using System; using System.Collections.Generic; using System.Linq; namespace PKHeX.Core { /// /// Represents an Area where can be encountered, which contains a Location ID and data. /// public class EncounterArea { public int Location; public EncounterSlot[] Slots; /// /// Creates an empty encounter area ready for initialization. /// public EncounterArea() { } /// /// Creates an array of encounter data with a specified location ID. /// /// Encounter data /// /// Encounter Data is stored in the following format: (u16 Location, n*[u16 Species/Form, u8 Min, u8 Max]) /// private EncounterArea(byte[] data) { Location = BitConverter.ToUInt16(data, 0); Slots = new EncounterSlot[(data.Length - 2) / 4]; for (int i = 0; i < Slots.Length; i++) { int ofs = 2 + (i * 4); ushort SpecForm = BitConverter.ToUInt16(data, ofs); Slots[i] = new EncounterSlot { Species = SpecForm & 0x7FF, Form = SpecForm >> 11, LevelMin = data[ofs + 2], LevelMax = data[ofs + 3], }; } foreach (var slot in Slots) slot.Area = this; } public EncounterArea Clone(int location) { var Area = new EncounterArea { Location = location, Slots = new EncounterSlot[Slots.Length] }; for (int i = 0; i < Slots.Length; i++) { Area.Slots[i] = Slots[i].Clone(); Area.Slots[i].Area = Area; } return Area; } public EncounterArea[] Clone(int[] locations) { EncounterArea[] Areas = new EncounterArea[locations.Length]; for (int i = 0; i < locations.Length; i++) Areas[i] = Clone(locations[i]); return Areas; } private static IEnumerable GetSlots1_GW(byte[] data, ref int ofs, SlotType t) { int rate = data[ofs++]; return rate == 0 ? Enumerable.Empty() : ReadSlots(data, ref ofs, 10, t, rate); } private static EncounterSlot1[] GetSlots1_F(byte[] data, ref int ofs) { int count = data[ofs++]; return ReadSlots(data, ref ofs, count, SlotType.Super_Rod, -1); } private static EncounterSlot1[] GetSlots2_GW(byte[] data, ref int ofs, SlotType t, int slotSets, int slotCount) { byte[] rates = new byte[slotSets]; for (int i = 0; i < rates.Length; i++) rates[i] = data[ofs++]; var slots = ReadSlots(data, ref ofs, slotSets * slotCount, t, rates[0]); if (slotSets <= 1) return slots; for (int i = 0; i < slotCount; i++) { slots[i].Time = EncounterTime.Morning; } for (int r = 1; r < slotSets; r++) { for (int i = 0; i < slotCount; i++) { int index = i + r*slotCount; slots[index].Rate = rates[r]; slots[index].SlotNumber = i; slots[index].Time = r == 1 ? EncounterTime.Day : EncounterTime.Night; } } return slots; } private static List GetSlots2_F(byte[] data, ref int ofs, SlotType t) { // slot set ends in 0xFF 0x** 0x** var slots = new List(); int ctr = 0; int rate; do { rate = data[ofs++]; int species = data[ofs++]; int level = data[ofs++]; slots.Add(new EncounterSlot1 { Rate = rate, Species = species, LevelMin = level, LevelMax = level, SlotNumber = ctr++, Type = species == 0 ? SlotType.Special : t // day/night specific }); } while (rate != 0xFF); return slots; } private static EncounterSlot1[] GetSlots2_H(byte[] data, ref int ofs, SlotType t) { // slot set ends in 0xFF var slots = new List(); int tableCount = t == SlotType.Headbutt ? 