Ejemplo n.º 1
0
        public static uint ProcessStartPC(string asm, string pcText)
        {
            ASMProcessPCResult result = ASMPCHelper.ProcessPC(0, pcText, true, true);
            uint pc = result.PC;

            return(ProcessStartPC(asm, pc));
        }
Ejemplo n.º 2
0
        // Translates pseudoinstructions
        public ASMTranslatePseudoResult TranslatePseudo(string[] lines, uint startPC, bool skipLabelAssertion = false)
        {
            _errorTextBuilder.Length = 0;

            ASMTranslatePseudoResult result      = new ASMTranslatePseudoResult();
            List <EncodeLine>        resultLines = new List <EncodeLine>();
            int  index = 0;
            uint pc    = startPC;

            foreach (string line in lines)
            {
                if (string.IsNullOrEmpty(line))
                {
                    continue;
                }

                string processLine = ASMStringHelper.RemoveLeadingBracketBlock(line);
                processLine = ASMStringHelper.RemoveLeadingSpaces(processLine);
                processLine = ASMStringHelper.RemoveComment(processLine).ToLower();
                processLine = ASMStringHelper.ConvertBracketBlocks(processLine);
                string[] parts = ASMStringHelper.SplitLine(processLine);
                parts = ASMStringHelper.RemoveLabel(parts);

                //pc = ASMPCHelper.ProcessOrg(pc, parts);
                ASMProcessPCResult processPCResult = ASMPCHelper.ProcessOrg(pc, parts, false);
                pc = processPCResult.PC;
                _errorTextBuilder.Append(processPCResult.ErrorMessage);

                // If this is an ASM command, pass off line to translating routine
                EncodingFormat encodingOrNull = FormatHelper.FindFormatByCommand(parts[0]);
                if (encodingOrNull != null)
                {
                    // DEBUG 1/16
                    try
                    {
                        EncodingFormat encoding    = encodingOrNull;
                        EncodeLine[]   encodeLines = TranslatePseudoSingle(encoding, parts, index, pc, skipLabelAssertion);
                        foreach (EncodeLine encodeLine in encodeLines)
                        {
                            resultLines.Add(encodeLine);
                            pc += 4;
                        }
                    }
                    catch (Exception ex)
                    {
                        //result.errorMessage = "Error translating pseudoinstruction: " + line;
                        _errorTextBuilder.Append("Error translating pseudoinstruction: " + line + " (" + ex.Message + ")\r\n");
                        //result.lines = null;
                        //return result;
                    }

                    index++;
                }
            }

            result.lines        = resultLines.ToArray();
            result.errorMessage = _errorTextBuilder.ToString();
            return(result);
        }
Ejemplo n.º 3
0
        public ASMDecoderResult DecodeASM(string hex, string pcText, string spacePadding, bool littleEndian, bool includeAddress, bool useRegAliases)
        {
            ClearErrorText();
            ASMProcessPCResult result = ASMPCHelper.ProcessPC(0, pcText, true, true);
            uint pc = result.PC;

            _errorTextBuilder.Append(result.ErrorMessage);
            return(DecodeASM(hex, pc, spacePadding, littleEndian, includeAddress, useRegAliases, false));
        }
Ejemplo n.º 4
0
        public int DecodeASMToFile(string inputFilename, string outputFilename, bool littleEndian, bool useRegAliases, string pcText)
        {
            //uint pc = ASMPCHelper.ProcessPC(0, pcText);
            ASMProcessPCResult processPCResult = ASMPCHelper.ProcessPC(0, pcText, false, true);
            uint pc = processPCResult.PC;

            _errorTextBuilder.Append(processPCResult.ErrorMessage);
            return(DecodeASMToFile(inputFilename, outputFilename, littleEndian, useRegAliases, pc));
        }
Ejemplo n.º 5
0
        public ASMEncoderResult EncodeASM(string asm, string pcText, string spacePadding, bool includeAddress, bool littleEndian)
        {
            ClearErrorText();
            ASMProcessPCResult result = ASMPCHelper.ProcessPC(0, pcText, true, true);
            uint pc = result.PC;

