public MemoryArgument(IntegerArithmeticExpression expression) { Type = OperandTypes.Memory; Expression = expression; }
public static X86Instruction ReadInstruction(AsmToken[] tokenLine) { int tokenCount = tokenLine.Length; if (tokenLine[0].Token != AsmTokens.Name) { throw new UnexpectedTokenException(tokenLine[0], AsmTokens.Name); } string instructionName = tokenLine[0].Value; int line = tokenLine[0].AsmLine; if (tokenCount == 1) { return(new X86Instruction(line, instructionName)); } X86Operand dst; X86Operand src = null; switch (tokenLine[1].Token) { case AsmTokens.Name: if (X86Assembler.IsRegister(tokenLine[1].Value)) { dst = new RegisterArgument(tokenLine[1].Value); } else { dst = new LabelArgument(tokenLine[1].Value); } break; case AsmTokens.Number: dst = new ImmediateArgument(tokenLine[1].IntValue); break; case AsmTokens.LeftBracket: IntegerArithmeticExpression expr = IntegerArithmeticProcessor.Process(tokenLine, 1); dst = new MemoryArgument(expr); break; default: throw new UnexpectedTokenException(tokenLine[1]); } bool foundSrc = false; for (int i = 2; i < tokenCount; i++) { if (tokenLine[i].Token == AsmTokens.Comma && i < tokenCount - 1) { foundSrc = true; continue; } switch (tokenLine[i].Token) { case AsmTokens.Name: if (X86Assembler.IsRegister(tokenLine[i].Value)) { src = new RegisterArgument(tokenLine[i].Value); } else { src = new LabelArgument(tokenLine[i].Value); } goto Finish; case AsmTokens.Number: src = new ImmediateArgument(tokenLine[i].IntValue); goto Finish; case AsmTokens.LeftBracket: IntegerArithmeticExpression expr = IntegerArithmeticProcessor.Process(tokenLine, i); src = new MemoryArgument(expr); goto Finish; default: throw new UnexpectedTokenException(tokenLine[i]); } } Finish: if (!foundSrc) { return(new X86Instruction(line, instructionName, dst)); } return(new X86Instruction(line, instructionName, dst, src)); }
public static IntegerArithmeticExpression Process(AsmToken[] tokenLine, int offset) { int tokenCount = tokenLine.Length; bool closed = false; if (tokenCount < offset + 2) { throw new Exception("Wrong formatted instruction at line" + tokenLine[offset].AsmLine); } int i = 1; var expression = new IntegerArithmeticExpression(); while ((offset + i) < tokenCount) { AsmToken token = tokenLine[offset + i]; if ((i & 1) == 1) //Oddth token. It should be either a register or a number. { switch (token.Token) { case AsmTokens.Name: string regName = token.Value; if (!X86Assembler.IsRegister(regName)) { throw new NotARegisterException(token); } expression.AddTerm(regName); break; case AsmTokens.Number: expression.AddTerm(token.IntValue); break; default: throw new UnexpectedTokenException(token); } } else //Eventh token. It is either an operator or the end of the expression. { switch (token.Token) { case AsmTokens.Plus: expression.AddOperator(IntegerArithmeticOperatorType.Addition); break; case AsmTokens.Mult: expression.AddOperator(IntegerArithmeticOperatorType.Multiplication); break; case AsmTokens.Sub: expression.AddOperator(IntegerArithmeticOperatorType.Substraction); break; case AsmTokens.RightBracket: closed = true; break; default: throw new UnexpectedTokenException(token); } } i++; } if (!closed) throw new Exception("Wrong formatted instruction at line " + tokenLine[0].AsmLine); return expression; }
public static IntegerArithmeticExpression Process(AsmToken[] tokenLine, int offset) { int tokenCount = tokenLine.Length; bool closed = false; if (tokenCount < offset + 2) { throw new Exception("Wrong formatted instruction at line" + tokenLine[offset].AsmLine); } int i = 1; var expression = new IntegerArithmeticExpression(); while ((offset + i) < tokenCount) { AsmToken token = tokenLine[offset + i]; if ((i & 1) == 1) //Oddth token. It should be either a register or a number. { switch (token.Token) { case AsmTokens.Name: string regName = token.Value; if (!X86Assembler.IsRegister(regName)) { throw new NotARegisterException(token); } expression.AddTerm(regName); break; case AsmTokens.Number: expression.AddTerm(token.IntValue); break; default: throw new UnexpectedTokenException(token); } } else //Eventh token. It is either an operator or the end of the expression. { switch (token.Token) { case AsmTokens.Plus: expression.AddOperator(IntegerArithmeticOperatorType.Addition); break; case AsmTokens.Mult: expression.AddOperator(IntegerArithmeticOperatorType.Multiplication); break; case AsmTokens.Sub: expression.AddOperator(IntegerArithmeticOperatorType.Substraction); break; case AsmTokens.RightBracket: closed = true; break; default: throw new UnexpectedTokenException(token); } } i++; } if (!closed) { throw new Exception("Wrong formatted instruction at line " + tokenLine[0].AsmLine); } return(expression); }