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GNU GENERAL PUBLIC LICENSE
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This program comes with ABSOLUTELY NO WARRANTY; for details type `show w'.
This is free software, and you are welcome to redistribute it
under certain conditions; type `show c' for details.
The hypothetical commands `show w' and `show c' should show the appropriate
parts of the General Public License. Of course, your program's commands
might be different; for a GUI interface, you would use an "about box".
You should also get your employer (if you work as a programmer) or school,
if any, to sign a "copyright disclaimer" for the program, if necessary.
For more information on this, and how to apply and follow the GNU GPL, see
<https://www.gnu.org/licenses/>.
The GNU General Public License does not permit incorporating your program
into proprietary programs. If your program is a subroutine library, you
may consider it more useful to permit linking proprietary applications with
the library. If this is what you want to do, use the GNU Lesser General
Public License instead of this License. But first, please read
<https://www.gnu.org/licenses/why-not-lgpl.html>.

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AxibugEmuOnline.Client/Assets/Runtime/Controller/IController.cs Normal file
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using UnityEngine;
namespace AxibugEmuOnline.Client.UNES.Controller
{
public interface IController
{
void Strobe(bool on);
int ReadState();
void PressKey(KeyCode keyCode);
void ReleaseKey(KeyCode keyCode);
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Controller/KeyConfig.cs Normal file
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using System;
using UnityEngine;
namespace AxibugEmuOnline.Client.UNES.Controller
{
[Serializable]
public class KeyConfig
{
public KeyCode Up = KeyCode.UpArrow;
public KeyCode Down = KeyCode.DownArrow;
public KeyCode Left = KeyCode.LeftArrow;
public KeyCode Right = KeyCode.RightArrow;
public KeyCode A = KeyCode.A;
public KeyCode B = KeyCode.S;
public KeyCode Start = KeyCode.Alpha1;
public KeyCode Select = KeyCode.Alpha2;
public KeyCode Debug = KeyCode.P;
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Controller/NesController.cs Normal file
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using System.Collections.Generic;
using UnityEngine;
using AxibugEmuOnline.Client.UNES.Input;
namespace AxibugEmuOnline.Client.UNES.Controller
{
public class NesController : IController
{
private readonly UNESBehaviour _nes;
private int _data;
private int _serialData;
private bool _strobing;
public bool Debug;
public KeyConfig Config => _nes.KeyConfig;
// bit: 7 6 5 4 3 2 1 0
// button: A B Select Start Up Down Left
private readonly Dictionary<KeyCode, int> _keyMapping;
public NesController(UNESBehaviour nse)
{
_nes = nse;
_keyMapping = new Dictionary<KeyCode, int>
{
{Config.A, 7},
{Config.B, 6},
{Config.Select, 5},
{Config.Start, 4},
{Config.Up, 3},
{Config.Down, 2},
{Config.Left, 1},
{Config.Right, 0},
};
}
public void Strobe(bool on)
{
_serialData = _data;
_strobing = on;
}
public int ReadState()
{
int ret = ((_serialData & 0x80) > 0).AsByte();
if (!_strobing)
{
_serialData <<= 1;
_serialData &= 0xFF;
}
return ret;
}
public void PressKey(KeyCode keyCode)
{
if (keyCode == Config.Debug)
{
Debug ^= true;
}
if (!_keyMapping.ContainsKey(keyCode))
{
return;
}
_data |= 1 << _keyMapping[keyCode];
}
public void ReleaseKey(KeyCode keyCode)
{
if (!_keyMapping.ContainsKey(keyCode))
{
return;
}
_data &= ~(1 << _keyMapping[keyCode]);
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/Addressable.cs Normal file
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using System.Runtime.CompilerServices;
namespace AxibugEmuOnline.Client.UNES
{
public abstract class Addressable
{
public delegate uint ReadDelegate(uint address);
public delegate void WriteDelegate(uint address, byte val);
protected readonly Emulator _emulator;
protected readonly ReadDelegate[] _readMap;
protected readonly WriteDelegate[] _writeMap;
protected readonly uint _addressSize;
protected Addressable(Emulator emulator, uint addressSpace)
{
_emulator = emulator;
_addressSize = addressSpace;
_readMap = new ReadDelegate[addressSpace + 1];
_writeMap = new WriteDelegate[addressSpace + 1];
}
protected virtual void InitializeMemoryMap()
{
_readMap.Fill(address => 0);
// Some games write to addresses not mapped and expect to continue afterwards
_writeMap.Fill((address, val) => { });
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public uint ReadByte(uint address)
{
address &= _addressSize;
return _readMap[address](address);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public void WriteByte(uint address, uint val)
{
address &= _addressSize;
_writeMap[address](address, (byte)val);
}
public void MapReadHandler(uint start, uint end, CPU.ReadDelegate func)
{
for (uint i = start; i <= end; i++)
{
_readMap[i] = func;
}
}
public void MapWriteHandler(uint start, uint end, CPU.WriteDelegate func)
{
for (uint i = start; i <= end; i++)
{
_writeMap[i] = func;
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Core.cs Normal file
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using System;
namespace AxibugEmuOnline.Client.UNES
{
sealed partial class CPU
{
public enum InterruptType
{
NMI,
IRQ,
RESET
}
private readonly uint[] _interruptHandlerOffsets = { 0xFFFA, 0xFFFE, 0xFFFC };
private readonly bool[] _interrupts = new bool[2];
public void Initialize()
{
A = 0;
X = 0;
Y = 0;
SP = 0xFD;
P = 0x24;
PC = ReadWord(_interruptHandlerOffsets[(int) InterruptType.RESET]);
}
public void Reset()
{
SP -= 3;
F.InterruptsDisabled = true;
}
public void TickFromPPU()
{
if (Cycle-- > 0) return;
ExecuteSingleInstruction();
}
public void ExecuteSingleInstruction()
{
for (var i = 0; i < _interrupts.Length; i++)
{
if (_interrupts[i])
{
PushWord(PC);
Push(P);
PC = ReadWord(_interruptHandlerOffsets[i]);
F.InterruptsDisabled = true;
_interrupts[i] = false;
return;
}
}
_currentInstruction = NextByte();
Cycle += _opCodeDefs[_currentInstruction].Cycles;
ResetInstructionAddressingMode();
// if (_numExecuted > 10000 && PC - 1 == 0xFF61)
// if(_emulator.Controller.debug || 0x6E00 <= PC && PC <= 0x6EEF)
// Console.WriteLine($"{(PC - 1).ToString("X4")} {_currentInstruction.ToString("X2")} {opcodeNames[_currentInstruction]}\t\t\tA:{A.ToString("X2")} X:{X.ToString("X2")} Y:{Y.ToString("X2")} P:{P.ToString("X2")} SP:{SP.ToString("X2")}");
var op = _opCodes[_currentInstruction];
if (op == null)
{
throw new ArgumentException(_currentInstruction.ToString("X2"));
}
op();
}
public void TriggerInterrupt(InterruptType type)
{
if (!F.InterruptsDisabled || type == InterruptType.NMI)
{
_interrupts[(int)type] = true;
}
}
}
}

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44
AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.IORegisters.cs Normal file
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using System;
using System.Collections.Generic;
using System.Linq;
using System.Runtime.CompilerServices;
using System.Text;
using System.Threading.Tasks;
namespace AxibugEmuOnline.Client.UNES
{
sealed partial class CPU
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public void WriteIoRegister(uint reg, byte val)
{
switch (reg)
{
case 0x4014: // OAM DMA
_emulator.PPU.PerformDMA(val);
break;
case 0x4016:
_emulator.Controller.Strobe(val == 1);
break;
}
if (reg <= 0x401F)
{
return; // APU write
}
throw new NotImplementedException($"{reg:X4} = {val:X2}");
}
public uint ReadIORegister(uint reg)
{
switch (reg)
{
case 0x4016:
return (uint) _emulator.Controller.ReadState() & 0x1;
}
return 0x00;
//throw new NotImplementedException();
}
}
}

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463
AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Instructions.cs Normal file
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using System;
using static AxibugEmuOnline.Client.UNES.CPU.AddressingMode;
namespace AxibugEmuOnline.Client.UNES
{
public sealed partial class CPU
{
[AttributeUsage(AttributeTargets.Method, Inherited = false, AllowMultiple = true)]
public class OpCodeDef : Attribute
{
public int OpCode;
public int Cycles = 1;
public bool PageBoundary;
public bool RMW;
public AddressingMode Mode = None;
}
[OpCodeDef(OpCode = 0x20, Cycles = 6)]
private void JSR()
{
PushWord(PC + 1);
PC = NextWord();
}
[OpCodeDef(OpCode = 0x40, Cycles = 6)]
private void RTI()
{
// TODO: this dummy fetch should happen for all single-byte instructions
NextByte();
P = Pop();
PC = PopWord();
}
[OpCodeDef(OpCode = 0x60, Cycles = 6)]
private void RTS()
{
NextByte();
PC = PopWord() + 1;
}
[OpCodeDef(OpCode = 0xC8, Cycles = 2)]
private void INY() => Y++;
[OpCodeDef(OpCode = 0x88, Cycles = 2)]
private void DEY() => Y--;
[OpCodeDef(OpCode = 0xE8, Cycles = 2)]
private void INX() => X++;
[OpCodeDef(OpCode = 0xCA, Cycles = 2, RMW = true)]
private void DEX() => X--;
[OpCodeDef(OpCode = 0xA8, Cycles = 2)]
private void TAY() => Y = A;
[OpCodeDef(OpCode = 0x98, Cycles = 2)]
private void TYA() => A = Y;
[OpCodeDef(OpCode = 0xAA, Cycles = 2, RMW = true)]
private void TAX() => X = A;
[OpCodeDef(OpCode = 0x8A, Cycles = 2, RMW = true)]
private void TXA() => A = X;
[OpCodeDef(OpCode = 0xBA, Cycles = 2)]
private void TSX() => X = SP;
[OpCodeDef(OpCode = 0x9A, Cycles = 2, RMW = true)]
private void TXS() => SP = X;
[OpCodeDef(OpCode = 0x08, Cycles = 3)]
private void PHP() => Push(P | BreakSourceBit);
[OpCodeDef(OpCode = 0x28, Cycles = 4)]
private void PLP() => P = (uint)(Pop() & ~BreakSourceBit);
[OpCodeDef(OpCode = 0x68, Cycles = 4)]
private void PLA() => A = Pop();
[OpCodeDef(OpCode = 0x48, Cycles = 3)]
private void PHA() => Push(A);
[OpCodeDef(OpCode = 0x24, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x2C, Mode = Absolute, Cycles = 4)]
private void BIT()
{
uint val = AddressRead();
F.Overflow = (val & 0x40) > 0;
F.Zero = (val & A) == 0;
F.Negative = (val & 0x80) > 0;
}
private void Branch(bool cond)
{
uint nPC = (uint)(PC + NextSByte() + 1);
if (cond)
{
PC = nPC;
Cycle++;
}
}
[OpCodeDef(OpCode = 0x4C, Cycles = 3)]
[OpCodeDef(OpCode = 0x6C, Cycles = 5)]
private void JMP()
{
if (_currentInstruction == 0x4C)
{
PC = NextWord();
}
else if (_currentInstruction == 0x6C)
{
uint off = NextWord();
// AN INDIRECT JUMP MUST NEVER USE A VECTOR BEGINNING ON THE LAST BYTE OF A PAGE
//
// If address $3000 contains $40, $30FF contains $80, and $3100 contains $50,
// the result of JMP ($30FF) will be a transfer of control to $4080 rather than
// $5080 as you intended i.e. the 6502 took the low byte of the address from
// $30FF and the high byte from $3000.
