private void SerializeRecordMembers(RecordAtom Atom, StringBuilder Into) { foreach (var pair in Atom.Variables) { Into.Append("(" + pair.Key + " "); SerializeAtom(pair.Value, Into); Into.Append(")"); } }
public static Atom Evaluate(Atom Atom, RecordAtom GlobalScope) { if (GlobalScope == null) { GlobalScope = new RecordAtom(); } var context = new EvaluationContext { ActiveScope = GlobalScope }; return(Atom.Evaluate(context)); }
public override Atom Evaluate(EvaluationContext Context) { var r = new RecordAtom { Variables = new Dictionary <string, Atom>() }; foreach (var p in Variables) { r.Variables.Upsert(p.Key, p.Value.Evaluate(Context)); } r.Literal = false; return(r); }
public void Serialize(RecordAtom RootAtom, StringBuilder Into) { Core.EmissionID = Guid.NewGuid(); if (RootAtom.Type != AtomType.Record) { throw new InvalidOperationException(); } PrepareForSerialization(RootAtom); Into.AppendFormat("(using \n (atoms (array {0} []))\n (funcs (list \n", AtomsToWrite.Count); foreach (var func in Functions) { Core.EmissionID = Guid.NewGuid(); Into.Append(" (func ("); foreach (var argName in func.ArgumentNames) { argName.Emit(Into); Into.Append(" "); } Into.Append(") "); func.Implementation.Emit(Into); Into.Append(")\n"); } Into.Append(" ))\n\n (last\n"); for (int i = 0; i < Functions.Count; ++i) { Into.AppendFormat(" (set-decl-scope (index-get funcs {0}) (index-get atoms {1}))\n", i, AtomsToWrite.IndexOf(Functions[i].DeclarationScope)); } Into.Append("\n"); for (int i = 0; i < AtomsToWrite.Count; ++i) { Core.EmissionID = Guid.NewGuid(); Into.Append(" (multi-set (index-get atoms " + i + ") "); SerializeRecordMembers(AtomsToWrite[i], Into); if (AtomsToWrite[i].Parent != null) { Into.AppendFormat(")\n(set-parent (index-get atoms {0}) (index-get atoms {1}))\n", i, AtomsToWrite.IndexOf(AtomsToWrite[i].Parent)); } else { Into.Append(")\n"); } } Into.Append("\n\n (index-get atoms 0)\n )\n)"); }
public static void InitiateCore(Action <String> StandardOutput) { CoreFunctions = new List <CoreFunction>(); #region Vitals AddCoreFunction("parse str", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to parse."); } return(Parse(new StringIterator((args[0] as StringAtom).Value))); }); AddCoreFunction("eval atom", (args, c) => { return(args[0].Evaluate(c)); }); #endregion #region Equality and Comparison AddCoreFunction("= +args", (args, c) => { var values = (args[0] as ListAtom).Value; var type = values[0].Type; foreach (var v in values) { if (v.Type != type) { return new IntegerAtom { Value = 0 } } ; switch (values[0].Type) { case AtomType.Decimal: if ((v as DecimalAtom).Value != (values[0] as DecimalAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Integer: if ((v as IntegerAtom).Value != (values[0] as IntegerAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.String: if ((v as StringAtom).Value != (values[0] as StringAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Token: if ((v as TokenAtom).Value != (values[0] as TokenAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Function: case AtomType.List: case AtomType.Record: if (!Object.ReferenceEquals(v, values[0])) { return new IntegerAtom { Value = 0 } } ; break; } } return(new IntegerAtom { Value = 1 }); }); #endregion #region Branches AddCoreFunction("if condition 'then 'else", (args, c) => { var branch = args[1]; if (args[0].Type != AtomType.Integer || (args[0] as IntegerAtom).Value == 0) { branch = args[2]; } return(branch.Evaluate(c)); }); #endregion #region Basic Math AddCoreFunction("+ +value", (args, c) => { var realArgs = (args[0] as ListAtom).Value; foreach (var v in realArgs) { if (v.Type != AtomType.Integer && v.Type != AtomType.Decimal) { throw new EvaluationError("Incorrect argument type passed to +"); } } if (realArgs.Count(v => v.Type == AtomType.Decimal) > 0) { var sum = 0.0f; foreach (var v in realArgs) { if (v.Type == AtomType.Integer) { sum += (v as IntegerAtom).Value; } else { sum += (v as DecimalAtom).Value; } } return(new DecimalAtom { Value = sum }); } else { var sum = 0; foreach (var v in realArgs) { sum += (v as IntegerAtom).Value; } return(new IntegerAtom { Value = sum }); } }); #endregion #region Output AddCoreFunction("print +arg", (args, c) => { var builder = new StringBuilder(); foreach (var v in (args[0] as ListAtom).Value) { v.Emit(builder); } StandardOutput(builder.ToString()); return(new StringAtom { Value = builder.ToString() }); }); AddCoreFunction("format string *arg", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("First argument to format is not a string."); } var s = (args[0] as StringAtom).Value; var a = (args[1] as ListAtom).Value.Select(v => v.GetSystemValue()).ToArray(); var r = String.Format(s, a); return(new StringAtom { Value = r }); }); #endregion #region Functions AddCoreFunction("func 'args 'body", (args, c) => { if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected list of argument names as first argument to func."); } var function = new FunctionAtom(); function.DeclarationScope = c.ActiveScope; function.Implementation = args[1]; function.ArgumentNames = new List <TokenAtom>(); foreach (var argumentName in (args[0] as ListAtom).Value) { if (argumentName.Type != AtomType.Token) { throw new EvaluationError("Malformed argument list in func."); } if (argumentName.Modifier == Modifier.Expand) { throw new EvaluationError("Expand modifier illegal on argument name in func."); } if (argumentName.Modifier == Modifier.Evaluate) { throw new EvaluationError("Evaluate modifier illegal on argument name in func."); } function.ArgumentNames.Add(argumentName as TokenAtom); } return(function); }); AddCoreFunction("set-decl-scope func scope", (args, c) => { if (args[0].Type != AtomType.Function) { throw new EvaluationError("Expected function as first argument to set-decl-scope."); } if (args[1].Type != AtomType.Record) { throw new EvaluationError("Expected record as second argument to set-decl-scope."); } (args[0] as FunctionAtom).DeclarationScope = (args[1] as RecordAtom); return(args[0]); }); #endregion #region Scope And Memory AddCoreFunction("let 'name value", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to let."); } c.ActiveScope.Variables.Upsert((args[0] as TokenAtom).Value, args[1]); return(args[1]); }); AddCoreFunction("with 'vars 'code", (args, c) => { if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected variable set as first argument to with."); } var scope = new RecordAtom { Variables = new Dictionary <string, Atom>(), Parent = c.ActiveScope }; foreach (var variable in (args[0] as ListAtom).Value) { if (variable.Type != AtomType.List || (variable as ListAtom).Value.Count != 2) { throw new EvaluationError("Expected pairs in variable set in first argument to with."); } var name = (variable as ListAtom).Value[0]; var value = (variable as ListAtom).Value[1]; if (name.Type != AtomType.Token) { throw new EvaluationError("Expected variable name in pair in first argument to with."); } scope.Variables.Upsert((name as TokenAtom).Value, value.Evaluate(c)); } c.ActiveScope = scope; Atom result = null; try { result = args[1].Evaluate(c); } finally { c.ActiveScope = scope.Parent; } return(result); }); #endregion #region Records AddCoreFunction("set object 'name value", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to set must be a record."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected member name as second argument to set."); } (args[0] as RecordAtom).Variables.Upsert((args[1] as TokenAtom).Value, args[2]); return(args[2]); }); AddCoreFunction("multi-set object '*pairs", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("Expected record as first argument to multi-set."); } foreach (var pair in (args[1] as ListAtom).Value) { if (pair.Type != AtomType.List) { throw new EvaluationError("Expected lists as repeating arguments to multi-set."); } var list = pair as ListAtom; if (list.Value.Count != 2) { throw new EvaluationError("Expected pairs as repeating arguments to multi-set."); } if (list.Value[0].Type != AtomType.Token) { throw new EvaluationError("Expected token as first value in pair as repeating arguments to multi-set."); } var value = list.Value[1].Evaluate(c); (args[0] as RecordAtom).Variables.Upsert((list.Value[0] as TokenAtom).Value, value); } return(args[0]); }); AddCoreFunction("get object 'name", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to get must be a record."