private static Executable ParseStruct(TokenStream tokens, Executable owner)
{
Token structToken = tokens.PopExpected("struct");
Token structNameToken = tokens.Pop();
Parser.VerifyIdentifier(structNameToken);
tokens.PopExpected("{");
List <Token> fieldTokens = new List <Token>();
List <Annotation> typeAnnotations = new List <Annotation>();
bool nextForbidden = false;
while (!tokens.PopIfPresent("}"))
{
if (nextForbidden)
{
tokens.PopExpected("}"); // crash
}
Annotation annotation = tokens.IsNext("@") ? AnnotationParser.ParseAnnotation(tokens) : null;
Token fieldToken = tokens.Pop();
Parser.VerifyIdentifier(fieldToken);
nextForbidden = !tokens.PopIfPresent(",");
fieldTokens.Add(fieldToken);
typeAnnotations.Add(annotation);
}
return(new StructDefinition(structToken, structNameToken, fieldTokens, typeAnnotations, owner));
}
private static Executable ParseEnumDefinition(Parser parser, TokenStream tokens, Executable owner)
{
Token enumToken = tokens.PopExpected("enum");
Token nameToken = tokens.Pop();
Parser.VerifyIdentifier(nameToken);
string name = nameToken.Value;
tokens.PopExpected("{");
bool nextForbidden = false;
List <Token> items = new List <Token>();
List <Expression> values = new List <Expression>();
while (!tokens.PopIfPresent("}"))
{
if (nextForbidden)
{
tokens.PopExpected("}"); // crash
}
Token enumItem = tokens.Pop();
Parser.VerifyIdentifier(enumItem);
if (tokens.PopIfPresent("="))
{
values.Add(ExpressionParser.Parse(tokens, owner));
}
else
{
values.Add(null);
}
nextForbidden = !tokens.PopIfPresent(",");
items.Add(enumItem);
}
return(new EnumDefinition(enumToken, nameToken, parser.CurrentNamespace, items, values, owner));
}
public Annotation ParseAnnotation(TokenStream tokens)
{
Token annotationToken = tokens.PopExpected("@");
Token typeToken = tokens.Pop();
// TODO: refactor this. All built-in annotations should be exempt from the VerifyIdentifier check in an extensible way.
if (typeToken.Value != this.parser.Keywords.PRIVATE)
{
parser.VerifyIdentifier(typeToken);
}
List <Expression> args = new List <Expression>();
if (tokens.PopIfPresent("("))
{
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(this.parser.ExpressionParser.Parse(tokens, null));
}
}
return(new Annotation(annotationToken, typeToken, args));
}
internal static IList <Executable> ParseBlock(Parser parser, TokenStream tokens, bool bracketsRequired, Executable owner)
{
List <Executable> output = new List <Executable>();
if (tokens.PopIfPresent("{"))
{
while (!tokens.PopIfPresent("}"))
{
output.Add(parser.ExecutableParser.Parse(tokens, false, true, false, owner));
}
}
else
{
if (bracketsRequired)
{
tokens.PopExpected("{"); // throws with reasonable exception message.
}
if (tokens.PopIfPresent(";"))
{
return(output);
}
output.Add(parser.ExecutableParser.Parse(tokens, false, true, false, owner));
}
return(output);
}
private Executable ParseFor(TokenStream tokens, TopLevelConstruct owner)
{
Token forToken = tokens.PopExpected(this.parser.Keywords.FOR);
tokens.PopExpected("(");
if (!tokens.HasMore)
{
tokens.ThrowEofException();
}
if (this.parser.IsValidIdentifier(tokens.PeekValue()) && tokens.PeekValue(1) == ":")
{
Token iteratorToken = tokens.Pop();
if (this.parser.IsReservedKeyword(iteratorToken.Value))
{
throw new ParserException(iteratorToken, "Cannot use this name for an iterator.");
}
tokens.PopExpected(":");
Expression iterationExpression = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
IList <Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
return(new ForEachLoop(forToken, iteratorToken, iterationExpression, body, owner));
}
else
{
List <Executable> init = new List <Executable>();
while (!tokens.PopIfPresent(";"))
{
if (init.Count > 0)
{
tokens.PopExpected(",");
}
init.Add(this.Parse(tokens, true, false, owner));
}
Expression condition = null;
if (!tokens.PopIfPresent(";"))
{
condition = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(";");
