public List<Frame> Generate( FrameCompare frameCompare, uint hp, uint atk, uint def, uint spa, uint spd, uint spe, List<uint> natures, uint minEfgh, uint maxEfgh, uint id, uint sid) { frames = new List<Frame>(); var candidates = new List<Frame>(); var rng = new PokeRngR(0); uint x_test = spe | (spa << 5) | (spd << 10); uint y_test = hp | (atk << 5) | (def << 10); #region // Experimentally derived // Any possible test seed will have at most // a difference of 0x31 from the target seed. // If it's close enough, we can then modify it // to match. /* for (uint cnt = 0xFFFF; cnt > 0xF2CC; cnt--) { uint seed = (x_test << 16) | cnt; // Do a quick search for matching seeds // with a lower 16-bits between 0xFFFF and 0xF2CD. // We'll take the closest matches and subtract 0xD33 // until it produces the correct seed (or doesn't). // Best we can do until we find a way to // calculate them directly. rng.Seed = seed; ushort rng1 = rng.GetNext16BitNumber(); // We don't have to worry about unsigned overflow // because y_test is never more than 0x7FFF if (y_test < 0x31) { if (rng1 <= (y_test - 0x31)) { while ((seed & 0xFFFF) > 0xD32 && (rng1 & 0x7FFF) < y_test) { seed = seed - 0xD33; rng.Seed = seed; rng1 = rng.GetNext16BitNumber(); } } } else { if (rng1 >= (y_test - 0x31)) { while ((seed & 0xFFFF) > 0xD32 && (rng1 & 0x7FFF) < y_test) { seed = seed - 0xD33; rng.Seed = seed; rng1 = rng.GetNext16BitNumber(); } } } */ #endregion for (uint cnt = 0x0; cnt < 0xFFFF; cnt++) { uint seed = (x_test << 16) | cnt; rng.Seed = seed; ushort rng1 = rng.GetNext16BitNumber(); // Check to see if the next frame yields // the HP, Attack, and Defense IVs we're searching for // If not, skip 'em. if ((rng1 & 0x7FFF) != y_test) continue; // We have a max of 5 total RNG calls // to make a pokemon and we already have // one so lets go ahead and get 4 more. uint seedWondercard = rng.GetNext32BitNumber(); var rng2 = (ushort) (seedWondercard >> 16); ushort rng3 = rng.GetNext16BitNumber(); ushort rng4 = rng.GetNext16BitNumber(); uint method1Seed = rng.Seed; // Instead of re-searching the entire space for seeds that are // basically identical except for the upper bit, we'll // just flip the upper seed bits instead. for (int upperBit = 0; upperBit < 2; upperBit++) { rng2 = (ushort) (rng2 ^ 0x8000); rng3 = (ushort) (rng3 ^ 0x8000); rng4 = (ushort) (rng4 ^ 0x8000); method1Seed = method1Seed ^ 0x80000000; rng.Seed = rng.Seed ^ 0x80000000; if (frameType == FrameType.WondercardIVs) { seedWondercard = seedWondercard ^ 0x80000000; frame = Frame.GenerateFrame(seedWondercard, frameType, EncounterType, 0, seedWondercard, 0, 0, rng1, x_test, id, sid, 0, 0); candidates.Add(frame); } foreach (uint nature in natures) { if (frameType == FrameType.ChainedShiny) { var testRng = new PokeRngR(rng.Seed); var rngCalls = new uint[15]; rngCalls[0] = rng2; rngCalls[1] = rng3; rngCalls[2] = rng4; for (int calls = 3; calls < 15; calls++) { rngCalls[calls] = testRng.GetNext16BitNumber(); } testRng.GetNext32BitNumber(); testRng.GetNext32BitNumber(); uint chainedPIDLower = Functions.ChainedPIDLower( rngCalls[14], rngCalls[0], rngCalls[1], rngCalls[2], rngCalls[3], rngCalls[4], rngCalls[5], rngCalls[6], rngCalls[7], rngCalls[8], rngCalls[9], rngCalls[10], rngCalls[11], rngCalls[12]); uint chainedPIDUpper = Functions.ChainedPIDUpper(rngCalls[13], chainedPIDLower, id, sid); if (IVtoSeed.CheckPID(chainedPIDUpper, chainedPIDLower, nature)) { frame = Frame.GenerateFrame(testRng.Seed, frameType, EncounterType, 0, testRng.Seed, chainedPIDLower, chainedPIDUpper, rng1, x_test, id, sid, 0, 0); candidates.Add(frame); } } if (frameType == FrameType.Method1) { // Check Method 1 // [PID] [PID] [IVs] [IVs] // [rng3] [rng2] [rng1] [START] if (IVtoSeed.CheckPID(rng2, rng3, nature)) { frame = Frame.GenerateFrame(method1Seed, frameType, EncounterType, 0, method1Seed, rng3, rng2, rng1, x_test, id, sid, 0, 0); candidates.Add(frame); } } if (frameType == FrameType.MethodJ) { // Check