//
// http://www.6502.org/tutorials/6502opcodes.html
uint hi = (off & 0xFF) == 0xFF ? off - 0xFF : off + 1;
uint oldPC = PC;
PC = ReadByte(off) | (ReadByte(hi) << 8);
if ((oldPC & 0xFF00) != (PC & 0xFF00))
{
Cycle += 2;
}
}
else
{
throw new NotImplementedException();
}
}
[OpCodeDef(OpCode = 0xB0, Cycles = 2)]
private void BCS() => Branch(F.Carry);
[OpCodeDef(OpCode = 0x90, Cycles = 2)]
private void BCC() => Branch(!F.Carry);
[OpCodeDef(OpCode = 0xF0, Cycles = 2)]
private void BEQ() => Branch(F.Zero);
[OpCodeDef(OpCode = 0xD0, Cycles = 2)]
private void BNE() => Branch(!F.Zero);
[OpCodeDef(OpCode = 0x70, Cycles = 2)]
private void BVS() => Branch(F.Overflow);
[OpCodeDef(OpCode = 0x50, Cycles = 2)]
private void BVC() => Branch(!F.Overflow);
[OpCodeDef(OpCode = 0x10, Cycles = 2)]
private void BPL() => Branch(!F.Negative);
[OpCodeDef(OpCode = 0x30, Cycles = 2)]
private void BMI() => Branch(F.Negative);
[OpCodeDef(OpCode = 0x81, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0x91, Mode = IndirectY, Cycles = 6)]
[OpCodeDef(OpCode = 0x95, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x99, Mode = AbsoluteY, Cycles = 5)]
[OpCodeDef(OpCode = 0x9D, Mode = AbsoluteX, Cycles = 5)]
[OpCodeDef(OpCode = 0x85, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x8D, Mode = Absolute, Cycles = 4)]
private void STA() => AddressWrite(A);
[OpCodeDef(OpCode = 0x96, Mode = ZeroPageY, Cycles = 4)]
[OpCodeDef(OpCode = 0x86, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x8E, Mode = Absolute, Cycles = 4)]
private void STX() => AddressWrite(X);
[OpCodeDef(OpCode = 0x94, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x84, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x8C, Mode = Absolute, Cycles = 4)]
private void STY() => AddressWrite(Y);
[OpCodeDef(OpCode = 0x18, Cycles = 2)]
private void CLC() => F.Carry = false;
[OpCodeDef(OpCode = 0x38, Cycles = 2)]
private void SEC() => F.Carry = true;
[OpCodeDef(OpCode = 0x58, Cycles = 2)]
private void CLI() => F.InterruptsDisabled = false;
[OpCodeDef(OpCode = 0x78, Cycles = 2)]
private void SEI() => F.InterruptsDisabled = true;
[OpCodeDef(OpCode = 0xB8, Cycles = 2)]
private void CLV() => F.Overflow = false;
[OpCodeDef(OpCode = 0xD8, Cycles = 2)]
private void CLD() => F.DecimalMode = false;
[OpCodeDef(OpCode = 0xF8, Cycles = 2)]
private void SED() => F.DecimalMode = true;
[OpCodeDef(OpCode = 0xEA, Cycles = 2)]
[OpCodeDef(OpCode = 0x1A, Cycles = 2)] // Unofficial
[OpCodeDef(OpCode = 0x3A, Cycles = 2)] // Unofficial
[OpCodeDef(OpCode = 0x5A, Cycles = 2)] // Unofficial
[OpCodeDef(OpCode = 0x7A, Cycles = 2)] // Unofficial
[OpCodeDef(OpCode = 0xDA, Cycles = 2)] // Unofficial
[OpCodeDef(OpCode = 0xFA, Cycles = 2)] // Unofficial
private void NOP() { }
[OpCodeDef(OpCode = 0xA1, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0xA5, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0xA9, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xAD, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0xB1, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0xB5, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0xB9, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0xBD, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void LDA() => A = AddressRead();
[OpCodeDef(OpCode = 0xA0, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xA4, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0xAC, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0xB4, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0xBC, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void LDY() => Y = AddressRead();
[OpCodeDef(OpCode = 0xA2, Mode = Immediate, Cycles = 2, RMW = true)]
[OpCodeDef(OpCode = 0xA6, Mode = ZeroPage, Cycles = 3, RMW = true)]
[OpCodeDef(OpCode = 0xAE, Mode = Absolute, Cycles = 4, RMW = true)]
[OpCodeDef(OpCode = 0xB6, Mode = ZeroPageY, Cycles = 4, RMW = true)]
[OpCodeDef(OpCode = 0xBE, Mode = AbsoluteY, Cycles = 4, PageBoundary = true, RMW = true)]
private void LDX() => X = AddressRead();
[OpCodeDef(OpCode = 0x01, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0x05, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x09, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0x0D, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0x11, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0x15, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x19, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0x1D, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void ORA() => A |= AddressRead();
[OpCodeDef(OpCode = 0x21, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0x25, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x29, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0x2D, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0x31, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0x35, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x39, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0x3D, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void AND() => A &= AddressRead();
[OpCodeDef(OpCode = 0x41, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0x45, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x49, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0x4D, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0x51, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0x55, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x59, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0x5D, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void EOR() => A ^= AddressRead();
[OpCodeDef(OpCode = 0xE1, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0xE5, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x69, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xE9, Mode = Immediate, Cycles = 2)] // Official duplicate of $69
[OpCodeDef(OpCode = 0xEB, Mode = Immediate, Cycles = 2)] // Unofficial duplicate of $69
[OpCodeDef(OpCode = 0xED, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0xF1, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0xF5, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0xF9, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0xFD, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void SBC() => ADCImpl((byte)~AddressRead());
[OpCodeDef(OpCode = 0x61, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0x65, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0x69, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0x6D, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0x71, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0x75, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0x79, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0x7D, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void ADC() => ADCImpl(AddressRead());
private void ADCImpl(uint val)
{
int nA = (sbyte)A + (sbyte)val + (sbyte)(F.Carry ? 1 : 0);
F.Overflow = nA < -128 || nA > 127;
F.Carry = (A + val + (F.Carry ? 1 : 0)) > 0xFF;
A = (byte)(nA & 0xFF);
}
[OpCodeDef(OpCode = 0x00, Cycles = 7)]
private void BRK()
{
NextByte();
Push(P | BreakSourceBit);
F.InterruptsDisabled = true;
PC = ReadByte(0xFFFE) | (ReadByte(0xFFFF) << 8);
}
[OpCodeDef(OpCode = 0xC1, Mode = IndirectX, Cycles = 6)]
[OpCodeDef(OpCode = 0xC5, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0xC9, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xCD, Mode = Absolute, Cycles = 4)]
[OpCodeDef(OpCode = 0xD1, Mode = IndirectY, Cycles = 5, PageBoundary = true)]
[OpCodeDef(OpCode = 0xD5, Mode = ZeroPageX, Cycles = 4)]
[OpCodeDef(OpCode = 0xD9, Mode = AbsoluteY, Cycles = 4, PageBoundary = true)]
[OpCodeDef(OpCode = 0xDD, Mode = AbsoluteX, Cycles = 4, PageBoundary = true)]
private void CMP() => CMPImpl(A);
[OpCodeDef(OpCode = 0xE0, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xE4, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0xEC, Mode = Absolute, Cycles = 4)]
private void CPX() => CMPImpl(X);
[OpCodeDef(OpCode = 0xC0, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0xC4, Mode = ZeroPage, Cycles = 3)]
[OpCodeDef(OpCode = 0xCC, Mode = Absolute, Cycles = 4)]
private void CPY() => CMPImpl(Y);
private void CMPImpl(uint reg)
{
long d = reg - (int)AddressRead();
F.Negative = (d & 0x80) > 0 && d != 0;
F.Carry = d >= 0;
F.Zero = d == 0;
}
[OpCodeDef(OpCode = 0x46, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0x4E, Mode = Absolute, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x56, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x5E, Mode = AbsoluteX, Cycles = 7, RMW = true)]
[OpCodeDef(OpCode = 0x4A, Mode = Direct, Cycles = 2, RMW = true)]
private void LSR()
{
uint D = AddressRead();
F.Carry = (D & 0x1) > 0;
D >>= 1;
_F(D);
AddressWrite(D);
}
[OpCodeDef(OpCode = 0x06, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0x0E, Mode = Absolute, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x16, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x1E, Mode = AbsoluteX, Cycles = 7, RMW = true)]
