public List<Frame> Generate(
FrameCompare frameCompare,
uint id,
uint sid)
{
frames = new List<Frame>();
// The first thing we need to do is check for
// whether we are using the LCRNG or MTRNG
if (frameType == FrameType.Gen4Normal ||
frameType == FrameType.Gen4International)
{
mt.Reseed((uint) InitialSeed);
frame = null;
for (uint cnt = 1; cnt < InitialFrame + maxResults; cnt++)
{
if (cnt < InitialFrame)
{
mt.Nextuint();
continue;
}
switch (frameType)
{
case FrameType.Gen4Normal:
uint mtResult = mt.Nextuint();
frame =
Frame.GenerateFrame(
FrameType.Gen4Normal,
cnt,
mtResult,
mtResult,
id, sid);
break;
case FrameType.Gen4International:
// We want to get our random number
// first and then go through and check
// to see if it is shiny.
uint pid = mt.Nextuint();
for (int n = 0; n <= 3; n++)
{
uint tid = (id & 0xffff) | ((sid & 0xffff) << 16);
uint a = pid ^ tid;
uint b = a & 0xffff;
uint c = (a >> 16) & 0xffff;
uint d = b ^ c;
if (d < 8)
{
break;
}
// ARNG
pid = pid*0x6c078965 + 1;
}
frame =
Frame.GenerateFrame(
FrameType.Gen4International,
cnt,
pid,
pid,
id, sid);
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else if (frameType == FrameType.Method5Standard)
{
mt.Reseed((uint) InitialSeed);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
mt.Nextuint();
}
for (int i = 0; i < (maxResults + 6); i++)
{
rngArray[i] = mt.Nextuint() >> 27;
}
for (uint cnt = 0; cnt < maxResults; cnt++)
{
if (EncounterType == EncounterType.Roamer)
{
if (!frameCompare.CompareIV(0, rngArray[cnt + 1]))
continue;
if (!frameCompare.CompareIV(1, rngArray[cnt + 2]))
continue;
if (!frameCompare.CompareIV(2, rngArray[cnt + 3]))
continue;
if (!frameCompare.CompareIV(3, rngArray[cnt + 6]))
continue;
if (!frameCompare.CompareIV(4, rngArray[cnt + 4]))
continue;
if (!frameCompare.CompareIV(5, rngArray[cnt + 5]))
continue;
frame =
Frame.GenerateFrame(
FrameType.Method5Standard,
cnt + InitialFrame,
(uint) InitialSeed,
rngArray[cnt + 1],
rngArray[cnt + 2],
rngArray[cnt + 3],
rngArray[cnt + 6],
rngArray[cnt + 4],
rngArray[cnt + 5]);
}
else
{
if (!frameCompare.CompareIV(0, rngArray[cnt]))
continue;
if (!frameCompare.CompareIV(1, rngArray[cnt + 1]))
continue;
if (!frameCompare.CompareIV(2, rngArray[cnt + 2]))
continue;
if (!frameCompare.CompareIV(3, rngArray[cnt + 3]))
continue;
if (!frameCompare.CompareIV(4, rngArray[cnt + 4]))
continue;
if (!frameCompare.CompareIV(5, rngArray[cnt + 5]))
continue;
frame =
Frame.GenerateFrame(
FrameType.Method5Standard,
cnt + InitialFrame,
(uint) InitialSeed,
rngArray[cnt],
rngArray[cnt + 1],
rngArray[cnt + 2],
rngArray[cnt + 3],
rngArray[cnt + 4],
rngArray[cnt + 5]);
}
frames.Add(frame);
}
}
else if (frameType == FrameType.Method5CGear)
{
mt.Reseed((uint) InitialSeed);
// first two frames are skipped
mt.Nextuint();
mt.Nextuint();
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
mt.Nextuint();
}
for (int i = 0; i < (maxResults + 8); i++)
{
rngArray[i] = mt.Nextuint() >> 27;
}
for (uint cnt = 0; cnt < maxResults; cnt++)
{
frame = null;
if (EncounterType == EncounterType.Roamer)
{
if (!frameCompare.CompareIV(0, rngArray[cnt + 1]))
continue;
if (!frameCompare.CompareIV(1, rngArray[cnt + 2]))
continue;
if (!frameCompare.CompareIV(2, rngArray[cnt + 3]))
continue;
if (!frameCompare.CompareIV(3, rngArray[cnt + 6]))
continue;
if (!frameCompare.CompareIV(4, rngArray[cnt + 4]))
continue;
if (!frameCompare.CompareIV(5, rngArray[cnt + 5]))
continue;
frame =
Frame.GenerateFrame(
FrameType.Method5CGear,
cnt + InitialFrame,
(uint) InitialSeed,
rngArray[cnt + 1],
rngArray[cnt + 2],
rngArray[cnt + 3],
rngArray[cnt + 6],
rngArray[cnt + 4],
rngArray[cnt + 5]);
}
else
{
if (!frameCompare.CompareIV(0, rngArray[cnt]))
continue;
if (!frameCompare.CompareIV(1, rngArray[cnt + 1]))
continue;
if (!frameCompare.CompareIV(2, rngArray[cnt + 2]))
continue;
if (!frameCompare.CompareIV(3, rngArray[cnt + 3]))
continue;
if (!frameCompare.CompareIV(4, rngArray[cnt + 4]))
continue;
if (!frameCompare.CompareIV(5, rngArray[cnt + 5]))
continue;
frame =
Frame.GenerateFrame(
FrameType.Method5CGear,
cnt + InitialFrame,
(uint) InitialSeed,
rngArray[cnt],
rngArray[cnt + 1],
rngArray[cnt + 2],
rngArray[cnt + 3],
rngArray[cnt + 4],
rngArray[cnt + 5]);
}
frames.Add(frame);
}
}
else if (frameType == FrameType.Method5Natures)
{
rng64.Seed = InitialSeed;
int encounterSlot = 0;
const uint item = 0;
var mod = EncounterMod.None;
uint idLower = (id & 1) ^ (sid & 1);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
rng64.GetNext64BitNumber();
}
for (int cnt = 0; cnt < maxResults + 7; cnt++)
{
rngArray[cnt] = rng64.GetNext32BitNumber();
}
var entreeTimer = new CGearTimer();
for (uint cnt = 0; cnt < maxResults; cnt++)
{
uint nature;
uint pid;
bool synchable;
if (EncounterType == EncounterType.Gift || EncounterType == EncounterType.Roamer)
{
nature = (uint) (((ulong) rngArray[1 + cnt]*25) >> 32);
synchable = false;
pid = rngArray[0 + cnt];
if (EncounterType != EncounterType.Roamer)
pid = pid ^ 0x10000;
}
else
{
uint idTest;
if (EncounterType == EncounterType.Wild || EncounterType == EncounterType.WildSurfing ||
EncounterType == EncounterType.WildWaterSpot)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType, EncounterType,
isBW2);
if (EncounterMod == EncounterMod.Synchronize)
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
if (synchable)
nature = (uint) SynchNature;
else
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
// failed CC check
if (!synchable)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
else
{
pid = Functions.GenderModPID(pid, rngArray[4 + cnt], SynchNature);
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
synchable = false;
}
else if (EncounterMod == EncounterMod.Compoundeyes ||
EncounterMod == EncounterMod.SuctionCups)
{
synchable = false;
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[0 + cnt], frameType,
EncounterType);
nature = (uint) (((ulong) rngArray[3 + cnt]*25) >> 32);
pid = rngArray[2 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.Search)
{
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
// passed CC check
if (synchable)
{
// Add all the Cute Charm possibilities
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
for (int i = -4; i < 5; i++)
{
if (i == 0)
continue;
uint tempPid = Functions.GenderModPID(pid, rngArray[4 + cnt], i);
idTest = (idLower ^ (tempPid & 1) ^ (tempPid >> 31));
if (idTest == 1)
tempPid = (tempPid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
tempPid,
id,
sid,
nature,
false,
encounterSlot,
item);
switch (i)
{
case 1:
frame.EncounterMod = EncounterMod.CuteCharm50M;
break;
case 2:
frame.EncounterMod = EncounterMod.CuteCharm75M;
break;
case 3:
frame.EncounterMod = EncounterMod.CuteCharm25M;
break;
case 4:
frame.EncounterMod = EncounterMod.CuteCharm875M;
break;
case -1:
frame.EncounterMod = EncounterMod.CuteCharm50F;
break;
case -2:
frame.EncounterMod = EncounterMod.CuteCharm75F;
break;
case -3:
frame.EncounterMod = EncounterMod.CuteCharm25F;
break;
case -4:
frame.EncounterMod = EncounterMod.CuteCharm125F;
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
if (synchable && !frameCompare.CompareNature(nature))
mod = EncounterMod.Synchronize;
else
mod = EncounterMod.None;
}
else
{
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
}
else if (EncounterType == EncounterType.WildCaveSpot)
{
if (((ulong) rngArray[0 + cnt]*1000 >> 32) < 400)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[2 + cnt], frameType,
EncounterType);
}
else
{
uint calc = ((ulong) rngArray[1 + cnt]*1000 >> 32) < 100 ? 1000u : 1700u;
uint result = (uint) ((ulong) rngArray[2 + cnt]*calc >> 32)/100;
if (calc == 1000)
encounterSlot = (int) result + 13;
else
encounterSlot = (int) result + 23;
}
if (EncounterMod == EncounterMod.Synchronize)
{
synchable = (rngArray[1 + cnt] >> 31) == 1;
if (synchable)
nature = (uint) SynchNature;
else
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[1 + cnt]*0xFFFF) >> 32)/656) < 67;
// failed CC check
if (!synchable)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
else
{
pid = Functions.GenderModPID(pid, rngArray[5 + cnt], SynchNature);
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
}
synchable = false;
}
else if (EncounterMod == EncounterMod.Compoundeyes ||
EncounterMod == EncounterMod.SuctionCups)
{
synchable = false;
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.Search)
{
// Check for item or battle
if (((ulong) rngArray[0 + cnt]*1000 >> 32) < 400)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
}
else
continue;
// Let's do Suction Cups since it affects the hittable frames
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
pid,
id,
sid,
nature,
false,
encounterSlot,
item);
if (frameCompare.Compare(frame))
{
frame.EncounterMod = EncounterMod.SuctionCups;
frames.Add(frame);
}
// Now for regular\Synchronize\Cute Charm encounters
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[1 + cnt]*0xFFFF) >> 32)/656) < 67;
// passed CC check
if (synchable)
{
// Add all the Cute Charm possibilities
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
for (int i = -4; i < 5; i++)
{
if (i == 0)
continue;
uint tempPid = Functions.GenderModPID(pid, rngArray[5 + cnt], i);
idTest = (idLower ^ (tempPid & 1) ^ (tempPid >> 31));
if (idTest == 1)
tempPid = (tempPid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
tempPid,
id,
sid,
nature,
false,
encounterSlot,
item);
switch (i)
{
case 1:
frame.EncounterMod = EncounterMod.CuteCharm50M;
break;
case 2:
frame.EncounterMod = EncounterMod.CuteCharm75M;
break;
case 3:
frame.EncounterMod = EncounterMod.CuteCharm25M;
break;
case 4:
frame.EncounterMod = EncounterMod.CuteCharm875M;
break;
case -1:
frame.EncounterMod = EncounterMod.CuteCharm50F;
break;
case -2:
frame.EncounterMod = EncounterMod.CuteCharm75F;
break;
case -3:
frame.EncounterMod = EncounterMod.CuteCharm25F;
break;
case -4:
frame.EncounterMod = EncounterMod.CuteCharm125F;
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
synchable = (rngArray[1 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
if (synchable && !frameCompare.CompareNature(nature))
mod = EncounterMod.Synchronize;
else
mod = EncounterMod.None;
}
else
{
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
synchable = (rngArray[1 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
}
else if (EncounterType == EncounterType.WildSwarm)
{
bool swarm = (((ulong) rngArray[1 + cnt]*0xFFFF/0x290) >> 32) < 40;
if (swarm)
// we'll use non-existent slot 12 to denote a swarm
encounterSlot = 12;
else
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[2 + cnt], frameType,
EncounterType);
if (EncounterMod == EncounterMod.Synchronize)
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
if (synchable)
nature = (uint) SynchNature;
else
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// failed CC check
if (!synchable)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
else
{
pid = Functions.GenderModPID(pid, rngArray[5 + cnt], SynchNature);
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
}
synchable = false;
}
else if (EncounterMod == EncounterMod.Compoundeyes)
{
swarm = (((ulong) rngArray[0 + cnt]*0xFFFF/0x290) >> 32) < 40;
if (swarm)
// we'll use non-existent slot 12 to denote a swarm
encounterSlot = 12;
else
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
synchable = false;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.Search)
{
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
// also never used
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
// Add all the Cute Charm possibilities
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
for (int i = -4; i < 5; i++)
{
if (i == 0)
continue;
uint tempPid = Functions.GenderModPID(pid, rngArray[5 + cnt], i);
idTest = (idLower ^ (tempPid & 1) ^ (tempPid >> 31));
if (idTest == 1)
tempPid = (tempPid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
tempPid,
id,
sid,
nature,
false,
encounterSlot,
item);
switch (i)
{
case 1:
frame.EncounterMod = EncounterMod.CuteCharm50M;
break;
case 2:
frame.EncounterMod = EncounterMod.CuteCharm75M;
break;
case 3:
frame.EncounterMod = EncounterMod.CuteCharm25M;
break;
case 4:
frame.EncounterMod = EncounterMod.CuteCharm875M;
break;
case -1:
frame.EncounterMod = EncounterMod.CuteCharm50F;
break;
case -2:
frame.EncounterMod = EncounterMod.CuteCharm75F;
break;
case -3:
frame.EncounterMod = EncounterMod.CuteCharm25F;
break;
case -4:
frame.EncounterMod = EncounterMod.CuteCharm125F;
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
if (synchable && !frameCompare.CompareNature(nature))
mod = EncounterMod.Synchronize;
else
mod = EncounterMod.None;
}
else
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
}
else if (EncounterType == EncounterType.Stationary)
{
if (EncounterMod == EncounterMod.Synchronize)
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
if (synchable)
nature = (uint) SynchNature;
else
nature = (uint) (((ulong) rngArray[2 + cnt]*25) >> 32);
pid = rngArray[1 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
pid = rngArray[1 + cnt];
pid = pid ^ 0x10000;
// failed CC check
if (!synchable)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[2 + cnt]*25) >> 32);
}
else
{
pid = Functions.GenderModPID(pid, rngArray[2 + cnt], SynchNature);
nature = (uint) (((ulong) rngArray[3 + cnt]*25) >> 32);
}
synchable = false;
}
else if (EncounterMod == EncounterMod.Compoundeyes)
{
synchable = false;
nature = (uint) (((ulong) rngArray[1 + cnt]*25) >> 32);
pid = rngArray[0 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.Search)
{
pid = rngArray[1 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
// CC check
if (synchable)
{
// Add only 50% Cute Charm possibilities because the only applicable
// stationaries have a 50\50 male-female ratio.