2 : 1; SlotType slottype = t; while (tableCount != 0) { if (t == SlotType.Headbutt) slottype = tableCount == 2 ? SlotType.Headbutt_Special : SlotType.Headbutt; int rate = data[ofs++]; if (rate == 0xFF) // end of table { tableCount--; continue; } int species = data[ofs++]; int level = data[ofs++]; slots.Add(new EncounterSlot1 { Rate = rate, Species = species, LevelMin = level, LevelMax = level, Type = slottype }); } return slots.ToArray(); } private static IEnumerable GetAreas2(byte[] data, ref int ofs, SlotType t, int slotSets, int slotCount) { var areas = new List(); while (data[ofs] != 0xFF) // end { var location = data[ofs++] << 8 | data[ofs++]; var slots = GetSlots2_GW(data, ref ofs, t, slotSets, slotCount); var area = new EncounterArea { Location = location, Slots = slots, }; foreach (var slot in slots) slot.Area = area; areas.Add(area); } ofs++; return areas; } private static List GetAreas2_F(byte[] data, ref int ofs) { var areas = new List(); var types = new[] {SlotType.Old_Rod, SlotType.Good_Rod, SlotType.Super_Rod}; while (ofs != 0x18C) { areas.Add(new EncounterArea { Slots = GetSlots2_F(data, ref ofs, types[0]) .Concat(GetSlots2_F(data, ref ofs, types[1])) .Concat(GetSlots2_F(data, ref ofs, types[2])).ToArray() }); } // Read TimeFishGroups var dl = new List(); while (ofs < data.Length) dl.Add(new DexLevel { Species = data[ofs++], Level = data[ofs++]}); // Add TimeSlots foreach (var area in areas) { var slots = area.Slots; for (int i = 0; i < slots.Length; i++) { var slot = slots[i]; if (slot.Type != SlotType.Special) continue; Array.Resize(ref slots, slots.Length + 1); Array.Copy(slots, i, slots, i+1, slots.Length - i - 1); // shift slots down slots[i+1] = slot.Clone(); // differentiate copied slot int index = slot.LevelMin*2; for (int j = 0; j < 2; j++) // load special slot info { var s = (EncounterSlot1)slots[i + j]; s.Species = dl[index + j].Species; s.LevelMin = s.LevelMax = dl[index + j].Level; s.Type = slots[i - 1].Type; // special slots are never first in a set, so copy previous type s.Time = j == 0 ? EncounterTime.Morning | EncounterTime.Day : EncounterTime.Night; } } area.Slots = slots; } return areas; } private static IEnumerable GetAreas2_H(byte[] data, ref int ofs) { // Read Location Table var head = new List(); var headID = new List(); while (data[ofs] != 0xFF) { head.Add(new EncounterArea { Location = (data[ofs++] << 8) | data[ofs++], Slots = null, // later }); headID.Add(data[ofs++]); } ofs++; var rock = new List(); var rockID = new List(); while (data[ofs] != 0xFF) { rock.Add(new EncounterArea { Location = (data[ofs++] << 8) | data[ofs++], Slots = null, // later }); rockID.Add(data[ofs++]); } ofs++; ofs += 0x16; // jump over GetTreeMons // Read ptr table int[] ptr = new int[data.Length == 0x109 ? 6 : 9]; // GS : C for (int i = 0; i < ptr.Length; i++) ptr[i] = data[ofs++] | (data[ofs++] << 8); int baseOffset = ptr.Min() - ofs; // Read Tables for (int i = 0; i < head.Count; i++) { int o = ptr[headID[i]] - baseOffset; head[i].Slots = GetSlots2_H(data, ref o, SlotType.Headbutt); } for (int i = 0; i < rock.Count; i++) { int o = ptr[rockID[i]] - baseOffset; rock[i].Slots = GetSlots2_H(data, ref o, SlotType.Rock_Smash); } return head.Concat(rock); } private static IEnumerable GetSlots3(byte[] data, ref int ofs, int numslots, SlotType t) { var slots = new List(); int Ratio = data[ofs]; //1 byte padding if (Ratio > 0) { for (int i = 0; i < numslots; i++) { int Species = BitConverter.ToInt16(data, ofs + 4 + i * 4); if (Species <= 0) continue; slots.Add(new EncounterSlot { LevelMin = data[ofs + 2 + i * 4], LevelMax = data[ofs + 3 + i * 4], Species = Species, SlotNumber = i, Type = t }); } } ofs += 2 + numslots * 4; return slots; } private static IEnumerable GetSlots3_F(byte[] data, ref int ofs, int numslots) { var slots = new List(); int Ratio = data[ofs]; //1 byte padding if (Ratio > 0) { for (int i = 0; i < numslots; i++) { int Species = BitConverter.ToInt16(data, ofs + 4 + i * 4); if (Species <= 0) continue; var slot = new EncounterSlot { LevelMin = data[ofs + 2 + i*4], LevelMax = data[ofs + 3 + i*4], Species = Species, }; if (i < 2) { slot.Type = SlotType.Old_Rod; slot.SlotNumber = i; // 0,1 } else if (i < 5) { slot.Type = SlotType.Good_Rod; slot.SlotNumber = i - 2; // 0,1,2 } else { slot.Type = SlotType.Super_Rod; slot.SlotNumber = i - 5; // 0,1,2,3,4 } slots.Add(slot); } } ofs += 2 + numslots * 4; return slots; } private static EncounterSlot[] GetSlots4_DPPt_G(byte[] data, int ofs, int numslots, SlotType t) { var slots = new EncounterSlot[numslots]; for (int i = 0; i < numslots; i++) { int level = data[ofs + i*8]; int species = BitConverter.ToInt32(data, ofs + i*8 + 4); slots[i] = new EncounterSlot { LevelMax = level, LevelMin = level, Species = species, SlotNumber = i, Type = t }; } return slots; } private static EncounterSlot[] GetSlots4_HGSS_G(byte[] data, int ofs, int numslots, SlotType t) { var slots = new EncounterSlot[numslots * 3]; // First 36 slots are morning, day and night grass slots // The order is 12 level values, 12 morning species, 12 day species and 12 night species for (int i = 0; i < numslots; i++) { int level = data[ofs + i]; int species = BitConverter.ToUInt16(data, ofs + numslots + i * 2); slots[i] = new EncounterSlot { LevelMin = level, LevelMax = level, Species = species, SlotNumber = i, Type = t }; slots[numslots + i] = slots[i].Clone(); slots[numslots + i].Species = BitConverter.ToUInt16(data, ofs + numslots * 3 + i * 2); slots[numslots + i].Type = t; slots[numslots * 2 + i] = slots[i].Clone(); slots[numslots * 2 + i].Species = BitConverter.ToUInt16(data, ofs + numslots * 5 + i * 2); slots[numslots * 2 + i].Type = t; } return slots; } private static List GetSlots4_G_Replace(byte[] data, int ofs, int slotSize, EncounterSlot[] ReplacedSlots, int[] slotnums, SlotType t = SlotType.Grass) { //Special slots like GBA Dual Slot. Those slot only contain the info of species id, the level is copied from one of the first grass slots //for dppt slotSize = 4, for hgss slotSize = 2 var slots = new List(); int numslots = slotnums.Length; for (int i = 0; i < numslots; i++) { var baseSlot = ReplacedSlots[slotnums[i]]; if (baseSlot.LevelMin <= 0) continue; int species = BitConverter.ToUInt16(data, ofs + i / (4 / slotSize) * slotSize); if (species <= 0 || baseSlot.Species == species) // Empty or duplicate continue; var slot = baseSlot.Clone(); slot.Species = species; slot.Type = t; slot.SlotNumber = i; slots.Add(slot); } return slots; } private static IEnumerable GetSlots4DPPt_WFR(byte[] data, int ofs, int numslots, SlotType t) { var slots = new List(); for (int i = 0; i < numslots; i++) { // max, min, unused, unused, [32bit species] int Species = BitConverter.ToInt32(data, ofs + 4 + i * 8); if (Species <= 0) continue; // fishing and surf slots with species = 0 are not added // DPPt does not have fishing or surf swarms slots.Add(new EncounterSlot { LevelMax = data[ofs + 0 + i * 8], LevelMin = data[ofs + 1 + i * 8], Species = Species, SlotNumber = i, Type = t }); } EncounterUtil.MarkEncountersStaticMagnetPull(slots, PersonalTable.HGSS); return slots; } private static IEnumerable GetSlots4HGSS_WFR(byte[] data, int ofs, int numslots, SlotType t) { var slots = new List(); for (int i = 0; i < numslots; i++) { // min, max, [16bit species] int Species = BitConverter.ToInt16(data, ofs + 2 + i * 4); if (t == SlotType.Rock_Smash && Species <= 0) continue; // fishing and surf slots with species = 0 are added too, it is needed for the swarm