PKHeX/PKHeX.Core/Legality/RNG/Locks/LockFinder.cs
wwwwwwzx a25c6a4e00 Fix Colo Starter PID Method Check (#1961)
If SIDf >> 16 != SID then temp won't be assigned.
2018-05-24 06:00:29 -07:00

210 lines
8.1 KiB
C#

using System.Collections.Generic;
namespace PKHeX.Core
{
/// <summary>
/// Locks associated to a given NPC PKM that appears before a <see cref="EncounterStaticShadow"/>.
/// </summary>
public sealed class NPCLock
{
public int Species;
public uint? Nature = null;
public uint? Gender = null;
public bool Shadow = false;
}
/// <summary>
/// Contains various Colosseum/XD 'wait for value' logic related to PKM generation.
/// </summary>
/// <remarks>
/// "Locks" are referring to the <see cref="IEncounterable"/> being "locked" to a certain value, e.g. requiring Nature to be neutral.
/// These locks cause the <see cref="PKM.PID"/> of the current <see cref="PKM"/> to be rerolled until the requisite lock is satisfied.
/// <see cref="PKM.Nature"/> locks require a certain <see cref="Nature"/>, which is derived from the <see cref="PKM.PID"/>.
/// <see cref="PKM.Gender"/> locks require a certain gender value, which is derived from the <see cref="PKM.PID"/> and <see cref="PersonalInfo.Gender"/> ratio.
/// Not sure if Abilities are locked for the encounter, assume not. When this code is eventually utilized, our understanding can be tested!
/// </remarks>
public static class LockFinder
{
// Message Passing
private struct SeedFrame
{
public uint PID;
public int FrameID;
}
public static bool FindLockSeed(uint originSeed, IEnumerable<NPCLock> lockList, bool XD, out uint origin)
{
var locks = new Stack<NPCLock>(lockList);
var pids = new Stack<uint>();
var cache = new FrameCache(RNG.XDRNG.Reverse(originSeed, 2), RNG.XDRNG.Prev);
var result = FindLockSeed(cache, 0, locks, null, pids, XD, out var originFrame);
origin = cache.GetSeed(originFrame);
return result;
}
// Recursively iterates to visit possible locks until all locks (or none) are satisfied.
private static bool FindLockSeed(FrameCache cache, int ctr, Stack<NPCLock> Locks, NPCLock prior, Stack<uint> PIDs, bool XD, out int originFrame)
{
if (Locks.Count == 0)
return VerifyNPC(cache, ctr, PIDs, XD, out originFrame);
var l = Locks.Pop();
foreach (var poss in FindPossibleLockFrames(cache, ctr, l, prior))
{
PIDs.Push(poss.PID); // possible match
if (FindLockSeed(cache, poss.FrameID, Locks, l, PIDs, XD, out originFrame))
return true; // all locks are satisfied
PIDs.Pop(); // no match, remove
}
Locks.Push(l); // return the lock, lock is impossible
originFrame = 0;
return false;
}
private static IEnumerable<SeedFrame> FindPossibleLockFrames(FrameCache cache, int ctr, NPCLock l, NPCLock prior)
{
if (prior == null || prior.Shadow)
return GetSingleLockFrame(cache, ctr, l);
return GetComplexLockFrame(cache, ctr, l, prior);
}
private static IEnumerable<SeedFrame> GetSingleLockFrame(FrameCache cache, int ctr, NPCLock l)
{
uint pid = cache[ctr + 1] << 16 | cache[ctr];
if (MatchesLock(l, pid, PKX.GetGenderFromPID(l.Species, pid)))
yield return new SeedFrame { FrameID = ctr + 6, PID = pid };
}
private static IEnumerable<SeedFrame> GetComplexLockFrame(FrameCache cache, int ctr, NPCLock l, NPCLock prior)
{
// Since the prior(next) lock is generated 7+2*n frames after, the worst case break is 7 frames after the PID.
// Continue reversing until a sequential generation case is found.