nature = (uint) (((ulong) rngArray[3 + cnt]*25) >> 32);
for (int i = -1; i < 2; i++)
{
if (i == 0)
continue;
uint tempPid = Functions.GenderModPID(pid, rngArray[2 + cnt], i);
idTest = (idLower ^ (tempPid & 1) ^ (tempPid >> 31));
if (idTest == 1)
tempPid = (tempPid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
tempPid,
id,
sid,
nature,
false,
encounterSlot,
item);
switch (i)
{
case 1:
frame.EncounterMod = EncounterMod.CuteCharm50M;
break;
case -1:
frame.EncounterMod = EncounterMod.CuteCharm50F;
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[2 + cnt]*25) >> 32);
if (synchable && !frameCompare.CompareNature(nature))
mod = EncounterMod.Synchronize;
else
mod = EncounterMod.None;
}
else
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[2 + cnt]*25) >> 32);
pid = rngArray[1 + cnt];
pid = pid ^ 0x10000;
}
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
}
else if (EncounterType == EncounterType.AllEncounterShiny)
{
// used for Time Finder searches only
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
synchable = ((rngArray[0 + cnt] >> 31) == 1) && ((rngArray[2 + cnt] >> 31) == 1);
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
{
// not the actual PID, but guaranteed to be non-shiny so it won't show up in search results
pid = id << 16 | sid ^ 0x100;
}
}
else if (EncounterType == EncounterType.LarvestaEgg)
{
pid = rngArray[0 + cnt];
nature = (uint) (((ulong) rngArray[2 + cnt]*25) >> 32);
synchable = false;
}
else if (EncounterType == EncounterType.Entralink)
{
pid = rngArray[0 + cnt];
synchable = false;
// genderless
if (frameCompare.GenderFilter.GenderValue == 0xFF)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
// always female
else if (frameCompare.GenderFilter.GenderValue == 0xFE)
{
var genderAdjustment = (uint) ((0x8*(ulong) rngArray[1 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 1);
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
// always male
else if (frameCompare.GenderFilter.GenderValue == 0x0)
{
var genderAdjustment = (uint) ((0xF6*(ulong) rngArray[1 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 8);
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
else
{
if (frameCompare.GenderFilter.GenderCriteria == GenderCriteria.Male)
{
var genderAdjustment =
(uint)
(((0xFE - frameCompare.GenderFilter.GenderValue)*(ulong) rngArray[1 + cnt]) >>
32);
pid = (pid & 0xFFFFFF00) |
(genderAdjustment + frameCompare.GenderFilter.GenderValue);
}
else if (frameCompare.GenderFilter.GenderCriteria == GenderCriteria.Female)
{
var genderAdjustment =
(uint)
(((frameCompare.GenderFilter.GenderValue - 1)*(ulong) rngArray[1 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 1);
}
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
if ((pid & 0x10000) == 0x10000)
pid = pid ^ 0x10000;
//note: might be wrong
pid ^= 0x10000000;
}
else if (EncounterType == EncounterType.HiddenGrotto)
{
// unknown call at 0
synchable = (rngArray[1 + cnt] >> 31) == 1;
pid = rngArray[2 + cnt];
// genderless
if (frameCompare.GenderFilter.GenderValue == 0xFF)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[3 + cnt]*25) >> 32);
}
// always female
else if (frameCompare.GenderFilter.GenderValue == 0xFE)
{
var genderAdjustment = (uint) ((0x8*(ulong) rngArray[3 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 1);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
// always male
else if (frameCompare.GenderFilter.GenderValue == 0x0)
{
var genderAdjustment = (uint) ((0xF6*(ulong) rngArray[3 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 8);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
else
{
if (frameCompare.GenderFilter.GenderCriteria == GenderCriteria.Male)
{
var genderAdjustment =
(uint)
(((0xFE - frameCompare.GenderFilter.GenderValue)*(ulong) rngArray[3 + cnt]) >>
32);
pid = (pid & 0xFFFFFF00) |
(genderAdjustment + frameCompare.GenderFilter.GenderValue);
}
else if (frameCompare.GenderFilter.GenderCriteria == GenderCriteria.Female)
{
var genderAdjustment =
(uint)
(((frameCompare.GenderFilter.GenderValue - 1)*(ulong) rngArray[3 + cnt]) >> 32);
pid = (pid & 0xFFFFFF00) | (genderAdjustment + 1);
}
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
}
if (synchable && EncounterMod == EncounterMod.Synchronize)
nature = (uint) SynchNature;
pid = pid ^ 0x10000;
}
else
{
// Fishing, Shaking Grass Spots
// check for Fishing nibble
if (EncounterMod == EncounterMod.SuctionCups && EncounterType == EncounterType.WildSuperRod)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
synchable = false;
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else
{
if (EncounterType == EncounterType.WildSuperRod && (rngArray[1 + cnt] >> 16)/656 >= 50)
continue;
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[2 + cnt], frameType,
EncounterType);
if (EncounterMod == EncounterMod.Synchronize)
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
if (synchable)
nature = (uint) SynchNature;
else
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// failed CC check
if (!synchable)
{
// leave it as-is
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
}
else
{
pid = Functions.GenderModPID(pid, rngArray[5 + cnt], SynchNature);
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
}
synchable = false;
}
else if (EncounterMod == EncounterMod.Compoundeyes)
{
if (EncounterType == EncounterType.WildSuperRod &&
(rngArray[0 + cnt] >> 16)/656 >= 50)
continue;
synchable = false;
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.SuctionCups)
{
synchable = false;
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
}
else if (EncounterMod == EncounterMod.Search)
{
if (EncounterType == EncounterType.WildSuperRod)
{
// Do the Suction Cups check for fishing frames
encounterSlot = EncounterSlotCalc.encounterSlot(rngArray[1 + cnt], frameType,
EncounterType);
nature = (uint) (((ulong) rngArray[4 + cnt]*25) >> 32);
pid = rngArray[3 + cnt];
pid = pid ^ 0x10000;
idTest = (idLower ^ (pid & 1) ^ (pid >> 31));
if (idTest == 1)
pid = (pid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
pid,
id,
sid,
nature,
false,
encounterSlot,
item);
if (frameCompare.Compare(frame))
{
frame.EncounterMod = EncounterMod.SuctionCups;
frames.Add(frame);
}
}
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
// not a synch, but the CC check -- need to relabel (unfinished)
synchable = ((((ulong) rngArray[0 + cnt]*0xFFFF) >> 32)/656) < 67;
// passed CC check
if (synchable)
{
// Add all the Cute Charm possibilities
nature = (uint) (((ulong) rngArray[6 + cnt]*25) >> 32);
for (int i = -4; i < 5; i++)
{
if (i == 0)
continue;
uint tempPid = Functions.GenderModPID(pid, rngArray[5 + cnt], i);
idTest = (idLower ^ (tempPid & 1) ^ (tempPid >> 31));
if (idTest == 1)
tempPid = (tempPid ^ 0x80000000);
frame = Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
tempPid,
id,
sid,
nature,
false,
encounterSlot,