            _errorTextBuilder.Append(result.ErrorMessage);
            return(EncodeASM(asm, pc, spacePadding, includeAddress, littleEndian, false));
        }
Ejemplo n.º 6
0
        public ASMCheckResult CheckASM(string asm, string pcText, bool littleEndian, bool useRegAliases, bool reEncode = true, ICollection <ASMCheckCondition> conditions = null)
        {
            _errorTextBuilder = new StringBuilder();
            ASMProcessPCResult result = ASMPCHelper.ProcessPC(0, pcText, true, true);
            uint pc = result.PC;

            _errorTextBuilder.Append(result.ErrorMessage);
            return(CheckASM(asm, pc, littleEndian, useRegAliases, reEncode, conditions, false));
        }
Ejemplo n.º 7
0
        public static ASMProcessPCResult ProcessPC(uint pc, string strPC, bool reportError = true, bool blankAsZero = false)
        {
            ASMProcessPCResult errorResult = new ASMProcessPCResult(0, reportError ? "Starting address \"" + strPC + "\" is invalid; defaulting address to 0.\r\n" : "");

            try
            {
                /*
                 *              if (!string.IsNullOrEmpty(strPC))
                 *              {
                 *                      if (strPC.StartsWith("0x"))
                 *                      {
                 *                              if (strPC.Length >= 10)
                 *                                      pc = ASMValueHelper.HexToUnsigned(strPC.Substring(3,strPC.Length-3));
                 *                              else
                 *                                      pc = ASMValueHelper.HexToUnsigned(strPC.Substring(2,strPC.Length-2));
                 *                      }
                 *                      else
                 *                              pc = Convert.ToUInt32(strPC);
                 *              }
                 */

                if (blankAsZero)
                {
                    ASMProcessPCResult zeroResult = new ASMProcessPCResult(0, "");
                    if (string.IsNullOrEmpty(strPC))
                    {
                        return(zeroResult);
                    }
                    else if (string.IsNullOrEmpty(ASMStringHelper.RemoveSpaces(strPC)))
                    {
                        return(zeroResult);
                    }
                }

                Nullable <uint> uValue = ASMValueHelper.FindUnsignedValueGeneric(strPC);
                return((uValue == null) ? errorResult : new ASMProcessPCResult(uValue.Value, ""));

                //pc = ASMValueHelper.FindUnsignedValueGeneric(strPC);
            }
            catch
            {
                return(errorResult);
                //return 0;
                //txt_Messages.Text = "Starting address invalid.";
            }

            //return pc;
            //return new ASMProcessPCResult(pc, "");
        }
Ejemplo n.º 8
0
        public static ASMProcessPCResult ProcessPC(uint pc, string strPC, bool reportError = true, bool blankAsZero = false)
        {
            ASMProcessPCResult errorResult = new ASMProcessPCResult(0, reportError ? "Starting address \"" + strPC + "\" is invalid; defaulting address to 0.\r\n" : "");

            try
            {
                /*
                if (!string.IsNullOrEmpty(strPC))
                {
                    if (strPC.StartsWith("0x"))
                    {
                        if (strPC.Length >= 10)
                            pc = ASMValueHelper.HexToUnsigned(strPC.Substring(3,strPC.Length-3));
                        else
                            pc = ASMValueHelper.HexToUnsigned(strPC.Substring(2,strPC.Length-2));
                    }
                    else
                        pc = Convert.ToUInt32(strPC);
                }
                */

                if (blankAsZero)
                {
                    ASMProcessPCResult zeroResult = new ASMProcessPCResult(0, "");
                    if (string.IsNullOrEmpty(strPC))
                        return zeroResult;
                    else if (string.IsNullOrEmpty(ASMStringHelper.RemoveSpaces(strPC)))
                        return zeroResult;
                }