Method 1, then roll back to see if it is a hittable frame if (IVtoSeed.CheckPID(rng2, rng3, nature)) { var testRng = new PokeRngR(rng.Seed); uint testPid; uint nextRng = rng4; uint nextRng2 = testRng.GetNext32BitNumber(); uint slot = 0; // A spread is only made accessible if there are no other PIDs between // it and the calling frame that have the same nature as the spread. do { bool skipFrame = false; // Check to see if this is a valid non-Synch calling frame // If it is, we won't bother checking it with Synch because it works either way if (nextRng/0xA3E == nature) { uint testSeed = testRng.Seed; var encounterMod = EncounterMod.None; if (EncounterType != EncounterType.Stationary) { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; slot = nextRng2; if (EncounterType == EncounterType.WildSurfing) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble <= 48) { if (nibble > 24) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } else if (EncounterType == EncounterType.WildGoodRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble <= 98) { if (nibble > 49) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } else if (EncounterType == EncounterType.WildSuperRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble <= 99) { if (nibble > 74) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } } if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); frame.EncounterMod = encounterMod; candidates.Add(frame); } // Check if the frame appears as the result of a failed Synch if (nextRng2 >> 31 == 1) { if (EncounterType == EncounterType.WildOldRod) { uint nibble = (testSeed >> 16)/656; if (nibble > 24) { skipFrame = true; } } else if (EncounterType == EncounterType.WildGoodRod) { uint nibble = (testSeed >> 16)/656; if (nibble > 49) { skipFrame = true; } } else if (EncounterType == EncounterType.WildSuperRod) { uint nibble = (testSeed >> 16)/656; if (nibble > 74) { skipFrame = true; } } slot = slot*0xeeb9eb65 + 0xa3561a1; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); frame.EncounterMod = EncounterMod.Synchronize; candidates.Add(frame); } } } // Check to see if the spread is hittable with Synchronize else if (nextRng >> 15 == 0) { uint testSeed = testRng.Seed; if (EncounterType != EncounterType.Stationary) { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; slot = nextRng2; if (EncounterType == EncounterType.WildSurfing) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble > 24) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } else if (EncounterType == EncounterType.WildGoodRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble > 49) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } else if (EncounterType == EncounterType.WildSuperRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)/656; if (nibble > 74) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } } if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.Synchable = true; frame.EncounterMod = EncounterMod.Synchronize; frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); candidates.Add(frame); } } testPid = (nextRng << 16) | nextRng2 >> 16; nextRng = testRng.GetNext16BitNumber(); nextRng2 = testRng.GetNext32BitNumber(); } while (testPid%25 != nature); } // Check DPPt Cute Charm (female) // [CC Check] [PID] [IVs] [IVs] // [rng3] [rng2] [rng1] [START] if (rng3/0x5556 != 0) { uint CCSeed; uint slot = 0; bool skipFrame = false; if (EncounterType == EncounterType.Stationary) CCSeed = method1Seed; else { CCSeed = method1Seed*0xeeb9eb65 + 0xa3561a1; slot = method1Seed; if (EncounterType == EncounterType.WildSurfing) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)/656 > 24) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildGoodRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)/656 > 49) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildSuperRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)/656 > 74) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } } // Each