[OpCodeDef(OpCode = 0x0A, Mode = Direct, Cycles = 2, RMW = true)]
private void ASL()
{
uint D = AddressRead();
F.Carry = (D & 0x80) > 0;
D <<= 1;
_F(D);
AddressWrite(D);
}
[OpCodeDef(OpCode = 0x66, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0x6E, Mode = Absolute, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x76, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x7E, Mode = AbsoluteX, Cycles = 7, RMW = true)]
[OpCodeDef(OpCode = 0x6A, Mode = Direct, Cycles = 2, RMW = true)]
private void ROR()
{
uint D = AddressRead();
bool c = F.Carry;
F.Carry = (D & 0x1) > 0;
D >>= 1;
if (c) D |= 0x80;
_F(D);
AddressWrite(D);
}
[OpCodeDef(OpCode = 0x26, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0x2E, Mode = Absolute, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x36, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0x3E, Mode = AbsoluteX, Cycles = 7, RMW = true)]
[OpCodeDef(OpCode = 0x2A, Mode = Direct, Cycles = 2, RMW = true)]
private void ROL()
{
uint D = AddressRead();
bool c = F.Carry;
F.Carry = (D & 0x80) > 0;
D <<= 1;
if (c) D |= 0x1;
_F(D);
AddressWrite(D);
}
[OpCodeDef(OpCode = 0xE6, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0xEE, Mode = Absolute, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0xF6, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0xFE, Mode = AbsoluteX, Cycles = 7, RMW = true)]
private void INC()
{
byte D = (byte)(AddressRead() + 1);
_F(D);
AddressWrite(D);
}
[OpCodeDef(OpCode = 0xC6, Mode = ZeroPage, Cycles = 5, RMW = true)]
[OpCodeDef(OpCode = 0xCE, Mode = Absolute, Cycles = 3, RMW = true)]
[OpCodeDef(OpCode = 0xD6, Mode = ZeroPageX, Cycles = 6, RMW = true)]
[OpCodeDef(OpCode = 0xDE, Mode = AbsoluteX, Cycles = 7, RMW = true)]
private void DEC()
{
byte D = (byte)(AddressRead() - 1);
_F(D);
AddressWrite(D);
}
#region Unofficial Opcodes
[OpCodeDef(OpCode = 0x80, Cycles = 2)]
[OpCodeDef(OpCode = 0x82, Cycles = 2)]
[OpCodeDef(OpCode = 0x89, Cycles = 2)]
[OpCodeDef(OpCode = 0xC2, Cycles = 2)]
[OpCodeDef(OpCode = 0xE2, Cycles = 2)]
private void SKB() => NextByte(); // Essentially a 2-byte NOP
[OpCodeDef(OpCode = 0x0B, Mode = Immediate, Cycles = 2)]
[OpCodeDef(OpCode = 0x2B, Mode = Immediate, Cycles = 2)]
private void ANC()
{
A &= AddressRead();
F.Carry = F.Negative;
}
[OpCodeDef(OpCode = 0x4B, Mode = Immediate, Cycles = 2)]
private void ALR()
{
A &= AddressRead();
F.Carry = (A & 0x1) > 0;
A >>= 1;
_F(A);
}
[OpCodeDef(OpCode = 0x6B, Mode = Immediate, Cycles = 2)]
private void ARR()
{
A &= AddressRead();
bool c = F.Carry;
F.Carry = (A & 0x1) > 0;
A >>= 1;
if (c) A |= 0x80;
_F(A);
}
[OpCodeDef(OpCode = 0xAB, Mode = Immediate, Cycles = 2)]
private void ATX()
{
// This opcode ORs the A register with #$EE, ANDs the result with an immediate
// value, and then stores the result in both A and X.
A |= ReadByte(0xEE);
A &= AddressRead();
X = A;
}
#endregion
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Instructions.cs.meta Normal file
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fileFormatVersion: 2
guid: cae8846694d75f04a8214a484032d533
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165
AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Memory.cs Normal file
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using System;
using System.Linq;
using System.Runtime.CompilerServices;
using static AxibugEmuOnline.Client.UNES.CPU.AddressingMode;
namespace AxibugEmuOnline.Client.UNES
{
sealed partial class CPU
{
public enum AddressingMode
{
None,
Direct,
Immediate,
ZeroPage,
Absolute,
ZeroPageX,
ZeroPageY,
AbsoluteX,
AbsoluteY,
IndirectX,
IndirectY
}
private uint? _currentMemoryAddress;
private uint _rmwValue;
private void ResetInstructionAddressingMode() => _currentMemoryAddress = null;
private uint _Address()
{
var def = _opCodeDefs[_currentInstruction];
switch (def.Mode)
{
case Immediate:
return PC++;
case ZeroPage:
return NextByte();
case Absolute:
return NextWord();
case ZeroPageX:
return (NextByte() + X) & 0xFF;
case ZeroPageY:
return (NextByte() + Y) & 0xFF;
case AbsoluteX:
var address = NextWord();
if (def.PageBoundary && (address & 0xFF00) != ((address + X) & 0xFF00))
{
Cycle += 1;
}
return address + X;
case AbsoluteY:
address = NextWord();
if (def.PageBoundary && (address & 0xFF00) != ((address + Y) & 0xFF00))
{
Cycle += 1;
}
return address + Y;
case IndirectX:
var off = (NextByte() + X) & 0xFF;
return ReadByte(off) | (ReadByte((off + 1) & 0xFF) << 8);
case IndirectY:
off = NextByte() & 0xFF;
address = ReadByte(off) | (ReadByte((off + 1) & 0xFF) << 8);
if (def.PageBoundary && (address & 0xFF00) != ((address + Y) & 0xFF00))
{
Cycle += 1;
}
return (address + Y) & 0xFFFF;
}
throw new NotImplementedException();
}
public uint AddressRead()
{
if (_opCodeDefs[_currentInstruction].Mode == Direct)
{
return _rmwValue = A;
}
if (_currentMemoryAddress == null)
{
_currentMemoryAddress = _Address();
}
return _rmwValue = ReadByte((uint)_currentMemoryAddress) & 0xFF;
}
public void AddressWrite(uint val)
{
if (_opCodeDefs[_currentInstruction].Mode == Direct)
{
A = val;
}
else
{
if (_currentMemoryAddress == null)
{
_currentMemoryAddress = _Address();
}
if (_opCodeDefs[_currentInstruction].RMW)
{
WriteByte((uint)_currentMemoryAddress, _rmwValue);
}
WriteByte((uint)_currentMemoryAddress, val);
}
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint ReadWord(uint address) => ReadByte(address) | (ReadByte(address + 1) << 8);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint NextByte() => ReadByte(PC++);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint NextWord() => NextByte() | (NextByte() << 8);
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private sbyte NextSByte() => (sbyte)NextByte();
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private void Push(uint what)
{
WriteByte(0x100 + SP, what);
SP--;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint Pop()
{
SP++;
return ReadByte(0x100 + SP);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private void PushWord(uint what)
{
Push(what >> 8);
Push(what & 0xFF);
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint PopWord() => Pop() | (Pop() << 8);
protected override void InitializeMemoryMap()
{
base.InitializeMemoryMap();
MapReadHandler(0x0000, 0x1FFF, address => _ram[address & 0x07FF]);
MapReadHandler(0x2000, 0x3FFF, address => _emulator.PPU.ReadRegister((address & 0x7) - 0x2000));
MapReadHandler(0x4000, 0x4017, ReadIORegister);
MapWriteHandler(0x0000, 0x1FFF, (address, val) => _ram[address & 0x07FF] = val);
MapWriteHandler(0x2000, 0x3FFF, (address, val) => _emulator.PPU.WriteRegister((address & 0x7) - 0x2000, val));
MapWriteHandler(0x4000, 0x401F, WriteIoRegister);
_emulator.Mapper.InitializeMemoryMap(this);
}
}
}

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userData:
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AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Registers.cs Normal file
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using System.Runtime.CompilerServices;
namespace AxibugEmuOnline.Client.UNES
{
sealed partial class CPU
{
private const int CarryBit = 0x1;
private const int ZeroBit = 0x2;
private const int InterruptDisabledBit = 0x4;
private const int DecimalModeBit = 0x8;
private const int BreakSourceBit = 0x10;
private const int OverflowBit = 0x40;
private const int NegativeBit = 0x80;
public class CPUFlags
{
public bool Negative;
public bool Overflow;
public bool BreakSource;
public bool DecimalMode;
public bool InterruptsDisabled;
public bool Zero;
public bool Carry;
}
public readonly CPUFlags F = new CPUFlags();
public uint _A, _X, _Y, _SP;
public uint PC;
public uint A
{
get => _A;
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private set => _A = _F(value & 0xFF);
}
public uint X
{
get => _X;
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private set => _X = _F(value & 0xFF);
}
public uint Y
{
get => _Y;
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private set => _Y = _F(value & 0xFF);
}
public uint SP
{
get => _SP;
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private set => _SP = value & 0xFF;
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
private uint _F(uint val)
{
F.Zero = (val & 0xFF) == 0;
F.Negative = (val & 0x80) > 0;
return val;
}
public uint P
{
get => (uint) ((F.Carry.AsByte() << 0) |
(F.Zero.AsByte() << 1) |
(F.InterruptsDisabled.AsByte() << 2) |
(F.DecimalMode.AsByte() << 3) |
(F.BreakSource.AsByte() << 4) |
(1 << 5) |
(F.Overflow.AsByte() << 6) |
(F.Negative.AsByte() << 7));
set
{
F.Carry = (value & CarryBit) > 0;
F.Zero = (value & ZeroBit) > 0;
F.InterruptsDisabled = (value & InterruptDisabledBit) > 0;
F.DecimalMode = (value & DecimalModeBit) > 0;
F.BreakSource = (value & BreakSourceBit) > 0;
F.Overflow = (value & OverflowBit) > 0;
F.Negative = (value & NegativeBit) > 0;
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.Registers.cs.meta Normal file