item);
switch (i)
{
case 1:
frame.EncounterMod = EncounterMod.CuteCharm50M;
break;
case 2:
frame.EncounterMod = EncounterMod.CuteCharm75M;
break;
case 3:
frame.EncounterMod = EncounterMod.CuteCharm25M;
break;
case 4:
frame.EncounterMod = EncounterMod.CuteCharm875M;
break;
case -1:
frame.EncounterMod = EncounterMod.CuteCharm50F;
break;
case -2:
frame.EncounterMod = EncounterMod.CuteCharm75F;
break;
case -3:
frame.EncounterMod = EncounterMod.CuteCharm25F;
break;
case -4:
frame.EncounterMod = EncounterMod.CuteCharm125F;
break;
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
if (synchable && !frameCompare.CompareNature(nature))
mod = EncounterMod.Synchronize;
else
mod = EncounterMod.None;
}
else
{
synchable = (rngArray[0 + cnt] >> 31) == 1;
nature = (uint) (((ulong) rngArray[5 + cnt]*25) >> 32);
pid = rngArray[4 + cnt];
pid = pid ^ 0x10000;
}
}
idTest = idLower ^ (pid & 1) ^ (pid >> 31);
if (idTest == 1)
{
pid = (pid ^ 0x80000000);
}
}
}
// worthless calculation
int ability = (int) (pid >> 16) & 1;
if (RNGIVs != null)
{
frame =
Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
pid,
id,
sid,
nature,
synchable,
encounterSlot,
item,
RNGIVs);
}
else
{
frame =
Frame.GenerateFrame(
FrameType.Method5Natures,
EncounterType,
cnt + InitialFrame,
rngArray[0 + cnt],
pid,
id,
sid,
nature,
synchable,
encounterSlot,
item);
}
frame.EncounterMod = mod;
frame.CGearTime = entreeTimer.GetTime(rngArray[0 + cnt]);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else if (frameType == FrameType.BWBred)
{
rng64.Seed = InitialSeed;
var rngQueue = new Queue<uint>();
uint rngResult;
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (uint cnt = 0; cnt < maxResults + 50; cnt++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
for (uint cnt = 0; cnt < maxResults; cnt++)
{
frame = null;
// there's two extra rng calls before the eggs are generated
int index = 2;
uint nature;
bool dream;
bool everstone = false;
// for Nidoran\Volbeat\Illumise determination
// if 0, get Nidoran-F\Volbeat
// if 1, get Nidoran-M\Illumise
var speciesSpecial = (int) (rngArray[index + cnt] >> 31);
// Everstone activation calc
//int off = MaleOnlySpecies ? 1 : 0;
if (MaleOnlySpecies) index++;
//index = 1
nature = (uint) ((ulong) (rngArray[index++ + cnt])*25 >> 32);
if (SynchNature > -1)
{
if ((rngArray[index++ + cnt] >> 31) == 1)
{
nature = (uint) SynchNature;
everstone = true;
}
}
// it appears to only actually use this for dream world otherwise it's ignored
/*uint test = Functions.RNGRange(rngArray[index++ + cnt], 0x64);
switch (MotherAbility)
{
case 0:
ability = test > 0x50 ? 1u : 0;
break;
case 1:
ability = test > 0x14 ? 1u : 0;
break;
case 2:
if (test < 0x14) ability = 0;
else ability = test >= 0x28 ? 2u : 1;
break;
default:
ability = test > 0x50 ? 1u : 0;
break;
}
// again a worthless calculation
if (DittoUsed) ability = Functions.RNGRange(rngArray[index++ + cnt], 2);*/
dream = Functions.RNGRange(rngArray[index++ + cnt], 0x64) >= 0x28 && !DittoUsed;
if (DittoUsed) ++index;
// IV Inheritance calc
// Uses every two RNG calls, first to determine IV, second to determine which parent
// If an IV is repeated it skips two RNG calls and checks the next
uint inh = Functions.RNGRange(rngArray[index + cnt], 6);
uint inh1 = inh;
uint par1 = rngArray[index + 1 + cnt] >> 31;
uint maxSkips = 0;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
while (inh == inh1)
{
maxSkips += 2;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
}
}
uint inh2 = inh;
uint par2 = rngArray[index + 1 + cnt] >> 31;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
while (inh == inh1 || inh == inh2)
{
maxSkips += 2;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
}
}
uint inh3 = inh;
uint par3 = rngArray[index + 1 + cnt] >> 31;
uint pid = Functions.RNGRange(rngArray[index + 2 + cnt], 0xFFFFFFFF);
if (ParentA != null & ParentB != null && RNGIVs != null)
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
ParentA,
ParentB,
RNGIVs,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
else
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else if (frameType == FrameType.BWBredInternational)
{
rng64.Seed = InitialSeed;
var rngQueue = new Queue<uint>();
uint rngResult;
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (uint cnt = 0; cnt < InitialFrame + maxResults + 50; cnt++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
for (uint cnt = 0; cnt < maxResults; cnt++)
{
frame = null;
int index = 1;
uint nature;
bool dream;
bool everstone = false;
// for Nidoran\Volbeat\Illumise determination
// if 0, get Nidoran-F\Volbeat
// if 1, get Nidoran-M\Illumise
var speciesSpecial = (int) (rngArray[index + cnt] >> 31);
// Everstone activation calc
//int off = MaleOnlySpecies ? 1 : 0;
if (MaleOnlySpecies) index++;
//index = 1
if (SynchNature > -1)
{
nature = (uint) ((ulong) (rngArray[index++ + cnt])*25 >> 32);
if ((rngArray[index++ + cnt] >> 31) == 1)
{
nature = (uint) SynchNature;
everstone = true;
}
// Dream World ability calc
dream = !DittoUsed && (uint) ((ulong) (rngArray[index++ + cnt])*5 >> 32) > 1;
}
else
{
nature = (uint) ((ulong) (rngArray[index++ + cnt])*25 >> 32);
// Dream World ability calc
dream = !DittoUsed && (uint) ((ulong) (rngArray[index++ + cnt])*5 >> 32) > 1;
}
if (DittoUsed) index = index + 2;
// IV Inheritance calc
// Uses every two RNG calls, first to determine IV, second to determine which parent
// If an IV is repeated it skips two RNG calls and checks the next
uint inh = Functions.RNGRange(rngArray[index + cnt], 6);
uint inh1 = inh;
uint par1 = rngArray[index + 1 + cnt] >> 31;
uint maxSkips = 0;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
while (inh == inh1)
{
maxSkips += 2;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
}
}
uint inh2 = inh;
uint par2 = rngArray[index + 1 + cnt] >> 31;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
while (inh == inh1 || inh == inh2)
{
maxSkips += 2;
index = index + 2;
inh = Functions.RNGRange(rngArray[index + cnt], 6);
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
}
rngArray = rngQueue.ToArray();
}
}
uint inh3 = inh;
uint par3 = rngArray[index + 1 + cnt] >> 31;
uint pid = rngArray[index + 2 + cnt] - 1;
const int masuda = 6;
for (int n = 0; n < masuda; n++)
{
pid = rngArray[index + n + 2 + cnt] - 1;
uint tid = (id & 0xffff) | ((sid & 0xffff) << 16);
uint a = pid ^ tid;
uint b = a & 0xffff;
uint c = (a >> 16) & 0xffff;
uint d = b ^ c;
if (d < 8)
{
break;
}
}
if (ParentA != null & ParentB != null && RNGIVs != null)
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[0 + cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
ParentA,
ParentB,
RNGIVs,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
else
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[0 + cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else if (frameType == FrameType.BW2BredInternational)