gender ratio has a different // unbiased (non-nature-affective) number that is // added to the PID var choppedPID = (ushort) (rng2/0xA3E); if (!skipFrame && IVtoSeed.CheckPID(0, choppedPID, nature)) { foreach (uint buffer in Functions.UnbiasedBuffer) { frame = Frame.GenerateFrame(CCSeed, frameType, EncounterType, 0, CCSeed, choppedPID + buffer, 0, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); switch (buffer) { case 0x0: frame.EncounterMod = EncounterMod.CuteCharmFemale; break; case 0x96: frame.EncounterMod = EncounterMod.CuteCharm50M; break; case 0xC8: frame.EncounterMod = EncounterMod.CuteCharm25M; break; case 0x4B: frame.EncounterMod = EncounterMod.CuteCharm75M; break; case 0x32: frame.EncounterMod = EncounterMod.CuteCharm875M; break; default: frame.EncounterMod = EncounterMod.CuteCharm; break; } candidates.Add(frame); } } } } else if (frameType == FrameType.MethodK) { // Check Method 1, then roll back to see if it is a hittable frame if (IVtoSeed.CheckPID(rng2, rng3, nature)) { var testRng = new PokeRngR(rng.Seed); uint testPid; uint nextRng = rng4; uint nextRng2 = testRng.GetNext32BitNumber(); uint slot = 0; // A spread is only made accessible if there are no other PIDs between // it and the calling frame that have the same nature as the spread. do { bool skipFrame = false; // Check to see if this is a valid non-Synch calling frame // If it is, we won't bother checking it with Synch because it works either way if (nextRng%25 == nature) { uint testSeed = testRng.Seed; var encounterMod = EncounterMod.None; if (EncounterType != EncounterType.Stationary) { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; slot = nextRng2; if (EncounterType == EncounterType.WildSurfing || EncounterType == EncounterType.BugCatchingContest || EncounterType == EncounterType.Headbutt) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble <= 48) { if (nibble > 24) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } else if (EncounterType == EncounterType.WildGoodRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble <= 98) { if (nibble > 49) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } else if (EncounterType == EncounterType.WildSuperRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble <= 99) { if (nibble > 74) { encounterMod = EncounterMod.SuctionCups; } testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else skipFrame = true; } } if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); frame.EncounterMod = encounterMod; candidates.Add(frame); } // Check if the frame appears as the result of a failed Synch if (((nextRng2 >> 16) & 1) == 1) { if (EncounterType == EncounterType.WildOldRod) { uint nibble = (testSeed >> 16)%100; if (nibble > 24) { skipFrame = true; } } else if (EncounterType == EncounterType.WildGoodRod) { uint nibble = (testSeed >> 16)%100; if (nibble > 49) { skipFrame = true; } } else if (EncounterType == EncounterType.WildSuperRod) { uint nibble = (testSeed >> 16)%100; if (nibble > 74) { skipFrame = true; } } slot = slot*0xeeb9eb65 + 0xa3561a1; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); frame.EncounterMod = EncounterMod.Synchronize; candidates.Add(frame); } } } // Check to see if the spread is hittable with Synchronize else if ((nextRng & 1) == 0) { uint testSeed = testRng.Seed; if (EncounterType != EncounterType.Stationary) { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; slot = nextRng2; if (EncounterType == EncounterType.WildSurfing || EncounterType == EncounterType.BugCatchingContest || EncounterType == EncounterType.Headbutt) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble > 24) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } else if (EncounterType == EncounterType.WildGoodRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble > 49) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } else if (EncounterType == EncounterType.WildSuperRod) { slot = testSeed; testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; uint