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65
AxibugEmuOnline.Client/Assets/Runtime/Core/CPU.cs Normal file
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using System;
using System.Linq;
using System.Reflection;
namespace AxibugEmuOnline.Client.UNES
{
sealed partial class CPU : Addressable
{
private readonly byte[] _ram = new byte[0x800];
public int Cycle;
private uint _currentInstruction;
public delegate void OpCode();
private readonly OpCode[] _opCodes = new OpCode[256];
private readonly string[] _opCodeNames = new string[256];
private readonly OpCodeDef[] _opCodeDefs = new OpCodeDef[256];
public CPU(Emulator emulator) : base(emulator, 0xFFFF)
{
InitializeOpCodes();
InitializeMemoryMap();
Initialize();
}
private void InitializeOpCodes()
{
var opCodeBindings = from opCode in GetType().GetMethods(BindingFlags.NonPublic | BindingFlags.Instance)
let defs = opCode.GetCustomAttributes(typeof(OpCodeDef), false)
where defs.Length > 0
select new
{
binding = (OpCode)Delegate.CreateDelegate(typeof(OpCode), this, opCode.Name),
name = opCode.Name,
defs = (from d in defs select (OpCodeDef)d)
};
foreach (var opCode in opCodeBindings)
{
foreach (var def in opCode.defs)
{
_opCodes[def.OpCode] = opCode.binding;
_opCodeNames[def.OpCode] = opCode.name;
_opCodeDefs[def.OpCode] = def;
}
}
}
public void Execute()
{
for (var i = 0; i < 5000; i++)
{
ExecuteSingleInstruction();
}
uint w;
ushort x = 6000;
string z = "";
while ((w = ReadByte(x)) != '\0')
{
z += (char)w;
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/Cartridge.cs Normal file
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using System;
namespace AxibugEmuOnline.Client.UNES
{
public class Cartridge
{
public readonly byte[] Raw;
public readonly int PRGROMSize;
public readonly int CHRROMSize;
public readonly int PRGRAMSize;
public readonly int PRGROMOffset;
public readonly int MapperNumber;
public readonly byte[] PRGROM;
public readonly byte[] CHRROM;
public VRAMMirroringMode MirroringMode;
public enum VRAMMirroringMode
{
Horizontal, Vertical, All, Upper, Lower
}
public Cartridge(byte[] bytes)
{
Raw = bytes;
var header = BitConverter.ToInt32(Raw, 0);
if (header != 0x1A53454E) // "NES<EOF>"
{
throw new FormatException("unexpected header value " + header.ToString("X"));
}
PRGROMSize = Raw[4] * 0x4000; // 16kb units
CHRROMSize = Raw[5] * 0x2000; // 8kb units
PRGRAMSize = Raw[8] * 0x2000;
var hasTrainer = (Raw[6] & 0b100) > 0;
PRGROMOffset = 16 + (hasTrainer ? 512 : 0);
MirroringMode = (Raw[6] & 0x1) > 0 ? VRAMMirroringMode.Vertical : VRAMMirroringMode.Horizontal;
if ((Raw[6] & 0x8) > 0)
{
MirroringMode = VRAMMirroringMode.All;
}
MapperNumber = (Raw[6] >> 4) | (Raw[7] & 0xF0);
PRGROM = new byte[PRGROMSize];
Array.Copy(Raw, PRGROMOffset, PRGROM, 0, PRGROMSize);
if (CHRROMSize == 0)
{
CHRROM = new byte[0x2000];
}
else
{
CHRROM = new byte[CHRROMSize];
Array.Copy(Raw, PRGROMOffset + PRGROMSize, CHRROM, 0, CHRROMSize);
}
}
public override string ToString()
{
return $"Cartridge{{PRGROMSize={PRGROMSize}, CHRROMSize={CHRROMSize}, PRGROMOffset={PRGROMOffset}, MapperNumber={MapperNumber}}}";
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/Emulator.cs Normal file
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using System;
using System.Collections.Generic;
using System.IO;
using System.Linq;
using System.Reflection;
using AxibugEmuOnline.Client.UNES.Controller;
using AxibugEmuOnline.Client.UNES.Mapper;
namespace AxibugEmuOnline.Client.UNES
{
public class Emulator
{
private static readonly Dictionary<int, KeyValuePair<Type, MapperDef>> Mappers = (from type in Assembly.GetExecutingAssembly().GetTypes()
let def = (MapperDef)type.GetCustomAttributes(typeof(MapperDef), true).FirstOrDefault()
where def != null
select new { def, type }).ToDictionary(a => a.def.Id, a => new KeyValuePair<Type, MapperDef>(a.type, a.def));
public IController Controller;
public readonly CPU CPU;
public readonly PPU PPU;
public readonly BaseMapper Mapper;
public readonly Cartridge Cartridge;
public Emulator(byte[] bytes, IController controller)
{
Cartridge = new Cartridge(bytes);
if (!Mappers.ContainsKey(Cartridge.MapperNumber))
{
throw new NotImplementedException($"unsupported mapper {Cartridge.MapperNumber}");
}
Mapper = (BaseMapper)Activator.CreateInstance(Mappers[Cartridge.MapperNumber].Key, this);
CPU = new CPU(this);
PPU = new PPU(this);
Controller = controller;
// Load();
}
}
}

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using System;
namespace AxibugEmuOnline.Client.UNES
{
partial class PPU
{
private const int GameWidth = 256, GameHeight = 240;
private uint _bufferPos;
public readonly uint[] RawBitmap = new uint[GameWidth * GameHeight];
//查找表的Idx网络缓存
public readonly byte[] RawBitmap_paletteIdxCache = new byte[GameWidth * GameHeight];
private readonly uint[] _priority = new uint[GameWidth * GameHeight];
// TODO: use real chroma/luma decoding
private readonly uint[] _palette = {
0x7C7C7C, 0x0000FC, 0x0000BC, 0x4428BC, 0x940084, 0xA80020, 0xA81000, 0x881400,
0x503000, 0x007800, 0x006800, 0x005800, 0x004058, 0x000000, 0x000000, 0x000000,
0xBCBCBC, 0x0078F8, 0x0058F8, 0x6844FC, 0xD800CC, 0xE40058, 0xF83800, 0xE45C10,
0xAC7C00, 0x00B800, 0x00A800, 0x00A844, 0x008888, 0x000000, 0x000000, 0x000000,
0xF8F8F8, 0x3CBCFC, 0x6888FC, 0x9878F8, 0xF878F8, 0xF85898, 0xF87858, 0xFCA044,
0xF8B800, 0xB8F818, 0x58D854, 0x58F898, 0x00E8D8, 0x787878, 0x000000, 0x000000,
0xFCFCFC, 0xA4E4FC, 0xB8B8F8, 0xD8B8F8, 0xF8B8F8, 0xF8A4C0, 0xF0D0B0, 0xFCE0A8,
0xF8D878, 0xD8F878, 0xB8F8B8, 0xB8F8D8, 0x00FCFC, 0xF8D8F8, 0x000000, 0x000000
};
private int _scanLineCount = 261;
private int _cyclesPerLine = 341;
private int _cpuSyncCounter;
private readonly uint[] _scanLineOAM = new uint[8 * 4];
private readonly bool[] _isSprite0 = new bool[8];
private int _spriteCount;
private long _tileShiftRegister;
private uint _currentNameTableByte;
private uint _currentHighTile, _currentLowTile;
private uint _currentColor;
public void ProcessPixel(int x, int y)
{
ProcessBackgroundForPixel(x, y);
if (F.DrawSprites)
{
ProcessSpritesForPixel(x, y);
}
if (y != -1)
{
_bufferPos++;
}
}
private void CountSpritesOnLine(int scanLine)
{
_spriteCount = 0;
var height = F.TallSpritesEnabled ? 16 : 8;
for (var idx = 0; idx < _oam.Length; idx += 4)
{
var y = _oam[idx] + 1;
if (scanLine >= y && scanLine < y + height)
{
_isSprite0[_spriteCount] = idx == 0;
_scanLineOAM[_spriteCount * 4 + 0] = _oam[idx + 0];
_scanLineOAM[_spriteCount * 4 + 1] = _oam[idx + 1];
_scanLineOAM[_spriteCount * 4 + 2] = _oam[idx + 2];
_scanLineOAM[_spriteCount * 4 + 3] = _oam[idx + 3];
_spriteCount++;
}
if (_spriteCount == 8)
{
break;
}
}
}
private void NextNameTableByte()
{
_currentNameTableByte = ReadByte(0x2000 | (V & 0x0FFF));
}
private void NextTileByte(bool hi)
{
var tileIdx = _currentNameTableByte * 16;
var address = F.PatternTableAddress + tileIdx + FineY;
if (hi)
{
_currentHighTile = ReadByte(address + 8);
}
else
{
_currentLowTile = ReadByte(address);
}
}
private void NextAttributeByte()
{
// Bless nesdev
var address = 0x23C0 | (V & 0x0C00) | ((V >> 4) & 0x38) | ((V >> 2) & 0x07);
_currentColor = (ReadByte(address) >> (int)((CoarseX & 2) | ((CoarseY & 2) << 1))) & 0x3;
}
private void ShiftTileRegister()
{
for (var x = 0; x < 8; x++)
{
uint palette = ((_currentHighTile & 0x80) >> 6) | ((_currentLowTile & 0x80) >> 7);
_tileShiftRegister |= (palette + _currentColor * 4) << ((7 - x) * 4);
_currentLowTile <<= 1;
_currentHighTile <<= 1;
}
}
private void ProcessBackgroundForPixel(int cycle, int scanLine)
{
if (cycle < 8 && !F.DrawLeftBackground || !F.DrawBackground && scanLine != -1)
{
// Maximally sketchy: if current address is in the PPU palette, then it draws that palette entry if rendering is disabled
// Otherwise, it draws $3F00 (universal bg color)
// https://www.romhacking.net/forum/index.php?topic=20554.0
// Don't know if any game actually uses it, but a test ROM I wrote unexpectedly showed this
// corner case
//RawBitmap[_bufferPos] = _palette[ReadByte(0x3F00 + ((F.BusAddress & 0x3F00) == 0x3F00 ? F.BusAddress & 0x001F : 0)) & 0x3F];
byte pIdx = (byte)(ReadByte(0x3F00 + ((F.BusAddress & 0x3F00) == 0x3F00 ? F.BusAddress & 0x001F : 0)) & 0x3F);
//RawBitmap[_bufferPos] = _palette[pIdx];
RawBitmap_paletteIdxCache[_bufferPos] = pIdx;
return;
}
var paletteEntry = (uint)(_tileShiftRegister >> 32 >> (int)((7 - X) * 4)) & 0x0F;
if (paletteEntry % 4 == 0) paletteEntry = 0;
if (scanLine != -1)
{
_priority[_bufferPos] = paletteEntry;
//RawBitmap[_bufferPos] = _palette[ReadByte(0x3F00u + paletteEntry) & 0x3F];
byte pIdx = (byte)(ReadByte(0x3F00u + paletteEntry) & 0x3F);
//RawBitmap[_bufferPos] = _palette[pIdx];
RawBitmap_paletteIdxCache[_bufferPos] = pIdx;
}
}
private void ProcessSpritesForPixel(int x, int scanLine)
{
for (var idx = _spriteCount * 4 - 4; idx >= 0; idx -= 4)
{
var spriteX = _scanLineOAM[idx + 3];
var spriteY = _scanLineOAM[idx] + 1;
// Don't draw this sprite if...