encounters, // it will be deleted after add swarm slots slots.Add(new EncounterSlot { LevelMin = data[ofs + 0 + i * 4], LevelMax = data[ofs + 1 + i * 4], Species = Species, SlotNumber = i, Type = t }); } EncounterUtil.MarkEncountersStaticMagnetPull(slots, PersonalTable.HGSS); return slots; } private static EncounterArea GetArea3(byte[] data) { var HaveGrassSlots = data[1] == 1; var HaveSurfSlots = data[2] == 1; var HaveRockSmashSlots = data[3] == 1; var HaveFishingSlots = data[4] == 1; int offset = 5; var slots = new List(); if (HaveGrassSlots) slots.AddRange(GetSlots3(data, ref offset, 12, SlotType.Grass)); if (HaveSurfSlots) slots.AddRange(GetSlots3(data, ref offset, 5, SlotType.Surf)); if (HaveRockSmashSlots) slots.AddRange(GetSlots3(data, ref offset, 5, SlotType.Rock_Smash)); if (HaveFishingSlots) slots.AddRange(GetSlots3_F(data, ref offset, 10)); EncounterArea Area3 = new EncounterArea { Location = data[0], Slots = slots.ToArray() }; foreach (var slot in Area3.Slots) slot.Area = Area3; return Area3; } private static EncounterArea GetArea4DPPt(byte[] data, bool pt = false) { var Slots = new List(); int location = BitConverter.ToUInt16(data, 0x00); var GrassRatio = BitConverter.ToInt32(data, 0x02); if (GrassRatio > 0) { EncounterSlot[] GrassSlots = GetSlots4_DPPt_G(data, 0x06, 12, SlotType.Grass); //Swarming slots replace slots 0 and 1 var swarm = GetSlots4_G_Replace(data, 0x66, 4, GrassSlots, Legal.Slot4_Swarm, SlotType.Swarm); //Morning and Night slots replace slots 2 and 3 var morning = GetSlots4_G_Replace(data, 0x6E, 4, GrassSlots, Legal.Slot4_Time); // Morning var night = GetSlots4_G_Replace(data, 0x76, 4, GrassSlots, Legal.Slot4_Time); // Night //Pokéradar slots replace slots 4,5,10 and 11 //Pokéradar is marked with different slot type because it have different PID-IV generationn var radar = GetSlots4_G_Replace(data, 0x7E, 4, GrassSlots, Legal.Slot4_Radar, SlotType.Pokeradar); //24 bytes padding //Dual Slots replace slots 8 and 9 var ruby = GetSlots4_G_Replace(data, 0xA6, 4, GrassSlots, Legal.Slot4_Dual); // Ruby var sapphire = GetSlots4_G_Replace(data, 0xAE, 4, GrassSlots, Legal.Slot4_Dual); // Sapphire var emerald = GetSlots4_G_Replace(data, 0xB6, 4, GrassSlots, Legal.Slot4_Dual); // Emerald var firered = GetSlots4_G_Replace(data, 0xBE, 4, GrassSlots, Legal.Slot4_Dual); // FireRed var leafgreen = GetSlots4_G_Replace(data, 0xC6, 4, GrassSlots, Legal.Slot4_Dual); // LeafGreen Slots.AddRange(GrassSlots); Slots.AddRange(swarm); Slots.AddRange(morning); Slots.AddRange(night); Slots.AddRange(radar); Slots.AddRange(ruby); Slots.AddRange(sapphire); Slots.AddRange(emerald); Slots.AddRange(firered); Slots.AddRange(leafgreen); // Permute Static-Magnet Pull combinations // [None/Swarm]-[None/Morning/Night]-[None/Radar]-[None/R/S/E/F/L] [None/TrophyGarden] // 2 * 3 * 2 * 6 = 72 different combinations of slots (more with trophy garden) var regular = new List> {GrassSlots.Where(z => z.SlotNumber == 6 || z.SlotNumber == 7).ToList()}; // every other slot is in the product var pair0 = new List> {GrassSlots.Where(z => Legal.Slot4_Swarm.Contains(z.SlotNumber)).ToList()}; var pair1 = new List> {GrassSlots.Where(z => Legal.Slot4_Time.Contains(z.SlotNumber)).ToList()}; var pair2 = new List> {GrassSlots.Where(z => Legal.Slot4_Radar.Contains(z.SlotNumber)).ToList()}; var pair3 = new List> {GrassSlots.Where(z => Legal.Slot4_Dual.Contains(z.SlotNumber)).ToList()}; if (swarm.Count != 0) pair0.Add(swarm); if (morning.Count != 0) pair1.Add(morning); if (night.Count != 0) pair1.Add(night); if (radar.Count != 0) pair2.Add(radar); if (ruby.Count != 0) pair3.Add(ruby); if (sapphire.Count != 0) pair3.Add(sapphire); if (emerald.Count != 0) pair3.Add(emerald); if (firered.Count != 0) pair3.Add(firered); if (leafgreen.Count != 0) pair3.Add(leafgreen); if (location == 68) // Trophy Garden { // Occupy Slots 6 & 7 var species = pt ? Encounters4.TrophyPt : Encounters4.TrophyDP; var slots = new List(); foreach (var s in species) { var slot = regular[0][0].Clone(); slot.Species = s; slots.Add(slot); slot = regular[0][1].Clone(); slot.Species = s; slots.Add(slot); } Slots.AddRange(slots); // get all permutations of trophy inhabitants var trophy = regular[0].Concat(slots).ToArray(); for (int i = 0; i < trophy.Length; i++) for (int j = i + 1; j < trophy.Length; j++) regular.Add(new List{trophy[i], trophy[j]}); } var set = new[] { regular, pair0, pair1, pair2, pair3 }; var product = set.CartesianProduct(); var extra = MarkStaticMagnetExtras(product); Slots.AddRange(extra); } var SurfRatio = BitConverter.ToInt32(data, 0xCE); if (SurfRatio > 0) Slots.AddRange(GetSlots4DPPt_WFR(data, 0xD2, 5, SlotType.Surf)); //44 bytes padding var OldRodRatio = BitConverter.ToInt32(data, 0x126); if (OldRodRatio > 0) Slots.AddRange(GetSlots4DPPt_WFR(data, 0x12A, 5, SlotType.Old_Rod)); var GoodRodRatio = BitConverter.ToInt32(data, 0x152); if (GoodRodRatio > 0) Slots.AddRange(GetSlots4DPPt_WFR(data, 0x156, 5, SlotType.Good_Rod)); var SuperRodRatio = BitConverter.ToInt32(data, 0x17E); if (SuperRodRatio > 0) Slots.AddRange(GetSlots4DPPt_WFR(data, 0x182, 5, SlotType.Super_Rod)); EncounterArea Area4 = new EncounterArea { Location = location, Slots = Slots.ToArray() }; foreach (var slot in Area4.Slots) slot.Area = Area4; return Area4; } private static IEnumerable MarkStaticMagnetExtras(IEnumerable>> product) { var trackPermute = new List(); foreach (var p in product) MarkStaticMagnetPermute(p.SelectMany(z => z), trackPermute); return trackPermute; } private static void MarkStaticMagnetPermute(IEnumerable grp, List trackPermute) { EncounterUtil.MarkEncountersStaticMagnetPullPermutation(grp, PersonalTable.HGSS, trackPermute); } private static EncounterArea GetArea4HGSS(byte[] data) { var Slots = new List(); var GrassRatio = data[0x02]; var SurfRatio = data[0x03]; var RockSmashRatio = data[0x04]; var OldRodRatio = data[0x05]; var GoodRodRatio = data[0x06]; var SuperRodRatio = data[0x07]; // 2 bytes padding if (GrassRatio > 0) { // First 36 slots are morning, day and night grass slots // The order is 12 level values, 12 morning species, 12 day species and 12 night species var GrassSlots = GetSlots4_HGSS_G(data, 0x0A, 12, SlotType.Grass); //Grass slots with species = 0 are added too, it is needed for the swarm encounters, it will be deleted after swarms are added // Hoenn Sound and Sinnoh Sound replace slots 4 and 5 var hoenn = GetSlots4_G_Replace(data, 0x5E, 2, GrassSlots, Legal.Slot4_Sound); // Hoenn var sinnoh = GetSlots4_G_Replace(data, 0x62, 2, GrassSlots, Legal.Slot4_Sound); // Sinnoh Slots.AddRange(GrassSlots); Slots.AddRange(hoenn); Slots.AddRange(sinnoh); // Static / Magnet Pull var grass1 = GrassSlots.Take(12).ToList(); var grass2 = GrassSlots.Skip(12).Take(12).ToList(); var grass3 = GrassSlots.Skip(24).ToList(); // Swarm slots do not displace electric/steel types, with exception of SoulSilver Mawile (which doesn't displace) -- handle separately foreach (var time in new[] {grass1, grass2, grass3}) { // non radio var regular = time.Where(z => !Legal.Slot4_Sound.Contains(z.SlotNumber)).ToList(); // every