nibble = (testSeed >> 16)%100; if (nibble > 74) { skipFrame = true; } else { testSeed = testSeed*0xeeb9eb65 + 0xa3561a1; } } } if (!skipFrame) { frame = Frame.GenerateFrame(testSeed, frameType, EncounterType, 0, testSeed, rng3, rng2, rng1, x_test, id, sid, 0, 0); frame.Synchable = true; frame.EncounterMod = EncounterMod.Synchronize; frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); candidates.Add(frame); } } testPid = (nextRng << 16) | nextRng2 >> 16; nextRng = testRng.GetNext16BitNumber(); nextRng2 = testRng.GetNext32BitNumber(); } while (testPid%25 != nature); } if (rng3%3 != 0) { uint CCSeed; uint slot = 0; bool skipFrame = false; if (EncounterType == EncounterType.Stationary) CCSeed = method1Seed; else { CCSeed = method1Seed*0xeeb9eb65 + 0xa3561a1; slot = method1Seed; if (EncounterType == EncounterType.WildSurfing || EncounterType == EncounterType.BugCatchingContest) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildOldRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)%100 > 24) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildGoodRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)%100 > 49) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } else if (EncounterType == EncounterType.WildSuperRod) { CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; slot = slot*0xeeb9eb65 + 0xa3561a1; if ((CCSeed >> 16)%100 > 74) skipFrame = true; else CCSeed = CCSeed*0xeeb9eb65 + 0xa3561a1; } } // Check HGSS Cute Charm // [CC Check] [PID] [IVs] [IVs] // [rng3] [rng2] [rng1] [START] // Each gender ratio has a different // unbiased (non-nature-affective) number that is // added to the PID var choppedPID = (ushort) (rng2%25); if (!skipFrame && IVtoSeed.CheckPID(0, choppedPID, nature)) { foreach (uint buffer in Functions.UnbiasedBuffer) { frame = Frame.GenerateFrame(CCSeed, frameType, EncounterType, 0, CCSeed, choppedPID + buffer, 0, rng1, x_test, id, sid, 0, 0); frame.EncounterSlot = EncounterSlotCalc.encounterSlot(slot, frameType, EncounterType); switch (buffer) { case 0x0: frame.EncounterMod = EncounterMod.CuteCharmFemale; break; case 0x96: frame.EncounterMod = EncounterMod.CuteCharm50M; break; case 0xC8: frame.EncounterMod = EncounterMod.CuteCharm25M; break; case 0x4B: frame.EncounterMod = EncounterMod.CuteCharm75M; break; case 0x32: frame.EncounterMod = EncounterMod.CuteCharm875M; break; default: frame.EncounterMod = EncounterMod.CuteCharm; break; } candidates.Add(frame); } } } } } } } // Now that we have some possibilities for frames, // We'll filter out ones that don't meet user criteria // Then roll back the RNG for each of them to make sure // each is within the user-specified maximum frames // from a DPPtHGSS-style seed. foreach (Frame candidate in candidates) { if (frameCompare.Compare(candidate)) { // start backing up frames until the user-specified max rng.Seed = candidate.Seed; const uint start = 1; for (uint backCount = start; backCount <= MaxResults; backCount++) { uint testSeed = rng.Seed; //uint seedAB = testSeed >> 24; uint seedCD = (testSeed & 0x00FF0000) >> 16; uint seedEFGH = testSeed & 0x0000FFFF; // Check to see if seed follows ABCDEFGH format // And matches-user specified delay if (seedEFGH > minEfgh && seedEFGH < maxEfgh) { // CD must be between 0-23 if (seedCD < 23) { if (backCount >= InitialFrame) { Frame frameCopy = Frame.Clone(candidate); frameCopy.Seed = testSeed; frameCopy.Number = backCount; frames.Add(frameCopy); } } } rng.GetNext32BitNumber(); } } } return frames; }