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected member name as second argument to get."); } Atom value; if ((args[0] as RecordAtom).Variables.TryGetValue((args[1] as TokenAtom).Value, out value)) { return(value); } else { throw new EvaluationError("Member not found on record."); } }); #endregion #region Lists AddCoreFunction("list *values", (args, c) => { return(args[0]); // :D!!!! }); AddCoreFunction("length list-or-string", (args, c) => { if (args[0].Type == AtomType.List) { return new IntegerAtom { Value = (args[0] as ListAtom).Value.Count } } ; else if (args[0].Type == AtomType.String) { return new IntegerAtom { Value = (args[0] as StringAtom).Value.Length } } ; else { throw new EvaluationError("Expected list or string as first argument to length."); } }); AddCoreFunction("index-get list index", (args, c) => { if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected integer index as second argument to index-get."); } if (args[0].Type == AtomType.List) { return((args[0] as ListAtom).Value[(args[1] as IntegerAtom).Value]); } else if (args[0].Type == AtomType.String) { return new IntegerAtom { Value = (args[0] as StringAtom).Value[(args[1] as IntegerAtom).Value] } } ; else { throw new EvaluationError("Expected list or string as first argument to index-get."); } }); AddCoreFunction("replace-at list index value", (args, c) => { if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected integer index as second argument to replace-at."); } if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected list as first argument to replace-at."); } var r = new ListAtom { Value = new List <Atom>((args[0] as ListAtom).Value) }; r.Value[(args[1] as IntegerAtom).Value] = args[2]; return(r); }); AddCoreFunction("array count 'code", (args, c) => { var count = args[0]; if (count.Type != AtomType.Integer) { throw new EvaluationError("Expected integer count as first argument to array."); } var r = new ListAtom() { Value = new List <Atom>() }; for (int i = 0; i < (count as IntegerAtom).Value; ++i) { r.Value.Add(args[1].Evaluate(c)); } return(r); }); AddCoreFunction("last +list", (args, c) => { return((args[0] as ListAtom).Value.Last()); }); #endregion #region List Manipulations AddCoreFunction("map 'x list 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to map."); } if (args[1].Type != AtomType.List) { throw new EvaluationError("Expected list as second argument to map."); } var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; var r = new List <Atom>(); foreach (var v in (args[1] as ListAtom).Value) { scope.Variables.Upsert((args[0] as TokenAtom).Value, v); r.Add(args[2].Evaluate(c)); } c.ActiveScope = scope.Parent; return(new ListAtom { Value = r }); }); AddCoreFunction("where 'x list 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to where."); } if (args[1].Type != AtomType.List) { throw new EvaluationError("Expected list as second argument to where."); } var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; var r = new List <Atom>(); foreach (var v in (args[1] as ListAtom).Value) { scope.Variables.Upsert((args[0] as TokenAtom).Value, v); var testResult = args[2].Evaluate(c); if (testResult.Type == AtomType.Integer && (testResult as IntegerAtom).Value != 0) { r.Add(v); } } c.ActiveScope = scope.Parent; return(new ListAtom { Value = r }); }); AddCoreFunction("for 'v from to 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to for."); } if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected minimum index as second argument to for."); } if (args[2].Type != AtomType.Integer) { throw new EvaluationError("Expected maximum exclusive index as third argument to for."); } Atom v = new NilAtom(); var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; for (int i = (args[1] as IntegerAtom).Value; i < (args[2] as IntegerAtom).Value; ++i) { scope.Variables.Upsert((args[0] as TokenAtom).Value, new IntegerAtom { Value = i }); v = args[3].Evaluate(c); } c.ActiveScope = scope.Parent; return(v); }); #endregion #region Serialization AddCoreFunction("serialize record", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("Expect record as first argument to serialize."); } var serializer = new SerializationContext(); var builder = new StringBuilder(); serializer.Serialize(args[0] as RecordAtom, builder); return(new StringAtom { Value = builder.ToString() }); }); AddCoreFunction("to-int value", (args, c) => { if (args[0].Type == AtomType.Integer) { return(args[0]); } else if (args[0].Type == AtomType.Decimal) { return new IntegerAtom { Value = (int)(args[0] as DecimalAtom).Value } } ; else if (args[0].Type == AtomType.String) { int v = 0; if (Int32.TryParse((args[0] as StringAtom).Value, out v)) { return new IntegerAtom { Value = v } } ; } throw new EvaluationError("Could not convert value to integer."); }); #endregion #region Files AddCoreFunction("write-all file text", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to write-all."); } if (args[1].Type != AtomType.String) { throw new EvaluationError("Expected string as second argument to write-all."); } System.IO.File.WriteAllText((args[0] as StringAtom).Value, (args[1] as StringAtom).Value); return(args[1]); }); AddCoreFunction("read-all file", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to read-all."); } return(new StringAtom { Value = System.IO.File.ReadAllText((args[0] as StringAtom).Value) }); }); #endregion }
private static Atom ParseAtom(StringIterator Iterator) { if (Iterator.AtEnd) { return(null); } while (Iterator.Next == ';') { while (!Iterator.AtEnd && Iterator.Next != '\n') { Iterator.Advance(); } Iterator.SkipWhitespace(); if (Iterator.AtEnd) { return(null); } } var modifier = Modifier.None; Atom result = null; if (Iterator.Next == '\'') { Iterator.Advance(); modifier = Modifier.Quote; } else if (Iterator.Next == '$') { Iterator.Advance(); modifier = Modifier.Expand; } else if (Iterator.Next == ':') { Iterator.Advance(); modifier = Modifier.Evaluate; } if (Iterator.AtEnd) { throw new ParseError("Unexpected end of input", Iterator.place); } if (Iterator.Next == '(') { Iterator.Advance(); Iterator.SkipWhitespace(); var list = new ListAtom { Value = new List <Atom>() }; while (!Iterator.AtEnd && Iterator.Next != ')') { list.Value.Add(ParseAtom(Iterator)); Iterator.SkipWhitespace(); } Iterator.Advance(); result = list; } else if (Iterator.Next == '[') { if (modifier != Modifier.None) { throw new ParseError("Modifiers not allowed on record.", Iterator.place); } Iterator.Advance(); Iterator.SkipWhitespace(); var record = new RecordAtom(); while (!Iterator.AtEnd && Iterator.Next != ']') { var listItem = ParseAtom(Iterator) as ListAtom; if (listItem == null) { throw new ParseError("Expected list inside record", Iterator.place); } if (listItem.Value.Count != 2) { throw new ParseError("Malformed record", Iterator.place); } var entryName = listItem.Value[0] as TokenAtom; if (entryName == null) { throw new ParseError("Malformed record", Iterator.place); } record.Variables.Upsert(entryName.Value, listItem.Value[1]); } Iterator.Advance(); record.Literal = true; result = record; } else if ("0123456789-".Contains(Iterator.Next)) { if (modifier != Modifier.None) { throw new ParseError("Modifiers not allowed on literals.", Iterator.place); } result = ParseNumber(Iterator); } else if (Iterator.Next == '\"') { if (modifier != Modifier.None) { throw new ParseError("Modifiers not allowed on literals.", Iterator.place); } result = ParseString(Iterator); } else { result = ParseToken(Iterator); if (result.Type == AtomType.Token && (result as TokenAtom).Value == "nil") { result = new NilAtom(); } } Iterator.SkipWhitespace(); if (!Iterator.AtEnd && Iterator.Next == '.') { Iterator.Advance(); Iterator.SkipWhitespace(); var member = ParseAtom(Iterator); if (member.Modifier == Modifier.Expand) { throw new ParseError("Modifier illegal in this context", Iterator.place); } result = TransformMemberAccess(new MemberAtom { Lhs = result, Rhs = member }); } result.Modifier = modifier; return(result); }