{
rng64.Seed = InitialSeed;
var rngQueue = new Queue<uint>();
var inhQueue = new Queue<uint>();
uint rngResult;
int callCount = 13;
if (SynchNature > -1)
{
callCount++; // Everstone consumes extra RNG call
}
if (DittoUsed)
{
callCount++; // Ditto consumes extra RNG call
}
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (uint cnt = 0; cnt < InitialFrame + maxResults + 50; cnt++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
inhQueue.Enqueue((uint) ((ulong) (rngResult)*6 >> 32));
}
rngArray = rngQueue.ToArray();
uint[] inhArray = inhQueue.ToArray();
for (uint cnt = 0; cnt < maxResults; cnt++)
{
frame = null;
int index = 1;
uint nature;
bool dream;
bool everstone = false;
// for Nidoran\Volbeat\Illumise determination
// if 0, get Nidoran-F\Volbeat
// if 1, get Nidoran-M\Illumise
var speciesSpecial = (int) (rngArray[index + cnt] >> 31);
// Everstone activation calc
//int off = MaleOnlySpecies ? 1 : 0;
if (MaleOnlySpecies) index++;
//index = 1
if (SynchNature > -1)
{
nature = (uint) ((ulong) (rngArray[index++ + cnt])*25 >> 32);
if ((rngArray[index++ + cnt] >> 31) == 1)
{
nature = (uint) SynchNature;
everstone = true;
}
// Dream World ability calc
dream = !DittoUsed && (uint) ((ulong) (rngArray[index++ + cnt])*5 >> 32) > 1;
}
else
{
nature = (uint) ((ulong) (rngArray[index++ + cnt])*25 >> 32);
// Dream World ability calc
dream = !DittoUsed && (uint) ((ulong) (rngArray[index++ + cnt])*5 >> 32) > 1;
}
// IV Inheritance calc
// Uses every two RNG calls, first to determine IV, second to determine which parent
// If an IV is repeated it skips two RNG calls and checks the next
uint inh = inhArray[index + cnt];
uint inh1 = inh;
uint par1 = rngArray[index + 1 + cnt] >> 31;
uint maxSkips = 0;
index = index + 2;
inh = inhArray[index + cnt];
while (inh == inh1)
{
maxSkips += 2;
index = index + 2;
inh = inhArray[index + cnt];
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
inhQueue.Enqueue((uint) ((ulong) (rngResult)*6 >> 32));
}
rngArray = rngQueue.ToArray();
inhArray = inhQueue.ToArray();
}
}
uint inh2 = inh;
uint par2 = rngArray[index + 1 + cnt] >> 31;
index = index + 2;
inh = inhArray[index + cnt];
while (inh == inh1 || inh == inh2)
{
maxSkips += 2;
index = index + 2;
inh = inhArray[index + cnt];
if (index + cnt >= rngArray.Length - 3)
{
for (int refill = 0; refill < 50; refill++)
{
rngResult = rng64.GetNext32BitNumber();
rngQueue.Enqueue(rngResult);
inhQueue.Enqueue((uint) ((ulong) (rngResult)*6 >> 32));
}
rngArray = rngQueue.ToArray();
inhArray = inhQueue.ToArray();
}
}
uint inh3 = inh;
uint par3 = rngArray[index + 1 + cnt] >> 31;
uint pid = rngArray[index + 2 + cnt] - 1;
int masuda = ShinyCharm ? 8 : 6;
for (int n = 0; n < masuda; n++)
{
pid = rngArray[index + n + 2 + cnt] - 1;
uint tid = (id & 0xffff) | ((sid & 0xffff) << 16);
uint a = pid ^ tid;
uint b = a & 0xffff;
uint c = (a >> 16) & 0xffff;
uint d = b ^ c;
if (d < 8)
{
break;
}
}
if (ParentA != null & ParentB != null && RNGIVs != null)
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[0 + cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
ParentA,
ParentB,
RNGIVs,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
else
{
frame =
Frame.GenerateFrame(
FrameType.BWBred,
cnt + InitialFrame,
rngArray[0 + cnt],
speciesSpecial,
inh1,
inh2,
inh3,
par1,
par2,
par3,
pid,
id,
sid,
dream,
everstone,
nature,
maxSkips);
}
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else if (frameType == FrameType.Wondercard5thGen)
{
rng64.Seed = InitialSeed;
if (maxResults < 1000)
{
rngArray = new uint[maxResults + 33];
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (int cnt = 0; cnt < maxResults + 33; cnt++)
{
rngArray[cnt] = rng64.GetNext32BitNumber();
}
for (uint cnt = 0; cnt < maxResults; cnt++)
{
Frame frame = Frame.GenerateFrame(
FrameType.Wondercard5thGen,
id, sid,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[22 + cnt] >> 27,
rngArray[23 + cnt] >> 27,
rngArray[24 + cnt] >> 27,
rngArray[25 + cnt] >> 27,
rngArray[26 + cnt] >> 27,
rngArray[27 + cnt] >> 27,
rngArray[32 + cnt],
rngArray[30 + cnt]);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else
{
rngQueue = new Queue<uint>();
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (int cnt = 0; cnt < 33; cnt++)
{
rngQueue.Enqueue(rng64.GetNext32BitNumber());
}
for (uint cnt = InitialFrame; cnt < InitialFrame + maxResults; cnt++)
{
rngArray = rngQueue.ToArray();
Frame frame = Frame.GenerateFrame(
FrameType.Wondercard5thGen,
id, sid,
cnt,
rngArray[0],
rngArray[22] >> 27,
rngArray[23] >> 27,
rngArray[24] >> 27,
rngArray[25] >> 27,
rngArray[26] >> 27,
rngArray[27] >> 27,
rngArray[32],
rngArray[30]);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
rngQueue.Dequeue();
rngQueue.Enqueue(rng64.GetNext32BitNumber());
}
}
}
else if (frameType == FrameType.Wondercard5thGenFixed)
{
rng64.Seed = InitialSeed;
if (maxResults < 1000)
{
rngArray = new uint[maxResults + 36];
for (uint cnt = 0; cnt < InitialFrame - 1; cnt++)
{
rng64.GetNext64BitNumber();
}
for (int cnt = 0; cnt < maxResults + 36; cnt++)
{
rngArray[cnt] = rng64.GetNext32BitNumber();
}
for (uint cnt = 0; cnt < maxResults; cnt++)
{
//note: pid field is unused look into later
uint pid = Functions.GenderModPID(rngArray[30 + cnt], rngArray[31 + cnt], 0);
Frame frame =
Frame.GenerateFrame(
FrameType.Wondercard5thGenFixed,
id, sid,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[24 + cnt] >> 27,
rngArray[25 + cnt] >> 27,
rngArray[26 + cnt] >> 27,
rngArray[27 + cnt] >> 27,
rngArray[28 + cnt] >> 27,
rngArray[29 + cnt] >> 27,
rngArray[35 + cnt],
rngArray[30 + cnt]);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else
{
rngQueue = new Queue<uint>();
for (int i = 0; i < InitialFrame - 1; ++i)
{
rng64.GetNext64BitNumber();
}
for (int cnt = 0; cnt < 36; cnt++)
{
rngQueue.Enqueue(rng64.GetNext32BitNumber());
}
for (uint cnt = InitialFrame; cnt < InitialFrame + maxResults; cnt++)
{
rngArray = rngQueue.ToArray();
Frame frame =
Frame.GenerateFrame(
FrameType.Wondercard5thGenFixed,
id, sid,
cnt,
rngArray[0],
rngArray[24] >> 27,
rngArray[25] >> 27,
rngArray[26] >> 27,
rngArray[27] >> 27,
rngArray[28] >> 27,
rngArray[29] >> 27,
rngArray[35],
rngArray[30]);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
rngQueue.Dequeue();
rngQueue.Enqueue(rng64.GetNext32BitNumber());
}
}
}
else if (frameType == FrameType.MethodH1 || frameType == FrameType.MethodH2 ||
frameType == FrameType.MethodH4)
{
// Instantiate our hunt RNG and fail RNG
var huntRng = new PokeRng(0);
// Instantiate our regular RNG
var rng1 = new PokeRng((uint) InitialSeed);
var rng2 = new PokeRng(0);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
rng1.Next();
}
for (ulong cnt = InitialFrame; cnt < maxResults + InitialFrame; cnt++)
{
// Get our first RNG call. If we are using a
// syncher this will determine whether we are
// going to honor it.