other slot is in the product var radio = new List> {time.Where(z => Legal.Slot4_Sound.Contains(z.SlotNumber)).ToList()}; if (hoenn.Count > 0) radio.Add(hoenn); if (sinnoh.Count > 0) radio.Add(sinnoh); var extra = new List(); foreach (var t in radio) MarkStaticMagnetPermute(regular.Concat(t), extra); Slots.AddRange(extra); } } if (SurfRatio > 0) Slots.AddRange(GetSlots4HGSS_WFR(data, 0x66, 5, SlotType.Surf)); if (RockSmashRatio > 0) Slots.AddRange(GetSlots4HGSS_WFR(data, 0x7A, 2, SlotType.Rock_Smash)); if (OldRodRatio > 0) Slots.AddRange(GetSlots4HGSS_WFR(data, 0x82, 5, SlotType.Old_Rod)); if (GoodRodRatio > 0) Slots.AddRange(GetSlots4HGSS_WFR(data, 0x96, 5, SlotType.Good_Rod)); if (SuperRodRatio > 0) Slots.AddRange(GetSlots4HGSS_WFR(data, 0xAA, 5, SlotType.Super_Rod)); // Last 6 bytes only have species ID info if (data[0xC2] == 120) // Location = 182, 127, 130, 132, 167, 188, 210 Slots.AddRange(SlotsHGSS_Staryu); EncounterArea Area4 = new EncounterArea { Location = BitConverter.ToUInt16(data, 0x00), Slots = Slots.ToArray() }; foreach (var slot in Area4.Slots) slot.Area = Area4; return Area4; } private static readonly EncounterSlot[] SlotsHGSS_Staryu = { new EncounterSlot { Species = 120, LevelMin = 20, LevelMax = 20, Type = SlotType.Good_Rod }, new EncounterSlot { Species = 120, LevelMin = 40, LevelMax = 40, Type = SlotType.Super_Rod }, }; private static EncounterArea GetArea4HGSS_Headbutt(byte[] data) { if (data.Length < 78) return new EncounterArea(); // bad data //2 byte location ID (defer to end) //4 bytes padding var Slots = new List(); // 00-11 Normal trees // 12-17 Special trees for (int i = 0; i < 18; i++) { int Species = BitConverter.ToInt16(data, 6 + i*4); if (Species <= 0) continue; Slots.Add(new EncounterSlot { Species = Species, LevelMin = data[8 + i*4], LevelMax = data[9 + i*4], Type = i <= 11 ? SlotType.Headbutt : SlotType.Headbutt_Special }); } var Area = new EncounterArea { Location = BitConverter.ToUInt16(data, 0), Slots = Slots.ToArray() }; foreach (var slot in Area.Slots) slot.Area = Area; return Area; } /// /// RBY Format Slot Getter from data. /// /// Byte array containing complete slot data table. /// Offset to start reading from. /// Amount of slots to read. /// Type of encounter slot. /// Slot type encounter rate. /// Array of encounter slots. private static EncounterSlot1[] ReadSlots(byte[] data, ref int ofs, int count, SlotType t, int rate) { EncounterSlot1[] slots = new EncounterSlot1[count]; for (int i = 0; i < count; i++) { int lvl = data[ofs++]; int spec = data[ofs++]; slots[i] = new EncounterSlot1 { LevelMax = t == SlotType.Surf ? lvl + 4 : lvl, LevelMin = lvl, Species = spec, Type = t, Rate = rate, SlotNumber = i, }; } return slots; } private static EncounterSlot1[] ReadSlots_FY(byte[] data, ref int ofs, int count, SlotType t, int rate) { // Convert byte to actual number int[] Levelbytelist = { 0xFF, 0x15, 0x67, 0x1D, 0x3B, 0x5C, 0x72, 0x16, 0x71, 0x18, 0x00, 0x6D, 0x80, }; int[] dexbytelist = { 0x47, 0x6E, 0x18, 0x9B, 0x17, 0x4E, 0x8A, 0x5C, 0x5D, 0x9D, 0x9E, 0x1B, 0x85, 0x16, 0x58, 0x59, }; int[] specieslist = { 060, 061, 072, 073, 090, 098, 099, 116, 117, 118, 119, 120, 129, 130, 147, 148, }; EncounterSlot1[] slots = new EncounterSlot1[count]; for (int i = 0; i < count; i++) { int spec = specieslist[Array.IndexOf(dexbytelist, data[ofs++])]; int lvl = Array.IndexOf(Levelbytelist, data[ofs++]) * 5; slots[i] = new EncounterSlot1 { LevelMax = lvl, LevelMin = lvl, Species = spec, Type = t, Rate = rate, SlotNumber = i, }; } return