PKHeX/PKHeX.Core/Legality/Checks.cs

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using System;
using System.Collections.Generic;
using System.Linq;
using static PKHeX.Core.LegalityCheckStrings;
namespace PKHeX.Core
{
public partial class LegalityAnalysis
{
private void VerifyGender()
{
if (pkm.PersonalInfo.Gender == 255 && pkm.Gender != 2)
AddLine(Severity.Invalid, V203, CheckIdentifier.Gender);
// Check for PID relationship to Gender & Nature if applicable
int gen = pkm.GenNumber;
bool PIDGender = 3 <= gen && gen <= 5;
if (!PIDGender)
return;
bool genderValid = pkm.IsGenderValid();
if (!genderValid && pkm.Format > 5 && (pkm.Species == 183 || pkm.Species == 184))
{
var gv = pkm.PID & 0xFF;
if (gv > 63 && pkm.Gender == 1) // evolved from azurill after transferring to keep gender
genderValid = true;
}
if (genderValid)
AddLine(Severity.Valid, V250, CheckIdentifier.Gender);
else
AddLine(Severity.Invalid, V251, CheckIdentifier.Gender);
bool PIDNature = gen != 5;
if (!PIDNature)
return;
if (pkm.EncryptionConstant % 25 == pkm.Nature)
AddLine(Severity.Valid, V252, CheckIdentifier.Nature);
else
AddLine(Severity.Invalid, V253, CheckIdentifier.Nature);
}
private void VerifyItem()
{
if (!Legal.IsHeldItemAllowed(pkm.HeldItem, pkm.Format))
AddLine(Severity.Invalid, V204, CheckIdentifier.Form);
if (pkm.Format == 3 && pkm.HeldItem == 175)
VerifyEReaderBerry();
if (pkm.IsEgg && pkm.HeldItem != 0)
AddLine(Severity.Invalid, V419, CheckIdentifier.Egg);
}
private void VerifyEReaderBerry()
{
if (Legal.EReaderBerryIsEnigma) // no E-Reader berry data provided, can't hold berry.
{
AddLine(Severity.Invalid, V204, CheckIdentifier.Form);
return;
}
var matchUSA = Legal.EReaderBerriesNames_USA.Contains(Legal.EReaderBerryName);
var matchJP = Legal.EReaderBerriesNames_JP.Contains(Legal.EReaderBerryName);
if (!matchJP && !matchUSA) // Does not match any released E-Reader berry
AddLine(Severity.Invalid, V369, CheckIdentifier.Form);
else if (matchJP && !Legal.SavegameJapanese) // E-Reader is region locked
AddLine(Severity.Invalid, V370, CheckIdentifier.Form);
else if (matchUSA && Legal.SavegameJapanese) // E-Reader is region locked
AddLine(Severity.Invalid, V371, CheckIdentifier.Form);
}
private void VerifyECPID()
{
if (pkm.Format >= 6)
VerifyEC();
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch.Species == 265)
VerifyECPIDWurmple();
if (pkm.PID == 0)
AddLine(Severity.Fishy, V207, CheckIdentifier.PID);
if (pkm.GenNumber >= 6 && pkm.PID == pkm.EncryptionConstant)
AddLine(Severity.Invalid, V208, CheckIdentifier.PID); // better to flag than 1:2^32 odds since RNG is not feasible to yield match
switch (EncounterMatch)
{
case EncounterStatic s:
if (s.Shiny != null && (bool)s.Shiny ^ pkm.IsShiny)
AddLine(Severity.Invalid, V209, CheckIdentifier.Shiny);
break;
case EncounterSlot w:
if (pkm.IsShiny && w.Type == SlotType.HiddenGrotto)
AddLine(Severity.Invalid, V221, CheckIdentifier.Shiny);
break;
case PCD d: // fixed PID
if (d.Gift.PK.PID != 1 && pkm.EncryptionConstant != d.Gift.PK.PID)
AddLine(Severity.Invalid, V410, CheckIdentifier.Shiny);
break;
}
}
private void VerifyECPIDWurmple()
{
uint evoVal = PKX.GetWurmpleEvoVal(pkm.EncryptionConstant);
if (pkm.Species == 265)
AddLine(Severity.Valid, string.Format(V212, evoVal == 0 ? SpeciesStrings[267] : SpeciesStrings[269]), CheckIdentifier.EC);
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else if (evoVal != Array.IndexOf(Legal.WurmpleEvolutions, pkm.Species) / 2)
AddLine(Severity.Invalid, V210, CheckIdentifier.EC);
}
private void VerifyEC()
{
if (pkm.EncryptionConstant == 0)
AddLine(Severity.Fishy, V201, CheckIdentifier.EC);
if (3 <= pkm.GenNumber && pkm.GenNumber <= 5)
VerifyTransferEC();
else
{
int xor = pkm.TSV ^ pkm.PSV;
if (xor < 16 && xor >= 8 && (pkm.PID ^ 0x80000000) == pkm.EncryptionConstant)
AddLine(Severity.Fishy, V211, CheckIdentifier.EC);
}
}
private void VerifyTransferEC()
{
// 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.
bool xorPID = ((pkm.TID ^ pkm.SID ^ (int)(pkm.PID & 0xFFFF) ^ (int)(pkm.PID >> 16)) & ~0x7) == 8;
bool valid = xorPID
? pkm.EncryptionConstant == (pkm.PID ^ 0x8000000)
: pkm.EncryptionConstant == pkm.PID;
if (!valid)
AddLine(Severity.Invalid, xorPID ? V215 : V216, CheckIdentifier.EC);
}
#region verifyNickname
private void VerifyNickname()
{
// If the Pokémon is not nicknamed, it should match one of the language strings.
if (pkm.Nickname.Length == 0)
{
AddLine(Severity.Invalid, V2, CheckIdentifier.Nickname);
return;
}
if (pkm.Species > PKX.SpeciesLang[0].Length)
{
AddLine(Severity.Indeterminate, V3, CheckIdentifier.Nickname);
return;
}
if (pkm.VC)
{
string pk = pkm.Nickname;
var langset = PKX.SpeciesLang.FirstOrDefault(s => s.Contains(pk)) ?? PKX.SpeciesLang[2];
int lang = Array.IndexOf(PKX.SpeciesLang, langset);
if (pk.Length > (lang != 1 ? 10 : 5))
AddLine(Severity.Invalid, V1, CheckIdentifier.Nickname);
}
else if (EncounterMatch is MysteryGift m)
{
if (pkm.IsNicknamed && !m.IsEgg)
AddLine(Severity.Fishy, V0, CheckIdentifier.Nickname);
}
2016-03-20 01:06:02 +00:00
if (!Encounter.Valid)
return;
if (pkm.Format <= 6 && pkm.Language > 8)
{
AddLine(Severity.Indeterminate, V4, CheckIdentifier.Language);
return;
}
if (pkm.Format <= 7 && pkm.Language > 10)
{
AddLine(Severity.Indeterminate, V5, CheckIdentifier.Language);
return;
}
if (Type == typeof(EncounterTrade))
2016-03-27 00:23:53 +00:00
{
VerifyNicknameTrade();
return;
2016-03-27 00:23:53 +00:00
}
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if (pkm.IsEgg)
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{
VerifyNicknameEgg();
return;
2016-03-16 04:15:40 +00:00
}
string nickname = pkm.Nickname.Replace("'", "");
if (pkm.IsNicknamed)
{
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for (int i = 0; i < PKX.SpeciesLang.Length; i++)
{
string[] lang = PKX.SpeciesLang[i];
int index = Array.IndexOf(lang, nickname);
if (index < 0)
continue;
AddLine(Severity.Fishy, index == pkm.Species && i != pkm.Language
? V15
: V16, CheckIdentifier.Nickname);
return;
2016-03-20 01:06:02 +00:00
}
if (nickname.Any(c => 0x4E00 <= c && c <= 0x9FFF)) // East Asian Scripts
{
AddLine(Severity.Invalid, V222, CheckIdentifier.Nickname);
return;
}
AddLine(Severity.Valid, V17, CheckIdentifier.Nickname);
2016-03-16 01:56:18 +00:00
}
else if (pkm.Format < 3)
{
// pk1/pk2 IsNicknamed getter checks for match, logic should only reach here if matches.
AddLine(Severity.Valid, V18, CheckIdentifier.Nickname);
}
else
2016-03-16 01:56:18 +00:00
{
// Can't have another language name if it hasn't evolved or wasn't a language-traded egg.
bool evolved = Legal.IsNotBaseSpecies(pkm);
bool match = PKX.GetSpeciesNameGeneration(pkm.Species, pkm.Language, pkm.Format) == nickname;
if (pkm.WasTradedEgg || evolved)
match |= !PKX.IsNicknamedAnyLanguage(pkm.Species, nickname, pkm.Format);
if (!match && pkm.Format == 5 && !pkm.IsNative) // transfer
{
if (evolved)
match |= !PKX.IsNicknamedAnyLanguage(pkm.Species, nickname, 4);
else
match |= PKX.GetSpeciesNameGeneration(pkm.Species, pkm.Language, 4) == nickname;
}
if (!match)
{
if ((EncounterMatch as MysteryGift)?.CardID == 2046 && (pkm.SID << 16 | pkm.TID) == 0x79F57B49)
AddLine(Severity.Valid, V19, CheckIdentifier.Nickname);
else
AddLine(Severity.Invalid, V20, CheckIdentifier.Nickname);
}
else
AddLine(Severity.Valid, V18, CheckIdentifier.Nickname);
}
}
private void VerifyNicknameEgg()
{
switch (pkm.Format)
{
case 4:
if (pkm.IsNicknamed) // gen4 doesn't use the nickname flag for eggs
AddLine(Severity.Invalid, V224, CheckIdentifier.Egg);
break;
case 7:
if (EncounterMatch is EncounterStatic ^ !pkm.IsNicknamed) // gen7 doesn't use for ingame gifts
AddLine(Severity.Invalid, pkm.IsNicknamed ? V224 : V12, CheckIdentifier.Egg);
break;
default:
if (!pkm.IsNicknamed)
AddLine(Severity.Invalid, V12, CheckIdentifier.Egg);
break;
}
if (pkm.Format == 2 && pkm.IsEgg && !PKX.IsNicknamedAnyLanguage(0, pkm.Nickname, 2))
AddLine(Severity.Valid, V14, CheckIdentifier.Egg);
else if (PKX.GetSpeciesNameGeneration(0, pkm.Language, pkm.GenNumber) != pkm.Nickname)
AddLine(Severity.Invalid, V13, CheckIdentifier.Egg);
else
AddLine(Severity.Valid, V14, CheckIdentifier.Egg);
}
private void VerifyNicknameTrade()
{
string[] validOT = new string[0];
int index = -1;
if (pkm.XY)
{
validOT = Legal.TradeXY[pkm.Language];
index = Array.IndexOf(Legal.TradeGift_XY, EncounterMatch);
}
else if (pkm.AO)
{
validOT = Legal.TradeAO[pkm.Language];
index = Array.IndexOf(Legal.TradeGift_AO, EncounterMatch);
}
else if (pkm.SM)
{
// TODO
AddLine(Severity.Valid, V194, CheckIdentifier.Nickname);
return;
}
else if (pkm.Format <= 2 || pkm.VC)
{
var et = (EncounterOriginalGB ?? EncounterMatch) as EncounterTrade;
if (et?.TID == 0) // Gen1 Trade
{
if (!EncounterGenerator.IsEncounterTrade1Valid(pkm))
AddLine(Severity.Invalid, V10, CheckIdentifier.Trainer);
}
else // Gen2
{
return; // already checked all relevant properties when fetching with getValidEncounterTradeVC2
}
return;
}
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
else if (3 <= pkm.GenNumber && pkm.GenNumber <= 5)
{
// Suppressing temporarily
return;
}
if (validOT.Length == 0)
{
AddLine(Severity.Indeterminate, V7, CheckIdentifier.Trainer);
return;
}
if (index == -1 || validOT.Length < index * 2)
{
AddLine(Severity.Indeterminate, V8, CheckIdentifier.Trainer);
return;
}
string nick = validOT[index];
string OT = validOT[validOT.Length / 2 + index];
if (nick != pkm.Nickname)
AddLine(Severity.Fishy, V9, CheckIdentifier.Nickname);
else if (OT != pkm.OT_Name)
AddLine(Severity.Invalid, V10, CheckIdentifier.Trainer);
else
AddLine(Severity.Valid, V11, CheckIdentifier.Nickname);
}
#endregion
private void VerifyEVs()
{
var evs = pkm.EVs;
int sum = evs.Sum();
if (sum > 0 && pkm.IsEgg)
AddLine(Severity.Invalid, V22, CheckIdentifier.EVs);
2017-06-27 03:12:49 +00:00
if (pkm.Format >= 3 && sum > 510)
AddLine(Severity.Invalid, V25, CheckIdentifier.EVs);
if (pkm.Format >= 6 && evs.Any(ev => ev > 252))
AddLine(Severity.Invalid, V26, CheckIdentifier.EVs);
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (pkm.Format == 4 && pkm.Gen4 && EncounterMatch.LevelMin == 100)
{
// Cannot EV train at level 100 -- Certain events are distributed at level 100.
if (evs.Any(ev => ev > 100)) // EVs can only be increased by vitamins to a max of 100.
