PKHeX/PKHeX.Core/Saves/Substructures/Gen3/HallFame3.cs
Kurt b1ead9e630 Split StringConverter into smaller pieces
reduces loading time (don't have to allocate conversion arrays when
launching a gen7 game), and separates things to easier to manage
locations

reworks gen3 string encode/decode, no longer does 3->4->5 and 5->4->3;
instead goes straight to the end result without an intermediary format.

String sanitization should probably be broken up rather than reused, oh
well.
2019-03-20 21:50:44 -07:00

94 lines
3.7 KiB
C#

using System;
using System.Diagnostics;
namespace PKHeX.Core
{
public class HallFame3Entry
{
private readonly byte[] Parent;
private readonly bool Japanese;
private readonly int Offset;
private const int Count = 6;
public const int SIZE = Count * HallFame3PKM.SIZE;
public HallFame3Entry(byte[] data, int offset, bool japanese)
{
Parent = data;
Japanese = japanese;
Offset = offset;
}
private int GetMemberOffset(int i) => Offset + (i * HallFame3PKM.SIZE);
private HallFame3PKM GetMember(int i) => new HallFame3PKM(Parent, GetMemberOffset(i), Japanese);
public HallFame3PKM[] Team
{
get
{
var team = new HallFame3PKM[6];
for (int i = 0; i < Count; i++)
team[i] = GetMember(i);
return team;
}
}
private const int MaxEntries = 50;
private const int MaxLength = MaxEntries * SIZE;
public static HallFame3Entry[] GetEntries(SAV3 sav)
{
byte[] data = new byte[SAV3.SIZE_BLOCK_USED * 2];
Debug.Assert(data.Length > MaxLength);
// HoF Data is split across two sav blocks
Array.Copy(sav.Data, 0x1C000, data, 0, SAV3.SIZE_BLOCK_USED);
Array.Copy(sav.Data, 0x1D000, data, SAV3.SIZE_BLOCK_USED, SAV3.SIZE_BLOCK_USED);
bool Japanese = sav.Japanese;
var entries = new HallFame3Entry[MaxEntries];
for (int i = 0; i < entries.Length; i++)
entries[i] = new HallFame3Entry(data, SIZE, Japanese);
return entries;
}
public static void SetEntries(SAV3 sav, HallFame3Entry[] entries)
{
byte[] data = entries[0].Team[0].Data;
if (data.Length != MaxLength)
throw new ArgumentException(nameof(data));
// HoF Data is split across two sav blocks
Array.Copy(data, 0, sav.Data, 0x1C000, SAV3.SIZE_BLOCK_USED);
Array.Copy(data, SAV3.SIZE_BLOCK_USED, sav.Data, 0x1D000, SAV3.SIZE_BLOCK_USED);
}
}
public class HallFame3PKM
{
public const int SIZE = 20;
public HallFame3PKM(byte[] data, int offset, bool jp)
{
Data = data;
Offset = offset;
Japanese = jp;
}
public readonly byte[] Data;
private readonly int Offset;
private readonly bool Japanese;
public int TID { get => BitConverter.ToUInt16(Data, 0 + Offset); set => BitConverter.GetBytes((ushort)value).CopyTo(Data, 0 + Offset); }
public int SID { get => BitConverter.ToUInt16(Data, 2 + Offset); set => BitConverter.GetBytes((ushort)value).CopyTo(Data, 2 + Offset); }
public uint PID { get => BitConverter.ToUInt32(Data, 4 + Offset); set => BitConverter.GetBytes(value).CopyTo(Data, 4 + Offset); }
private int SpecLevel { get => BitConverter.ToUInt16(Data, 8 + Offset); set => BitConverter.GetBytes((ushort)value).CopyTo(Data, 8 + Offset); }
public string Nickname { get => GetString(Data, 10 + Offset, 10); set => SetString(value, 10).CopyTo(Data, 10 + Offset); }
public int Species { get => SpecLevel & 0x1FF; set => SpecLevel = (SpecLevel & 0xFE00) | value; }
public int Level { get => SpecLevel >> 9; set => SpecLevel = (SpecLevel & 0x1FF) | (value << 9); }
private string GetString(byte[] data, int offset, int length) => StringConverter3.GetString3(data, offset, length, Japanese);
private byte[] SetString(string value, int maxLength) => StringConverter3.SetString3(value, maxLength, Japanese, 10);
}
}