Beispiel #1
0
        private async Task ExecuteIO()
        {
            bool reg2ORAddress = false;
            int  fourthValue   = addr;

            //if the address is 0, set the addr
            if (addr == 0)
            {
                reg2ORAddress = true;
                fourthValue   = reg2;
            }

            switch (OPCODE)
            {
            case 0:     // 00: RD
                // //NOTE: in this snippet, it just reads to acc. additional setup required to send to a different register
                Driver._MMULock.Wait();
                await DMA.IOExecution(true, this, reg1, fourthValue, reg2ORAddress);

                Driver._MMULock.Release();
                break;

            case 1:     // 01: WR
                isWaiting = true;
                await DMA.IOExecution(false, this, reg1, fourthValue, reg2ORAddress);

                Driver._MMULock.Release();
                break;

            default:
                throw new Exception("OPCode invalid, check the hex to dec conversion: " + OPCODE);
            }
            // Console.WriteLine($"IO: OPCODE {OPCODE} | REG1 : {reg1} | REG2 : {reg2} |ADDR {addr}");
        }
Beispiel #2
0
        private void ExecuteCondi()
        {
            string second;
            int    preAddr = addr;

            addr /= 4;

            if (dReg == 0)
            {
                second = Utilities.WordFill(Utilities.DecToHex(preAddr));
            }
            else
            {
                second = MMU.ReadWord(addr, activeProgram).Value;
            }

            switch (OPCODE)
            {
            case 2:     // 02: ST
                Driver._MMULock.Wait();
                DMA.IOExecution(false, this, bReg, addr, false).GetAwaiter().GetResult();
                Driver._MMULock.Release();
                break;

            case 3:     // 03: LW
                Driver._MMULock.Wait();
                DMA.IOExecution(true, this, dReg, addr, false).GetAwaiter().GetResult();
                Driver._MMULock.Release();
                break;

            case 11:     // 0B: MOVI
                registers[dReg].Value = Utilities.WordFill(second);
                break;

            case 12:     // 0C: ADDI
                registers[dReg] = registers[dReg] + MMU.ReadWord(addr, activeProgram);
                break;

            case 13:     // 0D: MULI
                registers[dReg] = registers[dReg] * MMU.ReadWord(addr, activeProgram);
                break;

            case 14:     // 0E: DIVI
                registers[dReg] = registers[dReg] / MMU.ReadWord(addr, activeProgram);
                break;

            case 15:     // 0F: LDI
                registers[dReg] = new Word(second);
                break;

            case 17:     // 11: SLTI
                registers[dReg].Value = Utilities.DecToHexFullAddr(registers[sReg0].ValueAsInt < addr ? 1 : 0);
                break;

            case 21:     // 15: BEQ
                PC = registers[bReg] == registers[dReg] ? preAddr : PC;
                break;

            case 22:     // 16: BNE
                PC = registers[bReg] != registers[dReg] ? preAddr : PC;
                break;

            case 23:     // 17: BEZ
                PC = registers[bReg].ValueAsInt == 0 ? preAddr : PC;
                break;

            case 24:     // 18: BNZ
                PC = registers[bReg].ValueAsInt != 0 ? preAddr : PC;
                break;

            case 25:     // 19: BGZ
                PC = registers[bReg].ValueAsInt > 0 ? preAddr : PC;
                break;

            case 26:     // 1A: BLZ
                PC = registers[bReg].ValueAsInt < 0 ? preAddr : PC;
                break;

            default:
                throw new Exception("OPCode invalid, check the hex to dec conversion: " + OPCODE);
            }
            // Console.WriteLine($"CONDI: OPCODE {OPCODE} | B = {bReg} | D = {dReg} | ADDR = {addr} | SECOND = {second}");
        }