                Nullable<uint> uValue = ASMValueHelper.FindUnsignedValueGeneric(strPC);
                return (uValue == null) ? errorResult : new ASMProcessPCResult(uValue.Value, "");

                //pc = ASMValueHelper.FindUnsignedValueGeneric(strPC);
            }
            catch
            {
                return errorResult;
                //return 0;
                //txt_Messages.Text = "Starting address invalid.";
            }

            //return pc;
            //return new ASMProcessPCResult(pc, "");
        }
Ejemplo n.º 9
0
        public static uint ProcessStartPC(string asm, uint pc)
        {
            // If the ASM starts with a .org statement, use that address as the PC
            string[] lines = asm.Split('\n');
            lines = ASMStringHelper.RemoveFromLines(lines, "\r");

            foreach (string line in lines)
            {
                if (!string.IsNullOrEmpty(line))
                {
                    string             processLine     = ASMStringHelper.RemoveComment(line).ToLower();
                    string[]           parts           = ASMStringHelper.SplitLine(processLine);
                    ASMProcessPCResult processPCResult = ASMPCHelper.ProcessOrg(pc, parts);
                    pc = processPCResult.PC;
                    break;
                }
            }

            return(pc);
        }
Ejemplo n.º 10
0
        public ASMFindLabelsResult FindLabels(string[] lines, EncodeLine[] encodeLines, uint pc)
        {
            ASMFindLabelsResult result = new ASMFindLabelsResult();

            result.ErrorCode = 0;

            _errorTextBuilder.Length = 0;

            //LabelDict.Clear();
            ClearLabelDict();
            //int pc = ProcessPC(0, txt_StartPC.Text);
            int lineIndex       = 0;
            int encodeLineIndex = 0;

            foreach (string line in lines)
            {
                if (string.IsNullOrEmpty(line))
                {
                    continue;
                }

                string processLine = ASMStringHelper.RemoveLeadingBracketBlock(line);
                processLine = ASMStringHelper.RemoveLeadingSpaces(processLine);
                processLine = ASMStringHelper.RemoveComment(processLine).ToLower();

                string[] parts = ASMStringHelper.SplitLine(processLine);

                //pc = ASMPCHelper.ProcessOrg(pc, parts);
                ASMProcessPCResult processPCResult = ASMPCHelper.ProcessOrg(pc, parts, false);
                pc = processPCResult.PC;
                _errorTextBuilder.Append(processPCResult.ErrorMessage);

                ASMAddLabelResult processLabelResult = ProcessLabelStatement(parts);
                if (processLabelResult != null)
                {
                    if (processLabelResult.ErrorCode > 0)
                    {
                        result.ErrorCode = 1;
                        _errorTextBuilder.Append(processLabelResult.ErrorMessage);
                    }
                }

                EncodingFormat encodingOrNull = FormatHelper.FindFormatByCommand(parts[0]);
                if (encodingOrNull != null)
                {
                    EncodeLine eLine = new EncodeLine();
                    if ((encodeLines.Length > 0) && (encodeLineIndex < encodeLines.Length))
                    {
                        eLine = encodeLines[encodeLineIndex];
                    }

                    while ((eLine.LineIndex == lineIndex) && (encodeLineIndex < encodeLines.Length))
                    {
                        pc += 4;
                        encodeLineIndex++;