public static void InitiateCore(Action <String> StandardOutput) { CoreFunctions = new List <CoreFunction>(); foreach (var type in System.Reflection.Assembly.GetExecutingAssembly().GetTypes()) { if (type.IsSubclassOf(typeof(CoreFactory))) { (Activator.CreateInstance(type) as CoreFactory).Create(); } } #region Vitals AddCoreFunction("parse str", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to parse."); } return(Parse(new StringIterator((args[0] as StringAtom).Value))); }); AddCoreFunction("eval atom", (args, c) => { return(args[0].Evaluate(c)); }); AddCoreFunction("stot string", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to stot."); } return(new TokenAtom { Value = (args[0] as StringAtom).Value }); }); AddCoreFunction("ttos string", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected token as first argument to ttos."); } return(new StringAtom { Value = (args[0] as TokenAtom).Value }); }); #endregion #region Equality and Comparison AddCoreFunction("& +args", (args, c) => { var values = (args[0] as ListAtom).Value.Select(v => (v.Type == AtomType.Integer ? ((v as IntegerAtom).Value == 1) : (v.Type == AtomType.Nil ? false : true))); foreach (var v in values) { if (!v) { return new IntegerAtom { Value = 0 } } } ; return(new IntegerAtom { Value = 1 }); }); AddCoreFunction("= +args", (args, c) => { var values = (args[0] as ListAtom).Value; var type = values[0].Type; foreach (var v in values) { if (v.Type != type) { return new IntegerAtom { Value = 0 } } ; switch (values[0].Type) { case AtomType.Decimal: if ((v as DecimalAtom).Value != (values[0] as DecimalAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Integer: if ((v as IntegerAtom).Value != (values[0] as IntegerAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.String: if ((v as StringAtom).Value != (values[0] as StringAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Token: if ((v as TokenAtom).Value != (values[0] as TokenAtom).Value) { return new IntegerAtom { Value = 0 } } ; break; case AtomType.Function: case AtomType.List: case AtomType.Record: if (!Object.ReferenceEquals(v, values[0])) { return new IntegerAtom { Value = 0 } } ; break; } } return(new IntegerAtom { Value = 1 }); }); #endregion #region Branches AddCoreFunction("? condition 'then 'else", (args, c) => { var branch = args[1]; if (args[0].Type != AtomType.Integer || (args[0] as IntegerAtom).Value == 0) { branch = args[2]; } return(branch.Evaluate(c)); }); AddCoreFunction("select '+branches", (args, c) => { var branches = args[0] as ListAtom; foreach (var branch in branches.Value) { if (branch.Type != AtomType.List) { throw new EvaluationError("Branch is not pair."); } if ((branch as ListAtom).Value.Count != 2) { throw new EvaluationError("Branch is not pair."); } var cond = (branch as ListAtom).Value[0].Evaluate(c); if (cond.Type == AtomType.Integer && (cond as IntegerAtom).Value == 1) { return((branch as ListAtom).Value[1].Evaluate(c)); } } return(new NilAtom()); }); #endregion #region Random AddCoreFunction("rand min max", (args, c) => { if (args[0].Type != AtomType.Integer) { throw new EvaluationError("Expected integer as first argument to random."); } if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected integer as second argument to random."); } return(new IntegerAtom { Value = Random.Next((args[0] as IntegerAtom).Value, (args[1] as IntegerAtom).Value) }); }); #endregion #region Output AddCoreFunction("format string *arg", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("First argument to format is not a string."); } var s = (args[0] as StringAtom).Value; var a = (args[1] as ListAtom).Value.Select(v => v.GetSystemValue()).ToArray(); var r = String.Format(s, a); return(new StringAtom { Value = r }); }); #endregion #region Functions AddCoreFunction("func 'args 'body", (args, c) => { if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected list of argument names as first argument to func."); } var function = new FunctionAtom(); function.DeclarationScope = c.ActiveScope; function.Implementation = args[1]; function.ArgumentNames = new List <TokenAtom>(); foreach (var argumentName in (args[0] as ListAtom).Value) { if (argumentName.Type != AtomType.Token) { throw new EvaluationError("Malformed