if (spriteY == 0 || // it's located at y = 0
spriteY > 239 || // it's located past y = 239 ($EF)
x >= spriteX + 8 || // it's behind the current dot
x < spriteX || // it's ahead of the current dot
x < 8 && !F.DrawLeftSprites) // it's in the clip area, and clipping is enabled
{
continue;
}
// amusingly enough, the PPU's palette handling is basically identical
// to that of the Gameboy / Gameboy Color, so I've sort of just copy/pasted
// handling code wholesale from my GBC emulator at
// https://github.com/Xyene/Nitrous-Emulator/blob/master/src/main/java/nitrous/lcd/LCD.java#L642
var tileIdx = _scanLineOAM[idx + 1];
if (F.TallSpritesEnabled)
{
tileIdx &= ~0x1u;
}
tileIdx *= 16;
var attribute = _scanLineOAM[idx + 2] & 0xE3;
var palette = attribute & 0x3;
var front = (attribute & 0x20) == 0;
var flipX = (attribute & 0x40) > 0;
var flipY = (attribute & 0x80) > 0;
var px = (int) (x - spriteX);
var line = (int) (scanLine - spriteY);
var tableBase = F.TallSpritesEnabled ? (_scanLineOAM[idx + 1] & 1) * 0x1000 : F.SpriteTableAddress;
if (F.TallSpritesEnabled)
{
if (line >= 8)
{
line -= 8;
if (!flipY)
{
tileIdx += 16;
}
flipY = false;
}
if (flipY)
{
tileIdx += 16;
}
}
// here we handle the x and y flipping by tweaking the indices we are accessing
var logicalX = flipX ? 7 - px : px;
var logicalLine = flipY ? 7 - line : line;
var address = (uint) (tableBase + tileIdx + logicalLine);
// this looks bad, but it's about as readable as it's going to get
var color = (uint) (
(
(
(
// fetch upper bit from 2nd bit plane
ReadByte(address + 8) & (0x80 >> logicalX)
) >> (7 - logicalX)
) << 1 // this is the upper bit of the color number
) |
(
(
ReadByte(address) & (0x80 >> logicalX)
) >> (7 - logicalX)
)); // << 0, this is the lower bit of the color number
if (color > 0)
{
var backgroundPixel = _priority[_bufferPos];
// Sprite 0 hits...
if (!(!_isSprite0[idx / 4] || // do not occur on not-0 sprite
x < 8 && !F.DrawLeftSprites || // or if left clipping is enabled
backgroundPixel == 0 || // or if bg pixel is transparent
F.Sprite0Hit || // or if it fired this frame already
x == 255)) // or if x is 255, "for an obscure reason related to the pixel pipeline"
{
F.Sprite0Hit = true;
}
if (F.DrawBackground && (front || backgroundPixel == 0))
{
if (scanLine != -1)
{
//RawBitmap[_bufferPos] = _palette[ReadByte(0x3F10 + palette * 4 + color) & 0x3F];
byte pIdx = (byte)(ReadByte(0x3F10 + palette * 4 + color) & 0x3F);
RawBitmap[_bufferPos] = _palette[pIdx];
RawBitmap_paletteIdxCache[_bufferPos] = pIdx;
}
}
}
}
}
public void ProcessFrame()
{
RawBitmap.Fill(0u);
RawBitmap_paletteIdxCache.Fill((byte)0);
_priority.Fill(0u);
_bufferPos = 0;
for (var i = -1; i < _scanLineCount; i++)
{
ProcessScanLine(i);
}
}
public void ProcessScanLine(int line)
{
for (var i = 0; i < _cyclesPerLine; i++)
{
ProcessCycle(line, i);
}
}
private int _cpuClocksSinceVBL;
private int _ppuClocksSinceVBL;
public void ProcessCycle(int scanLine, int cycle)
{
var visibleCycle = 1 <= cycle && cycle <= 256;
var prefetchCycle = 321 <= cycle && cycle <= 336;
var fetchCycle = visibleCycle || prefetchCycle;
if (F.VBlankStarted)
{
_ppuClocksSinceVBL++;
}
if (0 <= scanLine && scanLine < 240 || scanLine == -1)
{
if (visibleCycle)
{
ProcessPixel(cycle - 1, scanLine);
}
// During pixels 280 through 304 of this scanline, the vertical scroll bits are reloaded TODO: if rendering is enabled.
if (scanLine == -1 && 280 <= cycle && cycle <= 304)
{
ReloadScrollY();
}
if (fetchCycle)
{
_tileShiftRegister <<= 4;
// See https://wiki.nesdev.com/w/images/d/d1/Ntsc_timing.png
// Takes 8 cycles for tile to be read, 2 per "step"
switch (cycle & 7)
{
case 1: // NT
NextNameTableByte();
break;
case 3: // AT
NextAttributeByte();
break;
case 5: // Tile low
NextTileByte(false);
break;
case 7: // Tile high
NextTileByte(true);
break;
case 0: // 2nd cycle of tile high fetch
if (cycle == 256)
IncrementScrollY();
else
IncrementScrollX();
// Begin rendering a brand new tile
ShiftTileRegister();
break;
}
}
if (cycle == 257)
{
ReloadScrollX();
// 257 - 320
// The tile data for the sprites on the next scanline are fetched here.
// TODO: stagger this over all the cycles as opposed to only on 257
CountSpritesOnLine(scanLine + 1);
}
}
// TODO: this is a hack; VBlank should be cleared on dot 1 of the pre-render line,
// but for some reason we're at 2272-2273 CPU clocks at that time
// (i.e., our PPU timing is off somewhere by 6-9 PPU cycles per frame)
if (F.VBlankStarted && _cpuClocksSinceVBL == 2270)
{
F.VBlankStarted = false;
_cpuClocksSinceVBL = 0;
}
if (cycle == 1)
{
if (scanLine == 241)
{
F.VBlankStarted = true;
if (F.NMIEnabled)
{
_emulator.CPU.TriggerInterrupt(CPU.InterruptType.NMI);
}
}
// Happens at the same time as 1st cycle of NT byte fetch
if (scanLine == -1)
{
// Console.WriteLine(_ppuClocksSinceVBL);
_ppuClocksSinceVBL = 0;
F.VBlankStarted = false;
F.Sprite0Hit = false;
F.SpriteOverflow = false;
}
}
_emulator.Mapper.ProcessCycle(scanLine, cycle);
if (_cpuSyncCounter + 1 == 3)
{
if (F.VBlankStarted)
{
_cpuClocksSinceVBL++;
}
_emulator.CPU.TickFromPPU();
_cpuSyncCounter = 0;
}
else
{
_cpuSyncCounter++;
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.Core.cs.meta Normal file
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AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.Memory.cs Normal file
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using System;
using System.Runtime.CompilerServices;
namespace AxibugEmuOnline.Client.UNES
{
partial class PPU
{
private readonly byte[] _oam = new byte[0x100];
private readonly byte[] _vRam = new byte[0x2000];
private readonly byte[] _paletteRAM = new byte[0x20];
private static readonly uint[][] _vRamMirrorLookup =
{
new uint[]{0, 0, 1, 1}, // H
new uint[]{0, 1, 0, 1}, // V
new uint[]{0, 1, 2, 3}, // All
new uint[]{0, 0, 0, 0}, // Upper
new uint[]{1, 1, 1, 1}, // Lower
};
private int _lastWrittenRegister;
public void WriteRegister(uint reg, byte val)
{
reg &= 0xF;
_lastWrittenRegister = val & 0xFF;
switch (reg)
{
case 0x0000:
PPUCTRL = val;
return;
case 0x0001:
PPUMASK = val;
return;
case 0x0002: return;
case 0x0003:
OAMADDR = val;
return;
case 0x0004:
OAMDATA = val;
return;
case 0x005:
PPUSCROLL = val;
return;
case 0x0006:
PPUADDR = val;
return;
case 0x0007:
PPUDATA = val;
return;
}
throw new NotImplementedException($"{reg:X4} = {val:X2}");
}
public byte ReadRegister(uint reg)
{
reg &= 0xF;
switch (reg)
{
case 0x0000: return (byte)_lastWrittenRegister;
case 0x0001: return (byte)_lastWrittenRegister;
case 0x0002:
return (byte)PPUSTATUS;
case 0x0003:
return (byte)OAMADDR;
case 0x0004:
return (byte)OAMDATA;
case 0x0005: return (byte)_lastWrittenRegister;
case 0x0006: return (byte)_lastWrittenRegister;
case 0x0007:
return (byte)PPUDATA;
}
throw new NotImplementedException(reg.ToString("X2"));
}
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public uint GetVRamMirror(long address)
{
long entry;
var table = Math.DivRem(address - 0x2000, 0x400, out entry);
return _vRamMirrorLookup[(int)_emulator.Cartridge.MirroringMode][table] * 0x400 + (uint)entry;
}
protected override void InitializeMemoryMap()
{
base.InitializeMemoryMap();
MapReadHandler(0x2000, 0x2FFF, address => _vRam[GetVRamMirror(address)]);
MapReadHandler(0x3000, 0x3EFF, address => _vRam[GetVRamMirror(address - 0x1000)]);
MapReadHandler(0x3F00, 0x3FFF, address =>
{
if (address == 0x3F10 || address == 0x3F14 || address == 0x3F18 || address == 0x3F0C)
{
address -= 0x10;
}
return _paletteRAM[(address - 0x3F00) & 0x1F];
});
MapWriteHandler(0x2000, 0x2FFF, (address, val) => _vRam[GetVRamMirror(address)] = val);
MapWriteHandler(0x3000, 0x3EFF, (address, val) => _vRam[GetVRamMirror(address - 0x1000)] = val);
MapWriteHandler(0x3F00, 0x3FFF, (address, val) =>
{
if (address == 0x3F10 || address == 0x3F14 || address == 0x3F18 || address == 0x3F0C)
{
address -= 0x10;
}
_paletteRAM[(address - 0x3F00) & 0x1F] = val;
});
_emulator.Mapper.InitializeMemoryMap(this);
}
public void PerformDMA(uint from)
{
//Console.WriteLine("OAM DMA");
from <<= 8;
for (uint i = 0; i <= 0xFF; i++)
{
_oam[F.OAMAddress] = (byte)_emulator.CPU.ReadByte(from);
from++;
F.OAMAddress++;
}
_emulator.CPU.Cycle += 513 + _emulator.CPU.Cycle % 2;
}
}
}

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261
AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.Registers.cs Normal file
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using System;
namespace AxibugEmuOnline.Client.UNES
{
partial class PPU
{
public class PPUFlags
{
/* PPUCTRL register */
public bool NMIEnabled;
public bool IsMaster;
public bool TallSpritesEnabled;
public uint PatternTableAddress;
public uint SpriteTableAddress;
public uint VRAMIncrement;
/* PPUMASK register */
public bool GrayscaleEnabled;
public bool DrawLeftBackground;
public bool DrawLeftSprites;
public bool DrawBackground;