                        if (encodeLineIndex < encodeLines.Length)
                        {
                            eLine = encodeLines[encodeLineIndex];
                        }
                    }

                    lineIndex++;
                }
                else
                {
                    ASMAddLabelResult addLabelResult = AddLabel(pc, parts);

                    if (addLabelResult.ErrorCode == 0)
                    {
                        pc = addLabelResult.PC;
                    }
                    else
                    {
                        _errorTextBuilder.Append(addLabelResult.ErrorMessage);
                        result.ErrorCode = 1;
                    }
                }
            }

            result.ErrorMessage = _errorTextBuilder.ToString();
            return(result);
        }
Ejemplo n.º 11
0
        public ASMEncoderResult EncodeASM(string asm, uint pc, string spacePadding, bool includeAddress, bool littleEndian, bool clearErrorText)
        {
            if (clearErrorText)
            {
                ClearErrorText();
            }

            string[] lines = asm.Split('\n');
            lines = ASMStringHelper.RemoveFromLines(lines, "\r");
            string[] processLines = AddLabelLines(lines);

            string oldErrorText = _errorTextBuilder.ToString();

            EncodeLine[] encodeLines = PreprocessLines(processLines, pc);

            int encodeLineIndex = 0;
            int lineIndex       = 0;

            StringBuilder newTextASMBuilder     = new StringBuilder();
            StringBuilder newTextASMLineBuilder = new StringBuilder();
            StringBuilder encodedASMBuilder     = new StringBuilder();

            List <byte> byteList = new List <byte>();

            if (oldErrorText != _errorTextBuilder.ToString())
            {
                return(new ASMEncoderResult(encodedASMBuilder.ToString(), byteList.ToArray(), asm, _errorTextBuilder.ToString()));
            }

            foreach (string line in lines)
            {
                if (string.IsNullOrEmpty(line))
                {
                    newTextASMBuilder.AppendLine();
                    continue;
                }

                newTextASMLineBuilder.Length = 0;

                string modLine     = ASMStringHelper.RemoveLeadingBracketBlock(line);
                string processLine = ASMStringHelper.RemoveLeadingSpaces(modLine);
                processLine = ASMStringHelper.RemoveComment(processLine).ToLower();
                string[] parts = ASMStringHelper.SplitLine(processLine);

                //pc = ASMPCHelper.ProcessOrg(pc, parts);
                ASMProcessPCResult processPCResult = ASMPCHelper.ProcessOrg(pc, parts);
                pc = processPCResult.PC;
                _errorTextBuilder.Append(processPCResult.ErrorMessage);

                parts = ASMStringHelper.RemoveLabel(parts);

                // If this is an ASM command, pass off line to encoding routine
                EncodingFormat encodingOrNull = FormatHelper.FindFormatByCommand(parts[0]);
                if (encodingOrNull != null)
                {
                    if (includeAddress)
                    {
                        newTextASMLineBuilder.Append("[0x");
                        newTextASMLineBuilder.Append(ASMValueHelper.UnsignedToHex_WithLength(pc, 8));
                        newTextASMLineBuilder.Append("] ");
                    }

                    newTextASMLineBuilder.AppendLine(modLine);

                    EncodeLine eLine = new EncodeLine();

                    if (encodeLines.Length > 0)
                    {
                        eLine = encodeLines[encodeLineIndex];
                    }

                    while ((eLine.LineIndex == lineIndex) && (encodeLineIndex < encodeLines.Length))
                    {
                        encodingOrNull = FormatHelper.FindFormatByCommand(eLine.LineParts[0]);
                        EncodingFormat encoding = encodingOrNull;

                        ASMSingleEncodeResult singleEncodeResult = TryEncodeSingle(eLine.LineParts, encoding, pc, modLine, littleEndian);
                        encodedASMBuilder.Append(spacePadding);
                        encodedASMBuilder.Append(singleEncodeResult.ASMText);
                        encodedASMBuilder.AppendLine();
                        //encodedASMBuilder.Append("\r\n");
                        byteList.AddRange(singleEncodeResult.Bytes);

                        encodeLineIndex++;
                        pc += 4;

