using System.Collections.Generic;
namespace PKHeX.Core
{
///
/// Seed result value storage for passing frame seeds & conditions.
///
public readonly record struct SeedInfo(uint Seed, bool Charm3 = false)
{
///
/// Yields an enumerable list of seeds until another valid PID breaks the chain.
///
/// Seed and RNG data
/// Verification information
/// Seed information data, which needs to be unrolled once for the nature call.
public static IEnumerable GetSeedsUntilNature(PIDIV pidiv, FrameGenerator info)
{
var seed = pidiv.OriginSeed;
yield return new SeedInfo(seed);
var s1 = seed;
var s2 = RNG.LCRNG.Prev(s1);
bool charm3 = false;
while (true)
{
var a = s2 >> 16;
var b = s1 >> 16;
var pid = b << 16 | a;
// Process Conditions
switch (VerifyPIDCriteria(pid, info))
{
case LockInfo.Pass:
yield break;
case LockInfo.Gender:
charm3 = true;
break;
}
s1 = RNG.LCRNG.Prev(s2);
s2 = RNG.LCRNG.Prev(s1);
yield return new SeedInfo(s1, charm3);
}
}
///
/// Yields an enumerable list of seeds until another valid PID breaks the chain.
///
/// Entity data created from the ambiguous cute charm seeds.
/// Seed information data, which needs to be unrolled once for the nature call.
public static IEnumerable GetSeedsUntilNature4Cute(PKM pk)
{
// We cannot rely on a PID-IV origin seed. Since IVs are 2^30, they are not strong enough to assume a single seed was the source.
// We must reverse the IVs to find all seeds that could generate this.
// ESV,Proc,Nature,IV1,IV2; these do not do the nature loop for Method J/K so each seed originates a single seed frame.
var seeds = MethodFinder.GetCuteCharmSeeds(pk);
foreach (var seed in seeds)
yield return new SeedInfo(seed);
}
///
/// Yields an enumerable list of seeds until another valid PID breaks the chain.
///
/// Seed and RNG data
/// Verification information
/// Unown Form lock value
/// Seed information data, which needs to be unrolled once for the nature call.
public static IEnumerable GetSeedsUntilUnownForm(PIDIV pidiv, FrameGenerator info, int form)
{
var seed = pidiv.OriginSeed;
yield return new SeedInfo(seed);
var s1 = seed;
var s2 = RNG.LCRNG.Prev(s1);
while (true)
{
var a = s2 >> 16;
var b = s1 >> 16;
// PID is in reverse for FRLG Unown
var pid = a << 16 | b;
// Process Conditions
if (PKX.GetUnownForm(pid) == form) // matches form, does it match nature?
{
switch (VerifyPIDCriteria(pid, info))
{
case LockInfo.Pass: // yes
yield break;
}
}
s1 = RNG.LCRNG.Prev(s2);
s2 = RNG.LCRNG.Prev(s1);
yield return new SeedInfo(s1);
}
}
private static LockInfo VerifyPIDCriteria(uint pid, FrameGenerator info)
{
// Nature locks are always a given
var nval = pid % 25;
if (nval != info.Nature)
return LockInfo.Nature;
if (!info.Gendered)
return LockInfo.Pass;
var gender = pid & 0xFF;
if (info.GenderLow > gender || gender > info.GenderHigh)
return LockInfo.Gender;
return LockInfo.Pass;
}
}
}