public bool DrawSprites;
// Flipped for PAL/Dendy
public bool EmphasizeRed;
public bool EmphasizeGreen;
public bool EmphasizeBlue;
/* PPUSTATUS register */
public bool VBlankStarted;
public bool Sprite0Hit;
public bool SpriteOverflow;
public bool AddressLatch;
/* PPUADDR register */
private uint _busAddress;
public uint BusAddress
{
get => _busAddress;
set => _busAddress = value & 0x3FFF;
}
/* PPUDATA register */
public uint BusData;
/* OAMADDR register */
private uint _oamAddress;
public uint OAMAddress
{
get => _oamAddress;
set => _oamAddress = value & 0xFF;
}
/* PPUSCROLL registers */
[Obsolete]
public uint ScrollX;
[Obsolete]
public uint ScrollY;
public bool RenderingEnabled => DrawBackground || DrawSprites;
}
public PPUFlags F = new PPUFlags();
private uint _v;
public uint V
{
get => _v;
set => _v = value & 0x7FFF;
}
public uint T, X;
public uint CoarseX => V & 0x1F;
public uint CoarseY => (V >> 5) & 0x1F;
public uint FineY => (V >> 12) & 0x7;
public void ReloadScrollX() => V = (V & 0xFBE0) | (T & 0x041F);
public void ReloadScrollY() => V = (V & 0x841F) | (T & 0x7BE0);
public void IncrementScrollX()
{
if ((V & 0x001F) == 31) // if coarse X == 31
{
V &= ~0x001Fu; // coarse X = 0
V ^= 0x0400; // switch horizontal nametable
}
else
{
V += 1; // increment coarse X
}
}
public void IncrementScrollY()
{
if ((V & 0x7000) != 0x7000) // if fine Y < 7
{
V += 0x1000; // increment fine Y
}
else
{
V &= ~0x7000u; // fine Y = 0
uint y = (V & 0x03E0) >> 5; // let y = coarse Y
if (y == 29)
{
y = 0; // coarse Y = 0
V ^= 0x0800;
}
// switch vertical nametable
else if (y == 31)
{
y = 0; // coarse Y = 0, nametable not switched
}
else
{
y += 1; // increment coarse Y
}
V = (V & ~0x03E0u) | (y << 5); // put coarse Y back into v
}
}
public uint PPUCTRL
{
set
{
F.NMIEnabled = (value & 0x80) > 0;
F.IsMaster = (value & 0x40) > 0;
F.TallSpritesEnabled = (value & 0x20) > 0;
F.PatternTableAddress = (value & 0x10) > 0 ? 0x1000u : 0x0000;
F.SpriteTableAddress = (value & 0x08) > 0 ? 0x1000u : 0x0000;
F.VRAMIncrement = (value & 0x04) > 0 ? 32u : 1;
// yyy NN YYYYY XXXXX
// ||| || ||||| +++++--coarse X scroll
// ||| || +++++--------coarse Y scroll
// ||| ++--------------nametable select
// +++-----------------fine Y scroll
T = (T & 0xF3FF) | ((value & 0x3) << 10); // Bits 10-11 hold the base address of the nametable minus $2000
}
}
public uint PPUMASK
{
set
{
F.GrayscaleEnabled = (value & 0x1) > 0;
F.DrawLeftBackground = (value & 0x2) > 0;
F.DrawLeftSprites = (value & 0x4) > 0;
F.DrawBackground = (value & 0x8) > 0;
F.DrawSprites = (value & 0x10) > 0;
F.EmphasizeRed = (value & 0x20) > 0;
F.EmphasizeGreen = (value & 0x40) > 0;
F.EmphasizeBlue = (value & 0x80) > 0;
}
}
/** $2002 **/
public uint PPUSTATUS
{
get
{
F.AddressLatch = false;
var ret = (F.VBlankStarted.AsByte() << 7) |
(F.Sprite0Hit.AsByte() << 6) |
(F.SpriteOverflow.AsByte() << 5) |
(_lastWrittenRegister & 0x1F);
F.VBlankStarted = false;
return (uint)ret;
}
}
/** $2006 **/
public uint PPUADDR
{
set
{
if (F.AddressLatch)
{
T = (T & 0xFF00) | value;
F.BusAddress = T;
V = T;
}
else
{
T = (T & 0x80FF) | ((value & 0x3F) << 8);
}
F.AddressLatch ^= true;
}
}
/** $2005 **/
public uint PPUSCROLL
{
set
{
if (F.AddressLatch)
{
F.ScrollY = value;
T = (T & 0x8FFF) | ((value & 0x7) << 12);
T = (T & 0xFC1F) | (value & 0xF8) << 2;
}
else
{
F.ScrollX = value;
X = value & 0x7;
T = (T & 0xFFE0) | (value >> 3);
}
F.AddressLatch ^= true;
}
}
private uint _readBuffer;
public uint PPUDATA
{
get
{
uint ret = ReadByte(F.BusAddress);
if (F.BusAddress < 0x3F00)
{
uint temp = _readBuffer;
_readBuffer = ret;
ret = temp;
}
else
{
// Palette read should also read VRAM into read buffer
_readBuffer = ReadByte(F.BusAddress - 0x1000);
}
F.BusAddress += F.VRAMIncrement;
return ret;
}
set
{
F.BusData = value;
WriteByte(F.BusAddress, value);
F.BusAddress += F.VRAMIncrement;
}
}
public uint OAMADDR
{
get => F.OAMAddress;
set => F.OAMAddress = value;
}
public uint OAMDATA
{
get => _oam[F.OAMAddress];
set
{
_oam[F.OAMAddress] = (byte)value;
F.OAMAddress++;
}
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.Registers.cs.meta Normal file
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10
AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.cs Normal file
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namespace AxibugEmuOnline.Client.UNES
{
public sealed partial class PPU : Addressable
{
public PPU(Emulator emulator) : base(emulator, 0x3FFF)
{
InitializeMemoryMap();
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Core/PPU.cs.meta Normal file
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35
AxibugEmuOnline.Client/Assets/Runtime/Core/Utility.cs Normal file
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using System;
using System.Collections.Generic;
using System.Runtime.CompilerServices;
namespace AxibugEmuOnline.Client.UNES
{
public static class Utility
{
[MethodImpl(MethodImplOptions.AggressiveInlining)]
public static byte AsByte(this bool to)
{
unsafe
{
var result = *((byte*) &to);
return result;
}
}
public static void Fill<T>(this T[] arr, T value)
{
for (var i = 0; i < arr.Length; i++)
{
arr[i] = value;
}
}
public static void Map<T>(this IEnumerable<T> enumerator, Action<T> go)
{
foreach (var e in enumerator)
{
go(e);
}
}
}
}

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8
AxibugEmuOnline.Client/Assets/Runtime/Input.meta Normal file
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11
AxibugEmuOnline.Client/Assets/Runtime/Input/BaseInput.cs Normal file
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using System;
using UnityEngine;
namespace AxibugEmuOnline.Client.UNES.Input
{
public abstract class BaseInput
{
public abstract void HandlerKeyDown(Action<KeyCode> onKeyDown);
public abstract void HandlerKeyUp(Action<KeyCode> onKeyUp);
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Input/BaseInput.cs.meta Normal file
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49
AxibugEmuOnline.Client/Assets/Runtime/Input/DefaultInput.cs Normal file
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using System;
using UnityEngine;
namespace AxibugEmuOnline.Client.UNES.Input
{
public class DefaultInput : BaseInput
{
private KeyCode[] _keyCodes
{
get
{
if (_keyCodeCache == null)
{
var array = Enum.GetValues(typeof(KeyCode));
_keyCodeCache = new KeyCode[array.Length];
for (var i = 0; i < array.Length; i++)
{
_keyCodeCache[i] = (KeyCode)array.GetValue(i);
}
}
return _keyCodeCache;
}
}
private KeyCode[] _keyCodeCache;
public override void HandlerKeyDown(Action<KeyCode> onKeyDown)
{
foreach (var keyCode in _keyCodes)
{
if (UnityEngine.Input.GetKeyDown(keyCode))
{
onKeyDown(keyCode);
}
}
}
public override void HandlerKeyUp(Action<KeyCode> onKeyUp)
{
foreach (var keyCode in _keyCodes)
{
if (UnityEngine.Input.GetKeyUp(keyCode))
{
onKeyUp(keyCode);
}
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Input/DefaultInput.cs.meta Normal file
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8
AxibugEmuOnline.Client/Assets/Runtime/Mapper.meta Normal file
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26
AxibugEmuOnline.Client/Assets/Runtime/Mapper/AxROM.cs Normal file
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using static AxibugEmuOnline.Client.UNES.Cartridge.VRAMMirroringMode;
namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(7)]
public class AxROM : BaseMapper
{
protected int _bankOffset;
private readonly Cartridge.VRAMMirroringMode[] _mirroringModes = { Lower, Upper };
public AxROM(Emulator emulator) : base(emulator)
{
_emulator.Cartridge.MirroringMode = _mirroringModes[0];
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_bankOffset + (address - 0x8000)]);
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) =>
{
_bankOffset = (val & 0x7) * 0x8000;
_emulator.Cartridge.MirroringMode = _mirroringModes[(val >> 4) & 0x1];
});
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/AxROM.cs.meta Normal file
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67
AxibugEmuOnline.Client/Assets/Runtime/Mapper/BaseMapper.cs Normal file
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using System;
using System.IO;
namespace AxibugEmuOnline.Client.UNES.Mapper
{
[AttributeUsage(AttributeTargets.Class, Inherited = false)]
public class MapperDef : Attribute
{
public int Id;
public string Name;
public string Description;
public MapperDef()
{
}
public MapperDef(int id)
{
Id = id;
}
}
public abstract class BaseMapper
{
protected readonly Emulator _emulator;
protected readonly byte[] _prgROM;
protected readonly byte[] _prgRAM = new byte[0x2000];
protected readonly byte[] _chrROM;
protected readonly uint _lastBankOffset;
protected BaseMapper(Emulator emulator)
{
_emulator = emulator;
var cart = emulator.Cartridge;
_prgROM = cart.PRGROM;
_chrROM = cart.CHRROM;
_lastBankOffset = (uint) _prgROM.Length - 0x4000;
