using System; using System.Collections.Generic; using System.Globalization; using System.Linq; using System.Text; namespace Cosmos.Compiler.XSharp { public class TokenPatterns { protected class Pattern { public TokenList Tokens; public int Hash; public CodeFunc Code; } public delegate void CodeFunc(TokenList aTokens, ref List rCode); protected List mPatterns = new List(); protected string mGroup; protected string mProcedureName; protected bool mInIntHandler; public TokenPatterns() { AddPatterns(); } protected string Quoted(string aString) { return "\"" + aString + "\""; } protected int IntValue(Token aToken) { if (aToken.Value.StartsWith("0x")) { return int.Parse(aToken.Value.Substring(2), NumberStyles.AllowHexSpecifier); } else { return int.Parse(aToken.Value); } } protected void AddPatterns() { AddPattern("! Move EAX, 0", "new LiteralAssemblerCode(\"{0}\");" ); AddPattern("# Comment", "new Comment(\"{0}\");" ); AddPattern("_ABC:" , "new Label(\"{0}\");" ); AddPattern("_REG = 123", "new Mov{{ DestinationReg = RegistersEnum.{0}, SourceValue = {2} }};" ); AddPattern("_REG = _REG", "new Mov{{ DestinationReg = RegistersEnum.{0}, SourceReg = RegistersEnum.{2} }};" ); AddPattern("_REG = _REG[1]", "new Mov {{" + " DestinationReg = RegistersEnum.{0}" + ", SourceReg = RegistersEnum.{2}, SourceIsIndirect = true, SourceDisplacement = {4}" + "}};" ); AddPattern("_REG = _REG[-1]", "new Mov {{" + " DestinationReg = RegistersEnum.{0}" + ", SourceReg = RegistersEnum.{2}, SourceIsIndirect = true, SourceDisplacement = -{4}" + "}};" ); AddPattern("Port[DX] = AX", // TODO: DX only for index // TODO: Src _REG can only be EAX, AX, AL "new Out {{ DestinationReg = RegistersEnum.{5}}};" ); AddPattern("+_REG", "new Push {{" + " DestinationReg = RegistersEnum.{1}" + "}};" ); AddPattern("-_REG", "new Pop {{" + " DestinationReg = RegistersEnum.{1}" + "}};" ); AddPattern("_ABC = _REG", delegate(TokenList aTokens, ref List rCode) { rCode.Add("new Mov {{" + " DestinationRef = Cosmos.Assembler.ElementReference.New(\"" + mGroup + "_{0}\"), DestinationIsIndirect = true" + " , SourceReg = RegistersEnum.{2}" + " }};"); }); // TODO: Allow asm to optimize these to Inc/Dec AddPattern("_REG + 1", delegate(TokenList aTokens, ref List rCode) { if (IntValue(aTokens[2]) == 1) { rCode.Add("new INC {{ DestinationReg = RegistersEnum.{0} }};"); } else { rCode.Add("new Add {{ DestinationReg = RegistersEnum.{0}, SourceValue = {2} }};"); } }); AddPattern("_REG - 1", delegate(TokenList aTokens, ref List rCode) { if (IntValue(aTokens[2]) == 1) { rCode.Add("new Dec {{ DestinationReg = RegistersEnum.{0} }};"); } else { rCode.Add("new Sub {{ DestinationReg = RegistersEnum.{0}, SourceValue = {2} }};"); } }); AddPattern("}", delegate(TokenList aTokens, ref List rCode) { rCode.Add("new Label(\"" + mGroup + "_" + mProcedureName + "_Exit\");"); if (mInIntHandler) { rCode.Add("new IRET();"); } else { rCode.Add("new Return();"); } }); AddPattern("Group _ABC", delegate(TokenList aTokens, ref List rCode) { mGroup = aTokens[1].Value; }); AddPattern("Call _ABC", delegate(TokenList aTokens, ref List rCode) { string xLabel = aTokens[1].Value; rCode.Add("new Call {{ DestinationLabel = " + Quoted(mGroup + "_" + xLabel) + " }};"); }); AddPattern("Exit", delegate(TokenList aTokens, ref List rCode) { rCode.Add("new Jump {{ DestinationLabel = " + Quoted(mGroup + "_" + mProcedureName + "_Exit") + " }};"); }); AddPattern("InterruptHandler _ABC {", delegate(TokenList aTokens, ref List rCode) { mInIntHandler = true; mProcedureName = aTokens[1].Value; rCode.Add("new Label(\"" + mGroup + "_{1}\");"); }); AddPattern("Jump _ABC", delegate(TokenList aTokens, ref List rCode) { rCode.Add("new Jump {{ DestinationLabel = \"" + mGroup + "_{1}\" }};"); }); AddPattern("Return", "new Return();"); AddPattern("ReturnInterrupt", "new IRET();"); AddPattern("PopAll", "new Popad();"); AddPattern("PushAll", "new Pushad();"); AddPattern("Procedure _ABC {", delegate(TokenList aTokens, ref List rCode) { mInIntHandler = false; mProcedureName = aTokens[1].Value; rCode.Add("new Label(\"" + mGroup + "_{1}\");"); }); } public List GetCode(string aLine) { var xParser = new Parser(aLine, false, false); var xTokens = xParser.Tokens; CodeFunc xAction = null; List xResult = new List(); int xHash = xTokens.GetPatternHashCode(); // Get a list of matching hashes, but then we have to // search for exact pattern match because it is possible // to have duplicate hashes. Hashes just provide us a quick way // to reduce the search. var xPatterns = mPatterns.Where(q => q.Hash == xHash); Pattern xPattern = null; foreach (var x in xPatterns) { if (x.Tokens.PatternMatches(xTokens)) { xPattern = x; break; } } if (xPattern == null) { throw new Exception("Token pattern not found."); } xPattern.Code(xTokens, ref xResult); for(int i = 0; i < xResult.Count; i++) { xResult[i] = string.Format(xResult[i], xTokens.Select(c => c.Value).ToArray()); } return xResult; } protected void AddPattern(string aPattern, CodeFunc aCode) { var xParser = new Parser(aPattern, false, true); var xPattern = new Pattern() { Tokens = xParser.Tokens, Hash = xParser.Tokens.GetHashCode(), Code = aCode }; mPatterns.Add(xPattern); } protected void AddPattern(string aPattern, string aCode) { AddPattern(aPattern, delegate(TokenList aTokens, ref List rCode) { rCode.Add(aCode); }); } } }