PKHeX/PKHeX.Core/Legality/Areas/EncounterArea2.cs
Kurt 52a67f2425 Add Stadium2 Support
Introducing a new PKM format: SK2
Split ICaughtData2 off of PK2 so it can be shared with SK2 when type-checks occur
Add conversion for PK2<->SK2
Split the split-buffer handling for GBPKM to GBPKML (what a name), so that I can reuse shared accessor logic for SK2.
2020-10-02 18:08:40 -07:00

134 lines
4.4 KiB
C#

using System;
using System.Collections.Generic;
namespace PKHeX.Core
{
/// <inheritdoc />
/// <summary>
/// <see cref="GameVersion.GSC"/> encounter area
/// </summary>
public sealed class EncounterArea2 : EncounterArea
{
private static readonly byte[] BCC_SlotRates = { 20, 20, 10, 10, 05, 05, 10, 10, 05, 05 };
private static readonly byte[] RatesGrass = { 30, 30, 20, 10, 5, 4, 1 };
private static readonly byte[] RatesSurf = { 60, 30, 10 };
internal readonly EncounterTime Time;
public readonly int Rate;
public readonly IReadOnlyList<byte> Rates;
public static EncounterArea2[] GetAreas(byte[][] input, GameVersion game)
{
var result = new EncounterArea2[input.Length];
for (int i = 0; i < input.Length; i++)
result[i] = new EncounterArea2(input[i], game);
return result;
}
private EncounterArea2(byte[] data, GameVersion game) : base(game)
{
Location = data[0];
Time = (EncounterTime)data[1];
var type = Type = (SlotType)data[2];
var rate = data[3];
if (type > SlotType.Surf) // Not Grass/Surf
{
const int size = 5;
int count = (data.Length - 4) / size;
var rates = new byte[count];
for (int i = 0; i < rates.Length; i++)
rates[i] = data[4 + i];
Rates = rates;
Slots = ReadSlots(data, count, 4 + count);
}
else
{
Rate = rate;
const int size = 4;
int count = (data.Length - 4) / size;
Rates = type == SlotType.BugContest ? BCC_SlotRates : (type == SlotType.Grass) ? RatesGrass : RatesSurf;
Slots = ReadSlots(data, count, 4);
}
}
private EncounterSlot2[] ReadSlots(byte[] data, int count, int start)
{
var slots = new EncounterSlot2[count];
for (int i = 0; i < slots.Length; i++)
{
int offset = start + (4 * i);
int species = data[offset + 0];
int slotNum = data[offset + 1];
int min = data[offset + 2];
int max = data[offset + 3];
slots[i] = new EncounterSlot2(this, species, min, max, slotNum);
}
return slots;
}
public override IEnumerable<EncounterSlot> GetMatchingSlots(PKM pkm, IReadOnlyList<EvoCriteria> chain)
{
if (!(pkm is ICaughtData2 pk2) || pk2.CaughtData == 0)
return GetSlotsFuzzy(chain);
if (pk2.Met_Location != Location)
return Array.Empty<EncounterSlot>();
return GetSlotsSpecificLevelTime(chain, pk2.Met_TimeOfDay, pk2.Met_Level);
}
private IEnumerable<EncounterSlot> GetSlotsSpecificLevelTime(IReadOnlyList<EvoCriteria> chain, int time, int lvl)
{
foreach (var slot in Slots)
{
foreach (var evo in chain)
{
if (slot.Species != evo.Species)
continue;
if (slot.Form != evo.Form)
{
if (slot.Species != (int)Species.Unown || evo.Form >= 26) // Don't yield !? forms
break;
}
if (!slot.IsLevelWithinRange(lvl))
break;
if (!Time.Contains(time))
break;
yield return slot;
break;
}
}
}
private IEnumerable<EncounterSlot> GetSlotsFuzzy(IReadOnlyList<EvoCriteria> chain)
{
foreach (var slot in Slots)
{
foreach (var evo in chain)
{
if (slot.Species != evo.Species)
continue;
if (slot.Form != evo.Form)
{
if (slot.Species != (int) Species.Unown || evo.Form >= 26) // Don't yield !? forms
break;
}
if (slot.LevelMin > evo.Level)
break;
yield return slot;
break;
}
}
}
}
}