argument list in func."); } if (argumentName.Modifier == Modifier.Expand) { throw new EvaluationError("Expand modifier illegal on argument name in func."); } if (argumentName.Modifier == Modifier.Evaluate) { throw new EvaluationError("Evaluate modifier illegal on argument name in func."); } function.ArgumentNames.Add(argumentName as TokenAtom); } return(function); }); AddCoreFunction("set-decl-scope func scope", (args, c) => { if (args[0].Type != AtomType.Function) { throw new EvaluationError("Expected function as first argument to set-decl-scope."); } if (args[1].Type != AtomType.Record) { throw new EvaluationError("Expected record as second argument to set-decl-scope."); } (args[0] as FunctionAtom).DeclarationScope = (args[1] as RecordAtom); return(args[0]); }); #endregion #region Scope And Memory AddCoreFunction("let 'name value", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to let."); } var varName = (args[0] as TokenAtom).Value; var scope = c.ActiveScope; while (scope != null) { if (scope.Variables.ContainsKey(varName)) { scope.Variables.Upsert(varName, args[1]); scope = null; } else { scope = scope.Parent; if (scope == null) { throw new EvaluationError("Variable " + varName + " not found."); } } } return(args[1]); }); AddCoreFunction("using '+vars", (args, c) => { var scope = new RecordAtom { Variables = new Dictionary <string, Atom>(), Parent = c.ActiveScope }; for (int i = 0; i < (args[0] as ListAtom).Value.Count - 1; ++i) { var variable = (args[0] as ListAtom).Value[i]; if (variable.Type != AtomType.List || (variable as ListAtom).Value.Count != 2) { throw new EvaluationError("Expected pairs in variable set in first argument to using."); } var name = (variable as ListAtom).Value[0]; var value = (variable as ListAtom).Value[1]; if (name.Type != AtomType.Token) { throw new EvaluationError("Expected variable name in pair in first argument to using."); } scope.Variables.Upsert((name as TokenAtom).Value, value.Evaluate(c)); } c.ActiveScope = scope; Atom result = null; try { result = (args[0] as ListAtom).Value.Last().Evaluate(c); } finally { c.ActiveScope = scope.Parent; } return(result); }); #endregion #region Records AddCoreFunction("set object 'name value", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to set must be a record."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected member name as second argument to set."); } (args[0] as RecordAtom).Variables.Upsert((args[1] as TokenAtom).Value, args[2]); return(args[2]); }); AddCoreFunction("multi-set object '*pairs", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("Expected record as first argument to multi-set."); } foreach (var pair in (args[1] as ListAtom).Value) { if (pair.Type != AtomType.List) { throw new EvaluationError("Expected lists as repeating arguments to multi-set."); } var list = pair as ListAtom; if (list.Value.Count != 2) { throw new EvaluationError("Expected pairs as repeating arguments to multi-set."); } if (list.Value[0].Type != AtomType.Token) { throw new EvaluationError("Expected token as first value in pair as repeating arguments to multi-set."); } var value = list.Value[1].Evaluate(c); (args[0] as RecordAtom).Variables.Upsert((list.Value[0] as TokenAtom).Value, value); } return(args[0]); }); AddCoreFunction("with record '+vars", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("Expected record as first argument to with"); } if (args[1].Type != AtomType.List) { throw new EvaluationError("Expected list as second argument to with"); } var r = new RecordAtom(); foreach (var v in (args[0] as RecordAtom).Variables) { r.Variables.Upsert(v.Key, v.Value); } foreach (var variable in (args[1] as ListAtom).Value) { if (variable.Type != AtomType.List || (variable as ListAtom).Value.Count != 2) { throw new EvaluationError("Expected pairs in variable set in second argument to with."); } var name = (variable as ListAtom).Value[0]; var value = (variable as ListAtom).Value[1]; if (name.Type != AtomType.Token) { throw new EvaluationError("Expected variable name in pair in second argument to with."); } r.Variables.Upsert((name as TokenAtom).Value, value.Evaluate(c)); } return(r); }); AddCoreFunction("get object 'name", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to get must be a record."