AddLine(Severity.Invalid, V367, CheckIdentifier.EVs);
}
else if (pkm.Format < 5)
{
var maxEV = pkm.Format <= 2 ? 25600 : 100; // Vitamin Max
// Cannot EV train above 100 without increasing EXP
if (PKX.GetEXP(EncounterMatch.LevelMin, pkm.Species) == pkm.EXP && evs.Any(ev => ev > maxEV))
AddLine(Severity.Invalid, string.Format(V418, maxEV), CheckIdentifier.EVs);
2017-06-27 03:12:49 +00:00
if (pkm.Format < 3)
return;
}
// Only one of the following can be true: 0, 508, and x%6!=0
if (sum == 0 && !EncounterMatch.IsWithinRange(pkm))
AddLine(Severity.Fishy, V23, CheckIdentifier.EVs);
else if (sum == 508)
AddLine(Severity.Fishy, V24, CheckIdentifier.EVs);
else if (evs[0] != 0 && evs.All(ev => evs[0] == ev))
AddLine(Severity.Fishy, V27, CheckIdentifier.EVs);
}
private void VerifyIVs()
{
if (EncounterMatch is EncounterStatic s && s.IV3)
{
int IVCount = 3;
if (s.Version == GameVersion.RBY && pkm.Species == 151)
IVCount = 5; // VC Mew
if (pkm.IVs.Count(iv => iv == 31) < IVCount)
{
AddLine(Severity.Invalid, string.Format(V28, IVCount), CheckIdentifier.IVs);
return;
}
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterSlot w && w.Type == SlotType.FriendSafari)
{
if (pkm.IVs.Count(iv => iv == 31) < 2)
{
AddLine(Severity.Invalid, V29, CheckIdentifier.IVs);
return;
}
}
if (EncounterMatch is MysteryGift g)
{
int[] IVs;
switch (g.Format)
{
case 7: IVs = ((WC7)EncounterMatch).IVs; break;
case 6: IVs = ((WC6)EncounterMatch).IVs; break;
case 5: IVs = ((PGF)EncounterMatch).IVs; break;
default: IVs = null; break;
}
if (IVs != null)
{
var pkIVs = pkm.IVs;
bool valid = true;
for (int i = 0; i < 6; i++)
if (IVs[i] <= 31 && IVs[i] != pkIVs[i])
valid = false;
if (!valid)
AddLine(Severity.Invalid, V30, CheckIdentifier.IVs);
bool IV3 = IVs[0] == 0xFE;
if (IV3 && pkm.IVs.Count(iv => iv == 31) < 3)
AddLine(Severity.Invalid, string.Format(V28, 3), CheckIdentifier.IVs);
}
}
if (pkm.IVs.Sum() == 0)
AddLine(Severity.Fishy, V31, CheckIdentifier.IVs);
else if (pkm.IVs[0] < 30 && pkm.IVs.All(iv => pkm.IVs[0] == iv))
AddLine(Severity.Fishy, V32, CheckIdentifier.IVs);
}
private void VerifyDVs()
{
// todo
}
#region VerifyOT
private void VerifyOT()
{
if (Type == typeof(EncounterTrade))
return; // Already matches Encounter information
if (EncounterMatch is MysteryGift g && !g.IsEgg)
return; // Already matches Encounter information
if (EncounterMatch is EncounterStatic s && s.NSparkle)
return; // Already checked by VerifyMisc
if (pkm.TID == 0 && pkm.SID == 0)
AddLine(Severity.Fishy, V33, CheckIdentifier.Trainer);
else if (pkm.VC)
{
if (pkm.SID != 0)
AddLine(Severity.Invalid, V34, CheckIdentifier.Trainer);
}
else if (pkm.TID == pkm.SID)
AddLine(Severity.Fishy, V35, CheckIdentifier.Trainer);
else if (pkm.TID == 0)
AddLine(Severity.Fishy, V36, CheckIdentifier.Trainer);
else if (pkm.SID == 0)
AddLine(Severity.Fishy, V37, CheckIdentifier.Trainer);
2017-06-18 23:47:23 +00:00
else if (pkm.TID == 12345 && pkm.SID == 54321 || pkm.OT_Name.StartsWith("PKHeX"))
AddLine(Severity.Fishy, V417, CheckIdentifier.Trainer);
if (pkm.VC)
VerifyG1OT();
}
private void VerifyG1OT()
{
string tr = pkm.OT_Name;
string pk = pkm.Nickname;
var langset = PKX.SpeciesLang.FirstOrDefault(s => s.Contains(pk)) ?? PKX.SpeciesLang[2];
int lang = Array.IndexOf(PKX.SpeciesLang, langset);
if (tr.Length > (lang == 2 ? 7 : 5))
AddLine(Severity.Invalid, V38, CheckIdentifier.Trainer);
if (pkm.Species == 151)
{
if (tr != "GF" && tr != "ゲーフリ") // if there are more events with special OTs, may be worth refactoring
AddLine(Severity.Invalid, V39, CheckIdentifier.Trainer);
}
if ((EncounterMatch as EncounterStatic)?.Version == GameVersion.Stadium)
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{
if (tr == "STADIUM" && pkm.TID == 2000)
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AddLine(Severity.Valid, V403, CheckIdentifier.Trainer);
else if (tr == "スタジアム" && pkm.TID == 1999)
AddLine(Severity.Valid, V404, CheckIdentifier.Trainer);
else
AddLine(Severity.Invalid, V402, CheckIdentifier.Trainer);
}
if (pkm.OT_Gender == 1 && (pkm.Format == 2 && pkm.Met_Location == 0 || !Info.Game.Contains(GameVersion.C)))
AddLine(Severity.Invalid, V408, CheckIdentifier.Trainer);
}
#endregion
private void VerifyHyperTraining()
2016-11-11 10:31:50 +00:00
{
if (pkm.Format < 7)
return; // No Hyper Training before Gen VII
var IVs = new[] { pkm.IV_HP, pkm.IV_ATK, pkm.IV_DEF, pkm.IV_SPA, pkm.IV_SPD, pkm.IV_SPE };
var HTs = new[] { pkm.HT_HP, pkm.HT_ATK, pkm.HT_DEF, pkm.HT_SPA, pkm.HT_SPD, pkm.HT_SPE };
if (HTs.Any(ht => ht) && pkm.CurrentLevel != 100)
AddLine(Severity.Invalid, V40, CheckIdentifier.IVs);
2016-11-11 10:31:50 +00:00
if (IVs.All(iv => iv == 31) && HTs.Any(ht => ht))
AddLine(Severity.Invalid, V41, CheckIdentifier.IVs);
2016-11-11 10:31:50 +00:00
else
{
for (int i = 0; i < 6; i++) // Check individual IVs
{
if ((IVs[i] == 31) && HTs[i])
AddLine(Severity.Invalid, V42, CheckIdentifier.IVs);
2016-11-11 10:31:50 +00:00
}
}
}
#region VerifyEncounter
private void VerifyFormFriendSafari()
{
switch (pkm.Species)
{
case 670: // Floette
case 671: // Florges
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (!new[] { 0, 1, 3 }.Contains(pkm.AltForm)) // 0/1/3 - RBY
AddLine(Severity.Invalid, V64, CheckIdentifier.Form);
break;
case 710: // Pumpkaboo
case 711: // Goregeist
if (pkm.AltForm != 0) // Average
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
AddLine(Severity.Invalid, V6, CheckIdentifier.Form);
break;
case 586: // Sawsbuck
if (pkm.AltForm != 0)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
AddLine(Severity.Invalid, V65, CheckIdentifier.Form);
break;
}
}
private void VerifyEncounterType()
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
{
if (pkm.Format >= 7)
return;
if (!Encounter.Valid)
return;
EncounterType type = EncounterType.None;
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
// Encounter type data is only stored for gen 4 encounters
// Gen 6 -> 7 transfer deletes encounter type data
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
// All eggs have encounter type none, even if they are from static encounters
if (pkm.Gen4 && !pkm.WasEgg)
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
{
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterSlot w)
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
// If there is more than one slot, the get wild encounter have filter for the pkm type encounter like safari/sports ball
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
type = w.TypeEncounter;
if (EncounterMatch is EncounterStaticTyped s)
type = s.TypeEncounter;
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
}
2017-05-01 15:07:20 +00:00
if (!type.Contains(pkm.EncounterType))
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
AddLine(Severity.Invalid, V381, CheckIdentifier.Encounter);
else
AddLine(Severity.Valid, V380, CheckIdentifier.Encounter);
Special Eggs improvement and Generation 4 Encounter Type legal analysis (#1083) * Ignore relearn level 2-100 moves from Phione * Cave encounter types DPPt * Generation 4 EncounterType filter and validation Not every generation 4 static encounter have yet their encounter type defined, i temporally included Any to those encounters Generation 4 roaaming static encounters have been splitted in two, grass and surf * Added new legality texts * Added unreleased event DP Darkai, added check for surf in jhoto route 45, is impossible Moved unreleased DP locations to valid Platinum locations only * Improved generation 3 special egg check. Only check special egg if pokemon knows any of the special egg moves, also in that case do check for normal egg before special egg because special eggs will explicitly check for normal egg moves but normal eggs will not check special egg moves, it will improve the error output * Clean up * Fix gen 5 pokemon from issue #1011 Those pokemon have generation 4 static gift encounters and also wild encounters, the analysis was selecting the static encounter, but if there is a valid wild encounter and the static encounter does not match the pokemon ball the willd encounter should be selected instead Also move the transfer legality to check it before the static encounters and make that check to work like generation 3 transfer legality * Another fix for Issue 1011, suppress temporally OT and pokemon name analysis for generations 3 to 5 instead of format 3 to 5, there is no data stored yet to make those analysis * Do not make wild encounters prevail static encounter if the pokemon was an egg * Changed type of WildEncounter variable to EncounterSlot[] * Fix Jhoto Route 45 to avoid return error with fishing encounters
2017-04-22 18:49:49 +00:00
}
private void VerifyTransferLegalityG3()
{
if (pkm.Format == 4 && pkm.Met_Location != 0x37) // Pal Park
AddLine(Severity.Invalid, V60, CheckIdentifier.Encounter);
if (pkm.Format != 4 && pkm.Met_Location != 30001)
AddLine(Severity.Invalid, V61, CheckIdentifier.Encounter);
}
private void VerifyTransferLegalityG4()
{
// Transfer Legality
int loc = pkm.Met_Location;
if (loc != 30001) // PokéTransfer
{
// Crown
switch (pkm.Species)
{
case 251: // Celebi
if (loc != 30010 && loc != 30011) // unused || used
AddLine(Severity.Invalid, V351, CheckIdentifier.Encounter);
break;
case 243: // Raikou
case 244: // Entei
case 245: // Suicune
if (loc != 30012 && loc != 30013) // unused || used
AddLine(Severity.Invalid, V351, CheckIdentifier.Encounter);
break;
default:
AddLine(Severity.Invalid, V61, CheckIdentifier.Encounter);
break;
}
}
}
private static IEnumerable<CheckResult> VerifyVCEncounter(PKM pkm, int baseSpecies, GBEncounterData encounter, EncounterStatic transfer)
{
// Check existing EncounterMatch
if (encounter == null || transfer == null)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
yield break; // Avoid duplicate invaild message
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (encounter.Encounter is EncounterStatic v && (GameVersion.GBCartEraOnly.Contains(v.Version) || v.Version == GameVersion.VCEvents))
{
bool exceptions = false;
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
exceptions |= v.Version == GameVersion.VCEvents && baseSpecies == 151 && pkm.TID == 22796;
if (!exceptions)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
yield return new CheckResult(Severity.Invalid, V79, CheckIdentifier.Encounter);
}
if (pkm.Met_Location != transfer.Location)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
yield return new CheckResult(Severity.Invalid, V81, CheckIdentifier.Encounter);
if (pkm.Egg_Location != transfer.EggLocation)
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
yield return new CheckResult(Severity.Invalid, V59, CheckIdentifier.Encounter);
if (baseSpecies == 150 && pkm.Moves.Contains(6)) // pay day
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
yield return new CheckResult(Severity.Invalid, V82, CheckIdentifier.Encounter);
}
#endregion
private void VerifyLevel()
{
if (EncounterMatch is MysteryGift gift)
{
if (gift.Level != pkm.Met_Level && pkm.HasOriginalMetLocation)
{
switch (gift)
{
case WC3 wc3 when wc3.Met_Level == pkm.Met_Level:
break;
case WC7 wc7 when wc7.MetLevel == pkm.Met_Level:
break;
default:
AddLine(new CheckResult(Severity.Invalid, V83, CheckIdentifier.Level));
return;
}
}
if (gift.Level > pkm.CurrentLevel)
{
AddLine(new CheckResult(Severity.Invalid, V84, CheckIdentifier.Level));
return;
}
}
if (pkm.IsEgg)
{
int elvl = Legal.GetEggHatchLevel(pkm);
if (elvl != pkm.CurrentLevel)
AddLine(Severity.Invalid, string.Format(V52, elvl), CheckIdentifier.Level);
return;
}
int lvl = pkm.CurrentLevel;
if (lvl < pkm.Met_Level)
AddLine(Severity.Invalid, V85, CheckIdentifier.Level);
else if (!EncounterMatch.IsWithinRange(pkm) && lvl != 100 && pkm.EXP == PKX.GetEXP(lvl, pkm.Species))
AddLine(Severity.Fishy, V87, CheckIdentifier.Level);
else
AddLine(Severity.Valid, V88, CheckIdentifier.Level);
2017-05-01 15:07:20 +00:00
// There is no way to prevent a gen1 trade evolution as held items (everstone) did not exist.
