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PKHeX/PKHeX.Core/Saves/Substructures/Gen3/StrategyMemo.cs
Kurt 03182ebd3d Update 22.11.24 
Adds support for Scarlet & Violet.

Co-Authored-By: SciresM <8676005+SciresM@users.noreply.github.com>
Co-Authored-By: Matt <17801814+sora10pls@users.noreply.github.com>
Co-Authored-By: Lusamine <30205550+Lusamine@users.noreply.github.com>
2022-11-24 17:42:17 -08:00

140 lines
4.1 KiB
C#
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using System;
using System.Collections.Generic;
using static System.Buffers.Binary.BinaryPrimitives;
namespace PKHeX.Core;
public sealed class StrategyMemo
{
private readonly bool XD;
public const int SIZE_ENTRY = 12;
private readonly List<StrategyMemoEntry> Entries;
public const int MAX_COUNT = 500;
private StrategyMemoEntry? this[int Species] => Entries.Find(e => e.Species == Species);
private readonly ushort _unk;
public StrategyMemo(bool xd = true) : this(new byte[4], 0, xd) { }
public StrategyMemo(byte[] input, int offset, bool xd)
{
XD = xd;
int count = ReadUInt16BigEndian(input.AsSpan(offset));
if (count > MAX_COUNT)
count = MAX_COUNT;
_unk = ReadUInt16BigEndian(input.AsSpan(offset + 2));
Entries = new List<StrategyMemoEntry>(count);
for (int i = 0; i < count; i++)
{
var entry = Read(input, offset, i);
Entries.Add(entry);
}
}
private StrategyMemoEntry Read(byte[] input, int offset, int index)
{
var ofs = 4 + offset + (SIZE_ENTRY * index);
var span = input.AsSpan(ofs, SIZE_ENTRY);
var data = span.ToArray();
return new StrategyMemoEntry(XD, data);
}
public byte[] Write()
{
var result = new byte[4 + (Entries.Count * SIZE_ENTRY)];
WriteInt16BigEndian(result.AsSpan(0), (short)Entries.Count);
WriteInt16BigEndian(result.AsSpan(2), (short)_unk);
var count = Math.Min(MAX_COUNT, Entries.Count);
for (int i = 0; i < count; i++)
Entries[i].Data.CopyTo(result, 4 + (i * SIZE_ENTRY));
return result;
}
public StrategyMemoEntry GetEntry(int Species)
{
return this[Species] ?? new StrategyMemoEntry(XD);
}
public void SetEntry(StrategyMemoEntry entry)
{
int index = Entries.FindIndex(ent => ent.Species == entry.Species);
if (index >= 0)
Entries[index] = entry;
else
Entries.Add(entry);
}
}
public sealed class StrategyMemoEntry
{
public readonly byte[] Data;
private readonly bool XD;
public StrategyMemoEntry(bool xd) : this(xd, new byte[StrategyMemo.SIZE_ENTRY]) { }
public StrategyMemoEntry(bool xd, byte[] data)
{
Data = data;
XD = xd;
}
public ushort Species
{
get
{
var val = (ushort)(ReadUInt16BigEndian(Data.AsSpan(0)) & 0x1FF);
return SpeciesConverter.GetG4Species(val);
}
set
{
var val = SpeciesConverter.GetG3Species(value);
var cval = ReadUInt16BigEndian(Data.AsSpan(0));
cval &= 0xE00; val &= 0x1FF; cval |= val;
WriteUInt16BigEndian(Data.AsSpan(0x00), cval);
}
}
private bool Flag0 { get => Data[0] >> 6 == 1; set { Data[0] &= 0xBF; if (value) Data[0] |= 0x40; } } // Unused
private bool Flag1 { get => Data[0] >> 7 == 1; set { Data[0] &= 0x7F; if (value) Data[0] |= 0x80; } } // Complete Entry
public int SID { get => ReadUInt16BigEndian(Data.AsSpan(4)); set => WriteUInt16BigEndian(Data.AsSpan(4), (ushort)value); }
public int TID { get => ReadUInt16BigEndian(Data.AsSpan(6)); set => WriteUInt16BigEndian(Data.AsSpan(6), (ushort)value); }
public uint PID { get => ReadUInt32BigEndian(Data.AsSpan(8)); set => WriteUInt32BigEndian(Data.AsSpan(8), value); }
public bool Seen
{
get
{
if (XD)
return !Flag1;
return Species != 0;
}
set
{
if (XD)
Flag1 = !value;
else if (!value)
Data.AsSpan(0, StrategyMemo.SIZE_ENTRY).Clear();
}
}
public bool Owned
{
get
{
if (XD)
return false;
return Flag0 || !Flag1;
}
set
{
if (XD)
return;
if (!value)
Flag1 = true;
}
}
public bool IsEmpty => Species == 0;
public bool Matches(ushort species, uint pid, int tid, int sid) => Species == species && PID == pid && TID == tid && SID == sid;
}
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