//stores word to memory address:
public override void Execute(uint Rn, uint Rd, Offset offst)
{
int EA = GetEffAddr(Rn, offst); //((int)Rn + (U == 1 ? offst.GetValue() : -offst.GetValue())) & 0xFFFFFFFF;
if (EA == 0x100000)
{
I_Console_Ref.Append((char)CPU.GetRegr(I_Reg, (int)Rd));
}
else
{
if (B == 1)
{
byte b = Convert.ToByte(CPU.GetRegr(I_Reg, (int)Rd) & 0xFF);
I_RAM.WriteByte(b, EA);
}
else
{
I_RAM.WriteWord(CPU.GetRegr(I_Reg, (int)Rd), EA);
}
if (W == 1)
{
CPU.SetReg(I_Reg, (int)Rn, EA);
}
}
}
//Loads word from memory address:
public override void Execute(uint Rn, uint Rd, Offset offst)
{
//LDR <Rd>, <addressing_mode>
int EA = GetEffAddr(Rn, offst); //((int)Rn + (U == 1 ? offst.GetValue(): -offst.GetValue())) & 0xFFFFFFFF;
if (EA == 0x100001)
{
//check after check if input buff is empty
I_Last_Char = I_Input_Buff.Count != 0 ? I_Input_Buff[I_Input_Buff.Count - 1] : (char)0;
CPU.SetReg(I_Reg, (int)Rd, Convert.ToInt32(I_Last_Char));
}
else
{
if (B == 1)
{
CPU.SetReg(I_Reg, (int)Rd, I_RAM.ReadByte((uint)EA));
}
else
{
CPU.SetReg(I_Reg, (int)Rd, I_RAM.ReadWord(EA)); //Remember to check what memreads return if invalid EA
}
if (W == 1)
{
CPU.SetReg(I_Reg, (int)Rn, EA);
}
}
}
//Rd := Rm * Rs;
public override void Execute(uint Rd, uint Rm, uint Rs)
{
int first = CPU.GetRegr(I_Reg, (int)Rm);
int second = CPU.GetRegr(I_Reg, (int)Rs);
long res = (first * second) & 0xFFFFFFFF;
CPU.SetReg(I_Reg, (int)Rd, (int)res);
}
public override void Execute(int offset)
{
int pc = CPU.GetRegr(I_Reg, 15); //returns pc + 8;
pc -= 4; //this might be a problem
if (L == 1)
{
CPU.SetReg(I_Reg, 14, pc);
}
CPU.SetReg(I_Reg, 15, ((int)InstAddr + 8 + offset));
}
public override void Execute(uint Rn, List <int> Reglist)
{
int EA = CPU.GetRegr(I_Reg, (int)Rn);
foreach (int i in Reglist)
{
int val = I_RAM.ReadWord(EA);
CPU.SetReg(I_Reg, i, val);
EA += 4;
}
if (W == 1)
{
CPU.SetReg(I_Reg, (int)Rn, EA);
}
}
//pushes register list onto stack
public override void Execute(uint Rn, List <int> Reglist)
{
int EA = CPU.GetRegr(I_Reg, (int)Rn);
EA -= (4 * Reglist.Count);
if (W == 1)
{
CPU.SetReg(I_Reg, (int)Rn, EA);
}
foreach (int i in Reglist)
{
int val = CPU.GetRegr(I_Reg, i);
I_RAM.WriteWord(val, EA);
EA += 4;
}
}
//Rd := shifter_operand (no Rn)
public override void Execute(uint Rn, uint Rd, Operand2 oper2)
{
CPU.SetReg(I_Reg, (int)Rd, oper2.GetValue());
int mode = (int)Memory.ExtractBits((uint)CPU.GetRegr(I_Reg, 16), 27, 31);
if (sbit && Rd == 15)
{
int spsr = CPU.GetRegr(I_Reg, 16);
if (mode == 0b10010)
{
spsr = CPU.GetRegr(I_Reg, 19); //because I had to place them weirdly.
//CPU.SetReg(I_Reg, (int)Rd, oper2.GetValue() - 4); //adjust the LR for the PC when IRQ
}
else if (mode == 0b10011)
{
spsr = CPU.GetRegr(I_Reg, 22);
}
CPU.SetReg(I_Reg, 16, spsr);
}
}
public override void Execute(int Rm)
{
uint rm0 = (uint)CPU.GetRegr(I_Reg, Rm) & 0xFFFFFFFE;
CPU.SetReg(I_Reg, 15, (int)(rm0));
}
//Rd := Rn AND NOT(shifter_operand)
public override void Execute(uint Rn, uint Rd, Operand2 oper2)
{
int val = CPU.GetRegr(I_Reg, (int)Rn) & (~oper2.GetValue());
CPU.SetReg(I_Reg, (int)Rd, val);
}
//Rd := NOT shifter_operand (no Rn)
public override void Execute(uint Rn, uint Rd, Operand2 oper2)
{
CPU.SetReg(I_Reg, (int)Rd, ~oper2.GetValue());
}