// Machoke, Graveler, Haunter and Kadabra captured in the second phase evolution, excluding in-game trades, are already checked
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (pkm.Format <= 2 && Type != typeof (EncounterTrade) && EncounterMatch.Species == pkm.Species && Legal.Trade_Evolution1.Contains(EncounterMatch.Species))
VerifyG1TradeEvo();
}
private void VerifyG1TradeEvo()
{
New legallity checks (#1196) * Add move source to the check result for current moves, it will be used for analysis of evolution with move to determine how many egg moves had the pokemon and determine if the evolution move could be a egg move that was forgotten * Verify evolution for species that evolved leveling up with an specific move learned, the evolution must be at least one level after the pokemon could legally learn the move or one level after transfer to the first generation where it can evolve * Check to detect traded unevolved Kadabra based in catch rate and moves exclusive from yellow or red/blue If pokemon have data exclusive from one version but is in another version that means it should be evolved * Check no tradeback moves for preevolutions, like Pichu exclusive non tradeback moves for a Pikachu, that Pikachu could not have at the same time Pichu gen 2 moves and gen 1 moves because move reminder do not allow to relearn Pichu moves and gen 2 moves must be forgotten to trade into generation 1 games * Legallity strings for non tradeback checks * https://bulbapedia.bulbagarden.net/wiki/Pok%C3%A9mon_breeding#Passing_moves_down Eggs only inherit a level up move if both parents know the move, that means genderless and male only moves could not have any level up move as an egg except the base egg moves because Ditto is one parent Nidoran male and Volbeat excluded because they can breed with Nidoran female and Illusime * Small check to not search for egg moves in genderless pokemon, generation 2 data include egg moves for Starmie * Fix female only species * Stomp is not a possible egg moves of Stanee * Fix Steenee evolution move, it cant be inherited as an egg
2017-06-07 03:10:05 +00:00
var mustevolve = pkm.TradebackStatus == TradebackType.WasTradeback || (pkm.Format == 1 && Legal.IsOutsider(pkm)) || Legal.IsTradedKadabraG1(pkm);
if (!mustevolve)
return;
// Pokemon have been traded but it is not evolved, trade evos are sequential dex numbers
var unevolved = SpeciesStrings[pkm.Species];
var evolved = SpeciesStrings[pkm.Species + 1];
AddLine(Severity.Invalid, string.Format(V405, unevolved, evolved), CheckIdentifier.Level);
}
#region VerifyMedals
private void VerifyMedals()
{
if (pkm.Format < 6)
return;
VerifyMedalsRegular();
VerifyMedalsEvent();
}
private void VerifyMedalsRegular()
{
uint data = BitConverter.ToUInt32(pkm.Data, 0x2C);
if ((data & 3) != 0) // 2 unused flags
AddLine(Severity.Invalid, V98, CheckIdentifier.Training);
int TrainCount = pkm.SuperTrainingMedalCount();
if (pkm.IsEgg && TrainCount > 0)
AddLine(Severity.Invalid, V89, CheckIdentifier.Training);
else if (TrainCount > 0 && pkm.GenNumber > 6)
AddLine(Severity.Invalid, V90, CheckIdentifier.Training);
else
{
if (pkm.Format >= 7)
{
if (pkm.SecretSuperTrainingUnlocked)
AddLine(Severity.Invalid, V91, CheckIdentifier.Training);
if (pkm.SecretSuperTrainingComplete)
AddLine(Severity.Invalid, V92, CheckIdentifier.Training);
}
else
{
if (TrainCount == 30 ^ pkm.SecretSuperTrainingComplete)
AddLine(Severity.Invalid, V93, CheckIdentifier.Training);
}
}
}
private void VerifyMedalsEvent()
{
byte data = pkm.Data[0x3A];
if ((data & 0xC0) != 0) // 2 unused flags highest bits
AddLine(Severity.Invalid, V98, CheckIdentifier.Training);
int TrainCount = 0;
for (int i = 0; i < 6; i++)
{
if ((data & 1) != 0)
TrainCount++;
data >>= 1;
}
if (pkm.IsEgg && TrainCount > 0)
{ AddLine(Severity.Invalid, V89, CheckIdentifier.Training); }
else if (TrainCount > 0 && pkm.GenNumber > 6)
{ AddLine(Severity.Invalid, V90, CheckIdentifier.Training); }
else if (TrainCount > 0)
{ AddLine(Severity.Fishy, V94, CheckIdentifier.Training); }
}
#endregion
private void VerifyRibbons()
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{
if (!Encounter.Valid)
return;
// Check Unobtainable Ribbons
var encounterContent = (EncounterMatch as MysteryGift)?.Content ?? EncounterMatch;
2016-03-20 22:20:11 +00:00
List<string> missingRibbons = new List<string>();
List<string> invalidRibbons = new List<string>();
if (pkm.IsEgg)
{
VerifyRibbonsEgg(encounterContent);
return;
}
var ribs = GetRibbonResults(pkm)
.Concat(VerifyRibbonSet1(pkm, encounterContent))
.Concat(VerifyRibbonSet2(pkm, encounterContent));
foreach (var bad in ribs)
(bad.Invalid ? invalidRibbons : missingRibbons).Add(bad.Name);
var result = GetRibbonMessage(missingRibbons, invalidRibbons);
if (result.Count == 0)
{
AddLine(Severity.Valid, V602, CheckIdentifier.Ribbon);
return;
}
AddLine(Severity.Invalid, string.Join(Environment.NewLine, result.Where(s => !string.IsNullOrEmpty(s))), CheckIdentifier.Ribbon);
}
private static List<string> GetRibbonMessage(IReadOnlyCollection<string> missingRibbons, IReadOnlyCollection<string> invalidRibbons)
{
var result = new List<string>();
if (missingRibbons.Count > 0)
result.Add(string.Format(V600, string.Join(", ", missingRibbons.Select(z => z.Replace("Ribbon", "")))));
if (invalidRibbons.Count > 0)
result.Add(string.Format(V601, string.Join(", ", invalidRibbons.Select(z => z.Replace("Ribbon", "")))));
return result;
}
private static IEnumerable<RibbonResult> GetRibbonResults(PKM pkm)
{
int gen = pkm.GenNumber;
bool artist = false;
if (pkm is IRibbonSetOnly3 o3)
{
artist = o3.RibbonCounts().Any(z => z == 4);
}
if (pkm is IRibbonSetUnique3 u3)
{
if (gen != 3 || !IsAllowedBattleFrontier(pkm.Species))
{
if (u3.RibbonWinning)
yield return new RibbonResult(nameof(u3.RibbonWinning));
if (u3.RibbonVictory)
yield return new RibbonResult(nameof(u3.RibbonVictory));
}
}
if (pkm is IRibbonSetUnique4 u4)
{
if (!IsAllowedBattleFrontier(pkm.Species, pkm.AltForm, 4))
foreach (var z in GetRibbonMessageNone(u4.RibbonBitsAbility(), u4.RibbonNamesAbility()))
yield return z;
var c3 = u4.RibbonBitsContest3(); var c3n = u4.RibbonNamesContest3();
var c4 = u4.RibbonBitsContest4(); var c4n = u4.RibbonNamesContest4();
var iter3 = gen == 3 ? getMissingContestRibbons(c3, c3n) : GetRibbonMessageNone(c3, c3n);
var iter4 = gen == 4 && IsAllowedInContest4(pkm.Species) ? getMissingContestRibbons(c4, c4n) : GetRibbonMessageNone(c4, c4n);
foreach (var z in iter3.Concat(iter4))
yield return z;
for (int i = 0; i < 5; ++i)
artist |= c3[3 | i << 2]; // any master rank ribbon
IEnumerable<RibbonResult> getMissingContestRibbons(IReadOnlyList<bool> bits, IReadOnlyList<string> names)
{
for (int i = 0; i < bits.Count; i += 4)
{
bool required = false;
for (int j = i + 3; j >= i; j--)
if (bits[j])
required = true;
else if (required)
yield return new RibbonResult(names[j], false);
}
}
}
if (pkm is IRibbonSetCommon4 s4)
{
bool inhabited4 = 3 <= gen && gen <= 4;
IEnumerable<RibbonResult> iterate = GetRibbonMessage4Any(pkm, s4, gen);
if (!inhabited4)
iterate = iterate.Concat(GetRibbonMessageNone(s4.RibbonBitsOnly(), s4.RibbonNamesOnly()));
foreach (var z in iterate)
yield return z;
}
if (pkm is IRibbonSetCommon6 s6)
{
artist = s6.RibbonCountMemoryContest > 4;
bool inhabited6 = 3 <= gen && gen <= 6;
var iterate = inhabited6 ? GetRibbonMessage6Any(pkm, s6, gen) : GetRibbonMessageNone(s6.RibbonBits(), s6.RibbonNamesBool());
foreach (var z in iterate)
yield return z;
if (!inhabited6)
{
if (s6.RibbonCountMemoryContest > 0)
yield return new RibbonResult(nameof(s6.RibbonCountMemoryContest));
if (s6.RibbonCountMemoryBattle > 0)
yield return new RibbonResult(nameof(s6.RibbonCountMemoryBattle));
}
if (s6.RibbonBestFriends && pkm.OT_Affection < 255 && pkm.IsUntraded) // can't lower affection
yield return new RibbonResult(nameof(s6.RibbonBestFriends));
}
if (pkm is IRibbonSetCommon7 s7)
{
bool inhabited7 = 3 <= gen && gen <= 7 || gen == 1;
var iterate = inhabited7 ? GetRibbonMessage7Any(pkm, s7, gen) : GetRibbonMessageNone(s7.RibbonBits(), s7.RibbonNames());
foreach (var z in iterate)
yield return z;
}
if (pkm is IRibbonSetCommon3 s3)
{
if (s3.RibbonChampionG3Hoenn && gen != 3)
yield return new RibbonResult(nameof(s3.RibbonChampionG3Hoenn)); // RSE HoF
if (s3.RibbonArtist && (gen != 3 || !artist))
yield return new RibbonResult(nameof(s3.RibbonArtist)); // RSE Master Rank Portrait
if (s3.RibbonEffort && gen == 5 && pkm.Format == 5) // unobtainable in Gen 5
yield return new RibbonResult(nameof(s3.RibbonEffort));
}
}
private static IEnumerable<RibbonResult> GetRibbonMessage4Any(PKM pkm, IRibbonSetCommon4 s4, int gen)
{
if (s4.RibbonRecord)
yield return new RibbonResult(nameof(s4.RibbonRecord)); // Unobtainable
if (s4.RibbonFootprint && (pkm.Format < 6 && gen == 5 || gen >= 6 && pkm.CurrentLevel - pkm.Met_Level < 30))
yield return new RibbonResult(nameof(s4.RibbonFootprint));
2016-03-20 22:20:11 +00:00
bool gen34 = gen == 3 || gen == 4;
bool not6 = pkm.Format < 6 || gen > 6 || gen < 3;
bool noDaily = !gen34 && not6;
bool noCosmetic = !gen34 && (not6 || pkm.XY && pkm.IsUntraded);
if (noDaily)
foreach (var z in GetRibbonMessageNone(s4.RibbonBitsDaily(), s4.RibbonNamesDaily()))
yield return z;
if (noCosmetic)
foreach (var z in GetRibbonMessageNone(s4.RibbonBitsCosmetic(), s4.RibbonNamesCosmetic()))
yield return z;
}
private static IEnumerable<RibbonResult> GetRibbonMessage6Any(PKM pkm, IRibbonSetCommon6 s6, int gen)
{
foreach (var p in GetRibbonMessage6Memory(pkm, s6, gen))
yield return p;
bool untraded = pkm.IsUntraded;
var iter = untraded ? GetRibbonMessage6Untraded(pkm, s6) : GetRibbonMessage6Traded(pkm, s6);
foreach (var p in iter)
yield return p;
bool allContest = s6.RibbonBitsContest().All(z => z);
if (allContest ^ s6.RibbonContestStar && !(untraded && pkm.XY)) // if not already checked
yield return new RibbonResult(nameof(s6.RibbonContestStar), s6.RibbonContestStar);
const int mem_Chatelaine = 30;
bool hasChampMemory = pkm.HT_Memory == mem_Chatelaine || pkm.OT_Memory == mem_Chatelaine;
if (!hasChampMemory || s6.RibbonBattlerSkillful || s6.RibbonBattlerExpert)
yield break;
var result = new RibbonResult(nameof(s6.RibbonBattlerSkillful), false);
result.Combine(new RibbonResult(nameof(s6.RibbonBattlerExpert)));
yield return result;
}
private static IEnumerable<RibbonResult> GetRibbonMessage6Memory(PKM pkm, IRibbonSetCommon6 s6, int gen)
{
int contest = 0;
int battle = 0;
switch (gen)
{
case 3:
contest = IsAllowedInContest4(pkm.Species) ? 40 : 20;
battle = IsAllowedBattleFrontier(pkm.Species) ? 8 : 0;
break;
case 4:
contest = IsAllowedInContest4(pkm.Species) ? 20 : 0;
battle = IsAllowedBattleFrontier(pkm.Species) ? 6 : 0;
break;
}
if (s6.RibbonCountMemoryContest > contest)
yield return new RibbonResult(nameof(s6.RibbonCountMemoryContest));
if (s6.RibbonCountMemoryBattle > battle)
yield return new RibbonResult(nameof(s6.RibbonCountMemoryBattle));
}
private static IEnumerable<RibbonResult> GetRibbonMessage6Untraded(PKM pkm, IRibbonSetCommon6 s6)
{
if (pkm.XY)
{
if (s6.RibbonChampionG6Hoenn)
yield return new RibbonResult(nameof(s6.RibbonChampionG6Hoenn));
if (s6.RibbonContestStar)
yield return new RibbonResult(nameof(s6.RibbonContestStar));
if (s6.RibbonMasterCoolness)
yield return new RibbonResult(nameof(s6.RibbonMasterCoolness));
if (s6.RibbonMasterBeauty)
yield return new RibbonResult(nameof(s6.RibbonMasterBeauty));
if (s6.RibbonMasterCuteness)
yield return new RibbonResult(nameof(s6.RibbonMasterCuteness));
if (s6.RibbonMasterCleverness)
yield return new RibbonResult(nameof(s6.RibbonMasterCleverness));
if (s6.RibbonMasterToughness)
yield return new RibbonResult(nameof(s6.RibbonMasterToughness));
}
else if (pkm.AO)
{
if (s6.RibbonChampionKalos)
yield return new RibbonResult(nameof(s6.RibbonChampionKalos));
}