public List<Frame> GenerateWonderCard( FrameCompare frameCompare, uint id, uint sid, int shiny) { frames = new List<Frame>(); 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++) { uint pid = rngArray[30 + cnt]; switch (shiny) { case 0: pid = ForceNonShiny(pid, id, sid); break; case 2: pid = ForceShiny(pid, id, sid); break; } 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], pid); 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(); uint pid = rngArray[30]; switch (shiny) { case 0: pid = ForceNonShiny(pid, id, sid); break; case 2: pid = ForceShiny(pid, id, sid); break; } 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], pid); 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++) { uint pid = Functions.GenderModPID(rngArray[30 + cnt], rngArray[31 + cnt], 0); switch (shiny) { case 0: pid = ForceNonShiny(pid, id, sid); break; case 2: pid = ForceShiny(pid, id, sid); break; } Frame frame = Frame.GenerateFrame( FrameType.Wondercard5thGenFixed, cnt + InitialFrame, id, sid, 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], pid); if (frameCompare.Compare(frame)) { frames.Add(frame); } } } else { for (uint cnt = 0; cnt < InitialFrame - 1; cnt++) { rng64.GetNext64BitNumber(); } rngQueue = new Queue<uint>(); for (int cnt = 0; cnt < 36; cnt++) { rngQueue.Enqueue(rng64.GetNext32BitNumber()); } for (uint cnt = InitialFrame; cnt < InitialFrame + maxResults; cnt++) { rngArray = rngQueue.ToArray(); uint pid = Functions.GenderModPID(rngArray[30], rngArray[31], 0); switch (shiny) { case 0: pid = ForceNonShiny(pid, id, sid); break; case 2: pid = ForceShiny(pid, id, sid); break; } 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], pid); if (frameCompare.Compare(frame)) { frames.Add(frame); } rngQueue.Dequeue(); rngQueue.Enqueue(rng64.GetNext32BitNumber()); } } } return frames; }
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; }
// This generates a single frame, using IVs recalled from a stored hashtable public List<Frame> Generate(FrameCompare frameCompare, uint seed, uint IVHash, uint frameNumber) { frames = new List<Frame>(); frame = Frame.GenerateFrame( FrameType.Method5Standard, frameNumber, seed, (IVHash & 0x1F), (IVHash & 0x3E0) >> 5, (IVHash & 0x7C00) >> 10, ((IVHash >> 16) & 0x3E0) >> 5, ((IVHash >> 16) & 0x7C00) >> 10, ((IVHash >> 16) & 0x1F)); if (frameCompare.Compare(frame)) { frames.Add(frame); } return frames; }
// This is the smarter way of generating spreads // Takes a desired spread and derives the seed // Rather than searching all spreads for a match public List<Frame> Generate( uint minhp, uint maxhp, uint minatk, uint maxatk, uint mindef, uint maxdef, uint minspa, uint maxspa, uint minspd, uint maxspd, uint minspe, uint maxspe, uint nature) { var frames = new List<Frame>(); var rngXD = new XdRng(0); for (uint hp = minhp; hp <= maxhp; hp++) { for (uint atk = minatk; atk <= maxatk; atk++) { for (uint def = mindef; def <= maxdef; def++) { for (uint spa = minspa; spa <= maxspa; spa++) { for (uint spd = minspd; spd <= maxspd; spd++) { for (uint spe = minspe; spe <= maxspe; spe++) { frame = null; uint x_test = hp | (atk << 5) | (def << 10); uint y_test = spe | (spa << 5) | (spd << 10); // Now we want to start with IV2 and call the RNG for // values between 0 and FFFF in the low order bits. for (uint cnt = 0; cnt <= 0xFFFE; cnt++) { // Set our test seed here so we can start // working backwards to see if the rest // of the information we were provided // is a match. uint seed = (x_test << 16) | cnt; rngXD.Seed = seed; // We have a max of 5 total RNG calls // to make a pokemon and we already have // one so lets go ahead and get 4 more. ushort rng1XD = rngXD.GetNext16BitNumber(); if ((rng1XD & 0x7FFF) != y_test) continue; // this second call isn't used for anything we know of ushort rng2XD = rngXD.GetNext16BitNumber(); ushort rng3XD = rngXD.GetNext16BitNumber(); ushort rng4XD = rngXD.GetNext16BitNumber(); uint XDColoSeed = seed*0xB9B33155 + 0xA170F641; // Check Colosseum\XD // [IVs] [IVs] [xxx] [PID] [PID] // [START] [rng1] [rng3] [rng4] for (int highBit = 0; highBit < 2; highBit++) { XDColoSeed = XDColoSeed ^ 0x80000000; rng3XD = (ushort) (rng3XD ^ 0x8000); rng4XD = (ushort) (rng4XD ^ 0x8000); if (IVtoSeed.Check(rng1XD, rng3XD, rng4XD, spe, spa, spd, nature)) { frame = Frame.GenerateFrame (XDColoSeed, FrameType.ColoXD, 0, XDColoSeed, rng4XD, rng3XD, x_test, rng1XD, 0, 0, 0, 0, 0, 0, 0, 0, 0); frame.DisplayPrep(); frames.Add(frame); } } } } } } } } } return frames; }
