using System;
namespace PKHeX.Core
{
///
/// Contains logic for the Generation 8 (SW/SH) overworld spawns that walk around the overworld.
///
///
/// Entities spawned into the overworld that can be encountered are assigned a 32bit seed, which can be immediately derived from the .
///
public static class Overworld8RNG
{
public static void ApplyDetails(PKM pk, EncounterCriteria criteria, Shiny shiny = Shiny.FixedValue, int flawless = -1)
{
if (shiny == Shiny.FixedValue)
shiny = criteria.Shiny is Shiny.Random or Shiny.Never ? Shiny.Never : Shiny.Always;
if (flawless == -1)
flawless = 0;
int ctr = 0;
const int maxAttempts = 50_000;
var rnd = Util.Rand;
do
{
var seed = Util.Rand32(rnd);
if (TryApplyFromSeed(pk, criteria, shiny, flawless, seed))
return;
} while (++ctr != maxAttempts);
TryApplyFromSeed(pk, EncounterCriteria.Unrestricted, shiny, flawless, Util.Rand32(rnd));
}
private static bool TryApplyFromSeed(PKM pk, EncounterCriteria criteria, Shiny shiny, int flawless, uint seed)
{
var xoro = new Xoroshiro128Plus(seed);
// Encryption Constant
pk.EncryptionConstant = (uint) xoro.NextInt(uint.MaxValue);
// PID
var pid = (uint) xoro.NextInt(uint.MaxValue);
if (shiny == Shiny.Never)
{
if (GetIsShiny(pk.TID, pk.SID, pid))
pid ^= 0x1000_0000;
}
else if (shiny != Shiny.Random)
{
if (!GetIsShiny(pk.TID, pk.SID, pid))
pid = GetShinyPID(pk.TID, pk.SID, pid, 0);
if (shiny == Shiny.AlwaysSquare && pk.ShinyXor != 0)
return false;
if (shiny == Shiny.AlwaysStar && pk.ShinyXor == 0)
return false;
}
pk.PID = pid;
// IVs
Span ivs = stackalloc[] {UNSET, UNSET, UNSET, UNSET, UNSET, UNSET};
const int MAX = 31;
for (int i = 0; i < flawless; i++)
{
int index;
do { index = (int) xoro.NextInt(6); }
while (ivs[index] != UNSET);
ivs[index] = MAX;
}
for (int i = 0; i < ivs.Length; i++)
{
if (ivs[i] == UNSET)
ivs[i] = (int) xoro.NextInt(32);
}
if (!criteria.IsIVsCompatible(ivs, 8))
return false;
pk.IV_HP = ivs[0];
pk.IV_ATK = ivs[1];
pk.IV_DEF = ivs[2];
pk.IV_SPA = ivs[3];
pk.IV_SPD = ivs[4];
pk.IV_SPE = ivs[5];
// Remainder
var scale = (IScaledSize) pk;
scale.HeightScalar = (int) xoro.NextInt(0x81) + (int) xoro.NextInt(0x80);
scale.WeightScalar = (int) xoro.NextInt(0x81) + (int) xoro.NextInt(0x80);
return true;
}
public static bool ValidateOverworldEncounter(PKM pk, Shiny shiny = Shiny.FixedValue, int flawless = -1)
{
var seed = GetOriginalSeed(pk);
return ValidateOverworldEncounter(pk, seed, shiny, flawless);
}
public static bool ValidateOverworldEncounter(PKM pk, uint seed, Shiny shiny = Shiny.FixedValue, int flawless = -1)
{
// is the seed Xoroshiro determined, or just truncated state?
if (seed == uint.MaxValue)
return false;
var xoro = new Xoroshiro128Plus(seed);
var ec = (uint) xoro.NextInt(uint.MaxValue);
if (ec != pk.EncryptionConstant)
return false;
var pid = (uint) xoro.NextInt(uint.MaxValue);
if (!IsPIDValid(pk, pid, shiny))
return false;
var actualCount = flawless == -1 ? GetIsMatchEnd(pk, xoro) : GetIsMatchEnd(pk, xoro, flawless, flawless);
return actualCount != NoMatchIVs;
}
private static bool IsPIDValid(PKM pk, uint pid, Shiny shiny)
{
if (shiny == Shiny.Random)
return pid == pk.PID;
if (pid == pk.PID)
return true;
// Check forced shiny
if (pk.IsShiny)
{
if (GetIsShiny(pk.TID, pk.SID, pid))
return false;
pid = GetShinyPID(pk.TID, pk.SID, pid, 0);
return pid == pk.PID;
}
// Check forced non-shiny
if (!GetIsShiny(pk.TID, pk.SID, pid))
return false;
pid ^= 0x1000_0000;
return pid == pk.PID;
}
private const int NoMatchIVs = -1;
private const int UNSET = -1;
private static int GetIsMatchEnd(PKM pk, Xoroshiro128Plus xoro, int start = 0, int end = 3)
{
bool skip1 = start == 0 && end == 3;
for (int iv_count = start; iv_count <= end; iv_count++)
{
if (skip1 && iv_count == 1)
continue;
var copy = xoro;
Span ivs = stackalloc [] { UNSET, UNSET, UNSET, UNSET, UNSET, UNSET };
const int MAX = 31;
for (int i = 0; i < iv_count; i++)
{
int index;
do { index = (int)copy.NextInt(6); } while (ivs[index] != UNSET);
ivs[index] = MAX;
}
for (var i = 0; i < ivs.Length; i++)
{
if (ivs[i] == UNSET)
ivs[i] = (int)copy.NextInt(31 + 1);
}
if (ivs[0] != pk.IV_HP) continue;
if (ivs[1] != pk.IV_ATK) continue;
if (ivs[2] != pk.IV_DEF) continue;
if (ivs[3] != pk.IV_SPA) continue;
if (ivs[4] != pk.IV_SPD) continue;
if (ivs[5] != pk.IV_SPE) continue;
if (pk is not IScaledSize s)
continue;
var height = (int) copy.NextInt(0x81) + (int) copy.NextInt(0x80);
if (s.HeightScalar != height)
continue;
var weight = (int) copy.NextInt(0x81) + (int) copy.NextInt(0x80);
if (s.WeightScalar != weight)
continue;
return iv_count;
}
return NoMatchIVs;
}
private static uint GetShinyPID(int tid, int sid, uint pid, int type)
{
return (uint)(((tid ^ sid ^ (pid & 0xFFFF) ^ type) << 16) | (pid & 0xFFFF));
}
private static bool GetIsShiny(int tid, int sid, uint pid)
{
return GetShinyXor(pid, (uint)((sid << 16) | tid)) < 16;
}
private static uint GetShinyXor(uint pid, uint oid)
{
var xor = pid ^ oid;
return (xor ^ (xor >> 16)) & 0xFFFF;
}
///
/// Obtains the original seed for the Generation 8 overworld wild encounter.
///
/// Entity to check for
/// Seed
public static uint GetOriginalSeed(PKM pk)
{
var seed = pk.EncryptionConstant - unchecked((uint)Xoroshiro128Plus.XOROSHIRO_CONST);
if (seed == 0xD5B9C463) // Collision seed with the 0xFFFFFFFF re-roll.
{
var xoro = new Xoroshiro128Plus(seed);
/* ec */ xoro.NextInt(uint.MaxValue);
var pid = xoro.NextInt(uint.MaxValue);
if (pid != pk.PID)
return 0xDD6295A4;
}
return seed;
}
}
}