public object Interpret(object exp) { IASTNode node = ASTCompiler.Compile(null, ListProcess.TransformLibraryForms(exp)); Env.ReserveGlobalVariables(SymbolTable.GetGlobalSymbolCount()); return(new ASTNodeVisitor_Interpreter(null, node).Value); }
public object Interpret(object exp) { IASTNode node = ASTCompiler.Compile(null, ListProcess.TransformLibraryForms(exp)); GlobalEnv.Instance().ReserveVariables(SymbolTable.GetGlobalSymbolCount()); var lambda = new ASTNode_Lambda { bodyNode = node, localVarCount = 0, freeAddresses = new List <FreeAddress>(), }; return(mStack.CallScriptProcedure(new ScriptProcedure(null, CompileToByteCode(lambda)), new List <object> { })); }
static void Main(string[] args) { // ByteCodeInterpreter.Instance().SetMaxStackDepth(1000, 300); var tokens = Parser.Tokenize(new System.IO.StreamReader("../../test.rkt").ReadToEnd()); while (true) { object s = Parser.Parse(tokens); if (s == null) { break; } object v = ByteCodeInterpreter.Instance().Interpret(s); // object v = ASTInterpreter.Instance().Interpret(s); if (v != null) { ListProcess.PrintPairExp(v); } } }
private ByteCodeInterpreter() { Utils.QueryPerformanceCounter(out mTimerStart); Utils.QueryPerformanceFrequency(out mTimerFreq); Dictionary <string, object> builtinVars = new Dictionary <string, object>() { { "true", true }, { "false", false }, { "else", true }, { "null", null }, }; Dictionary <string, HostProcedure> builtinProcedures = new Dictionary <string, HostProcedure>() { { "not", (stack, ret) => stack[ret] = !(bool)stack[ret + 1] }, { "identity", (stack, ret) => stack[ret] = stack[ret + 1] }, { "sqr", (stack, ret) => { var a = (INumber)stack[ret + 1]; stack[ret] = a.Mul(a); } }, { "+", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Add((INumber)stack[ret + 2]) }, { "-", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Sub((INumber)stack[ret + 2]) }, { "*", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Mul((INumber)stack[ret + 2]) }, { "/", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Div((INumber)stack[ret + 2]) }, { "quotient", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Div((INumber)stack[ret + 2]).CastToInteger() }, { "remainder", (stack, ret) => stack[ret] = ((INumber)stack[ret + 1]).Mod((INumber)stack[ret + 2]) }, { "=", (stack, ret) => stack[ret] = stack[ret + 1].Equals(stack[ret + 2]) }, { "<", (stack, ret) => stack[ret] = (stack[ret + 1] as IComparable).CompareTo(stack[ret + 2]) < 0 }, { "<=", (stack, ret) => stack[ret] = (stack[ret + 1] as IComparable).CompareTo(stack[ret + 2]) <= 0 }, { ">", (stack, ret) => stack[ret] = (stack[ret + 1] as IComparable).CompareTo(stack[ret + 2]) > 0 }, { ">=", (stack, ret) => stack[ret] = (stack[ret + 1] as IComparable).CompareTo(stack[ret + 2]) >= 0 }, { "eq?", (stack, ret) => stack[ret] = object.ReferenceEquals(stack[ret + 1], stack[ret + 2]) }, { "cons", (stack, ret) => stack[ret] = new Pair() { Car = stack[ret + 1], Cdr = stack[ret + 2] } }, { "car", (stack, ret) => stack[ret] = ((Pair)stack[ret + 1]).Car }, { "cdr", (stack, ret) => stack[ret] = ((Pair)stack[ret + 1]).Cdr }, { "drop", (stack, ret) => { Pair l = (Pair)stack[ret + 1]; int n = ((NumberInteger)stack[ret + 2]).value; for (; n > 0; --n) { l = (Pair)l.Cdr; } stack[ret] = l; } }, { "length", (stack, ret) => { int n = 0; for (Pair l = (Pair)stack[ret + 1]; l != null; ++n, l = (Pair)l.Cdr) { ; } stack[ret] = Number.Create(n); } }, { "append", (stack, ret) => { var l = ListProcess.PairToList((Pair)stack[ret + 1]); l.InsertRange(l.Count, ListProcess.PairToList((Pair)stack[ret + 2])); stack[ret] = ListProcess.ListToPair(l); } }, { "empty?", (stack, ret) => stack[ret] = stack[ret + 1] == null }, { "pretty-print", (stack, ret) => { ListProcess.PrintPairExp(stack[ret + 1]); stack[ret] = null; } }, { "display", (stack, ret) => { ListProcess.PrintListExp(ListProcess.PairExpToListExp(stack[ret + 1])); stack[ret] = null; } }, { "current-inexact-milliseconds", (stack, ret) => { long now; Utils.QueryPerformanceCounter(out now); stack[ret] = Number.Create((decimal)(now - mTimerStart) * 1000 / mTimerFreq); } }, { "exit", (stack, ret) => { Environment.Exit(0); stack[ret] = null; } }, { "random", (stack, ret) => stack[ret] = Number.Create(mRandom.Next(((NumberInteger)stack[ret + 1]).value)) }, { "eval", (stack, ret) => stack[ret] = Interpret(ListProcess.PairExpToListExp(stack[ret + 1])) }, }; GlobalEnv.Instance().ReserveVariables(builtinVars.Count + builtinProcedures.Count); foreach (KeyValuePair <string, object> kv in builtinVars) { GlobalEnv.Instance().variables[SymbolTable.DefineOrGetGlobalSymbol(kv.Key).index] = kv.Value; } foreach (KeyValuePair <string, HostProcedure> kv in builtinProcedures) { GlobalEnv.Instance().variables[SymbolTable.DefineOrGetGlobalSymbol(kv.Key).index] = kv.Value; } }