}
private static IEnumerable<RibbonResult> GetRibbonMessage6Traded(PKM pkm, IRibbonSetCommon6 s6)
{
if (s6.RibbonTraining)
{
const int req = 12; // only first 12
int count = pkm.SuperTrainingMedalCount(req);
if (count < req)
yield return new RibbonResult(nameof(s6.RibbonTraining));
}
const int mem_Champion = 27;
bool hasChampMemory = pkm.HT_Memory == mem_Champion || pkm.OT_Memory == mem_Champion;
if (!hasChampMemory || s6.RibbonChampionKalos || s6.RibbonChampionG6Hoenn)
yield break;
var result = new RibbonResult(nameof(s6.RibbonChampionKalos), false);
result.Combine(new RibbonResult(nameof(s6.RibbonChampionG6Hoenn)));
yield return result;
}
private static IEnumerable<RibbonResult> GetRibbonMessage7Any(PKM pkm, IRibbonSetCommon7 s7, int gen)
{
if (!IsAllowedBattleFrontier(pkm.Species))
{
if (s7.RibbonBattleRoyale)
yield return new RibbonResult(nameof(s7.RibbonBattleRoyale));
if (s7.RibbonBattleTreeGreat)
yield return new RibbonResult(nameof(s7.RibbonBattleTreeGreat));
if (s7.RibbonBattleTreeMaster)
yield return new RibbonResult(nameof(s7.RibbonBattleTreeMaster));
}
2016-03-20 22:20:11 +00:00
}
private static IEnumerable<RibbonResult> GetRibbonMessageNone(IReadOnlyList<bool> bits, IReadOnlyList<string> names)
{
for (int i = 0; i < bits.Count; i++)
if (bits[i])
yield return new RibbonResult(names[i]);
}
private static bool IsAllowedInContest4(int species) => species != 201 && species != 132; // Disallow Unown and Ditto
private static bool IsAllowedBattleFrontier(int species, int form = 0, int gen = 0)
{
if (gen == 4 && species == 172 && form == 1) // spiky
return false;
return !Legal.BattleFrontierBanlist.Contains(species);
}
private void VerifyRibbonsEgg(object encounter)
{
var event3 = encounter as IRibbonSetEvent3;
var event4 = encounter as IRibbonSetEvent4;
var RibbonNames = ReflectUtil.GetPropertiesStartWithPrefix(pkm.GetType(), "Ribbon");
if (event3 != null)
RibbonNames = RibbonNames.Except(event3.RibbonNames());
if (event4 != null)
RibbonNames = RibbonNames.Except(event4.RibbonNames());
foreach (object RibbonValue in RibbonNames.Select(RibbonName => ReflectUtil.GetValue(pkm, RibbonName)))
{
if (!HasFlag(RibbonValue) && !HasCount(RibbonValue))
continue;
AddLine(Severity.Invalid, V603, CheckIdentifier.Ribbon);
return;
bool HasFlag(object o) => o is bool z && z;
bool HasCount(object o) => o is int z && z > 0;
}
}
private static IEnumerable<RibbonResult> VerifyRibbonSet1(PKM pkm, object encounterContent)
{
if (!(pkm is IRibbonSetEvent3 set1))
yield break;
var names = set1.RibbonNames();
var sb = set1.RibbonBits();
var eb = (encounterContent as IRibbonSetEvent3).RibbonBits();
if (pkm.Gen3)
{
eb[0] = sb[0]; // permit Earth Ribbon
if (pkm.Version == 15 && encounterContent is EncounterStaticShadow s)
{
// only require national ribbon if no longer on origin game
bool xd = !Legal.Encounter_Colo.Contains(s);
eb[1] = !(xd && pkm is XK3 x && !x.RibbonNational || !xd && pkm is CK3 c && !c.RibbonNational);
}
}
for (int i = 0; i < sb.Length; i++)
if (sb[i] != eb[i])
yield return new RibbonResult(names[i], !eb[i]); // only flag if invalid
}
private static IEnumerable<RibbonResult> VerifyRibbonSet2(PKM pkm, object encounterContent)
{
if (!(pkm is IRibbonSetEvent4 set2))
yield break;
var names = set2.RibbonNames();
var sb = set2.RibbonBits();
var eb = (encounterContent as IRibbonSetEvent4).RibbonBits();
if (encounterContent is EncounterStatic s && s.RibbonWishing)
eb[1] = true; // require Wishing Ribbon
for (int i = 0; i < sb.Length; i++)
if (sb[i] != eb[i])
yield return new RibbonResult(names[i], !eb[i]); // only flag if invalid
}
private class RibbonResult
{
/// <summary>Ribbon Display Name</summary>
public string Name { get; private set; }
/// <summary> Ribbon should not be present. </summary>
/// <remarks> If this is false, the Ribbon is missing. </remarks>
public bool Invalid { get; }
public RibbonResult(string prop, bool invalid = true)
{
Name = RibbonStrings.GetName(prop) ?? prop;
Invalid = invalid;
}
public void Combine(RibbonResult other)
{
Name += " / " + other.Name;
}
}
private void VerifyCXD()
{
if (EncounterMatch is EncounterStatic)
VerifyCXDStarterCorrelation(Info.PIDIV);
else if (pkm.WasEgg) // can't obtain eggs in CXD
AddLine(Severity.Invalid, V80, CheckIdentifier.Encounter); // invalid encounter
if (pkm.OT_Gender == 1)
AddLine(Severity.Invalid, V407, CheckIdentifier.Trainer);
}
private void VerifyCXDStarterCorrelation(PIDIV pidiv)
2017-05-13 07:03:35 +00:00
{
if (pidiv.Type != PIDType.CXD)
return;
var spec = EncounterMatch.Species;
int rev; // pidiv reversed 2x yields SID, 3x yields TID. shift by 7 if another PKM is generated prior
2017-05-13 07:03:35 +00:00
switch (spec)
{
// XD
case 133: // Eevee
rev = 2;
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break;
// Colosseum
case 197: // Umbreon (generated before Espeon)
rev = 2;
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break;
case 196: // Espeon (generated after Umbreon)
rev = 2+7;
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break;
default:
return;
}
var seed = pidiv.OriginSeed;
var SIDf = pidiv.RNG.Reverse(seed, rev);
var TIDf = pidiv.RNG.Prev(SIDf);
if (SIDf >> 16 != pkm.SID || TIDf >> 16 != pkm.TID)
AddLine(Severity.Invalid, V400, CheckIdentifier.PID);
}
private void VerifyAbility()
{
int[] abilities = pkm.PersonalInfo.Abilities;
if (abilities[1] == 0)
abilities[1] = abilities[0];
int abilval = Array.IndexOf(abilities, pkm.Ability);
if (abilval < 0)
{
AddLine(Severity.Invalid, V107, CheckIdentifier.Ability);
return;
}
bool? AbilityUnchanged = true;
// 3 states flag: true for unchanged, false for changed, null for uncertain/allowing PID mismatch
// if true, check encounter ability
// if true or false, check PID/AbilityNumber
if (3 <= pkm.Format && pkm.Format <= 5 && abilities[0] != abilities[1]) // 3-5 and have 2 distinct ability now
AbilityUnchanged = VerifyAbilityPreCapsule(abilities, abilval);
if (EncounterMatch != null)
{
// Check Ability Mismatches
int? EncounterAbility = (EncounterMatch as EncounterStatic)?.Ability ??
(EncounterMatch as EncounterTrade)?.Ability ??
(EncounterMatch as EncounterLink)?.Ability;
if (EncounterAbility != null && VerifySetAbility(EncounterAbility, AbilityUnchanged, abilities, abilval))
return; // result added via VerifySetAbility
switch (pkm.GenNumber)
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{
case 5: VerifyAbility5(abilities); break;
case 6: VerifyAbility6(abilities); break;
case 7: VerifyAbility7(abilities); break;
}
}
if (3 <= pkm.GenNumber && pkm.GenNumber <= 4 && pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V112, CheckIdentifier.Ability);
else if (AbilityUnchanged != null && abilities[pkm.AbilityNumber >> 1] != pkm.Ability)
AddLine(Severity.Invalid, pkm.Format < 6 ? V113 : V114, CheckIdentifier.Ability);
else
AddLine(Severity.Valid, V115, CheckIdentifier.Ability);
}
private bool VerifySetAbility(int? EncounterAbility, bool? AbilityUnchanged, int[] abilities, int abilval)
{
if (pkm.AbilityNumber == 4 && EncounterAbility != 4)
{
AddLine(Severity.Invalid, V108, CheckIdentifier.Ability);
return true;
}
if (!(AbilityUnchanged ?? false) || EncounterAbility == 0 || pkm.AbilityNumber == EncounterAbility)
return false;
if (EncounterMatch is EncounterTrade z && EncounterAbility == 1 << abilval && z.Species == pkm.Species) // Edge case (Static PID?)
AddLine(Severity.Valid, V115, CheckIdentifier.Ability);
else if (pkm.Format >= 6 && abilities[0] != abilities[1] && pkm.AbilityNumber < 4) // Ability Capsule
AddLine(Severity.Valid, V109, CheckIdentifier.Ability);
else
AddLine(Severity.Invalid, V223, CheckIdentifier.Ability);
return true;
}
private bool? VerifyAbilityPreCapsule(int[] abilities, int abilval)
{
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// CXD pokemon could have any ability without maching PID
if (pkm.Version == (int)GameVersion.CXD && pkm.Format == 3)
return null;
// gen3 native or gen4/5 origin
if (pkm.Format == 3 || !pkm.InhabitedGeneration(3))
return true;
// Evovled in gen4/5
if (pkm.Species > Legal.MaxSpeciesID_3)
return false;
// gen3Species will be zero for pokemon with illegal gen 3 encounters, like Infernape with gen 3 "origin"
var gen3Species = Info.EvoChainsAllGens[3].FirstOrDefault()?.Species ?? 0;
if (gen3Species == 0)
return true;
// Fall through when gen3 pkm transferred to gen4/5
return VerifyAbilityGen3Transfer(abilities, abilval, gen3Species);
}
private bool? VerifyAbilityGen3Transfer(int[] abilities, int abilval, int Species_g3)
{
var abilities_g3 = PersonalTable.E[Species_g3].Abilities.Where(a => a != 0).Distinct().ToArray();
if (abilities_g3.Length == 2) // Excluding Colosseum/XD, a gen3 pkm must match PID if it has 2 unique abilities
return pkm.Version != (int)GameVersion.CXD;
int Species_g4 = Info.EvoChainsAllGens[4].FirstOrDefault()?.Species ?? 0;
int Species_g5 = pkm.Format == 5 ? Info.EvoChainsAllGens[5].FirstOrDefault()?.Species ?? 0 : 0;
if (Math.Max(Species_g5, Species_g4) > Species_g3) // it has evolved in either gen 4 or gen 5; the ability must match PID
return false;
var Evolutions_g45 = Math.Max(Info.EvoChainsAllGens[4].Length, pkm.Format == 5 ? Info.EvoChainsAllGens[5].Length : 0);
if (Evolutions_g45 > 1)
{
// Evolutions_g45 > 1 and Species_g45 = Species_g3 with means both options, evolve in gen 4-5 or not evolve, are possible
if (pkm.Ability == abilities_g3[0])
// It could evolve in gen 4-5 an have generation 3 only ability
// that means it have not actually evolved in gen 4-5, ability do not need to match PID
return null;
if (pkm.Ability == abilities[1])
// It could evolve in gen4-5 an have generation 4 second ability
// that means it have actually evolved in gen 4-5, ability must match PID
return false;
}
// Evolutions_g45 == 1 means it have not evolved in gen 4-5 games,
// ability do not need to match PID, but only generation 3 ability is allowed
if (pkm.Ability != abilities_g3[0])
// Not evolved in gen4-5 but do not have generation 3 only ability
AddLine(Severity.Invalid, V373, CheckIdentifier.Ability);
return null;
}
private void VerifyAbility5(int[] abilities)
{
switch (EncounterMatch)
{
case PGF g:
VerifyAbilityMG456(abilities, g.AbilityType);
break;
case EncounterSlot w:
// Hidden Abilities for Wild Encounters are only available at a Hidden Grotto
bool grotto = w.Type == SlotType.HiddenGrotto;
if (pkm.AbilityNumber == 4 ^ grotto)
AddLine(Severity.Invalid, grotto ? V217 : V108, CheckIdentifier.Ability);
break;
}
}
private void VerifyAbility6(int[] abilities)
{
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterSlot slot && pkm.AbilityNumber == 4)
{
bool valid = slot.Permissions.DexNav || slot.Type == SlotType.FriendSafari || slot.Type == SlotType.Horde;
if (!valid)
AddLine(Severity.Invalid, V300, CheckIdentifier.Ability);
}
else if (EncounterMatch is WC6 g)
VerifyAbilityMG456(abilities, g.AbilityType);
else if (Legal.Ban_NoHidden6.Contains(pkm.SpecForm) && pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V112, CheckIdentifier.Ability);
}
private void VerifyAbility7(int[] abilities)
{
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterSlot slot && pkm.AbilityNumber == 4)
{
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
bool valid = slot.Type == SlotType.SOS;
if (!valid)
AddLine(Severity.Invalid, V111, CheckIdentifier.Ability);
}
else if (EncounterMatch is WC7 g)
VerifyAbilityMG456(abilities, g.AbilityType);
else if (Legal.Ban_NoHidden7.Contains(pkm.SpecForm) && pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V112, CheckIdentifier.Ability);
}
private void VerifyAbilityMG456(int[] abilities, int cardtype)
{
int abilNumber = pkm.AbilityNumber;
if (cardtype < 3 && abilNumber != 1 << cardtype) // set number
{
// Ability can be flipped 0/1 if Ability Capsule is available, is not Hidden Ability, and Abilities are different.