slots; } /// /// Gets the encounter areas with information from Generation 1 Grass/Water data. /// /// Input raw data. /// Array of encounter areas. public static EncounterArea[] GetArray1_GW(byte[] data) { // RBY Format var ptr = new int[255]; int count = 0; for (int i = 0; i < ptr.Length; i++) { ptr[i] = BitConverter.ToInt16(data, i*2); if (ptr[i] != -1) continue; count = i; break; } EncounterArea[] areas = new EncounterArea[count]; for (int i = 0; i < areas.Length; i++) { var grass = GetSlots1_GW(data, ref ptr[i], SlotType.Grass); var water = GetSlots1_GW(data, ref ptr[i], SlotType.Surf); areas[i] = new EncounterArea { Location = i, Slots = grass.Concat(water).ToArray() }; } return areas.Where(area => area.Slots.Length != 0).ToArray(); } /// /// Gets the encounter areas with information from Pokémon Yellow (Generation 1) Fishing data. /// /// Input raw data. /// Array of encounter areas. public static EncounterArea[] GetArray1_FY(byte[] data) { const int size = 9; int count = data.Length/size; EncounterArea[] areas = new EncounterArea[count]; for (int i = 0; i < count; i++) { int ofs = i*size + 1; areas[i] = new EncounterArea { Location = data[i*size + 0], Slots = ReadSlots_FY(data, ref ofs, 4, SlotType.Super_Rod, -1) }; } return areas; } /// /// Gets the encounter areas with information from Generation 1 Fishing data. /// /// Input raw data. /// Array of encounter areas. public static EncounterArea[] GetArray1_F(byte[] data) { var ptr = new int[255]; var map = new int[255]; int count = 0; for (int i = 0; i < ptr.Length; i++) { map[i] = data[i*3 + 0]; if (map[i] == 0xFF) { count = i; break; } ptr[i] = BitConverter.ToInt16(data, i * 3 + 1); } EncounterArea[] areas = new EncounterArea[count]; for (int i = 0; i < areas.Length; i++) { areas[i] = new EncounterArea { Location = map[i], Slots = GetSlots1_F(data, ref ptr[i]) }; } return areas; } /// /// Gets the encounter areas with information from Generation 2 Grass/Water data. /// /// Input raw data. /// Array of encounter areas. public static EncounterArea[] GetArray2_GW(byte[] data) { int ofs = 0; var areas = new List(); areas.AddRange(GetAreas2(data, ref ofs, SlotType.Grass, 3, 7)); // Johto Grass areas.AddRange(GetAreas2(data, ref ofs, SlotType.Surf, 1, 3)); // Johto Water areas.AddRange(GetAreas2(data, ref ofs, SlotType.Grass, 3, 7)); // Kanto Grass areas.AddRange(GetAreas2(data, ref ofs, SlotType.Surf, 1, 3)); // Kanto Water areas.AddRange(GetAreas2(data, ref ofs, SlotType.Swarm, 3, 7)); // Swarm areas.AddRange(GetAreas2(data, ref ofs, SlotType.Special, 1, 3)); // Union Cave return areas.ToArray(); } /// /// Gets the encounter areas with information from Generation 2 Grass/Water data. /// /// Input raw data. /// Array of encounter areas. public static EncounterArea[] GetArray2_F(byte[] data) { int ofs = 0; var f = GetAreas2_F(data, ref ofs); // Fishing Tables are not associated to a single map; a map picks a table to use. // For all maps that use a table, create a new EncounterArea with reference to the table's slots. sbyte[] convMapIDtoFishLocationID = { -1, 1, -1, 0, 3, 3, 3, -1, 10, 3, 2, -1, -1, 2, 3, 0, -1, -1, 3, -1, -1, -1, 3, -1, -1, -1, -1, 0, -1, -1, 0, 9, 1, 0, 2, 2, -1, 3, 7, 3, -1, 3, 4, 8, 2, -1, 2, 1, -1, 3, -1, -1, -1, -1, -1, 0, 2, 2, -1, -1, 3, 1, -1, -1, -1, 2, -1, 2, -1, -1, -1, -1, -1, -1, 11, 11, 0, -1, -1, -1, -1, 7, 0, 1, -1, 1, 1, 3, -1, -1, -1, 1, 1, 2, 3, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, -1, }; var areas = new List(); for (int i = 0; i < convMapIDtoFishLocationID.Length; i++) { var