PKHeX/PKHeX.Core/Legality/BulkAnalysis.cs
Kurt e8c23f6644 Simplify some repeated comparisons with expressions
Less prone for bugs since it uses the same value for all comparisons without re-specifying
2020-12-29 00:37:59 -08:00

319 lines
11 KiB
C#

using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.Linq;
using PKHeX.Core.Searching;
using static PKHeX.Core.CheckIdentifier;
namespace PKHeX.Core
{
public sealed class BulkAnalysis
{
public readonly IReadOnlyList<PKM> AllData;
public readonly IReadOnlyList<LegalityAnalysis> AllAnalysis;
public readonly ITrainerInfo Trainer;
public readonly List<CheckResult> Parse = new();
public readonly Dictionary<ulong, PKM> Trackers = new();
public readonly bool Valid;
private readonly bool[] CloneFlags;
public BulkAnalysis(SaveFile sav)
{
Trainer = sav;
AllData = sav.GetAllPKM();
AllAnalysis = GetIndividualAnalysis(AllData);
CloneFlags = new bool[AllData.Count];
Valid = ScanAll();
}
public BulkAnalysis(ITrainerInfo tr, IEnumerable<PKM> pkms)
{
Trainer = tr;
AllData = pkms is IReadOnlyList<PKM> pk ? pk : pkms.ToList();
AllAnalysis = GetIndividualAnalysis(AllData);
CloneFlags = new bool[AllData.Count];
Valid = ScanAll();
}
private bool ScanAll()
{
CheckClones();
if (Trainer.Generation <= 2)
return Parse.All(z => z.Valid);
CheckIDReuse();
CheckPIDReuse();
if (Trainer.Generation >= 6)
CheckECReuse();
CheckDuplicateOwnedGifts();
return Parse.All(z => z.Valid);
}
private void AddLine(PKM first, PKM second, string msg, CheckIdentifier i, Severity s = Severity.Invalid)
{
static string GetSummary(PKM pk) => $"[{pk.Box:00}, {pk.Slot:00}] {pk.FileName}";
var c = $"{msg}{Environment.NewLine}{GetSummary(first)}{Environment.NewLine}{GetSummary(second)}";
var chk = new CheckResult(s, c, i);
Parse.Add(chk);
}
private void AddLine(PKM first, string msg, CheckIdentifier i, Severity s = Severity.Invalid)
{
static string GetSummary(PKM pk) => $"[{pk.Box:00}, {pk.Slot:00}] {pk.FileName}";
var c = $"{msg}{Environment.NewLine}{GetSummary(first)}";
var chk = new CheckResult(s, c, i);
Parse.Add(chk);
}
private void CheckClones()
{
var dict = new Dictionary<string, LegalityAnalysis>();
for (int i = 0; i < AllData.Count; i++)
{
var cp = AllData[i];
var ca = AllAnalysis[i];
Debug.Assert(cp.Format == Trainer.Generation);
// Check the upload tracker to see if there's any duplication.
if (cp is IHomeTrack home)
{
if (home.Tracker != 0)
{
var tracker = home.Tracker;
if (Trackers.TryGetValue(tracker, out var clone))
AddLine(clone, cp, "Clone detected (Duplicate Tracker).", Encounter);
else
Trackers.Add(tracker, cp);
}
else if (ca.Info.Generation < 8)
{
AddLine(cp, "Missing tracker.", Encounter);
}
}
// Hash Details like EC/IV to see if there's any duplication.
var identity = SearchUtil.HashByDetails(cp);
if (!dict.TryGetValue(identity, out var pa))
{
dict.Add(identity, ca);
continue;
}
CloneFlags[i] = true;
AddLine(pa.pkm, cp, "Clone detected (Details).", Encounter);
}
}
private void CheckDuplicateOwnedGifts()
{
var dupes = AllAnalysis.Where(z =>
z.Info.Generation >= 3
&& z.EncounterOriginal is MysteryGift {EggEncounter: true} && !z.pkm.WasTradedEgg)
.GroupBy(z => ((MysteryGift)z.EncounterOriginal).CardTitle);
foreach (var dupe in dupes)
{
var tidGroup = dupe.GroupBy(z => z.pkm.TID | (z.pkm.SID << 16))
.Select(z => z.ToList())
.Where(z => z.Count >= 2).ToList();
if (tidGroup.Count == 0)
continue;
AddLine(tidGroup[0][0].pkm, tidGroup[0][1].pkm, $"Receipt of the same egg mystery gifts detected: {dupe.Key}", Encounter);
}
}
private void CheckECReuse()
{
var dict = new Dictionary<uint, LegalityAnalysis>();
for (int i = 0; i < AllData.Count; i++)
{
if (CloneFlags[i])
continue; // already flagged
var cp = AllData[i];
var ca = AllAnalysis[i];
Debug.Assert(cp.Format >= 6);
var id = cp.EncryptionConstant;
if (!dict.TryGetValue(id, out var pa))
{
dict.Add(id, ca);
continue;
}
VerifyECShare(pa, ca);
}
}
private void CheckPIDReuse()
{
var dict = new Dictionary<uint, LegalityAnalysis>();
for (int i = 0; i < AllData.Count; i++)
{
if (CloneFlags[i])
continue; // already flagged
var cp = AllData[i];
