AxibugEmuOnline/AxibugEmuOnline.Client/Assets/MyNes.Core/Mapper165.cs
2024-07-03 18:22:22 +08:00

254 lines
6.3 KiB
C#

using System;
using System.IO;
namespace MyNes.Core
{
[BoardInfo("Unknown", 165, true, true)]
internal class Mapper165 : Board
{
private bool flag_c;
private bool flag_p;
private int address_8001;
private int[] chr_reg;
private int[] prg_reg;
private byte latch_a = 254;
private byte latch_b = 254;
private bool irq_enabled;
private byte irq_counter;
private int old_irq_counter;
private byte irq_reload;
private bool irq_clear;
private bool mmc3_alt_behavior;
internal override void HardReset()
{
base.HardReset();
flag_c = (flag_p = false);
address_8001 = 0;
prg_reg = new int[4];
prg_reg[0] = 0;
prg_reg[1] = 1;
prg_reg[2] = PRG_ROM_08KB_Mask - 1;
prg_reg[3] = PRG_ROM_08KB_Mask;
SetupPRG();
chr_reg = new int[6];
for (int i = 0; i < 6; i++)
{
chr_reg[i] = 0;
}
irq_enabled = false;
irq_counter = 0;
irq_reload = byte.MaxValue;
old_irq_counter = 0;
irq_clear = false;
if (IsGameFoundOnDB)
{
switch (GameCartInfo.chip_type[0].ToLower())
{
case "mmc3a":
mmc3_alt_behavior = true;
Console.WriteLine("Chip= MMC3 A, MMC3 IQR mode switched to RevA");
break;
case "mmc3b":
mmc3_alt_behavior = false;
Console.WriteLine("Chip= MMC3 B, MMC3 IQR mode switched to RevB");
break;
case "mmc3c":
mmc3_alt_behavior = false;
Console.WriteLine("Chip= MMC3 C, MMC3 IQR mode switched to RevB");
break;
}
}
}
internal override void WritePRG(ref ushort address, ref byte data)
{
switch (address & 0xE001)
{
case 32768:
address_8001 = data & 7;
flag_c = (data & 0x80) != 0;
flag_p = (data & 0x40) != 0;
SetupCHR();
SetupPRG();
break;
case 32769:
switch (address_8001)
{
case 0:
case 1:
case 2:
case 3:
case 4:
case 5:
chr_reg[address_8001] = data;
SetupCHR();
break;
case 6:
case 7:
prg_reg[address_8001 - 6] = data & PRG_ROM_08KB_Mask;
SetupPRG();
break;
}
break;
case 40960:
if (NMT_DEFAULT_MIRROR != Mirroring.Full)
{
Switch01KNMTFromMirroring(((data & 1) == 1) ? Mirroring.Horz : Mirroring.Vert);
}
break;
case 40961:
TogglePRGRAMEnable((data & 0x80) != 0);
TogglePRGRAMWritableEnable((data & 0x40) == 0);
break;
case 49152:
irq_reload = data;
break;
case 49153:
if (mmc3_alt_behavior)
{
irq_clear = true;
}
irq_counter = 0;
break;
case 57344:
irq_enabled = false;
NesEmu.IRQFlags &= -9;
break;
case 57345:
irq_enabled = true;
break;
}
}
internal override void ReadCHR(ref ushort address, out byte data)
{
if ((address & 0x1FF0) == 4048 && latch_a != 253)
{
latch_a = 253;
Switch04KCHR(chr_reg[0] >> 2, CHRArea.Area0000);
}
else if ((address & 0x1FF0) == 4064 && latch_a != 254)
{
latch_a = 254;
Switch04KCHR(chr_reg[1] >> 2, CHRArea.Area0000);
}
else if ((address & 0x1FF0) == 8144 && latch_b != 253)
{
latch_b = 253;
Switch04KCHR(chr_reg[2] >> 2, CHRArea.Area1000);
}
else if ((address & 0x1FF0) == 8160 && latch_b != 254)
{
latch_b = 254;
Switch04KCHR(chr_reg[4] >> 2, CHRArea.Area1000);
}
base.ReadCHR(ref address, out data);
}
private void SetupCHR()
{
if (latch_a == 253)
{
Switch04KCHR(chr_reg[0] >> 2, CHRArea.Area0000);
}
if (latch_a == 254)
{
Switch04KCHR(chr_reg[1] >> 2, CHRArea.Area0000);
}
if (latch_b == 253)
{
Switch04KCHR(chr_reg[2] >> 2, CHRArea.Area1000);
}
if (latch_b == 254)
{
Switch04KCHR(chr_reg[4] >> 2, CHRArea.Area1000);
}
}
private void SetupPRG()
{
Switch08KPRG(prg_reg[flag_p ? 2 : 0], PRGArea.Area8000);
Switch08KPRG(prg_reg[1], PRGArea.AreaA000);
Switch08KPRG(prg_reg[(!flag_p) ? 2 : 0], PRGArea.AreaC000);
Switch08KPRG(prg_reg[3], PRGArea.AreaE000);
}
internal override void OnPPUA12RaisingEdge()
{
old_irq_counter = irq_counter;
if (irq_counter == 0 || irq_clear)
{
irq_counter = irq_reload;
}
else
{
irq_counter--;
}
if ((!mmc3_alt_behavior || old_irq_counter != 0 || irq_clear) && irq_counter == 0 && irq_enabled)
{
NesEmu.IRQFlags |= 8;
}
irq_clear = false;
}
internal override void WriteStateData(ref BinaryWriter stream)
{
base.WriteStateData(ref stream);
stream.Write(flag_c);
stream.Write(flag_p);
stream.Write(address_8001);
for (int i = 0; i < chr_reg.Length; i++)
{
stream.Write(chr_reg[i]);
}
for (int j = 0; j < prg_reg.Length; j++)
{
stream.Write(prg_reg[j]);
}
stream.Write(irq_enabled);
stream.Write(irq_counter);
stream.Write(old_irq_counter);
stream.Write(irq_reload);
stream.Write(irq_clear);
stream.Write(latch_a);
stream.Write(latch_b);
}
internal override void ReadStateData(ref BinaryReader stream)
{
base.ReadStateData(ref stream);
flag_c = stream.ReadBoolean();
flag_p = stream.ReadBoolean();
address_8001 = stream.ReadInt32();
for (int i = 0; i < chr_reg.Length; i++)
{
chr_reg[i] = stream.ReadInt32();
}
for (int j = 0; j < prg_reg.Length; j++)
{
prg_reg[j] = stream.ReadInt32();
}
irq_enabled = stream.ReadBoolean();
irq_counter = stream.ReadByte();
old_irq_counter = stream.ReadInt32();
irq_reload = stream.ReadByte();
irq_clear = stream.ReadBoolean();
latch_a = stream.ReadByte();
latch_b = stream.ReadByte();
}
}
}