public bool CompareEggIVs(Frame frame) { // Checks to see if the frame has at least three IVs that fit criteria // For 5th Gen Eggs int passCount = 0; if (CompareIV(hpCompare, frame.Hp, hpValue)) passCount++; if (CompareIV(atkCompare, frame.Atk, atkValue)) passCount++; if (CompareIV(defCompare, frame.Def, defValue)) passCount++; if (CompareIV(spaCompare, frame.Spa, spaValue)) passCount++; if (CompareIV(spdCompare, frame.Spd, spdValue)) passCount++; if (CompareIV(speCompare, frame.Spe, speValue)) passCount++; return passCount >= 3; }
public bool Compare(Frame frame) { // Check the nature first if (Natures != null) { // If the frame can be synchronized, it doesn't need to pass the check if (frame.EncounterMod != EncounterMod.Synchronize) { bool test = Natures.Any(nature => nature == frame.Nature); if (!test) return false; } } if (synchOnly) { if (!frame.Synchable) { return false; } } if (!GenderFilter.Filter(frame.GenderValue)) return false; if (!GenderFilter.Filter(frame.EncounterMod)) return false; // For 3rd Gen eggs - if an egg is not generated on that frame, ignore it if (frame.FrameType == FrameType.RSBredLower) { // need to replace this now that we're using numbered natures if (frame.Number == 0) return false; } // Go through and check each IV against what the user has required. // Skip if it's a FrameType that doesn't use IVs if (frame.FrameType != FrameType.Method5Natures && frame.FrameType != FrameType.Gen4Normal && frame.FrameType != FrameType.Gen4International && frame.FrameType != FrameType.RSBredLower) { if (ABcheck) { uint frameIv = frame.Hp; if (frame.DisplayHp == "A") frameIv = compareHpA; if (frame.DisplayHp == "B") frameIv = compareHpB; if (!CompareIV(hpCompare, frameIv, hpValue)) return false; frameIv = frame.Atk; if (frame.DisplayAtk == "A") frameIv = compareAtkA; if (frame.DisplayAtk == "B") frameIv = compareAtkB; if (!CompareIV(atkCompare, frameIv, atkValue)) return false; frameIv = frame.Def; if (frame.DisplayDef == "A") frameIv = compareDefA; if (frame.DisplayDef == "B") frameIv = compareDefB; if (!CompareIV(defCompare, frameIv, defValue)) return false; frameIv = frame.Spa; if (frame.DisplaySpa == "A") frameIv = compareSpaA; if (frame.DisplaySpa == "B") frameIv = compareSpaB; if (!CompareIV(spaCompare, frameIv, spaValue)) return false; frameIv = frame.Spd; if (frame.DisplaySpd == "A") frameIv = compareSpdA; if (frame.DisplaySpd == "B") frameIv = compareSpdB; if (!CompareIV(spdCompare, frameIv, spdValue)) return false; frameIv = frame.Spe; if (frame.DisplaySpe == "A") frameIv = compareSpeA; if (frame.DisplaySpe == "B") frameIv = compareSpeB; if (!CompareIV(speCompare, frameIv, speValue)) return false; } else { if (frame.DisplayHp != "A" && frame.DisplayHp != "B") { if (!CompareIV(hpCompare, frame.Hp, hpValue)) return false; } if (frame.DisplayAtk != "A" && frame.DisplayAtk != "B") { if (!CompareIV(atkCompare, frame.Atk, atkValue)) return false; } if (frame.DisplayDef != "A" && frame.DisplayDef != "B") { if (!CompareIV(defCompare, frame.Def, defValue)) return false; } if (frame.DisplaySpa != "A" && frame.DisplaySpa != "B") { if (!CompareIV(spaCompare, frame.Spa, spaValue)) return false; } if (frame.DisplaySpd != "A" && frame.DisplaySpd != "B") { if (!CompareIV(spdCompare, frame.Spd, spdValue)) return false; } if (frame.DisplaySpe != "A" && frame.DisplaySpe != "B") { if (!CompareIV(speCompare, frame.Spe, speValue)) return false; } } } if (shinyOnly) { if (!frame.Shiny) { return false; } } if (dreamWorld) { if (!frame.DreamAbility) { return false; } } if (encounterSlots != null) { bool test = false; foreach (int slot in encounterSlots) { if (slot == frame.EncounterSlot) { test = true; break; } } if (!test) return false; } if (ability != -1) { if ((ability == 0) && (frame.Ability != 0)) return false; if ((ability == 1) && (frame.Ability != 1)) return false; } return true; }