var ca = AllAnalysis[i];
bool g345 = ca.Info.Generation is 3 or 4 or 5;
var id = g345 ? cp.EncryptionConstant : cp.PID;
if (!dict.TryGetValue(id, out var pa))
{
dict.Add(id, ca);
continue;
}
VerifyPIDShare(pa, ca);
}
}
private void CheckIDReuse()
{
var dict = new Dictionary<int, LegalityAnalysis>();
for (int i = 0; i < AllData.Count; i++)
{
if (CloneFlags[i])
continue; // already flagged
var cp = AllData[i];
var ca = AllAnalysis[i];
var id = cp.TID + (cp.SID << 16);
Debug.Assert(cp.TID <= ushort.MaxValue);
if (!dict.TryGetValue(id, out var pa))
{
dict.Add(id, ca);
continue;
}
// ignore GB era collisions
// a 16bit TID can reasonably occur for multiple trainers, and versions
if (ca.Info.Generation <= 2 && pa.Info.Generation <= 2)
continue;
var pp = pa.pkm;
if (VerifyIDReuse(pp, pa, cp, ca))
continue;
// egg encounters can be traded before hatching
// store the current loop pkm if it's a better reference
if (pp.WasTradedEgg && !cp.WasTradedEgg)
dict[id] = ca;
}
}
private void VerifyECShare(LegalityAnalysis pa, LegalityAnalysis ca)
{
const CheckIdentifier ident = PID;
int gen = pa.Info.Generation;
bool gbaNDS = gen is 3 or 4 or 5;
if (!gbaNDS)
{
if (ca.Info.Generation != gen)
{
AddLine(pa.pkm, ca.pkm, "EC sharing across generations detected.", ident);
return;
}
AddLine(pa.pkm, ca.pkm, "EC sharing for 3DS-onward origin detected.", ident);
return;
}
// eggs/mystery gifts shouldn't share with wild encounters
var cenc = ca.Info.EncounterMatch;
bool eggMysteryCurrent = cenc is EncounterEgg or MysteryGift;
var penc = pa.Info.EncounterMatch;
bool eggMysteryPrevious = penc is EncounterEgg or MysteryGift;
if (eggMysteryCurrent != eggMysteryPrevious)
{
AddLine(pa.pkm, ca.pkm, "EC sharing across RNG encounters detected.", ident);
}
}
private void VerifyPIDShare(LegalityAnalysis pa, LegalityAnalysis ca)
{
const CheckIdentifier ident = PID;
int gen = pa.Info.Generation;
if (ca.Info.Generation != gen)
{
AddLine(pa.pkm, ca.pkm, "PID sharing across generations detected.", ident);
return;
}
bool gbaNDS = gen is 3 or 4 or 5;
if (!gbaNDS)
{
AddLine(pa.pkm, ca.pkm, "PID sharing for 3DS-onward origin detected.", ident);
return;
}
// eggs/mystery gifts shouldn't share with wild encounters
var cenc = ca.Info.EncounterMatch;
bool eggMysteryCurrent = cenc is EncounterEgg or MysteryGift;
var penc = pa.Info.EncounterMatch;
bool eggMysteryPrevious = penc is EncounterEgg or MysteryGift;
if (eggMysteryCurrent != eggMysteryPrevious)
{
AddLine(pa.pkm, ca.pkm, "PID sharing across RNG encounters detected.", ident);
}
}
private bool VerifyIDReuse(PKM pp, LegalityAnalysis pa, PKM cp, LegalityAnalysis ca)
{
if (pa.EncounterMatch is MysteryGift {EggEncounter: false})
return false;
if (ca.EncounterMatch is MysteryGift {EggEncounter: false})
return false;
const CheckIdentifier ident = CheckIdentifier.Trainer;
// 32bit ID-SID should only occur for one generation
// Trainer-ID-SID should only occur for one version
if (IsSharedVersion(pp, pa, cp, ca))
{
AddLine(pa.pkm, ca.pkm, "TID sharing across versions detected.", ident);
return true;
}
// ID-SID should only occur for one Trainer name
if (pp.OT_Name != cp.OT_Name)
{
var severity = ca.Info.Generation == 4 ? Severity.Fishy : Severity.Invalid;
AddLine(pa.pkm, ca.pkm, "TID sharing across different trainer names detected.", ident, severity);
}
return false;
}
private static bool IsSharedVersion(PKM pp, LegalityAnalysis pa, PKM cp, LegalityAnalysis ca)
{
if (pp.Version == cp.Version)
return false;
// Traded eggs retain the original version ID, only on the same generation
if (pa.Info.Generation != ca.Info.Generation)
return false;
if (pa.EncounterMatch.EggEncounter && pp.WasTradedEgg)
return false; // version doesn't update on trade
if (ca.EncounterMatch.EggEncounter && cp.WasTradedEgg)
return false; // version doesn't update on trade
return true;
}
private static IReadOnlyList<LegalityAnalysis> GetIndividualAnalysis(IReadOnlyList<PKM> pkms)
{
var results = new LegalityAnalysis[pkms.Count];
for (int i = 0; i < pkms.Count; i++)
results[i] = new LegalityAnalysis(pkms[i]);
return results;
}
}
}