using static PKHeX.Core.LegalityCheckStrings; namespace PKHeX.Core { /// /// Verifies the . /// public sealed class PIDVerifier : Verifier { protected override CheckIdentifier Identifier => CheckIdentifier.PID; public override void Verify(LegalityAnalysis data) { var pkm = data.pkm; if (pkm.Format >= 6) VerifyEC(data); var EncounterMatch = data.EncounterMatch; if (EncounterMatch.Species == (int)Species.Wurmple) VerifyECPIDWurmple(data); if (pkm.PID == 0) data.AddLine(Get(LPIDZero, Severity.Fishy)); if (pkm.Nature >= 25) // out of range data.AddLine(GetInvalid(LPIDNatureMismatch)); var Info = data.Info; if ((Info.Generation >= 6 || (Info.Generation < 3 && pkm.Format >= 7)) && pkm.PID == pkm.EncryptionConstant) { if (Info.EncounterMatch is WC8 wc8 && wc8.PID == 0 &&wc8.EncryptionConstant == 0) { // We'll allow this to pass. } else { data.AddLine(GetInvalid(LPIDEqualsEC)); // better to flag than 1:2^32 odds since RNG is not feasible to yield match } } VerifyShiny(data); } private void VerifyShiny(LegalityAnalysis data) { var pkm = data.pkm; var Info = data.Info; switch (data.EncounterMatch) { case EncounterStatic s: if (!s.Shiny.IsValid(pkm)) data.AddLine(GetInvalid(LEncStaticPIDShiny, CheckIdentifier.Shiny)); // gen5 correlation if (Info.Generation != 5) break; if (s.Location == 75) // Entree Forest break; if (s.Gift || s.Roaming || s.Ability != 4) break; if (s is EncounterStatic5N) break; VerifyG5PID_IDCorrelation(data); break; case EncounterSlot w: if (pkm.IsShiny && w.Type == SlotType.HiddenGrotto) data.AddLine(GetInvalid(LG5PIDShinyGrotto, CheckIdentifier.Shiny)); if (Info.Generation == 5 && w.Type != SlotType.HiddenGrotto) VerifyG5PID_IDCorrelation(data); break; case PCD d: // fixed PID if (d.Gift.PK.PID != 1 && pkm.EncryptionConstant != d.Gift.PK.PID) data.AddLine(GetInvalid(LEncGiftPIDMismatch, CheckIdentifier.Shiny)); break; case WC7 wc7 when wc7.IsAshGreninjaWC7(pkm) && pkm.IsShiny: data.AddLine(GetInvalid(LEncGiftShinyMismatch, CheckIdentifier.Shiny)); break; } } private void VerifyG5PID_IDCorrelation(LegalityAnalysis data) { var pkm = data.pkm; var pid = pkm.EncryptionConstant; var result = (pid & 1) ^ (pid >> 31) ^ (pkm.TID & 1) ^ (pkm.SID & 1); if (result != 0) data.AddLine(GetInvalid(LPIDTypeMismatch)); } private void VerifyECPIDWurmple(LegalityAnalysis data) { var pkm = data.pkm; if (pkm.Species == (int)Species.Wurmple) { // Indicate what it will evolve into uint evoVal = WurmpleUtil.GetWurmpleEvoVal(pkm.EncryptionConstant); var spec = evoVal == 0 ? LegalityAnalysis.SpeciesStrings[267] : LegalityAnalysis.SpeciesStrings[269]; var msg = string.Format(L_XWurmpleEvo_0, spec); data.AddLine(GetValid(msg, CheckIdentifier.EC)); } else if (!WurmpleUtil.IsWurmpleEvoValid(pkm)) { data.AddLine(GetInvalid(LPIDEncryptWurmple, CheckIdentifier.EC)); } } private void VerifyEC(LegalityAnalysis data) { var pkm = data.pkm; var Info = data.Info; if (pkm.EncryptionConstant == 0) data.AddLine(Get(LPIDEncryptZero, Severity.Fishy, CheckIdentifier.EC)); if (3 <= Info.Generation && Info.Generation <= 5) { VerifyTransferEC(data); } else { int xor = pkm.TSV ^ pkm.PSV; if (xor < 16 && xor >= 8 && (pkm.PID ^ 0x80000000) == pkm.EncryptionConstant) data.AddLine(Get(LTransferPIDECXor, Severity.Fishy, CheckIdentifier.EC)); } } private void VerifyTransferEC(LegalityAnalysis data) { var pkm = data.pkm; // When transferred to Generation 6, the Encryption Constant is copied from the PID. // The PID is then checked to see if it becomes shiny with the new Shiny rules (>>4 instead of >>3) // If the PID is nonshiny->shiny, the top bit is flipped. // Check to see if the PID and EC are properly configured. var ec = pkm.EncryptionConstant; // should be original PID bool xorPID = ((pkm.TID ^ pkm.SID ^ (int)(ec & 0xFFFF) ^ (int)(ec >> 16)) & ~0x7) == 8; bool valid = pkm.PID == (xorPID ? (ec ^ 0x80000000) : ec); if (valid) return; var msg = xorPID ? LTransferPIDECBitFlip : LTransferPIDECEquals; data.AddLine(GetInvalid(msg, CheckIdentifier.EC)); } } }