                        if (encodeLineIndex < encodeLines.Length)
                        {
                            eLine = encodeLines[encodeLineIndex];
                        }
                    }

                    lineIndex++;
                }
                else
                {
                    if (!string.IsNullOrEmpty(parts[0]))
                    {
                        if ((parts[0] != ".org") && (parts[0] != ".label") && (parts[0] != ".eqv") && (!parts[0].EndsWith(":")))
                        {
                            _errorTextBuilder.AppendLine("WARNING: Ignoring unknown command \"" + parts[0] + "\".");
                        }
                    }
                }

                if (string.IsNullOrEmpty(newTextASMLineBuilder.ToString()))
                {
                    newTextASMLineBuilder.AppendLine(modLine);
                }

                newTextASMBuilder.Append(newTextASMLineBuilder.ToString());
            }

            string newTextASM = newTextASMBuilder.ToString();

            if (newTextASM.EndsWith("\r\n"))
            {
                newTextASMBuilder.Length -= 2;
            }
            else if (newTextASM.EndsWith("\n"))
            {
                newTextASMBuilder.Length -= 1;
            }

            newTextASM = newTextASMBuilder.ToString();
            return(new ASMEncoderResult(encodedASMBuilder.ToString(), byteList.ToArray(), newTextASM, _errorTextBuilder.ToString()));
        }
Ejemplo n.º 12
0
        // Translates pseudoinstructions
        public ASMTranslatePseudoResult TranslatePseudo(string[] lines, uint startPC, bool skipLabelAssertion = false)
        {
            _errorTextBuilder.Length = 0;

            bool reportErrors = !skipLabelAssertion;

            ASMTranslatePseudoResult result      = new ASMTranslatePseudoResult();
            List <EncodeLine>        resultLines = new List <EncodeLine>();
            int  index = 0;
            uint pc    = startPC;

            List <bool> isSkippingLine = new List <bool>()
            {
                false
            };
            int ifNestLevel = 0;

            foreach (string line in lines)
            {
                if (string.IsNullOrEmpty(line))
                {
                    continue;
                }

                string processLine = ASMStringHelper.RemoveLeadingBracketBlock(line);
                processLine = ASMStringHelper.RemoveLeadingSpaces(processLine);
                processLine = ASMStringHelper.RemoveComment(processLine).ToLower();
                processLine = ASMStringHelper.ConvertBracketBlocks(processLine);
                string[] parts = ASMStringHelper.SplitLine(processLine);
                parts = ASMStringHelper.RemoveLabel(parts);

                //pc = ASMPCHelper.ProcessOrg(pc, parts);
                ASMProcessPCResult processPCResult = ASMPCHelper.ProcessOrg(pc, parts, false);
                pc = processPCResult.PC;
                _errorTextBuilder.Append(processPCResult.ErrorMessage);

                string firstPart = parts[0].ToLower().Trim();

                if (firstPart == ".endif")
                {
                    if (ifNestLevel == 0)
                    {
                        if (reportErrors)
                        {
                            _errorTextBuilder.AppendLine("WARNING: No matching .if statement for .endif statement at address 0x" + ASMValueHelper.UnsignedToHex_WithLength(pc, 8));
                        }
                    }
                    else
                    {
                        isSkippingLine.RemoveAt(isSkippingLine.Count - 1);
                        ifNestLevel--;
                    }
                }
                else if (firstPart == ".else")
                {
                    if (ifNestLevel == 0)
                    {
                        if (reportErrors)
                        {
                            _errorTextBuilder.AppendLine("WARNING: No matching .if statement for .else statement at address 0x" + ASMValueHelper.UnsignedToHex_WithLength(pc, 8));
                        }
                    }
                    else if (!isSkippingLine[ifNestLevel - 1])
                    {
                        isSkippingLine[ifNestLevel] = !isSkippingLine[ifNestLevel];
                    }
                }
                else if (firstPart == ".if")
                {
                    try
                    {
                        string[] innerParts = parts[1].Split(',');

                        if (!parts[1].Contains(","))
                        {
                            if (reportErrors)
                            {
                                _errorTextBuilder.AppendLine("WARNING: Unreachable code at address 0x" + ASMValueHelper.UnsignedToHex_WithLength(pc, 8)
                                                             + " inside .if statement with bad argument list (no commas): \"" + parts[1] + "\"");
                            }

