseMoves, RelearnMoves);
// Non-Base moves that can magically appear in the regular movepool
if (Legal.LightBall.Contains(pkm.Species))
inheritMoves.Add(344); // Volt Tackle
// If any splitbreed moves are invalid, flag accordingly
var splitMoves = e is EncounterEggSplit s
? Legal.GetValidRelearn(pkm, s.OtherSpecies, inheritLvlMoves, e.Version).ToList()
: (IReadOnlyList<int>)Array.Empty<int>();
// Inherited moves appear after the required base moves.
// If the pkm is capable of split-species breeding and any inherited move is from the other split scenario, flag accordingly.
bool splitInvalid = FlagInvalidInheritedMoves(result, reqBase, RelearnMoves, inheritMoves, splitMoves);
if (splitInvalid)
FlagSplitbreedMoves(result, reqBase, e, pkm);
info.RelearnBase = baseMoves;
return result;
}
private static void FlagBaseEggMoves(CheckResult[] result, int required, IReadOnlyList<int> baseMoves, IReadOnlyList<int> RelearnMoves)
{
for (int i = 0; i < required; i++)
{
if (!baseMoves.Contains(RelearnMoves[i]))
{
FlagRelearnMovesMissing(result, required, baseMoves, i);
return;
}
result[i] = new CheckResult(Severity.Valid, LMoveRelearnEgg, CheckIdentifier.RelearnMove);
}
}
private static void FlagRelearnMovesMissing(CheckResult[] result, int required, IReadOnlyList<int> baseMoves, int start)
{
for (int z = start; z < required; z++)
result[z] = new CheckResult(Severity.Invalid, LMoveRelearnEggMissing, CheckIdentifier.RelearnMove);
// provide the list of suggested base moves for the last required slot
string em = string.Join(", ", GetMoveNames(baseMoves));
result[required - 1].Comment += string.Format(Environment.NewLine + LMoveRelearnFExpect_0, em);
}
private static bool FlagInvalidInheritedMoves(CheckResult[] result, int required, IReadOnlyList<int> RelearnMoves, IReadOnlyList<int> inheritMoves, IReadOnlyList<int> splitMoves)
{
bool splitInvalid = false;
bool isSplit = splitMoves.Count > 0;
for (int i = required; i < 4; i++)
{
if (RelearnMoves[i] == 0) // empty
result[i] = new CheckResult(Severity.Valid, LMoveSourceEmpty, CheckIdentifier.RelearnMove);
else if (inheritMoves.Contains(RelearnMoves[i])) // inherited
result[i] = new CheckResult(Severity.Valid, LMoveSourceRelearn, CheckIdentifier.RelearnMove);
else if (isSplit && splitMoves.Contains(RelearnMoves[i])) // inherited
splitInvalid = true;
else // not inheritable, flag
result[i] = new CheckResult(Severity.Invalid, LMoveRelearnInvalid, CheckIdentifier.RelearnMove);
}
return splitInvalid;
}
private static void FlagSplitbreedMoves(CheckResult[] res, int required, EncounterEgg e, PKM pkm)
{
var other = e is EncounterEggSplit x ? x.OtherSpecies : Legal.GetBaseEggSpecies(pkm, 1);
for (int i = required; i < 4; i++)
{
if (res[i] != null)
continue;
string message = string.Format(LMoveEggFIncompatible0_1, SpeciesStrings[other], SpeciesStrings[e.Species]);
res[i] = new CheckResult(Severity.Invalid, message, CheckIdentifier.RelearnMove);
}
}
private static int GetRequiredBaseMoves(int[] RelearnMoves, IReadOnlyList<int> baseMoves, int baseCt, IReadOnlyList<int> inheritMoves)
{
var inherited = RelearnMoves.Where(m => m != 0 && (!baseMoves.Contains(m) || inheritMoves.Contains(m))).ToList();
int inheritCt = inherited.Count;
// Get required amount of base moves
int unique = baseMoves.Union(inherited).Count();
int reqBase = inheritCt == 4 || baseCt + inheritCt > 4 ? 4 - inheritCt : baseCt;
if (RelearnMoves.Count(m => m != 0) < Math.Min(4, baseMoves.Count))
reqBase = Math.Min(4, unique);
return reqBase;
}
}
}