if (pkm.Format >= 6 && cardtype < 2 && abilNumber < 3 && abilities[0] != abilities[1])
AddLine(Severity.Valid, V109, CheckIdentifier.Ability);
else
AddLine(Severity.Invalid, V110, CheckIdentifier.Ability);
}
else if (cardtype == 3 && abilNumber == 4) // 1/2 only
AddLine(Severity.Invalid, V110, CheckIdentifier.Ability);
}
#region VerifyBall
private void VerifyBallEquals(params int[] balls)
{
int ball = pkm.Ball;
if (balls.Any(b => b == ball))
AddLine(Severity.Valid, V119, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V118, CheckIdentifier.Ball);
}
private void VerifyBall()
{
if (pkm.Format < 3)
return; // no ball info saved
if (!Encounter.Valid)
return;
if (EncounterMatch is MysteryGift g)
{
if (pkm.Species == 490 && g.Ball == 0)
// there is no ball data in Manaphy Mystery Gift
VerifyBallEquals(4); // Pokeball
else
VerifyBallEquals(g.Ball);
return;
}
if (EncounterMatch is EncounterLink l)
{
VerifyBallEquals(l.Ball);
return;
}
if (EncounterMatch is EncounterTrade t)
{
VerifyBallEquals(t.Ball); // Pokeball
return;
}
2017-03-13 19:12:55 +00:00
if (pkm.Species == 292 && pkm.GenNumber > 3) // Shedinja. For gen3, copy the ball from Nincada
{
VerifyBallEquals(4); // Pokeball Only
return;
}
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if (pkm.Ball == 0x14 && pkm.Gen7) // Heavy Ball
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{
var lineage = Legal.GetLineage(pkm);
if (lineage.Any(e => Legal.AlolanCaptureNoHeavyBall.Contains(e)))
{
AddLine(Severity.Invalid, V116, CheckIdentifier.Ball);
return;
}
2017-03-13 19:12:55 +00:00
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterStatic s)
{
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (s.Gift)
VerifyBallEquals(s.Ball);
else if (pkm.Met_Location == 75 && pkm.Gen5) // DreamWorld
VerifyBallEquals(Legal.DreamWorldBalls);
else
VerifyBallEquals(Legal.GetWildBalls(pkm));
return;
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
if (EncounterMatch is EncounterSlot w)
{
if (pkm.Met_Location == 30016 && pkm.Gen7) // Poké Pelago
VerifyBallEquals(4); // Pokeball
// For gen3/4 Safari Zones and BCC getValidWildEncounters already filter to not return
2017-03-30 11:18:05 +00:00
// mixed possible encounters between safari, BCC and other encounters
// That means is the first encounter is not safari then there is no safari encounter in the array
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
else if (3 <= pkm.GenNumber && pkm.GenNumber <= 4 && EncounterGenerator.IsSafariSlot(w.Type))
VerifyBallEquals(5); // Safari Ball
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
2017-05-28 04:17:53 +00:00
else if (pkm.GenNumber == 4 && w.Type == SlotType.BugContest)
VerifyBallEquals(0x18); // Sport Ball
else
VerifyBallEquals(Legal.GetWildBalls(pkm));
return;
}
if (pkm.WasEgg)
{
VerifyBallEgg();
return;
}
VerifyBallEquals(4); // Pokeball
}
private void VerifyBallEgg()
{
if (pkm.GenNumber < 6) // No inheriting Balls
{
VerifyBallEquals(4); // Must be Pokéball -- no ball inheritance.
return;
}
if (pkm.Ball == 0x01) // Master Ball
{ AddLine(Severity.Invalid, V117, CheckIdentifier.Ball); return; }
if (pkm.Ball == 0x10) // Cherish Ball
{ AddLine(Severity.Invalid, V120, CheckIdentifier.Ball); return; }
if (pkm.Ball == 0x04) // Poké Ball
{ AddLine(Severity.Valid, V119, CheckIdentifier.Ball); return; }
switch (pkm.GenNumber)
{
case 6: // Gen6 Inheritance Rules
VerifyBallEggGen6();
return;
case 7: // Gen7 Inheritance Rules
VerifyBallEggGen7();
return;
}
}
private void VerifyBallEggGen6()
{
if (pkm.Gender == 2) // Genderless
{
VerifyBallEquals(4); // Must be Pokéball as ball can only pass via mother (not Ditto!)
return;
}
if (Legal.BreedMaleOnly.Contains(pkm.Species))
{
VerifyBallEquals(4); // Must be Pokéball as ball can only pass via mother (not Ditto!)
return;
}
int ball = pkm.Ball;
if (ball >= 26)
{
AddLine(Severity.Invalid, V126, CheckIdentifier.Ball);
return;
}
if (ball == 0x05) // Safari Ball
{
if (Legal.GetLineage(pkm).All(e => !Legal.Inherit_Safari.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (0x10 < ball && ball < 0x18) // Apricorn Ball
{
if (Legal.GetLineage(pkm).All(e => !Legal.Inherit_Apricorn6.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
if (pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
2016-03-22 04:31:06 +00:00
return;
}
if (ball == 0x18) // Sport Ball
{
if (Legal.GetLineage(pkm).All(e => !Legal.Inherit_Sport.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4)
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (ball == 0x19) // Dream Ball
{
if (Legal.GetLineage(pkm).Any(e => Legal.Inherit_Dream.Contains(e)))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
if (pkm.AbilityNumber == 4 && Legal.Ban_DreamHidden.Contains(pkm.Species))
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
return;
}
if (0x0D <= ball && ball <= 0x0F)
{
if (!Legal.Ban_Gen4Ball_6.Contains(pkm.Species))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
return;
}
if (0x02 <= ball && ball <= 0x0C) // Don't worry, Ball # 0x05 was already checked.
{
if (Legal.Ban_Gen3Ball.Contains(pkm.Species))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4 && Legal.Ban_Gen3BallHidden.Contains(pkm.SpecForm))
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (pkm.Species > 650 && pkm.Species != 700) // Sylveon
{
if (Legal.GetWildBalls(pkm).Contains(pkm.Ball))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
return;
}
2016-11-12 14:52:40 +00:00
AddLine(Severity.Invalid, V125, CheckIdentifier.Ball);
}
private void VerifyBallEggGen7()
{
var Lineage = Legal.GetLineage(pkm).ToArray();
if (722 <= pkm.Species && pkm.Species <= 730) // G7 Starters
{
VerifyBallEquals(4);
return;
}
int ball = pkm.Ball;
if (ball == 0x05) // Safari Ball
{
if (!Lineage.Any(e => Legal.Inherit_Safari.Contains(e) || Legal.Inherit_SafariMale.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4 && Lineage.Any(e => Legal.Ban_SafariBallHidden_7.Contains(e)))
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (0x10 < ball && ball < 0x18) // Apricorn Ball
{
if (!Lineage.Any(e => Legal.Inherit_Apricorn7.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4 && (Lineage.Contains(029) || Lineage.Contains(032))) // Nido
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (ball == 0x18) // Sport Ball
{
if (!Lineage.Any(e => Legal.Inherit_Sport.Contains(e)))
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
else if (pkm.AbilityNumber == 4 && (Lineage.Contains(313) || Lineage.Contains(314))) // Volbeat/Illumise
AddLine(Severity.Invalid, V122, CheckIdentifier.Ball);
else
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
return;
}
if (ball == 0x19) // Dream Ball
{
if (Lineage.Any(e => Legal.Inherit_Dream.Contains(e) || Legal.Inherit_DreamMale.Contains(e)))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
return;
}
if (0x0D <= ball && ball <= 0x0F) // Dusk Heal Quick
{
if (!Legal.Ban_Gen4Ball_7.Contains(pkm.Species))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
return;
}
if (0x02 <= ball && ball <= 0x0C) // Don't worry, Ball # 0x05 was already checked.
{
if (!Legal.Ban_Gen3Ball_7.Contains(pkm.Species))
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
else
AddLine(Severity.Invalid, V121, CheckIdentifier.Ball);
return;
}
2016-11-12 14:52:40 +00:00
if (ball == 26)
2016-11-12 14:52:40 +00:00
{
if ((pkm.Species > 731 && pkm.Species <= 785) || Lineage.Any(e => Legal.PastGenAlolanNatives.Contains(e) && !Legal.PastGenAlolanNativesUncapturable.Contains(e)))
2016-11-12 14:52:40 +00:00
{
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
2016-11-12 14:52:40 +00:00
return;
}
if (Lineage.Any(e => Legal.PastGenAlolanScans.Contains(e)))
{
AddLine(Severity.Valid, V123, CheckIdentifier.Ball);
2016-11-12 14:52:40 +00:00
return;
}
// next statement catches all new alolans
}
if (pkm.Species > 721)
{
VerifyBallEquals(Legal.GetWildBalls(pkm));
return;
}
2016-11-12 14:52:40 +00:00
if (ball >= 27)
{
AddLine(Severity.Invalid, V126, CheckIdentifier.Ball);
return;
}
AddLine(Severity.Invalid, V125, CheckIdentifier.Ball);
}
#endregion
private CheckResult VerifyHistory()
2016-03-22 04:31:06 +00:00
{
if (!Encounter.Valid)
return new CheckResult(Severity.Valid, V127, CheckIdentifier.History);
if (pkm.GenNumber < 6)
{
if (pkm.Format < 6)
return new CheckResult(Severity.Valid, V128, CheckIdentifier.History);
if (pkm.OT_Affection > 0)
return new CheckResult(Severity.Invalid, V129, CheckIdentifier.History);
if (pkm.OT_Memory > 0 || pkm.OT_Feeling > 0 || pkm.OT_Intensity > 0 || pkm.OT_TextVar > 0)
return new CheckResult(Severity.Invalid, V130, CheckIdentifier.History);
}
if (pkm.Format >= 6 && pkm.GenNumber != pkm.Format && pkm.CurrentHandler != 1)
return new CheckResult(Severity.Invalid, V124, CheckIdentifier.History);
if (pkm.HT_Gender > 1)
return new CheckResult(Severity.Invalid, string.Format(V131, pkm.HT_Gender), CheckIdentifier.History);
MysteryGift mg = EncounterMatch as MysteryGift;
2016-03-23 05:49:46 +00:00
WC6 MatchedWC6 = EncounterMatch as WC6;
WC7 MatchedWC7 = EncounterMatch as WC7;
2016-03-22 04:31:06 +00:00
if (MatchedWC6?.OT.Length > 0) // Has Event OT -- null propagation yields false if MatchedWC6=null
{
if (pkm.OT_Friendship != PersonalTable.AO[MatchedWC6.Species].BaseFriendship)
return new CheckResult(Severity.Invalid, V132, CheckIdentifier.History);
if (pkm.OT_Affection != 0)
return new CheckResult(Severity.Invalid, V133, CheckIdentifier.History);
if (pkm.CurrentHandler != 1)
return new CheckResult(Severity.Invalid, V134, CheckIdentifier.History);
}
else if (MatchedWC7?.OT.Length > 0) // Has Event OT -- null propagation yields false if MatchedWC7=null
{
if (pkm.OT_Friendship != PersonalTable.SM[MatchedWC7.Species].BaseFriendship)
return new CheckResult(Severity.Invalid, V132, CheckIdentifier.History);
if (pkm.OT_Affection != 0)
return new CheckResult(Severity.Invalid, V133, CheckIdentifier.History);
if (pkm.CurrentHandler != 1)
return new CheckResult(Severity.Invalid, V134, CheckIdentifier.History);
}
else if (mg != null && mg.Format < 6 && pkm.Format >= 6)
{
if (pkm.OT_Affection != 0)
return new CheckResult(Severity.Invalid, V133, CheckIdentifier.History);
if (pkm.CurrentHandler != 1)
return new CheckResult(Severity.Invalid, V134, CheckIdentifier.History);
}
// Geolocations
var geo = new[]
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{
pkm.Geo1_Country, pkm.Geo2_Country, pkm.Geo3_Country, pkm.Geo4_Country, pkm.Geo5_Country,
pkm.Geo1_Region, pkm.Geo2_Region, pkm.Geo3_Region, pkm.Geo4_Region, pkm.Geo5_Region,
};
// Check sequential order (no zero gaps)
bool geoEnd = false;
for (int i = 0; i < 5; i++)
{
if (geoEnd && geo[i] != 0)
return new CheckResult(Severity.Invalid, V135, CheckIdentifier.History);
if (geo[i] != 0)
continue;
if (geo[i + 5] != 0)
return new CheckResult(Severity.Invalid, V136, CheckIdentifier.History);
geoEnd = true;
}
if (pkm.Format >= 7)
{
if (pkm.VC1)
{
var hasGeo = geo.Any(d => d != 0);
if (!hasGeo)
return new CheckResult(Severity.Invalid, V137, CheckIdentifier.History);
}
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if (pkm.GenNumber >= 7 && pkm.CNTs.Any(stat => stat > 0))
return new CheckResult(Severity.Invalid, V138, CheckIdentifier.History);
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if (!pkm.WasEvent && pkm.HT_Name.Length == 0) // Is not Traded
{
if (pkm.CurrentHandler != 0) // Badly edited; PKHeX doesn't trip this.