                            isSkippingLine.Add(true);
                            ifNestLevel++;
                        }
                        else if (innerParts.Length < 2)
                        {
                            if (reportErrors)
                            {
                                _errorTextBuilder.AppendLine("WARNING: Unreachable code at address 0x" + ASMValueHelper.UnsignedToHex_WithLength(pc, 8) +
                                                             " inside .if statement with bad argument list (less than 2 arguments): \"" + parts[1] + "\"");
                            }

                            isSkippingLine.Add(true);
                            ifNestLevel++;
                        }
                        else if (isSkippingLine[ifNestLevel])
                        {
                            isSkippingLine.Add(true);
                            ifNestLevel++;
                        }
                        else
                        {
                            string operation = string.Empty;
                            string eqvKey, eqvValue;

                            if (innerParts.Length >= 3)
                            {
                                operation = ASMStringHelper.RemoveSpaces(innerParts[0]);
                                eqvKey    = ASMStringHelper.RemoveSpaces(innerParts[1]);
                                eqvValue  = ASMStringHelper.RemoveSpaces(innerParts[2]);
                            }
                            else
                            {
                                operation = "=";
                                eqvKey    = ASMStringHelper.RemoveSpaces(innerParts[0]);
                                eqvValue  = ASMStringHelper.RemoveSpaces(innerParts[1]);
                            }

                            int  intKey       = 0;
                            int  intValue     = 0;
                            bool isKeyInt     = int.TryParse(eqvKey, out intKey);
                            bool isValueInt   = int.TryParse(eqvValue, out intValue);
                            bool isIntCompare = isKeyInt && isValueInt;

                            bool isPass = false;
                            switch (operation)
                            {
                            case "=":
                            case "==":
                                isPass = eqvKey.Equals(eqvValue);
                                break;

                            case "!=":
                            case "<>":
                                isPass = !eqvKey.Equals(eqvValue);
                                break;

                            case "<":
                                isPass = isIntCompare && (intKey < intValue);
                                break;

                            case ">":
                                isPass = isIntCompare && (intKey > intValue);
                                break;

                            case "<=":
                                isPass = isIntCompare && (intKey <= intValue);
                                break;

                            case ">=":
                                isPass = isIntCompare && (intKey >= intValue);
                                break;

                            default:
                                break;
                            }

                            isSkippingLine.Add(!isPass);
                            ifNestLevel++;
                        }
                    }
                    catch (Exception ex)
                    {
                        if (reportErrors)
                        {
                            _errorTextBuilder.AppendLine("Error on .if statement: " + ex.Message + "\r\n");
                        }
                    }
                }
                else
                {
                    // If this is an ASM command, pass off line to translating routine
                    EncodingFormat encodingOrNull = FormatHelper.FindFormatByCommand(parts[0]);
                    if (encodingOrNull != null)
                    {
                        try
                        {
                            if (!isSkippingLine[ifNestLevel])
                            {
                                EncodingFormat encoding    = encodingOrNull;
                                EncodeLine[]   encodeLines = TranslatePseudoSingle(encoding, parts, index, pc, skipLabelAssertion);
                                foreach (EncodeLine encodeLine in encodeLines)
                                {
                                    resultLines.Add(encodeLine);
                                    pc += 4;
                                }

                                //index++;
                            }
                        }
                        catch (Exception ex)
                        {
                            if (reportErrors)
                            {
                                //result.errorMessage = "Error translating pseudoinstruction: " + line;
                                _errorTextBuilder.Append("Error translating pseudoinstruction: " + line + " (" + ex.Message + ")\r\n");
                            }
                            //result.lines = null;
                            //return result;
                            //index++;
                        }

                        index++;
                    }
                }
            }

            result.lines        = resultLines.ToArray();
            result.errorMessage = _errorTextBuilder.ToString();
            return(result);
        }