// Check
int start = ctr;
while (true)
{
int p7 = ctr - 7;
if (p7 > start)
{
uint cid = cache[p7 + 1] << 16 | cache[p7];
if (MatchesLock(prior, cid, PKX.GetGenderFromPID(prior.Species, cid)))
yield break;
}
uint pid = cache[ctr + 1] << 16 | cache[ctr];
if (MatchesLock(l, pid, PKX.GetGenderFromPID(l.Species, pid)))
yield return new SeedFrame { FrameID = ctr + 6, PID = pid };
ctr += 2;
}
}
private static bool VerifyNPC(FrameCache cache, int ctr, IEnumerable<uint> PIDs, bool XD, out int originFrame)
{
originFrame = ctr+2;
var tid = cache[ctr+1];
var sid = cache[ctr];
// verify none are shiny
foreach (var pid in PIDs)
if (IsShiny(tid, sid, pid))
return true; // todo
return true;
}
// Helpers
private static bool IsShiny(uint TID, uint SID, uint PID) => (TID ^ SID ^ (PID >> 16) ^ (PID & 0xFFFF)) < 8;
private static bool IsShiny(int TID, int SID, uint PID) => (TID ^ SID ^ (PID >> 16) ^ (PID & 0xFFFF)) < 8;
private static bool MatchesLock(NPCLock k, uint PID, int Gender)
{
if (k.Nature != null && k.Nature != PID % 25)
return false;
if (k.Gender != null && k.Gender != Gender)
return false;
return true;
}
// Colosseum/XD Starters
public static bool IsXDStarterValid(uint seed, int TID, int SID)
{
// pidiv reversed 2x yields SID, 3x yields TID. shift by 7 if another PKM is generated prior
var SIDf = RNG.XDRNG.Reverse(seed, 2);
var TIDf = RNG.XDRNG.Prev(SIDf);
return SIDf >> 16 == SID && TIDf >> 16 == TID;
}
public static bool IsColoStarterValid(int species, ref uint seed, int TID, int SID, uint pkPID, uint IV1, uint IV2)
{
// reverse the seed the bare minimum
int rev = 2;
if (species == 196)
rev += 7;
var rng = RNG.XDRNG;
var SIDf = rng.Reverse(seed, rev);
int ctr = 0;
uint temp = 0;
while ((temp = rng.Prev(SIDf)) >> 16 != TID || SIDf >> 16 != SID)
{
SIDf = temp;
if (ctr > 32) // arbitrary
return false;
ctr++;
}
var next = rng.Next(SIDf);
// generate Umbreon
var PIDIV = GenerateValidColoStarterPID(ref next, TID, SID);
if (species == 196) // need espeon, which is immediately next
PIDIV = GenerateValidColoStarterPID(ref next, TID, SID);
if (!PIDIV.Equals(pkPID, IV1, IV2))
return false;
seed = rng.Reverse(SIDf, 2);
return true;
}
private struct PIDIVGroup
{
public uint PID;
public uint IV1;
public uint IV2;
public bool Equals(uint pid, uint iv1, uint iv2) => PID == pid && IV1 == iv1 && IV2 == iv2;
}
private static PIDIVGroup GenerateValidColoStarterPID(ref uint uSeed, int TID, int SID)
{
var rng = RNG.XDRNG;
PIDIVGroup group = new PIDIVGroup();
uSeed = rng.Advance(uSeed, 2); // skip fakePID
group.IV1 = (uSeed >> 16) & 0x7FFF;
uSeed = rng.Next(uSeed);
group.IV2 = (uSeed >> 16) & 0x7FFF;
uSeed = rng.Next(uSeed);
uSeed = rng.Advance(uSeed, 1); // skip ability call
group.PID = GenerateStarterPID(ref uSeed, TID, SID);
uSeed = rng.Advance(uSeed, 2); // PID calls consumed
return group;
}
private static uint GenerateStarterPID(ref uint uSeed, int TID, int SID)
{
uint PID;
const byte ratio = 0x20; // 12.5% F (can't be female)
while (true)
{
var next = RNG.XDRNG.Next(uSeed);
PID = (uSeed & 0xFFFF0000) | (next >> 16);
if ((PID & 0xFF) > ratio && !IsShiny(TID, SID, PID))
break;
uSeed = RNG.XDRNG.Next(next);
}
return PID;
}
}
}