return new CheckResult(Severity.Invalid, V139, CheckIdentifier.History);
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if (pkm.HT_Friendship != 0)
return new CheckResult(Severity.Invalid, V140, CheckIdentifier.History);
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if (pkm.HT_Affection != 0)
return new CheckResult(Severity.Invalid, V141, CheckIdentifier.History);
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// We know it is untraded (HT is empty), if it must be trade evolved flag it.
if (Legal.IsTradeEvolved(pkm) && EncounterMatch.Species != pkm.Species)
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{
if (pkm.Species != 350) // Milotic
return new CheckResult(Severity.Invalid, V142, CheckIdentifier.History);
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if (pkm.CNT_Beauty < 170) // Beauty Contest Stat Requirement
return new CheckResult(Severity.Invalid, V143, CheckIdentifier.History);
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if (pkm.CurrentLevel == 1)
return new CheckResult(Severity.Invalid, V144, CheckIdentifier.History);
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}
}
return new CheckResult(Severity.Valid, V145, CheckIdentifier.History);
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}
// Determine if we should check for Handling Trainer Memories
// A Pokémon is untraded if...
bool untraded = pkm.HT_Name.Length == 0 || pkm.Geo1_Country == 0;
if (Type == typeof(MysteryGift))
{
untraded |= !pkm.WasEventEgg;
untraded &= pkm.WasEgg;
}
if (pkm.WasLink && (EncounterMatch as EncounterLink)?.OT == false)
untraded = false;
else if (pkm.GenNumber < 6)
untraded = false;
if (untraded) // Is not Traded
{
if (pkm.HT_Name.Length != 0)
return new CheckResult(Severity.Invalid, V146, CheckIdentifier.History);
if (pkm.Geo1_Country != 0)
return new CheckResult(Severity.Invalid, V147, CheckIdentifier.History);
if (pkm.HT_Memory != 0)
return new CheckResult(Severity.Invalid, V148, CheckIdentifier.History);
if (pkm.CurrentHandler != 0) // Badly edited; PKHeX doesn't trip this.
return new CheckResult(Severity.Invalid, V139, CheckIdentifier.History);
if (pkm.HT_Friendship != 0)
return new CheckResult(Severity.Invalid, V140, CheckIdentifier.History);
if (pkm.HT_Affection != 0)
return new CheckResult(Severity.Invalid, V141, CheckIdentifier.History);
if (pkm.XY && pkm.CNTs.Any(stat => stat > 0))
return new CheckResult(Severity.Invalid, V138, CheckIdentifier.History);
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// We know it is untraded (HT is empty), if it must be trade evolved flag it.
if (Legal.IsTradeEvolved(pkm) && EncounterMatch.Species != pkm.Species)
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{
if (pkm.Species != 350) // Milotic
return new CheckResult(Severity.Invalid, V142, CheckIdentifier.History);
if (pkm.CNT_Beauty < 170) // Beauty Contest Stat Requirement
return new CheckResult(Severity.Invalid, V143, CheckIdentifier.History);
if (pkm.CurrentLevel == 1)
return new CheckResult(Severity.Invalid, V144, CheckIdentifier.History);
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}
}
else // Is Traded
{
if (pkm.Format == 6 && pkm.HT_Memory == 0 && !pkm.IsEgg)
return new CheckResult(Severity.Invalid, V150, CheckIdentifier.History);
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}
// Memory ChecksResult
if (pkm.IsEgg)
{
if (pkm.HT_Memory != 0)
return new CheckResult(Severity.Invalid, V149, CheckIdentifier.History);
if (pkm.OT_Memory != 0)
return new CheckResult(Severity.Invalid, V151, CheckIdentifier.History);
}
else if (MatchedType != typeof(WC6))
{
if (pkm.OT_Memory == 0 ^ !pkm.Gen6)
return new CheckResult(Severity.Invalid, V152, CheckIdentifier.History);
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if (pkm.GenNumber < 6 && pkm.OT_Affection != 0)
return new CheckResult(Severity.Invalid, V129, CheckIdentifier.History);
}
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// Unimplemented: Ingame Trade Memories
return new CheckResult(Severity.Valid, V145, CheckIdentifier.History);
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}
private CheckResult VerifyCommonMemory(int handler)
{
int m = 0;
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int t = 0;
string resultPrefix = "";
switch (handler)
{
case 0:
m = pkm.OT_Memory;
t = pkm.OT_TextVar;
resultPrefix = V205;
break;
case 1:
m = pkm.HT_Memory;
t = pkm.HT_TextVar;
resultPrefix = V206;
break;
}
int matchingMoveMemory = Array.IndexOf(Legal.MoveSpecificMemories[0], m);
if (matchingMoveMemory != -1 && pkm.Species != 235 && !Legal.GetCanLearnMachineMove(pkm, Legal.MoveSpecificMemories[1][matchingMoveMemory], 6))
return new CheckResult(Severity.Invalid, string.Format(V153, resultPrefix), CheckIdentifier.Memory);
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if (m == 6 && !Legal.LocationsWithPKCenter[0].Contains(t))
return new CheckResult(Severity.Invalid, string.Format(V154, resultPrefix), CheckIdentifier.Memory);
if (m == 21) // {0} saw {2} carrying {1} on its back. {4} that {3}.
if (!Legal.GetCanLearnMachineMove(new PK6 {Species = t, EXP = PKX.GetEXP(100, t)}, 19, 6))
return new CheckResult(Severity.Invalid, string.Format(V153, resultPrefix), CheckIdentifier.Memory);
if ((m == 16 || m == 48) && (t == 0 || !Legal.GetCanKnowMove(pkm, t, 6)))
return new CheckResult(Severity.Invalid, string.Format(V153, resultPrefix), CheckIdentifier.Memory);
if (m == 49 && (t == 0 || !Legal.GetCanRelearnMove(pkm, t, 6))) // {0} was able to remember {2} at {1}'s instruction. {4} that {3}.
return new CheckResult(Severity.Invalid, string.Format(V153, resultPrefix), CheckIdentifier.Memory);
return new CheckResult(Severity.Valid, string.Format(V155, resultPrefix), CheckIdentifier.Memory);
}
private void VerifyOTMemoryIs(int[] values)
{
if (pkm.OT_Memory != values[0])
AddLine(Severity.Invalid, string.Format(V197, V205, values[0]), CheckIdentifier.Memory);
if (pkm.OT_Intensity != values[1])
AddLine(Severity.Invalid, string.Format(V198, V205, values[1]), CheckIdentifier.Memory);
if (pkm.OT_TextVar != values[2])
AddLine(Severity.Invalid, string.Format(V199, V205, values[2]), CheckIdentifier.Memory);
if (pkm.OT_Feeling != values[3])
AddLine(Severity.Invalid, string.Format(V200, V205, values[3]), CheckIdentifier.Memory);
}
private void VerifyOTMemory()
{
if (pkm.Format < 6)
return;
if (!History.Valid)
return;
if (pkm.GenNumber < 6)
{
VerifyOTMemoryIs(new [] {0, 0, 0, 0}); // empty
return;
}
if (Type == typeof(EncounterTrade))
{
switch (Info.Generation)
{
case 6:
break; // Undocumented, uncommon, and insignificant -- don't bother.
case 7:
VerifyOTMemoryIs(new[] { 1, 3, 40, 5 });
break;
}
return;
}
if (EncounterMatch is WC6 wc6)
{
var g = wc6;
VerifyOTMemoryIs(new[] {g.OT_Memory, g.OT_Intensity, g.OT_TextVar, g.OT_Feeling});
return;
}
if (EncounterMatch is WC7 wc7)
{
var g = wc7;
VerifyOTMemoryIs(new[] {g.OT_Memory, g.OT_Intensity, g.OT_TextVar, g.OT_Feeling});
return;
}
if (pkm.GenNumber >= 7)
{
VerifyOTMemoryIs(new[] {0, 0, 0, 0}); // empty
return;
}
switch (pkm.OT_Memory)
{
case 2: // {0} hatched from an Egg and saw {1} for the first time at... {2}. {4} that {3}.
if (!pkm.WasEgg && pkm.Egg_Location != 60004)
AddLine(Severity.Invalid, string.Format(V160, V205), CheckIdentifier.Memory);
break;
case 4: // {0} became {1}s friend when it arrived via Link Trade at... {2}. {4} that {3}.
AddLine(Severity.Invalid, string.Format(V161, V205), CheckIdentifier.Memory);
return;
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case 6: // {0} went to the Pokémon Center in {2} with {1} and had its tired body healed there. {4} that {3}.
int matchingOriginGame = Array.IndexOf(Legal.LocationsWithPKCenter[0], pkm.OT_TextVar);
if (matchingOriginGame != -1)
{
int gameID = Legal.LocationsWithPKCenter[1][matchingOriginGame];
if (pkm.XY && gameID != 0 || pkm.AO && gameID != 1)
AddLine(Severity.Invalid, string.Format(V162, V205), CheckIdentifier.Memory);
}
AddLine(VerifyCommonMemory(0));
return;
case 14:
if (!Legal.GetCanBeCaptured(pkm.OT_TextVar, pkm.GenNumber, (GameVersion)pkm.Version))
AddLine(Severity.Invalid, string.Format(V165, V205), CheckIdentifier.Memory);
else
AddLine(Severity.Valid, string.Format(V164, V205), CheckIdentifier.Memory);
return;
}
if (pkm.XY && Legal.Memory_NotXY.Contains(pkm.OT_Memory))
AddLine(Severity.Invalid, string.Format(V163, V205), CheckIdentifier.Memory);
if (pkm.AO && Legal.Memory_NotAO.Contains(pkm.OT_Memory))
AddLine(Severity.Invalid, string.Format(V163, V205), CheckIdentifier.Memory);
AddLine(VerifyCommonMemory(0));
}
private void VerifyHTMemory()
{
if (pkm.Format < 6)
return;
if (!History.Valid)
return;
if (pkm.Format >= 7)
{
/*
* Bank Transfer adds in the Link Trade Memory.
* Trading 7<->7 between games (not Bank) clears this data.
*/
if (pkm.HT_Memory == 0)
{
if (pkm.HT_TextVar != 0 || pkm.HT_Intensity != 0 || pkm.HT_Feeling != 0)
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AddLine(Severity.Invalid, V329, CheckIdentifier.Memory);
return;
}
// Transfer 6->7 & withdraw to same HT => keeps past gen memory
// Don't require link trade memory for these past gen cases
int gen = pkm.GenNumber;
if (3 <= gen && gen < 7 && pkm.CurrentHandler == 1)
return;
if (pkm.HT_Memory != 4)
AddLine(Severity.Invalid, V156, CheckIdentifier.Memory);
if (pkm.HT_TextVar != 0)
AddLine(Severity.Invalid, V157, CheckIdentifier.Memory);
if (pkm.HT_Intensity != 1)
AddLine(Severity.Invalid, V158, CheckIdentifier.Memory);
if (pkm.HT_Feeling > 10)
AddLine(Severity.Invalid, V159, CheckIdentifier.Memory);
return;
}
switch (pkm.HT_Memory)
{
case 0:
if (string.IsNullOrEmpty(pkm.HT_Name))
return;
AddLine(Severity.Invalid, V150, CheckIdentifier.Memory); return;
case 1: // {0} met {1} at... {2}. {1} threw a Poké Ball at it, and they started to travel together. {4} that {3}.
AddLine(Severity.Invalid, string.Format(V202, V206), CheckIdentifier.Memory); return;
case 2: // {0} hatched from an Egg and saw {1} for the first time at... {2}. {4} that {3}.
AddLine(Severity.Invalid, string.Format(V160, V206), CheckIdentifier.Memory); return;
case 14:
if (Legal.GetCanBeCaptured(pkm.HT_TextVar, pkm.GenNumber))
AddLine(Severity.Valid, string.Format(V164, V206), CheckIdentifier.Memory);
else
AddLine(Severity.Invalid, string.Format(V165, V206), CheckIdentifier.Memory);
return;
}
AddLine(VerifyCommonMemory(1));
}
private void VerifyRegion()
{
if (pkm.Format < 6)
return;
bool pass;
switch (pkm.ConsoleRegion)
{
case 0: // Japan
pass = pkm.Country == 1;
break;
case 1: // Americas
pass = 8 <= pkm.Country && pkm.Country <= 52 || new[] {153, 156, 168, 174, 186}.Contains(pkm.Country);
break;
case 2: // Europe
pass = 64 <= pkm.Country && pkm.Country <= 127 || new[] {169, 184, 185}.Contains(pkm.Country);
break;
case 4: // China
pass = pkm.Country == 144 || pkm.Country == 160;
break;
case 5: // Korea
pass = pkm.Country == 136;
break;
case 6: // Taiwan
pass = pkm.Country == 128;
break;
default:
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AddLine(new CheckResult(Severity.Invalid, V301, CheckIdentifier.Geography));
return;
}
if (!pass)
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AddLine(Severity.Invalid, V302, CheckIdentifier.Geography);
else
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AddLine(Severity.Valid, V303, CheckIdentifier.Geography);
}
private void VerifyForm()
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{
if (!Encounter.Valid)
return;
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if (pkm.Format < 4)
return;
if (pkm.AltForm > pkm.PersonalInfo.FormeCount)
{
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bool valid = false;
int species = pkm.Species;
if (species == 201) // Unown
{
int maxCount = pkm.GenNumber == 2 ? 26 : 28; // A-Z : A-Z?!