loc = convMapIDtoFishLocationID[i]; if (convMapIDtoFishLocationID[i] == -1) // no table for map continue; areas.Add(new EncounterArea { Location = i, Slots = f[loc].Slots }); } // Some maps have two tables. Fortunately, there's only two. Add the second table. areas.Add(new EncounterArea { Location = 0x1B, Slots = f[1].Slots }); // Olivine City (0: Harbor, 1: City) areas.Add(new EncounterArea { Location = 0x2E, Slots = f[3].Slots }); // Silver Cave (2: Inside, 3: Outside) return areas.ToArray(); } public static EncounterArea[] GetArray2_H(byte[] data) { int ofs = 0; return GetAreas2_H(data, ref ofs).ToArray(); } /// /// Gets the encounter areas with information from Generation 3 data. /// /// Raw data, one byte array per encounter area /// Array of encounter areas. public static EncounterArea[] GetArray3(byte[][] entries) { return entries.Select(GetArea3).Where(Area => Area.Slots.Length != 0).ToArray(); } /// /// Gets the encounter areas with information from Generation 4 Diamond, Pearl and Platinum data. /// /// Raw data, one byte array per encounter area /// Platinum flag (for Trophy Garden slot insertion) /// Array of encounter areas. public static EncounterArea[] GetArray4DPPt(byte[][] entries, bool pt = false) { return entries.Select(z => GetArea4DPPt(z, pt)).Where(Area => Area.Slots.Length != 0).ToArray(); } /// /// Gets the encounter areas with information from Generation 4 Hearth Gold and Soul Silver data. /// /// Raw data, one byte array per encounter area /// Array of encounter areas. public static EncounterArea[] GetArray4HGSS(byte[][] entries) { return entries.Select(GetArea4HGSS).Where(Area => Area.Slots.Length != 0).ToArray(); } /// /// Gets the encounter areas with information from Generation 4 Hearth Gold and Soul Silver Headbutt tree data. /// /// Raw data, one byte array per encounter area /// Array of encounter areas. public static EncounterArea[] GetArray4HGSS_Headbutt(byte[][] entries) { return entries.Select(GetArea4HGSS_Headbutt).Where(Area => Area.Slots.Length != 0).ToArray(); } /// /// Gets the encounter areas for species with same level range and same slottype at same location /// /// List of species that exist in the Area. /// Paired LevelMins and LevelMaxs of the encounter slots. /// Location index of the encounter area. /// Encounter slot type of the encounter area. /// public static EncounterArea[] GetSimpleEncounterArea(IEnumerable species, int[] lvls, int location, SlotType t) { var l = new List(); // levels data not paired if ((lvls.Length & 1) == 1) return new[] { new EncounterArea { Location = location, Slots = l.ToArray() } }; foreach (var s in species) { for (int i = 0; i < lvls.Length;) { l.Add(new EncounterSlot { LevelMin = lvls[i++], LevelMax = lvls[i++], Species = s, Type = t }); } } return new[] { new EncounterArea { Location = location, Slots = l.ToArray() } }; } /// /// Gets an array of areas from an array of raw area data /// /// Simplified raw format of an Area /// Array of areas public static EncounterArea[] GetArray(byte[][] entries) { EncounterArea[] data = new EncounterArea[entries.Length]; for (int i = 0; i < data.Length; i++) data[i] = new EncounterArea(entries[i]); return data; } } public static partial class Extensions { public static IEnumerable> CartesianProduct(this IEnumerable> sequences) { IEnumerable> emptyProduct = new[] { Enumerable.Empty() }; return sequences.Aggregate( emptyProduct, (accumulator, sequence) => from accseq in accumulator from item in sequence select accseq.Concat(new[] { item })); } } }