uint seed = rng1.Seed;
// skip the level and battle calcs
rng1.GetNext16BitNumber();
// Basically save our RNG state here
// so that we only advance rng1 once
// per monster.
rng2.Seed = rng1.Seed;
// if it's safari zone it's one before
// note: this should all be done inside the encounter slot calc
uint encounterCall = EncounterType == EncounterType.SafariZone ? seed : rng2.Seed;
int encounterSlot = EncounterSlotCalc.encounterSlot(encounterCall, frameType, EncounterType);
rng2.GetNext16BitNumber();
uint firstRng = rng2.GetNext16BitNumber();
uint nature = 0;
ulong offset = cnt + 3;
Compare CuteCheck = x => true;
if (EncounterMod != EncounterMod.Synchronize && EncounterMod != EncounterMod.CuteCharm)
{
// Dont want to synch at all, just use the
// RNG call to get our hunt nature,
nature = firstRng%25;
}
else if (EncounterMod == EncounterMod.Synchronize)
{
// Check for even/odd on the high order bit.
if ((firstRng & 1) == 0)
{
// Set the hunt to the nature of our syncher
nature = (uint) SynchNature;
}
else
{
// Ok, we wanted to synch, but missed it so lets
// get the next RNG call and then go ahead and
// use that for the nature.
nature = (uint) rng2.GetNext16BitNumber()%25;
offset++;
}
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
// Check for even/odd on the high order bit.
if ((firstRng%3) > 0)
{
switch (SynchNature)
{
case -1:
CuteCheck = x => (x & 0xFF) < 127;
break;
case 1:
CuteCheck = x => (x & 0xFF) >= 127;
break;
case -2:
CuteCheck = x => (x & 0xFF) < 191;
break;
case 2:
CuteCheck = x => (x & 0xFF) >= 63;
break;
case -3:
CuteCheck = x => (x & 0xFF) < 63;
break;
case 3:
CuteCheck = x => (x & 0xFF) >= 191;
break;
case -4:
CuteCheck = x => (x & 0xFF) < 31;
break;
case 4:
CuteCheck = x => (x & 0xFF) >= 31;
break;
default:
CuteCheck = x => true;
break;
}
}
// either way, eat up a frame for the Cute Charm check and determine nature
nature = (uint) rng2.GetNext16BitNumber()%25;
offset++;
}
// Seed the hunt rng
huntRng.Seed = rng2.Seed;
bool found = false;
// Now we are going to have to hunt for the next
// matching method 1 spread that we can display
// to the user.
while (!found)
{
uint pid1 = huntRng.GetNext16BitNumber();
uint pid2 = huntRng.GetNext16BitNumber();
uint pid = (pid2 << 16) + pid1;
if (pid%25 == nature && CuteCheck(pid))
{
// Wild Pokémon IVs are generally generated by Methods 2 and 4
uint iv1;
if (frameType == FrameType.MethodH2)
{
huntRng.GetNext32BitNumber();
iv1 = huntRng.GetNext16BitNumber();
}
else if (frameType == FrameType.MethodH4)
{
iv1 = huntRng.GetNext16BitNumber();
huntRng.GetNext32BitNumber();
}
else
{
// Use Method 1, which is what usually happens for stationary Pokémon
// Emphasis on "usually".
iv1 = huntRng.GetNext16BitNumber();
}
uint iv2 = huntRng.GetNext16BitNumber();
// We found a match, we need to buid the frame
// as usual now based on the next few RNG calls
frame =
Frame.GenerateFrame(
seed,
frameType,
EncounterType,
(uint) cnt,
firstRng,
pid1,
pid2,
iv1,
iv2,
id, sid, (uint) offset,
encounterSlot);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
found = true;
}
offset += 2;
}
}
}
else if (frameType == FrameType.MethodJ)
{
// Instantiate our hunt RNG and fail RNG
var huntRng = new PokeRng(0);
// Instantiate our regular RNG
var rng1 = new PokeRng((uint) InitialSeed);
var rng2 = new PokeRng(0);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
rng1.Next();
}
for (uint cnt = InitialFrame; cnt < maxResults + InitialFrame; cnt++)
{
// Get our first RNG call. If we are using a
// syncher this will determine whether we are
// going to honor it.
uint seed = rng1.Seed;
uint firstRng = rng1.GetNext16BitNumber();
uint rngResult = firstRng;
// Basically save our RNG state here
// so that we only advance rng1 once
// per monster.
rng2.Seed = rng1.Seed;
uint offset = cnt + 1;
int encounterSlot = 0;
if (EncounterType == EncounterType.Wild)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.Seed, frameType, EncounterType);
firstRng = rng2.GetNext16BitNumber();
offset++;
}
else if (EncounterType == EncounterType.WildSurfing)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.Seed, frameType, EncounterType);
firstRng = rng2.GetNext16BitNumber();
firstRng = rng2.GetNext16BitNumber();
offset += 2;
}
else if (EncounterType == EncounterType.WildOldRod || EncounterType == EncounterType.WildGoodRod ||
EncounterType == EncounterType.WildSuperRod)
{
uint threshold;
if (EncounterType == EncounterType.WildOldRod)
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 48u : 24u;
}
else if (EncounterType == EncounterType.WildGoodRod)
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 98u : 49u;
}
else
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 100u : 74u;
}
// Skip this call if it an encounter cannot be made
if (firstRng/656 > threshold)
continue;
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.GetNext32BitNumber(), frameType,
EncounterType);
// one of these is item calc, another is level
firstRng = rng2.GetNext16BitNumber();
firstRng = rng2.GetNext16BitNumber();
offset += 3;
}
uint nature;
if (EncounterMod == EncounterMod.Synchronize)
{
// Check for even/odd on the high order bit.
if (firstRng >> 15 == 0)
{
// Set the hunt to the nature our our syncher
nature = (uint) SynchNature;
}
else
{
// Ok, we wanted to synch, but missed it so lets
// get the next RNG call and then go ahead and
// use that for the nature.