if (pkm.AltForm < maxCount)
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valid = true;
}
if (species == 414 && pkm.AltForm < 3) // Wormadam base form kept
valid = true;
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if ((species == 664 || species == 665) && pkm.AltForm < 18) // Vivillon Pre-evolutions
valid = true;
if (!valid) // ignore list
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{ AddLine(Severity.Invalid, string.Format(V304, pkm.PersonalInfo.FormeCount, pkm.AltForm), CheckIdentifier.Form); return; }
}
Refactor encounter matching exercise in deferred execution/state machine, only calculate possible matches until a sufficiently valid match is obtained. Previous setup would try to calculate the 'best match' and had band-aid workarounds in cases where a subsequent check may determine it to be a false match. There's still more ways to improve speed: - precalculate relationships for Encounter Slots rather than iterating over every area - yielding individual slots instead of an entire area - group non-egg wondercards by ID in a dict/hashtable for faster retrieval reworked some internals: - EncounterMatch is always an IEncounterable instead of an object, for easy pattern matching. - Splitbreed checking is done per encounter and is stored in the EncounterEgg result - Encounter validation uses Encounter/Move/RelearnMove/Evolution to whittle to the final encounter. As a part of the encounter matching, a lazy peek is used to check if an invalid encounter should be retained instead of discarded; if another encounter has not been checked, it'll stop the invalid checks and move on. If it is the last encounter, no other valid encounters exist so it will keep the parse for the invalid encounter. If no encounters are yielded, then there is no encountermatch. An EncounterInvalid is created to store basic details, and the parse is carried out. Breaks some legality checking features for flagging invalid moves in more detail, but those can be re-added in a separate check (if splitbreed & any move invalid -> check for other split moves). Should now be easier to follow the flow & maintain :smile:
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if (EncounterMatch is EncounterSlot w && w.Type == SlotType.FriendSafari)
VerifyFormFriendSafari();
switch (pkm.Species)
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{
case 25: // Pikachu
if (pkm.GenNumber == 6 && pkm.AltForm != 0 ^ Type == typeof(EncounterStatic))
{
string msg = Type == typeof(EncounterStatic) ? V305 : V306;
AddLine(Severity.Invalid, msg, CheckIdentifier.Form);
return;
}
if (pkm.GenNumber == 7 && pkm.AltForm != 0 ^ Type == typeof(MysteryGift))
{
if (EncounterMatch is WC7 gift && gift.Form != pkm.AltForm)
{
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AddLine(Severity.Invalid, V307, CheckIdentifier.Form);
return;
}
}
break;
case 487: // Giratina
if (pkm.AltForm == 1 ^ pkm.HeldItem == 112) // Origin form only with Griseous Orb
{
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AddLine(Severity.Invalid, V308, CheckIdentifier.Form);
return;
}
break;
case 493: // Arceus
{
int item = pkm.HeldItem;
int form = 0;
if ((298 <= item && item <= 313) || item == 644)
form = Array.IndexOf(Legal.Arceus_Plate, item) + 1;
else if (777 <= item && item <= 793)
form = Array.IndexOf(Legal.Arceus_ZCrystal, item) + 1;
if (form != pkm.AltForm)
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AddLine(Severity.Invalid, V308, CheckIdentifier.Form);
else if (form != 0)
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AddLine(Severity.Valid, V309, CheckIdentifier.Form);
}
break;
case 647: // Keldeo
{
int index = Array.IndexOf(pkm.Moves, 548); // Secret Sword
bool noSword = index < 0;
if (pkm.AltForm == 0 ^ noSword) // mismatch
Info.Moves[noSword ? 0 : index] = new CheckMoveResult(Info.Moves[noSword ? 0 : index], Severity.Invalid, V169, CheckIdentifier.Move);
break;
}
case 649: // Genesect
{
int item = pkm.HeldItem;
int form = 0;
if (116 <= item && item <= 119)
form = item - 115;
if (form != pkm.AltForm)
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AddLine(Severity.Invalid, V308, CheckIdentifier.Form);
else
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AddLine(Severity.Valid, V309, CheckIdentifier.Form);
}
break;
case 658: // Greninja
if (pkm.AltForm > 1) // Ash Battle Bond active
{
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AddLine(Severity.Invalid, V310, CheckIdentifier.Form);
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return;
}
if (pkm.AltForm != 0 ^ Type == typeof(MysteryGift)) // Formes are not breedable
{
AddLine(Severity.Invalid, string.Format(V304, 0, pkm.AltForm), CheckIdentifier.Form);
return;
}
break;
case 664: // Scatterbug
case 665: // Spewpa
if (pkm.AltForm > 17) // Fancy & Pokéball
{
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AddLine(Severity.Invalid, V311, CheckIdentifier.Form);
return;
}
if (!Legal.CheckVivillonPattern(pkm.AltForm, pkm.Country, pkm.Region))
AddLine(Severity.Fishy, V312, CheckIdentifier.Form);
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break;
case 666: // Vivillon
if (pkm.AltForm > 17) // Fancy & Pokéball
{
if (Type != typeof(MysteryGift))
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AddLine(Severity.Invalid, V312, CheckIdentifier.Form);
else
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AddLine(Severity.Valid, V313, CheckIdentifier.Form);
return;
}
if (!Legal.CheckVivillonPattern(pkm.AltForm, pkm.Country, pkm.Region))
AddLine(Severity.Fishy, V312, CheckIdentifier.Form);
2016-04-14 10:17:03 +00:00
break;
case 670: // Floette
if (pkm.AltForm == 5) // Eternal Flower -- Never Released
{
if (Type != typeof(MysteryGift))
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AddLine(Severity.Invalid, V314, CheckIdentifier.Form);
else
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AddLine(Severity.Valid, V315, CheckIdentifier.Form);
return;
}
2016-04-14 10:17:03 +00:00
break;
case 718: // Zygarde
if (pkm.AltForm >= 4)
{
2017-03-23 03:12:45 +00:00
AddLine(Severity.Invalid, V310, CheckIdentifier.Form);
return;
}
break;
case 773: // Silvally
{
int item = pkm.HeldItem;
int form = 0;
if ((904 <= item && item <= 920) || item == 644)
form = item - 903;
if (form != pkm.AltForm)
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AddLine(Severity.Invalid, V308, CheckIdentifier.Form);
else if (form != 0)
2017-03-23 03:12:45 +00:00
AddLine(Severity.Valid, V309, CheckIdentifier.Form);
break;
}
case 774: // Minior
if (pkm.AltForm < 7)
{
2017-03-23 03:12:45 +00:00
AddLine(Severity.Invalid, V310, CheckIdentifier.Form);
return;
}
break;
// Party Only Forms
case 492: // Shaymin
case 676: // Furfrou
case 720: // Hoopa
if (pkm.AltForm != 0 && pkm.Box > -1 && pkm.Format <= 6) // has form but stored in box
{
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AddLine(Severity.Invalid, V316, CheckIdentifier.Form);
return;
}
break;
2016-04-14 10:17:03 +00:00
}
if (pkm.Format >= 7 && pkm.GenNumber < 7 && pkm.AltForm != 0)
{
if (pkm.Species == 25 || Legal.AlolanOriginForms.Contains(pkm.Species))
2017-03-23 03:12:45 +00:00
{ AddLine(Severity.Invalid, V317, CheckIdentifier.Form); return; }
}
if (pkm.AltForm > 0 && new[] {Legal.BattleForms, Legal.BattleMegas, Legal.BattlePrimals}.Any(arr => arr.Contains(pkm.Species)))
2017-03-23 03:12:45 +00:00
{ AddLine(Severity.Invalid, V310, CheckIdentifier.Form); return; }
2016-04-14 10:17:03 +00:00
2017-03-23 03:12:45 +00:00
AddLine(Severity.Valid, V318, CheckIdentifier.Form);
2016-04-14 10:17:03 +00:00
}
private void VerifyMiscG1()
Generation 1 and 2 legal Improvements (#1099) * Refactor parseMovesForEncounter to gather valid moves for species encounter, some Pokemon can have valid encounters with different source species from the encounter, the valid moves change if the encounter species change because some preevolutions moves are illegal if pokemon caught already evolved. Example, generation 1 Pikachu that can have a RBY Pikachu encounter and GSC Pichu encounter, the valid moves for the first encounters should not have any Pichu exclusive evolution moves Also assign the encounter match from gb when parsing moves like the variable Encounter Match, to store the encounter that is valid for the pokemon moves instead the first encounter. Store the species encounter, this will be needed to check if the evolution is valid for species that evolve leveling with a given learned move * Add Tradeback Status to the pokemon, this variable for generations 1 and 2 use data like the catch rate to determine if trade between generations 1 and 2 was possible. If analysis is for VC games tradeback have value NotTradeback for every gen 1 pokemon, but for cart saves some pokemon can be determine that have not been tradeback, if catch rate match species catch rate but do not match a valid generation 2 held item that means the pokemon habe been never traded to generation 2 games, that allow to discart encounters and moves from generation 2. Also if is not tradeback catch rate is used to filter encounters, catch rate determine in what species was captured the pokemon discarting some preevolutions moves Also add option for generation 1 cart save analysis to check legal status not allowing generation 2 games, like VC games but with Stadium allowed, like the generation 1 non tradeback rules from Smogon Also change evolution chains to included generation 2 preevolutions for gen 1 pokemon if tradeback was possible, it is needed to avoid parsemoves to check illegal pokemon like Hitmonchan with Tyrogue level up moves * Check legal values of generation 1 type and catch rate Replace pokemon catch rate after changind pokemon species always if pokemon was not tradeback from generation 2, the catch rate will keep unchanged only if it can be a held item and do not match species catch rate (default item) Also if catch rate is changed use base species catch rate to avoid legal errors if the catch rate of the evolution species if is not possible with the current moves * Filter ingame trades and static encounters with catch rate for generation 1 non tradeback * Fix min moves for generation 1 metapod encounter * Clean up * Fix encounter level for generation 1, valid moves are those with one level after the encounter level, pokemon can not learn a new move until level up Clean up type validation Fix generation 3 fatefull encounter eggs, the pokemon lost the fatefull mark when it hatch * Clean-up * Use new variable EncounterSpecies when it is needed to detect the species of the encounter, the old code wont work if the encounter is a wild slots array * Fix generation 1 evolution chains and catch rate as default held item * Fix Generation 1 Yellow Pikachu and Kadabra catch rates
2017-04-27 04:27:59 +00:00
{
if (pkm.IsEgg)
{
VerifyMiscEggCommon();
if (pkm.PKRS_Cured || pkm.PKRS_Infected)
AddLine(Severity.Invalid, V368, CheckIdentifier.Egg);
}
Generation 1 and 2 legal Improvements (#1099) * Refactor parseMovesForEncounter to gather valid moves for species encounter, some Pokemon can have valid encounters with different source species from the encounter, the valid moves change if the encounter species change because some preevolutions moves are illegal if pokemon caught already evolved. Example, generation 1 Pikachu that can have a RBY Pikachu encounter and GSC Pichu encounter, the valid moves for the first encounters should not have any Pichu exclusive evolution moves Also assign the encounter match from gb when parsing moves like the variable Encounter Match, to store the encounter that is valid for the pokemon moves instead the first encounter. Store the species encounter, this will be needed to check if the evolution is valid for species that evolve leveling with a given learned move * Add Tradeback Status to the pokemon, this variable for generations 1 and 2 use data like the catch rate to determine if trade between generations 1 and 2 was possible. If analysis is for VC games tradeback have value NotTradeback for every gen 1 pokemon, but for cart saves some pokemon can be determine that have not been tradeback, if catch rate match species catch rate but do not match a valid generation 2 held item that means the pokemon habe been never traded to generation 2 games, that allow to discart encounters and moves from generation 2. Also if is not tradeback catch rate is used to filter encounters, catch rate determine in what species was captured the pokemon discarting some preevolutions moves Also add option for generation 1 cart save analysis to check legal status not allowing generation 2 games, like VC games but with Stadium allowed, like the generation 1 non tradeback rules from Smogon Also change evolution chains to included generation 2 preevolutions for gen 1 pokemon if tradeback was possible, it is needed to avoid parsemoves to check illegal pokemon like Hitmonchan with Tyrogue level up moves * Check legal values of generation 1 type and catch rate Replace pokemon catch rate after changind pokemon species always if pokemon was not tradeback from generation 2, the catch rate will keep unchanged only if it can be a held item and do not match species catch rate (default item) Also if catch rate is changed use base species catch rate to avoid legal errors if the catch rate of the evolution species if is not possible with the current moves * Filter ingame trades and static encounters with catch rate for generation 1 non tradeback * Fix min moves for generation 1 metapod encounter * Clean up * Fix encounter level for generation 1, valid moves are those with one level after the encounter level, pokemon can not learn a new move until level up Clean up type validation Fix generation 3 fatefull encounter eggs, the pokemon lost the fatefull mark when it hatch * Clean-up * Use new variable EncounterSpecies when it is needed to detect the species of the encounter, the old code wont work if the encounter is a wild slots array * Fix generation 1 evolution chains and catch rate as default held item * Fix Generation 1 Yellow Pikachu and Kadabra catch rates