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected member name as second argument to get."); } Atom value; if ((args[0] as RecordAtom).Variables.TryGetValue((args[1] as TokenAtom).Value, out value)) { return(value); } else { throw new EvaluationError("Member not found on record."); } }); AddCoreFunction("delete object 'name", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to delete must be a record."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected member name as second argument to delete."); } Atom value; if (!(args[0] as RecordAtom).Variables.TryGetValue((args[1] as TokenAtom).Value, out value)) { value = new NilAtom(); } (args[0] as RecordAtom).Variables.Remove((args[1] as TokenAtom).Value); return(value); }); AddCoreFunction("set-parent object parent", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("First argument to set-parent must be a record."); } if (args[1].Type != AtomType.Record) { throw new EvaluationError("Second argument to set-parent must be a record."); } (args[0] as RecordAtom).Parent = (args[1] as RecordAtom); return(args[0]); }); #endregion #region Lists AddCoreFunction("list *values", (args, c) => { return(args[0]); // :D!!!! }); AddCoreFunction("length list-or-string", (args, c) => { if (args[0].Type == AtomType.List) { return new IntegerAtom { Value = (args[0] as ListAtom).Value.Count } } ; else if (args[0].Type == AtomType.String) { return new IntegerAtom { Value = (args[0] as StringAtom).Value.Length } } ; else { throw new EvaluationError("Expected list or string as first argument to length."); } }); AddCoreFunction("index-get list index", (args, c) => { if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected integer index as second argument to index-get."); } if (args[0].Type == AtomType.List) { return((args[0] as ListAtom).Value[(args[1] as IntegerAtom).Value]); } else if (args[0].Type == AtomType.String) { return new IntegerAtom { Value = (args[0] as StringAtom).Value[(args[1] as IntegerAtom).Value] } } ; else { throw new EvaluationError("Expected list or string as first argument to index-get."); } }); AddCoreFunction("replace-at list index value", (args, c) => { if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected integer index as second argument to replace-at."); } if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected list as first argument to replace-at."); } var r = new ListAtom { Value = new List <Atom>((args[0] as ListAtom).Value) }; r.Value[(args[1] as IntegerAtom).Value] = args[2]; return(r); }); AddCoreFunction("array count 'code", (args, c) => { var count = args[0]; if (count.Type != AtomType.Integer) { throw new EvaluationError("Expected integer count as first argument to array."); } var r = new ListAtom() { Value = new List <Atom>() }; for (int i = 0; i < (count as IntegerAtom).Value; ++i) { r.Value.Add(args[1].Evaluate(c)); } return(r); }); AddCoreFunction("last +list", (args, c) => { return((args[0] as ListAtom).Value.Last()); }); AddCoreFunction("reverse list", (args, c) => { if (args[0].Type != AtomType.List) { throw new EvaluationError("Expected list as first argument to reverse."); } return(new ListAtom { Value = new List <Atom>((args[0] as ListAtom).Value.Reverse <Atom>()) }); }); #endregion #region Loops AddCoreFunction("while 'condition 'body", (args, c) => { while (true) { var cond = args[0].Evaluate(c); if (cond.Type == AtomType.Integer && (cond as IntegerAtom).Value != 0) { args[1].Evaluate(c); } else { break; } } return(new NilAtom()); }); #endregion #region Serialization AddCoreFunction("serialize record", (args, c) => { if (args[0].Type != AtomType.Record) { throw new EvaluationError("Expect record as first argument to serialize."); } var serializer = new SerializationContext(); var builder = new StringBuilder(); serializer.Serialize(args[0] as RecordAtom, builder); return(new StringAtom { Value = builder.ToString() }); }); AddCoreFunction("to-int value", (args, c) => { if (args[0].Type == AtomType.Integer) { return(args[0]); } else if (args[0].Type == AtomType.Decimal) { return new IntegerAtom { Value = (int)(args[0] as DecimalAtom).Value } } ; else if (args[0].Type == AtomType.String) { int v = 0; if (Int32.TryParse((args[0] as StringAtom).Value, out v)) { return new IntegerAtom { Value = v } } ; } throw new EvaluationError("Could not convert value to integer."); }); #endregion #region Files AddCoreFunction("write-all file text", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to write-all."); } if (args[1].Type != AtomType.String) { throw new EvaluationError("Expected string as second argument to write-all."); } System.IO.File.WriteAllText((args[0] as StringAtom).Value, (args[1] as StringAtom).Value); return(args[1]); }); AddCoreFunction("read-all file", (args, c) => { if (args[0].Type != AtomType.String) { throw new EvaluationError("Expected string as first argument to read-all."); } return(new StringAtom { Value = System.IO.File.ReadAllText((args[0] as StringAtom).Value) }); }); #endregion }
public override void Create() { Core.AddCoreFunction("map 'x list 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to map."); } if (args[1].Type != AtomType.List) { throw new EvaluationError("Expected list as second argument to map."); } var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; var r = new List <Atom>(); foreach (var v in (args[1] as ListAtom).Value) { scope.Variables.Upsert((args[0] as TokenAtom).Value, v); r.Add(args[2].Evaluate(c)); } c.ActiveScope = scope.Parent; return(new ListAtom { Value = r }); }); Core.AddCoreFunction("mapex 'x 'next-x 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to map."); } var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; var r = new List <Atom>(); MISPLIB.Atom v = new NilAtom(); scope.Variables.Upsert((args[0] as TokenAtom).Value, v); do { v = args[1].Evaluate(c); scope.Variables.Upsert((args[0] as TokenAtom).Value, v); if (v.Type != AtomType.Nil) { r.Add(args[2].Evaluate(c)); } }while (v.Type != AtomType.Nil); c.ActiveScope = scope.Parent; return(new ListAtom { Value = r }); }); Core.AddCoreFunction("fold 'x 'y first-value list 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to fold."); } if (args[1].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as second argument to fold."); } if (args[3].Type != AtomType.List) { throw new EvaluationError("Expected list as fourth argument to fold."); } var v = args[2]; //first-value var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; foreach (var a in (args[3] as ListAtom).Value) { scope.Variables.Upsert((args[0] as TokenAtom).Value, v); scope.Variables.Upsert((args[1] as TokenAtom).Value, a); v = args[4].Evaluate(c); } c.ActiveScope = scope.Parent; return(v); }); Core.AddCoreFunction("where 'x list 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to where."); } if (args[1].Type != AtomType.List) { throw new EvaluationError("Expected list as second argument to where."); } var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; var r = new List <Atom>(); foreach (var v in (args[1] as ListAtom).Value) { scope.Variables.Upsert((args[0] as TokenAtom).Value, v); var testResult = args[2].Evaluate(c); if (testResult.Type == AtomType.Integer && (testResult as IntegerAtom).Value != 0) { r.Add(v); } } c.ActiveScope = scope.Parent; return(new ListAtom { Value = r }); }); Core.AddCoreFunction("for 'v from to 'code", (args, c) => { if (args[0].Type != AtomType.Token) { throw new EvaluationError("Expected argument name as first argument to for."); } if (args[1].Type != AtomType.Integer) { throw new EvaluationError("Expected minimum index as second argument to for."); } if (args[2].Type != AtomType.Integer) { throw new EvaluationError("Expected maximum exclusive index as third argument to for."); } Atom v = new NilAtom(); var scope = new RecordAtom { Parent = c.ActiveScope }; c.ActiveScope = scope; for (int i = (args[1] as IntegerAtom).Value; i < (args[2] as IntegerAtom).Value; ++i) { scope.Variables.Upsert((args[0] as TokenAtom).Value, new IntegerAtom { Value = i }); v = args[3].Evaluate(c); } c.ActiveScope = scope.Parent; return(v); }); }