nature = (uint) rng2.GetNext16BitNumber()/0xA3E;
offset++;
}
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
nature = (uint) rng2.GetNext16BitNumber()/0xA3E;
}
else
{
// Dont want to synch at all, just use the
// RNG call to get our hunt nature,
nature = firstRng/0xA3E;
}
if (EncounterMod == EncounterMod.CuteCharm && firstRng/0x5556 != 0)
{
uint buffer = 0;
if (SynchNature > -1)
{
switch (SynchNature)
{
case 1:
buffer = 0x96;
break;
case 2:
buffer = 0x4B;
break;
case 3:
buffer = 0xC8;
break;
case 4:
buffer = 0x32;
break;
default:
buffer = 0;
break;
}
}
// We found a match, we need to buid the frame
// as usual now based on the next few RNG calls
frame =
Frame.GenerateFrame(
seed,
FrameType.MethodJ,
EncounterType,
cnt,
rngResult,
nature + buffer,
0,
rng2.GetNext16BitNumber(),
rng2.GetNext16BitNumber(),
id, sid, offset - 2,
encounterSlot);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
else
{
// Seed the hunt rng
huntRng.Seed = rng2.Seed;
bool found = false;
// Now we are going to have to hunt for the next
// matching method 1 spread that we can display
// to the user.
while (!found)
{
uint pid1 = huntRng.GetNext16BitNumber();
uint pid2 = huntRng.GetNext16BitNumber();
uint pid = (pid2 << 16) + pid1;
if (pid%25 == nature)
{
// We found a match, we need to buid the frame
// as usual now based on the next few RNG calls
frame =
Frame.GenerateFrame(
seed,
FrameType.MethodJ,
EncounterType,
cnt,
rngResult,
pid1,
pid2,
huntRng.GetNext16BitNumber(),
huntRng.GetNext16BitNumber(),
id, sid, offset,
encounterSlot);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
found = true;
}
offset += 2;
}
}
}
}
else if (frameType == FrameType.MethodK)
{
// Instantiate our hunt RNG and fail RNG
var huntRng = new PokeRng(0);
// Instantiate our regular RNG
var rng1 = new PokeRng((uint) InitialSeed);
var rng2 = new PokeRng(0);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
{
rng1.Next();
}
for (uint cnt = InitialFrame; cnt < maxResults + InitialFrame; cnt++)
{
// Get our first RNG call. If we are using a
// syncher this will determine whether we are
// going to honor it.
uint seed = rng1.Seed;
uint firstRng = rng1.GetNext16BitNumber();
uint rngResult = firstRng;
// Basically save our RNG state here
// so that we only advance rng1 once
// per monster.
rng2.Seed = rng1.Seed;
uint offset = cnt + 1;
int encounterSlot = 0;
if (EncounterType == EncounterType.Wild || EncounterType == EncounterType.SafariZone)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.Seed, frameType, EncounterType);
firstRng = rng2.GetNext16BitNumber();
offset++;
}
else if (EncounterType == EncounterType.WildSurfing || EncounterType == EncounterType.Headbutt ||
EncounterType == EncounterType.BugCatchingContest)
{
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.Seed, frameType, EncounterType);
firstRng = rng2.GetNext16BitNumber();
firstRng = rng2.GetNext16BitNumber();
offset += 2;
}
else if (EncounterType == EncounterType.WildOldRod ||
EncounterType == EncounterType.WildGoodRod ||
EncounterType == EncounterType.WildSuperRod)
{
uint threshold;
if (EncounterType == EncounterType.WildOldRod)
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 48u : 24u;
}
else if (EncounterType == EncounterType.WildGoodRod)
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 98u : 49u;
}
else
{
threshold = EncounterMod == EncounterMod.SuctionCups ? 100u : 74u;
}
// Skip this call if it an encounter cannot be made
if (firstRng%100 > threshold)
continue;
encounterSlot = EncounterSlotCalc.encounterSlot(rng2.GetNext32BitNumber(), frameType,
EncounterType);
// one of these is item calc, another is level
firstRng = rng2.GetNext16BitNumber();
firstRng = rng2.GetNext16BitNumber();
offset += 3;
}
uint nature;
if (EncounterMod == EncounterMod.Synchronize)
{
// Check for even/odd on the low order bit
if ((firstRng & 1) == 0)
{
// Set the hunt to the nature our our syncher
nature = (uint) SynchNature;
}
else
{
// Ok, we wanted to synch, but missed it so lets
// get the next RNG call and then go ahead and
// use that for the nature.
nature = (uint) rng2.GetNext16BitNumber()%25;
offset++;
}
}
else if (EncounterMod == EncounterMod.CuteCharm)
{
nature = (uint) rng2.GetNext16BitNumber()%25;
}
else
{
// Dont want to synch at all, just use the
// RNG call to get our hunt nature,
nature = firstRng%25;
}
if (EncounterMod == EncounterMod.CuteCharm && firstRng%3 != 0)
{
uint buffer = 0;
if (SynchNature > -1)
{
switch (SynchNature)
{
case 1:
buffer = 0x96;
break;
case 2:
buffer = 0x4B;
break;
case 3:
buffer = 0xC8;
break;
case 4:
buffer = 0x32;
break;
default:
buffer = 0;
break;
}
}
// We found a match, we need to buid the frame
// as usual now based on the next few RNG calls
frame =
Frame.GenerateFrame(
seed,
FrameType.MethodK,
EncounterType,
cnt,
rngResult,
nature + buffer,
0,
rng2.GetNext16BitNumber(),
rng2.GetNext16BitNumber(),
id, sid, offset - 2,
encounterSlot);
if (EncounterType == EncounterType.BugCatchingContest ||
EncounterType == EncounterType.SafariZone)
frame.Synchable = true;
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
else
{
// Seed the hunt rng
huntRng.Seed = rng2.Seed;
bool found = false;
// Now we are going to have to hunt for the next
// matching method 1 spread that we can display
// to the user.
while (!found)
{
uint pid1 = huntRng.GetNext16BitNumber();
uint pid2 = huntRng.GetNext16BitNumber();
uint pid = (pid2 << 16) + pid1;
if (pid%25 == nature)
{
// We found a match, we need to buid the frame
// as usual now based on the next few RNG calls
frame =
Frame.GenerateFrame(
seed,
FrameType.MethodK,
EncounterType,
cnt,
rngResult,
pid1,
pid2,
huntRng.GetNext16BitNumber(),
huntRng.GetNext16BitNumber(),
id, sid, offset,
encounterSlot);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
found = true;
}
offset += 2;
}
}
}
}
else if (frameType == FrameType.ColoXD)
{
var rng = new XdRng((uint) InitialSeed);
for (uint cnt = 1; cnt < InitialFrame - 1; cnt++)
rng.GetNext32BitNumber();
rngArray = new uint[maxResults + 5];
for (uint cnt = 0; cnt < maxResults; cnt++)
rngArray[cnt] = rng.GetNext16BitNumber();
for (uint cnt = 0; cnt < maxResults; cnt++)
{
frame = Frame.GenerateFrame(
0,
FrameType.ColoXD,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[4 + cnt],
rngArray[3 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
id, sid);
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
}
}
else
{
// We are going to grab our initial set of rngs here and
// then start our loop so that we can iterate as many
// times as we have to.