}
public virtual void InitializeMemoryMap(CPU cpu)
{
}
public virtual void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[address]);
ppu.MapWriteHandler(0x0000, 0x1FFF, (address, val) => _chrROM[address] = val);
}
public virtual void ProcessCycle(int scanLine, int cycle)
{
}
public virtual byte[] GetSaveData()
{
return _prgRAM;
}
public virtual void LoadSaveData(byte[] saveData)
{
Array.Copy(saveData, _prgRAM, saveData.Length);
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/BaseMapper.cs.meta Normal file
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32
AxibugEmuOnline.Client/Assets/Runtime/Mapper/CNROM.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(3)]
public class CNROM : BaseMapper
{
protected int _bankOffset;
public CNROM(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_bankOffset + address]);
}
public override void InitializeMemoryMap(CPU cpu)
{
if (_prgROM.Length == 0x8000)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[address - 0x8000]);
}
else
{
cpu.MapReadHandler(0x8000, 0xBFFF, address => _prgROM[address - 0x8000]);
cpu.MapReadHandler(0xC000, 0xFFFF, address => _prgROM[address - 0xC000]);
}
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) => _bankOffset = (val & 0x3) * 0x2000);
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/CNROM.cs.meta Normal file
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27
AxibugEmuOnline.Client/Assets/Runtime/Mapper/Camerica.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(71)]
public class Camerica : BaseMapper
{
protected int _prgBankOffset;
public Camerica(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xBFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapReadHandler(0xC000, 0xFFFF, address => _prgROM[_prgROM.Length - 0x4000 + (address - 0xC000)]);
// Actually starts at 0x8000, but use 0x9000 for compatibility w/o submapper
cpu.MapWriteHandler(0x9000, 0x9FFF, (address, val) =>
{
// TODO: Fire Hawk mirroring
});
// The number of bits available vary: 4 for the BF9093, 3 for the BF9097, and 2 for the BF9096.
cpu.MapWriteHandler(0xC000, 0xFFFF, (address, val) => _prgBankOffset = (val & 0xF) * 0x4000 % _prgROM.Length);
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/Camerica.cs.meta Normal file
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29
AxibugEmuOnline.Client/Assets/Runtime/Mapper/ColorDreams.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(11)]
public class ColorDreams : BaseMapper
{
protected int _prgBankOffset;
protected int _chrBankOffset;
public ColorDreams(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffset + address]);
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) =>
{
_prgBankOffset = (val & 0x3) * 0x8000;
_chrBankOffset = (val >> 4) * 0x2000;
});
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/ColorDreams.cs.meta Normal file
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39
AxibugEmuOnline.Client/Assets/Runtime/Mapper/DxROM.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(206)]
public class DxROM : MMC3
{
public DxROM(Emulator emulator) : base(emulator)
{
_prgBankingMode = PRGBankingMode.SwitchFix;
_chrBankingMode = CHRBankingMode.TwoFour;
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffsets[(address - 0x8000) / 0x2000] + address % 0x2000]);
cpu.MapWriteHandler(0x8000, 0x9FFF, (address, val) =>
{
if ((address & 0x1) == 0)
{
_currentBank = val & 0x7u;
}
else
{
if (_currentBank <= 1) val &= 0x1F;
else if (_currentBank <= 5) val &= 0x3F;
else val &= 0xF;
_banks[_currentBank] = val;
UpdateOffsets();
}
});
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffsets[address / 0x400] + address % 0x400]);
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/DxROM.cs.meta Normal file
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29
AxibugEmuOnline.Client/Assets/Runtime/Mapper/GxROM.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(66)]
public class GxROM : BaseMapper
{
protected int _prgBankOffset;
protected int _chrBankOffset;
public GxROM(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffset + address]);
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) =>
{
_prgBankOffset = ((val >> 4) & 0x3) * 0x8000;
_chrBankOffset = (val & 0x3) * 0x2000;
});
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/GxROM.cs.meta Normal file
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29
AxibugEmuOnline.Client/Assets/Runtime/Mapper/Jaleco.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(140)]
public class Jaleco : BaseMapper
{
protected int _prgBankOffset;
protected int _chrBankOffset;
public Jaleco(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffset + address]);
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapWriteHandler(0x6000, 0x7FFF, (address, val) =>
{
_prgBankOffset = ((val >> 4) & 0x3) * 0x8000;
_chrBankOffset = (val & 0x3) * 0x2000;
});
}
}
}

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170
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC1.cs Normal file
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using static AxibugEmuOnline.Client.UNES.Cartridge.VRAMMirroringMode;
namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(1)]
public class MMC1 : BaseMapper
{
// TODO: are MMC1 and MMC1A even different chip types?
public enum ChipType { MMC1, MMC1A, MMC1B, MMC1C }
public enum CHRBankingMode { Single, Double }
public enum PRGBankingMode { Switch32Kb, Switch16KbFixFirst, Switch16KbFixLast }
private readonly Cartridge.VRAMMirroringMode[] _mirroringModes = { Lower, Upper, Vertical, Horizontal };
private readonly ChipType _type;
private CHRBankingMode _chrBankingMode;
private PRGBankingMode _prgBankingMode;
private uint _serialData;
private int _serialPos;
private uint _control;
private readonly uint[] _chrBankOffsets = new uint[2];
private readonly uint[] _chrBanks = new uint[2];
private readonly uint[] _prgBankOffsets = new uint[2];
private uint _prgBank;
private bool _prgRAMEnabled;
private uint? _lastWritePC;
public MMC1(Emulator emulator) : this(emulator, ChipType.MMC1B)
{
}
public MMC1(Emulator emulator, ChipType chipType) : base(emulator)
{
_type = chipType;
if (chipType == ChipType.MMC1B) _prgRAMEnabled = true;
UpdateControl(0x0F);
_emulator.Cartridge.MirroringMode = Horizontal;
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x6000, 0x7FFF, address => _prgRAM[address - 0x6000]);
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffsets[(address - 0x8000) / 0x4000] + address % 0x4000]);
cpu.MapWriteHandler(0x6000, 0x7FFF, (address, val) =>
{
// PRG RAM is always enabled on MMC1A
if (_type == ChipType.MMC1A || _prgRAMEnabled)
_prgRAM[address - 0x6000] = val;
});
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) =>
{
// Explicitly ignore the second write happening on consecutive cycles
// of an RMW instruction
var cycle = _emulator.CPU.PC;
if (cycle == _lastWritePC)
return;
_lastWritePC = cycle;
if ((val & 0x80) > 0)
{
_serialData = 0;
_serialPos = 0;
UpdateControl(_control | 0x0C);
}
else
{
_serialData |= (uint)((val & 0x1) << _serialPos);
_serialPos++;
if (_serialPos == 5)
{
// Address is incompletely decoded
address &= 0x6000;
if (address == 0x0000)
UpdateControl(_serialData);
else if (address == 0x2000)
UpdateCHRBank(0, _serialData);
else if (address == 0x4000)
UpdateCHRBank(1, _serialData);
else if (address == 0x6000)
UpdatePRGBank(_serialData);
_serialData = 0;
_serialPos = 0;
}
}
});
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffsets[address / 0x1000] + address % 0x1000]);
ppu.MapWriteHandler(0x0000, 0x1FFF, (address, val) => _chrROM[_chrBankOffsets[address / 0x1000] + address % 0x1000] = val);
}
private void UpdateControl(uint value)
{
_control = value;
_emulator.Cartridge.MirroringMode = _mirroringModes[value & 0x3];
_chrBankingMode = (CHRBankingMode)((value >> 4) & 0x1);
var prgMode = (value >> 2) & 0x3;
// Both 0 and 1 are 32Kb switch
if (prgMode == 0) prgMode = 1;
_prgBankingMode = (PRGBankingMode)(prgMode - 1);
UpdateCHRBank(1, _chrBanks[1]);
UpdateCHRBank(0, _chrBanks[0]);
UpdatePRGBank(_prgBank);
}
private void UpdatePRGBank(uint value)
{
_prgBank = value;
_prgRAMEnabled = (value & 0x10) == 0;
value &= 0xF;
switch (_prgBankingMode)
{
case PRGBankingMode.Switch32Kb:
value >>= 1;
value *= 0x4000;
_prgBankOffsets[0] = value;
_prgBankOffsets[1] = value + 0x4000;
break;
case PRGBankingMode.Switch16KbFixFirst:
_prgBankOffsets[0] = 0;
_prgBankOffsets[1] = value * 0x4000;
break;
case PRGBankingMode.Switch16KbFixLast:
_prgBankOffsets[0] = value * 0x4000;
_prgBankOffsets[1] = _lastBankOffset;
break;
}
}
private void UpdateCHRBank(uint bank, uint value)
{
_chrBanks[bank] = value;
// TODO FIXME: I feel like this branch should only be taken
// when bank == 0, but this breaks Final Fantasy
// When can banking mode change without UpdateCHRBank being called?