private ASTInterpreter() { Utils.QueryPerformanceCounter(out sTimerStart); Utils.QueryPerformanceFrequency(out sTimerFreq); Dictionary <string, object> builtinVars = new Dictionary <string, object>() { { "true", true }, { "false", false }, { "else", true }, { "null", null }, }; Dictionary <string, Procedure> builtinProcedures = new Dictionary <string, Procedure>() { { "not", (args) => !(bool)args[0] }, { "identity", (args) => args[0] }, { "sqr", (args) => { var a = args[0] as INumber; return(a.Mul(a)); } }, { "+", (args) => ((INumber)args[0]).Add((INumber)args[1]) }, { "-", (args) => ((INumber)args[0]).Sub((INumber)args[1]) }, { "*", (args) => ((INumber)args[0]).Mul((INumber)args[1]) }, { "/", (args) => ((INumber)args[0]).Div((INumber)args[1]) }, { "quotient", (args) => ((INumber)args[0]).Div((INumber)args[1]).CastToInteger() }, { "remainder", (args) => ((INumber)args[0]).Mod((INumber)args[1]) }, { "=", (args) => (args[0].Equals(args[1])) }, { "<", (args) => (args[0] as IComparable).CompareTo(args[1]) < 0 }, { "<=", (args) => (args[0] as IComparable).CompareTo(args[1]) <= 0 }, { ">", (args) => (args[0] as IComparable).CompareTo(args[1]) > 0 }, { ">=", (args) => (args[0] as IComparable).CompareTo(args[1]) >= 0 }, { "eq?", (args) => object.ReferenceEquals(args[0], args[1]) }, { "cons", (args) => new Pair() { Car = args[0], Cdr = args[1] } }, { "car", (args) => ((Pair)args[0]).Car }, { "cdr", (args) => ((Pair)args[0]).Cdr }, { "drop", (args) => { Pair l = (Pair)args[0]; int n = ((NumberInteger)args[1]).value; for (; n > 0; --n) { l = (Pair)l.Cdr; } return(l); } }, { "length", (args) => { int n = 0; for (Pair l = (Pair)args[0]; l != null; ++n, l = (Pair)l.Cdr) { ; } return(Number.Create(n)); } }, { "append", (args) => { var l = ListProcess.PairToList((Pair)args[0]); l.InsertRange(l.Count, ListProcess.PairToList((Pair)args[1])); return(ListProcess.ListToPair(l)); } }, { "empty?", (args) => args[0] == null }, { "pretty-print", (args) => { ListProcess.PrintPairExp(args[0]); return(null); } }, { "display", (args) => { ListProcess.PrintListExp(ListProcess.PairExpToListExp(args[0])); return(null); } }, { "current-inexact-milliseconds", (args) => { long now; Utils.QueryPerformanceCounter(out now); return(Number.Create((decimal)(now - sTimerStart) * 1000 / sTimerFreq)); } }, { "exit", (args) => { Environment.Exit(0); return(null); } }, { "random", (args) => Number.Create(sRandom.Next(((NumberInteger)args[0]).value)) }, { "eval", (args) => Instance().Interpret(ListProcess.PairExpToListExp(args[0])) }, }; Env.ReserveGlobalVariables(builtinVars.Count + builtinProcedures.Count); foreach (KeyValuePair <string, object> kv in builtinVars) { Env.DefineBuiltin(SymbolTable.DefineOrGetGlobalSymbol(kv.Key), kv.Value); } foreach (KeyValuePair <string, Procedure> kv in builtinProcedures) { Env.DefineBuiltin(SymbolTable.DefineOrGetGlobalSymbol(kv.Key), kv.Value); } }
static public IASTNode Compile(SymbolTable symTable, object exp) { if (exp is string) { return(new ASTNode_GetVar { address = SymbolTable.Lookup(symTable, (string)exp) }); } else if (exp is INumber) { return(new ASTNode_Literal { value = exp }); } List <object> form = exp as List <object>; switch (form[0] as string) { case "quote": return(new ASTNode_Literal { value = ListProcess.ListExpToPairExp(form[1]) }); case "if": return(new ASTNode_If { predNode = Compile(symTable, form[1]), thenNode = Compile(symTable, form[2]), elseNode = Compile(symTable, form[3]) }); case "begin": return(new ASTNode_Begin { nodes = form.Skip(1).Select(e => Compile(symTable, e)).ToList() }); case "lambda": { SymbolTable newSymTable = new SymbolTable(symTable); foreach (var name in ((List <object>)form[1]).Cast <string>()) { newSymTable.DefineLocalSymbol(name); } List <string> defines = new List <string>(); ListProcess.FindDefinition(defines, (List <object>)form[2], 1); foreach (var name in defines) { newSymTable.DefineLocalSymbol(name); } IASTNode body = Compile(newSymTable, form[2]); return(new ASTNode_Lambda { localVarCount = newSymTable.GetLocalSymbolCount(), bodyNode = body, freeAddresses = new ASTNodeVisitor_FindFreeAddresses(body).FreeAddresses, }); } case "define": case "set!": return(new ASTNode_SetVar { address = SymbolTable.Lookup(symTable, (string)form[1]), rightNode = Compile(symTable, form[2]) }); default: return(new ASTNode_Application { procedureNode = Compile(symTable, form[0]), actualNodes = form.Skip(1).Select(e => Compile(symTable, e)).ToList(), }); } }