var rng = new PokeRng((uint) InitialSeed);
for (uint cnt = 1; cnt < InitialFrame; cnt++)
rng.GetNext32BitNumber();
rngArray = new uint[maxResults + 20];
for (uint cnt = 0; cnt < maxResults + 20; cnt++)
rngArray[cnt] = rng.GetNext16BitNumber();
lastseed = rng.Seed;
for (uint cnt = 0; cnt < maxResults; cnt++)
{
Frame frameSplit = null;
switch (frameType)
{
case FrameType.Method1:
frame =
Frame.GenerateFrame(
0,
FrameType.Method1,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
break;
case FrameType.Method2:
frame =
Frame.GenerateFrame(
0,
FrameType.Method2,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
break;
case FrameType.Method3:
frame =
Frame.GenerateFrame(
0,
FrameType.Method3,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
break;
case FrameType.Method4:
frame =
Frame.GenerateFrame(
0,
FrameType.Method4,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[4 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
break;
case FrameType.ChainedShiny:
uint chainedPIDLower = Functions.ChainedPIDLower(
rngArray[1 + cnt],
rngArray[15 + cnt],
rngArray[14 + cnt],
rngArray[13 + cnt],
rngArray[12 + cnt],
rngArray[11 + cnt],
rngArray[10 + cnt],
rngArray[9 + cnt],
rngArray[8 + cnt],
rngArray[7 + cnt],
rngArray[6 + cnt],
rngArray[5 + cnt],
rngArray[4 + cnt],
rngArray[3 + cnt]);
frame = Frame.GenerateFrame(
0,
FrameType.ChainedShiny,
cnt + InitialFrame,
rngArray[0 + cnt],
chainedPIDLower,
Functions.ChainedPIDUpper(rngArray[2 + cnt], chainedPIDLower, id, sid),
rngArray[16 + cnt],
rngArray[17 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
break;
case FrameType.EBredPID:
uint total;
uint pid = GetEPid(cnt, out total);
if (pid == 0)
{
continue;
}
//generate frame with bogus RNG result
frame = Frame.GenerateFrame(FrameType.EBredPID, cnt + InitialFrame, 0, pid, id, sid);
frame.Advances = total;
//new Frame {FrameType = FrameType.EBredPID, Number = cnt + InitialFrame, Pid = pid};
break;
case FrameType.RSBredLower:
frame =
Frame.GenerateFrame(
FrameType.RSBredLower,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[1 + cnt],
Compatibility
);
break;
case FrameType.RSBredUpper:
frame =
Frame.GenerateFrame(
FrameType.RSBredUpper,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
// vblank
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
rngArray[9 + cnt],
rngArray[10 + cnt],
ParentA,
ParentB,
id, sid);
break;
case FrameType.RSBredUpperSplit:
frame =
frame =
Frame.GenerateFrame(
FrameType.RSBredUpperSplit,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
// vblank
rngArray[2 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
// another vblank
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
rngArray[9 + cnt],
rngArray[10 + cnt],
rngArray[11 + cnt],
ParentA,
ParentB,
id, sid);
break;
// untested needs further research
case FrameType.RSBredUpperAlt:
frame =
Frame.GenerateFrame(
FrameType.RSBredUpperAlt,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
// vblank
rngArray[2 + cnt],
rngArray[3 + cnt],
// vblank
rngArray[5 + cnt],
// vblank
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
rngArray[9 + cnt],
rngArray[10 + cnt],
ParentA,
ParentB,
id, sid);
break;
case FrameType.Bred:
frame =
Frame.GenerateFrame(
FrameType.Bred,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
ParentA,
ParentB,
id, sid, cnt);
break;
case FrameType.BredSplit:
// This is going to add both of the frames and
// the logic below will decide whether to add
// it to the output.
frame =
Frame.GenerateFrame(
FrameType.Bred,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
rngArray[0 + cnt],
rngArray[1 + cnt],
// Garbage
rngArray[3 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
ParentA,
ParentB,
id, sid, cnt);
frameSplit =
Frame.GenerateFrame(
FrameType.BredSplit,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
rngArray[0 + cnt],
rngArray[2 + cnt],
// Garbage
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
rngArray[9 + cnt],
ParentA,
ParentB,
id, sid, cnt);
break;
case FrameType.BredAlternate:
frame =
Frame.GenerateFrame(
FrameType.Bred,
cnt + InitialFrame,
rngArray[0 + cnt],
StaticPID,
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
rngArray[8 + cnt],
rngArray[9 + cnt],
ParentA,
ParentB,
id, sid, cnt);
break;
case FrameType.DPPtBred:
frame =
Frame.GenerateFrame(
FrameType.DPPtBred,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
ParentA,
ParentB,
id, sid, cnt);
break;
case FrameType.HGSSBred:
frame =
Frame.GenerateFrame(
FrameType.HGSSBred,
cnt + InitialFrame,
rngArray[0 + cnt],
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
ParentA,
ParentB,
id, sid, cnt);
break;
case FrameType.WondercardIVs:
if (EncounterType == EncounterType.Manaphy)
{
uint pid1 = rngArray[0 + cnt];
uint pid2 = rngArray[1 + cnt];
while ((pid1 ^ pid2 ^ id ^ sid) < 8)
{
uint testPID = pid1 | (pid2 << 16);
// Call the ARNG to change the PID
testPID = testPID*0x6c078965 + 1;
pid1 = testPID & 0xFFFF;
pid2 = testPID >> 16;
}
frame =
Frame.GenerateFrame(
0,
FrameType.WondercardIVs,
cnt + InitialFrame,
rngArray[0 + cnt],
pid1,
pid2,
rngArray[2 + cnt],
rngArray[3 + cnt],
0, 0, 0, 0, 0, 0,
id, sid, cnt);
}
else
{
frame =
Frame.GenerateFrame(
0,
FrameType.WondercardIVs,
cnt + InitialFrame,
rngArray[0 + cnt],
0,
0,
rngArray[0 + cnt],
rngArray[1 + cnt],
rngArray[2 + cnt],
rngArray[3 + cnt],
rngArray[4 + cnt],
rngArray[5 + cnt],
rngArray[6 + cnt],
rngArray[7 + cnt],
id, sid, cnt);
}
break;
}
// Now we need to filter and decide if we are going
// to add this to our collection for display to the
// user.
if (frameCompare.Compare(frame))
{
frames.Add(frame);
}
if (frameType == FrameType.BredSplit)
{
if (frameCompare.Compare(frameSplit))
{
frames.Add(frameSplit);
}
}
}
}
return frames;
}
private void searchGenIII(DateTime seedTime, bool usePID, uint pid, bool useID, ushort searchID, bool useSID,
ushort searchSID)
{
//empty should be 0x000005A0
uint seed = Functions.CalculateSeedGen3(seedTime);
//dry batteries always use this seed
var rng = new PokeRng(seed);
resultsCount = 0;
isSearching = true;
//get to the proper starting frame and throw out the first call at that frame (generation takes 3 calls)
for (int i = 0; i < minFrame; ++i) rng.GetNext32BitNumber();
//prepare for the first sid call by setting the is now
ushort id = rng.GetNext16BitNumber();
for (int frame = minFrame; frame <= maxFrame; ++frame)
{
//sid is always the id of the previous frame
ushort sid = id;
id = rng.GetNext16BitNumber();
//check criteria
if ((!usePID || Functions.Shiny(pid, id, sid)) && (!useID || searchID == id) &&
(!useSID || searchSID == sid))
{
resultsListIII.Add(new IDListIII {Frame = frame, ID = id, SID = sid});
++resultsCount;
}
}
isSearching = false;
lblAction.Text = "Done. - Awaiting Command";
}