if (_chrBankingMode == CHRBankingMode.Single)
{
value = _chrBanks[0];
value >>= 1;
value *= 0x1000;
_chrBankOffsets[0] = value;
_chrBankOffsets[1] = value + 0x1000;
}
else
{
_chrBankOffsets[bank] = value * 0x1000;
}
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC1.cs.meta Normal file
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33
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC2.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(Id = 9, Description = "Mike Tyson's Punch-Out!!")]
public class MMC2 : MMC4
{
public MMC2(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(CPU cpu)
{
base.InitializeMemoryMap(cpu);
cpu.MapReadHandler(0x8000, 0xBFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapReadHandler(0xA000, 0xFFFF, address => _prgROM[_prgROM.Length - 0x4000 - 0x2000 + (address - 0xA000)]);
cpu.MapWriteHandler(0xA000, 0xAFFF, (address, val) => _prgBankOffset = (val & 0xF) * 0x2000);
}
protected override void GetLatch(uint address, out uint latch, out bool? on)
{
base.GetLatch(address, out latch, out on);
// For MMC2, only 0xFD8 and 0xFE8 trigger the latch,
// not the whole range like in MMC4
if (latch == 0 && (address & 0x3) != 0)
{
on = null;
}
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC2.cs.meta Normal file
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182
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC3.cs Normal file
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using static AxibugEmuOnline.Client.UNES.Cartridge.VRAMMirroringMode;
namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(4)]
public class MMC3 : BaseMapper
{
// Different PRG RAM write/enable controls
public enum ChipType { MMC3, MMC6 }
public enum CHRBankingMode { TwoFour, FourTwo }
public enum PRGBankingMode { SwitchFix, FixSwitch }
private readonly Cartridge.VRAMMirroringMode[] _mirroringModes = { Vertical, Horizontal };
private readonly ChipType _type;
protected CHRBankingMode _chrBankingMode;
protected PRGBankingMode _prgBankingMode;
protected readonly uint[] _chrBankOffsets = new uint[8];
protected uint[] _prgBankOffsets;
protected readonly uint[] _banks = new uint[8];
protected uint _currentBank;
private uint _irqReloadValue;
private uint _irqCounter;
protected bool _irqEnabled;
private bool _prgRAMEnabled;
public MMC3(Emulator emulator) : this(emulator, ChipType.MMC3)
{
}
public MMC3(Emulator emulator, ChipType chipType) : base(emulator)
{
_type = chipType;
_prgBankOffsets = new uint[] { 0, 0x2000, _lastBankOffset, _lastBankOffset + 0x2000 };
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x6000, 0x7FFF, address => _prgRAM[address - 0x6000]);
cpu.MapReadHandler(0x8000, 0xFFFF, address => _prgROM[_prgBankOffsets[(address - 0x8000) / 0x2000] + address % 0x2000]);
cpu.MapWriteHandler(0x6000, 0xFFFF, WriteByte);
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address => _chrROM[_chrBankOffsets[address / 0x400] + address % 0x400]);
ppu.MapWriteHandler(0x0000, 0x1FFF, (address, val) => _chrROM[_chrBankOffsets[address / 0x400] + address % 0x400] = val);
}
public override void ProcessCycle(int scanLine, int cycle)
{
if (_emulator.PPU.F.RenderingEnabled && cycle == 260 && (0 <= scanLine && scanLine < 240 || scanLine == -1))
{
if (_irqCounter == 0)
{
_irqCounter = _irqReloadValue;
}
else
{
_irqCounter--;
if (_irqEnabled && _irqCounter == 0)
{
_emulator.CPU.TriggerInterrupt(CPU.InterruptType.IRQ);
}
}
}
}
protected void WriteByte(uint addr, byte value)
{
bool even = (addr & 0x1) == 0;
if (addr < 0x8000)
{
if (_prgRAMEnabled)
{
_prgRAM[addr - 0x6000] = value;
}
}
else if (addr < 0xA000)
{
if (even)
{
_currentBank = value & 0x7u;
_prgBankingMode = (PRGBankingMode)((value >> 6) & 0x1);
_chrBankingMode = (CHRBankingMode)((value >> 7) & 0x1);
}
else
{
_banks[_currentBank] = value;
}
UpdateOffsets();
}
else if (addr < 0xC000)
{
if (even)
{
_emulator.Cartridge.MirroringMode = _mirroringModes[value & 0x1];
}
else
{
_prgRAMEnabled = (value & 0xC0) == 0x80;
}
}
else if (addr < 0xE000)
{
if (even)
{
_irqReloadValue = value;
}
else
{
_irqCounter = 0;
}
}
else
{
_irqEnabled = !even;
}
}
protected void UpdateOffsets()
{
switch (_prgBankingMode)
{
case PRGBankingMode.SwitchFix:
_prgBankOffsets[0] = _banks[6] * 0x2000;
_prgBankOffsets[1] = _banks[7] * 0x2000;
_prgBankOffsets[2] = _lastBankOffset;
_prgBankOffsets[3] = _lastBankOffset + 0x2000;
break;
case PRGBankingMode.FixSwitch:
_prgBankOffsets[0] = _lastBankOffset;
_prgBankOffsets[1] = _banks[7] * 0x2000;
_prgBankOffsets[2] = _banks[6] * 0x2000;
_prgBankOffsets[3] = _lastBankOffset + 0x2000;
break;
}
switch (_chrBankingMode)
{
case CHRBankingMode.TwoFour:
_chrBankOffsets[0] = _banks[0] & 0xFE;
_chrBankOffsets[1] = _banks[0] | 0x01;
_chrBankOffsets[2] = _banks[1] & 0xFE;
_chrBankOffsets[3] = _banks[1] | 0x01;
_chrBankOffsets[4] = _banks[2];
_chrBankOffsets[5] = _banks[3];
_chrBankOffsets[6] = _banks[4];
_chrBankOffsets[7] = _banks[5];
break;
case CHRBankingMode.FourTwo:
_chrBankOffsets[0] = _banks[2];
_chrBankOffsets[1] = _banks[3];
_chrBankOffsets[2] = _banks[4];
_chrBankOffsets[3] = _banks[5];
_chrBankOffsets[4] = _banks[0] & 0xFE;
_chrBankOffsets[5] = _banks[0] | 0x01;
_chrBankOffsets[6] = _banks[1] & 0xFE;
_chrBankOffsets[7] = _banks[1] | 0x01;
break;
}
for (var i = 0; i < _prgBankOffsets.Length; i++)
{
_prgBankOffsets[i] %= (uint)_prgROM.Length;
}
for (var i = 0; i < _chrBankOffsets.Length; i++)
{
_chrBankOffsets[i] = (uint) (_chrBankOffsets[i] * 0x400 % _chrROM.Length);
}
}
}
}

11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC3.cs.meta Normal file
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73
AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC4.cs Normal file
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using static AxibugEmuOnline.Client.UNES.Cartridge.VRAMMirroringMode;
namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(10)]
public class MMC4 : BaseMapper
{
protected readonly Cartridge.VRAMMirroringMode[] _mirroringModes = { Vertical, Horizontal };
protected int _prgBankOffset;
protected int[,] _chrBankOffsets = new int[2, 2];
protected bool[] _latches = new bool[2];
public MMC4(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(CPU cpu)
{
cpu.MapReadHandler(0x6000, 0x7FFF, address => _prgRAM[address - 0x6000]);
cpu.MapReadHandler(0x8000, 0xBFFF, address => _prgROM[_prgBankOffset + (address - 0x8000)]);
cpu.MapReadHandler(0xC000, 0xFFFF, address => _prgROM[_prgROM.Length - 0x4000 + (address - 0xC000)]);
cpu.MapWriteHandler(0x6000, 0x7FFF, (address, val) => _prgRAM[address - 0x6000] = val);
cpu.MapWriteHandler(0xA000, 0xAFFF, (address, val) => _prgBankOffset = (val & 0xF) * 0x4000);
cpu.MapWriteHandler(0xB000, 0xEFFF, (address, val) =>
{
var bank = (address - 0xB000) / 0x2000;
var latch = ((address & 0x1FFF) == 0).AsByte();
_chrBankOffsets[bank, latch] = (val & 0x1F) * 0x1000;
});
cpu.MapWriteHandler(0xF000, 0xFFFF, (address, val) => _emulator.Cartridge.MirroringMode = _mirroringModes[val & 0x1]);
}
public override void InitializeMemoryMap(PPU ppu)
{
ppu.MapReadHandler(0x0000, 0x1FFF, address =>
{
var bank = address / 0x1000;
var ret = _chrROM[_chrBankOffsets[bank, _latches[bank].AsByte()] + address % 0x1000];
if ((address & 0x08) > 0)
{
GetLatch(address, out uint latch, out bool? on);
if (on != null)
{
_latches[latch] = (bool)on;
}
}
return ret;
});
}
protected virtual void GetLatch(uint address, out uint latch, out bool? on)
{
latch = (address >> 12) & 0x1;
on = null;
address = (address >> 4) & 0xFF;
if (address == 0xFE)
{
on = true;
}
else if (address == 0xFD)
{
on = false;
}
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/MMC4.cs.meta Normal file
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17
AxibugEmuOnline.Client/Assets/Runtime/Mapper/Mapper094.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(Id = 94, Description = "Senjou no Ookami")]
public class Mapper094 : UxROM
{
public Mapper094(Emulator emulator) : base(emulator)
{
}
public override void InitializeMemoryMap(CPU cpu)
{
base.InitializeMemoryMap(cpu);
cpu.MapWriteHandler(0x8000, 0xFFFF, (address, val) => _bankOffset = (val & 0x1C) << 12);
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/Mapper094.cs.meta Normal file
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11
AxibugEmuOnline.Client/Assets/Runtime/Mapper/Mapper155.cs Normal file
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namespace AxibugEmuOnline.Client.UNES.Mapper
{
[MapperDef(Id = 155, Description = "MMC1A")]
public class Mapper155 : MMC1
{
// Mapper for games requiring MMC1A
public Mapper155(Emulator emulator) : base(emulator, ChipType.MMC1A)
{
}
}
}

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AxibugEmuOnline.Client/Assets/Runtime/Mapper/Mapper155.cs.meta Normal file
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