2017-04-27 04:27:59 +00:00
if (pkm.Format > 1)
return;
var Type_A = (pkm as PK1).Type_A;
var Type_B = (pkm as PK1).Type_B;
if (pkm.Species == 137)
{
// Porygon can have any type combination of any generation 1 species because of the move Conversion,
// that change Porygon type to match the oponent types
var Type_A_Match = Legal.Types_Gen1.Any(t => t == Type_A);
var Type_B_Match = Legal.Types_Gen1.Any(t => t == Type_B);
if (!Type_A_Match)
AddLine(Severity.Invalid, V386, CheckIdentifier.Misc);
if (!Type_B_Match)
AddLine(Severity.Invalid, V387, CheckIdentifier.Misc);
if (Type_A_Match && Type_B_Match)
{
var TypesAB_Match = PersonalTable.RB.IsValidTypeCombination(Type_A, Type_B);
if (TypesAB_Match)
AddLine(Severity.Valid, V391, CheckIdentifier.Misc);
else
AddLine(Severity.Invalid, V388, CheckIdentifier.Misc);
}
}
else // Types must match species types
{
var Type_A_Match = Type_A == PersonalTable.RB[pkm.Species].Types[0];
var Type_B_Match = Type_B == PersonalTable.RB[pkm.Species].Types[1];
AddLine(Type_A_Match ? Severity.Valid : Severity.Invalid, Type_A_Match ? V392 : V389, CheckIdentifier.Misc);
AddLine(Type_B_Match ? Severity.Valid : Severity.Invalid, Type_B_Match ? V393 : V390, CheckIdentifier.Misc);
}
var catch_rate =(pkm as PK1).Catch_Rate;
switch (pkm.TradebackStatus)
{
case TradebackType.Any:
case TradebackType.WasTradeback:
if (catch_rate == 0 || Legal.HeldItems_GSC.Any(h => h == catch_rate))
{ AddLine(Severity.Valid, V394, CheckIdentifier.Misc); }
else if (pkm.TradebackStatus == TradebackType.WasTradeback)
{ AddLine(Severity.Invalid, V395, CheckIdentifier.Misc); }
else
goto case TradebackType.Gen1_NotTradeback;
break;
case TradebackType.Gen1_NotTradeback:
if ((EncounterMatch as EncounterStatic)?.Version == GameVersion.Stadium || EncounterMatch is EncounterTradeCatchRate)
2017-05-01 15:07:20 +00:00
// Encounters detected by the catch rate, cant be invalid if match this encounters
{ AddLine(Severity.Valid, V398, CheckIdentifier.Misc); }
if (pkm.Species == 149 && catch_rate == PersonalTable.Y[149].CatchRate ||
Legal.Species_NotAvailable_CatchRate.Contains(pkm.Species) && catch_rate == PersonalTable.RB[pkm.Species].CatchRate)
Generation 1 and 2 legal Improvements (#1099) * Refactor parseMovesForEncounter to gather valid moves for species encounter, some Pokemon can have valid encounters with different source species from the encounter, the valid moves change if the encounter species change because some preevolutions moves are illegal if pokemon caught already evolved. Example, generation 1 Pikachu that can have a RBY Pikachu encounter and GSC Pichu encounter, the valid moves for the first encounters should not have any Pichu exclusive evolution moves Also assign the encounter match from gb when parsing moves like the variable Encounter Match, to store the encounter that is valid for the pokemon moves instead the first encounter. Store the species encounter, this will be needed to check if the evolution is valid for species that evolve leveling with a given learned move * Add Tradeback Status to the pokemon, this variable for generations 1 and 2 use data like the catch rate to determine if trade between generations 1 and 2 was possible. If analysis is for VC games tradeback have value NotTradeback for every gen 1 pokemon, but for cart saves some pokemon can be determine that have not been tradeback, if catch rate match species catch rate but do not match a valid generation 2 held item that means the pokemon habe been never traded to generation 2 games, that allow to discart encounters and moves from generation 2. Also if is not tradeback catch rate is used to filter encounters, catch rate determine in what species was captured the pokemon discarting some preevolutions moves Also add option for generation 1 cart save analysis to check legal status not allowing generation 2 games, like VC games but with Stadium allowed, like the generation 1 non tradeback rules from Smogon Also change evolution chains to included generation 2 preevolutions for gen 1 pokemon if tradeback was possible, it is needed to avoid parsemoves to check illegal pokemon like Hitmonchan with Tyrogue level up moves * Check legal values of generation 1 type and catch rate Replace pokemon catch rate after changind pokemon species always if pokemon was not tradeback from generation 2, the catch rate will keep unchanged only if it can be a held item and do not match species catch rate (default item) Also if catch rate is changed use base species catch rate to avoid legal errors if the catch rate of the evolution species if is not possible with the current moves * Filter ingame trades and static encounters with catch rate for generation 1 non tradeback * Fix min moves for generation 1 metapod encounter * Clean up * Fix encounter level for generation 1, valid moves are those with one level after the encounter level, pokemon can not learn a new move until level up Clean up type validation Fix generation 3 fatefull encounter eggs, the pokemon lost the fatefull mark when it hatch * Clean-up * Use new variable EncounterSpecies when it is needed to detect the species of the encounter, the old code wont work if the encounter is a wild slots array * Fix generation 1 evolution chains and catch rate as default held item * Fix Generation 1 Yellow Pikachu and Kadabra catch rates
2017-04-27 04:27:59 +00:00
{ AddLine(Severity.Invalid, V396, CheckIdentifier.Misc); }
else if (!Info.EvoChainsAllGens[1].Any(e => catch_rate == PersonalTable.RB[e.Species].CatchRate || catch_rate == PersonalTable.Y[e.Species].CatchRate))
Generation 1 and 2 legal Improvements (#1099) * Refactor parseMovesForEncounter to gather valid moves for species encounter, some Pokemon can have valid encounters with different source species from the encounter, the valid moves change if the encounter species change because some preevolutions moves are illegal if pokemon caught already evolved. Example, generation 1 Pikachu that can have a RBY Pikachu encounter and GSC Pichu encounter, the valid moves for the first encounters should not have any Pichu exclusive evolution moves Also assign the encounter match from gb when parsing moves like the variable Encounter Match, to store the encounter that is valid for the pokemon moves instead the first encounter. Store the species encounter, this will be needed to check if the evolution is valid for species that evolve leveling with a given learned move * Add Tradeback Status to the pokemon, this variable for generations 1 and 2 use data like the catch rate to determine if trade between generations 1 and 2 was possible. If analysis is for VC games tradeback have value NotTradeback for every gen 1 pokemon, but for cart saves some pokemon can be determine that have not been tradeback, if catch rate match species catch rate but do not match a valid generation 2 held item that means the pokemon habe been never traded to generation 2 games, that allow to discart encounters and moves from generation 2. Also if is not tradeback catch rate is used to filter encounters, catch rate determine in what species was captured the pokemon discarting some preevolutions moves Also add option for generation 1 cart save analysis to check legal status not allowing generation 2 games, like VC games but with Stadium allowed, like the generation 1 non tradeback rules from Smogon Also change evolution chains to included generation 2 preevolutions for gen 1 pokemon if tradeback was possible, it is needed to avoid parsemoves to check illegal pokemon like Hitmonchan with Tyrogue level up moves * Check legal values of generation 1 type and catch rate Replace pokemon catch rate after changind pokemon species always if pokemon was not tradeback from generation 2, the catch rate will keep unchanged only if it can be a held item and do not match species catch rate (default item) Also if catch rate is changed use base species catch rate to avoid legal errors if the catch rate of the evolution species if is not possible with the current moves * Filter ingame trades and static encounters with catch rate for generation 1 non tradeback * Fix min moves for generation 1 metapod encounter * Clean up * Fix encounter level for generation 1, valid moves are those with one level after the encounter level, pokemon can not learn a new move until level up Clean up type validation Fix generation 3 fatefull encounter eggs, the pokemon lost the fatefull mark when it hatch * Clean-up * Use new variable EncounterSpecies when it is needed to detect the species of the encounter, the old code wont work if the encounter is a wild slots array * Fix generation 1 evolution chains and catch rate as default held item * Fix Generation 1 Yellow Pikachu and Kadabra catch rates
2017-04-27 04:27:59 +00:00
{ AddLine(Severity.Invalid, pkm.Gen1_NotTradeback? V397: V399, CheckIdentifier.Misc); }
else
{ AddLine(Severity.Valid, V398, CheckIdentifier.Misc); }
break;
}
}
private void VerifyMisc()
{
if (pkm.Format == 7 && ((PK7)pkm).PelagoEventStatus != 0)
{
// TODO: Figure out what PelagoEventStati are legal.
}
if (pkm.IsEgg)
{
VerifyMiscEggCommon();
if (pkm.CNTs.Any(stat => stat > 0))
AddLine(Severity.Invalid, V320, CheckIdentifier.Egg);
if (pkm is PK4 pk4)
{
if (pk4.ShinyLeaf != 0)
AddLine(Severity.Invalid, V414, CheckIdentifier.Egg);
if (pk4.PokéathlonStat != 0)
AddLine(Severity.Invalid, V415, CheckIdentifier.Egg);
}
}
if (!Encounter.Valid)
return;
if (pkm.GenNumber == 5 && ((EncounterMatch as EncounterStatic)?.NSparkle ?? false))
VerifyNsPKM();
switch (EncounterMatch)
{
case WC3 w when w.Fateful:
VerifyFatefulIngameActive();
return;
case MysteryGift g when g.Format != 3: // WC3
VerifyFatefulMysteryGift(g);
return;
case EncounterStatic s when s.Fateful: // ingame fateful
case EncounterSlot _ when pkm.Version == 15: // ingame pokespot
VerifyFatefulIngameActive();
return;
default:
if (pkm.FatefulEncounter)
AddLine(Severity.Invalid, V325, CheckIdentifier.Fateful);
return;
}
}
private void VerifyMiscEggCommon()
{
if (new[] {pkm.Move1_PPUps, pkm.Move2_PPUps, pkm.Move3_PPUps, pkm.Move4_PPUps}.Any(ppup => ppup > 0))
AddLine(Severity.Invalid, V319, CheckIdentifier.Egg);
if (pkm.Move1_PP != pkm.GetMovePP(pkm.Move1, 0) || pkm.Move2_PP != pkm.GetMovePP(pkm.Move2, 0)
|| pkm.Move3_PP != pkm.GetMovePP(pkm.Move3, 0) || pkm.Move4_PP != pkm.GetMovePP(pkm.Move4, 0))
AddLine(Severity.Invalid, V420, CheckIdentifier.Egg);
var HatchCycles = (EncounterMatch as EncounterStatic)?.EggCycles;
if (HatchCycles == 0 || HatchCycles == null)
HatchCycles = pkm.PersonalInfo.HatchCycles;
if (pkm.CurrentFriendship > HatchCycles)
AddLine(Severity.Invalid, V374, CheckIdentifier.Egg);
}
private void VerifyFatefulMysteryGift(MysteryGift g)
{
if (g is PGF p && p.IsShiny)
{
Info.PIDIV = MethodFinder.Analyze(pkm);
if (Info.PIDIV.Type != PIDType.G5MGShiny)
AddLine(Severity.Invalid, V411, CheckIdentifier.PID);
}
bool fatefulValid = false;
if (g.Format == 3)
{
// obedience flag in gen3 is the fateful flag; met location stores the fateful info until transfer
bool required = g.Species == 151 || g.Species == 386;
required |= pkm.Format != 3 && !g.IsEgg;
fatefulValid = !(required ^ pkm.FatefulEncounter);
var g3 = (WC3)g; // shiny locked gifts
if (g3.Shiny != null && g3.Shiny != pkm.IsShiny)
AddLine(Severity.Invalid, V409, CheckIdentifier.Fateful);
}
else
{
if (pkm.FatefulEncounter)
fatefulValid = true;
}
if (fatefulValid)
AddLine(Severity.Valid, V321, CheckIdentifier.Fateful);
else
AddLine(Severity.Invalid, V322, CheckIdentifier.Fateful);
}
private void VerifyFatefulIngameActive()
{
if (pkm.Version == 15 && pkm is XK3 && Info.WasXD)
return; // fateful is set when transferred away
if (pkm.FatefulEncounter)
AddLine(Severity.Valid, V323, CheckIdentifier.Fateful);
else
AddLine(Severity.Invalid, V324, CheckIdentifier.Fateful);
}
private void VerifyNsPKM()
{
bool req = (EncounterMatch as EncounterStatic)?.NSparkle ?? false;
if (pkm.Format == 5)
{
bool has = ((PK5)pkm).NPokémon;
if (req && !has)
AddLine(Severity.Invalid, V326, CheckIdentifier.Fateful);
if (!req && has)
AddLine(Severity.Invalid, V327, CheckIdentifier.Fateful);
}
if (req)
{
if (pkm.IVs.Any(iv => iv != 30))
AddLine(Severity.Invalid, V218, CheckIdentifier.IVs);
if (pkm.OT_Name != "N" || pkm.TID != 00002 || pkm.SID != 00000)
AddLine(Severity.Invalid, V219, CheckIdentifier.Trainer);
if (pkm.IsShiny)
AddLine(Severity.Invalid, V220, CheckIdentifier.Shiny);
}
}
private void VerifyVersionEvolution()
{
if (pkm.Format < 7)
return;
// No point using the evolution tree. Just handle certain species.
switch (pkm.Species)
{
case 745: // Lycanroc
if (!pkm.WasEgg)
break;
if (pkm.AltForm == 0 && pkm.Version == 31 // Moon
|| pkm.AltForm == 1 && pkm.Version == 30) // Sun
if (pkm.IsUntraded)
2017-03-23 03:12:45 +00:00
AddLine(Severity.Invalid, V328, CheckIdentifier.Evolution);
break;
case 791: // Solgaleo
if (pkm.Version == 31 && pkm.IsUntraded)
{
if (EncounterMatch is MysteryGift g && g.Species == pkm.Species) // Gifted via Mystery Gift
break;
2017-03-23 03:12:45 +00:00
AddLine(Severity.Invalid, V328, CheckIdentifier.Evolution);
}
break;
case 792: // Lunala
if (pkm.Version == 30 && pkm.IsUntraded)
{
if (EncounterMatch is MysteryGift g && g.Species == pkm.Species) // Gifted via Mystery Gift
break;
2017-03-23 03:12:45 +00:00
AddLine(Severity.Invalid, V328, CheckIdentifier.Evolution);
}
break;
}
}
#region VerifyMoves
#endregion
public static string[] MoveStrings { get; set; } = Util.GetMovesList("en");
public static string[] SpeciesStrings { get; set; } = Util.GetSpeciesList("en");
}
}