}
List <Executable> step = new List <Executable>();
while (!tokens.PopIfPresent(")"))
{
if (step.Count > 0)
{
tokens.PopExpected(",");
}
step.Add(this.Parse(tokens, true, false, owner));
}
IList <Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
return(new ForLoop(forToken, init, condition, step, body, owner));
}
}
private ConstructorDefinition ParseConstructor(TokenStream tokens, TopLevelConstruct owner)
{
Token constructorToken = tokens.PopExpected(this.parser.Keywords.CONSTRUCTOR);
tokens.PopExpected("(");
List <Token> argNames = new List <Token>();
List <Expression> argValues = new List <Expression>();
bool optionalArgFound = false;
while (!tokens.PopIfPresent(")"))
{
if (argNames.Count > 0)
{
tokens.PopExpected(",");
}
Token argName = tokens.Pop();
this.parser.VerifyIdentifier(argName);
Expression defaultValue = null;
if (tokens.PopIfPresent("="))
{
defaultValue = this.parser.ExpressionParser.Parse(tokens, owner);
optionalArgFound = true;
}
else if (optionalArgFound)
{
throw new ParserException(argName, "All optional arguments must come at the end of the argument list.");
}
argNames.Add(argName);
argValues.Add(defaultValue);
}
List <Expression> baseArgs = new List <Expression>();
Token baseToken = null;
if (tokens.PopIfPresent(":"))
{
baseToken = tokens.PopExpected(this.parser.Keywords.BASE);
tokens.PopExpected("(");
while (!tokens.PopIfPresent(")"))
{
if (baseArgs.Count > 0)
{
tokens.PopExpected(",");
}
baseArgs.Add(this.parser.ExpressionParser.Parse(tokens, owner));
}
}
IList <Executable> code = Parser.ParseBlock(parser, tokens, true, owner);
return(new ConstructorDefinition(constructorToken, argNames, argValues, baseArgs, code, baseToken, owner));
}
private Namespace ParseNamespace(TokenStream tokens, TopLevelConstruct owner, FileScope fileScope)
{
Token namespaceToken = tokens.PopExpected(this.parser.Keywords.NAMESPACE);
Token first = tokens.Pop();
this.parser.VerifyIdentifier(first);
List <Token> namespacePieces = new List <Token>()
{
first
};
string namespaceBuilder = first.Value;
parser.RegisterNamespace(namespaceBuilder);
while (tokens.PopIfPresent("."))
{
Token nsToken = tokens.Pop();
this.parser.VerifyIdentifier(nsToken);
namespacePieces.Add(nsToken);
namespaceBuilder += "." + nsToken.Value;
parser.RegisterNamespace(namespaceBuilder);
}
string name = string.Join(".", namespacePieces.Select <Token, string>(t => t.Value));
parser.PushNamespacePrefix(name);
Namespace namespaceInstance = new Namespace(namespaceToken, name, owner, parser.CurrentLibrary, fileScope);
tokens.PopExpected("{");
List <TopLevelConstruct> namespaceMembers = new List <TopLevelConstruct>();
while (!tokens.PopIfPresent("}"))
{
TopLevelConstruct executable = this.parser.ExecutableParser.ParseTopLevel(tokens, namespaceInstance, fileScope);
if (executable is FunctionDefinition ||
executable is ClassDefinition ||
executable is EnumDefinition ||
executable is ConstStatement ||
executable is Namespace)
{
namespaceMembers.Add(executable);
}
else
{
throw new ParserException(executable.FirstToken, "Only function, class, and nested namespace declarations may exist as direct members of a namespace.");
}
}
namespaceInstance.Code = namespaceMembers.ToArray();
parser.PopNamespacePrefix();
return(namespaceInstance);
}
private static Executable ParseNamespace(Parser parser, TokenStream tokens, Executable owner)
{
Token namespaceToken = tokens.PopExpected("namespace");
Token first = tokens.Pop();
Parser.VerifyIdentifier(first);
List <Token> namespacePieces = new List <Token>()
{
first
};
while (tokens.PopIfPresent("."))
{
Token nsToken = tokens.Pop();
Parser.VerifyIdentifier(nsToken);
namespacePieces.Add(nsToken);
}
string name = string.Join(".", namespacePieces.Select <Token, string>(t => t.Value));
parser.PushNamespacePrefix(name);
Namespace namespaceInstance = new Namespace(namespaceToken, name, owner);
tokens.PopExpected("{");
List <Executable> namespaceMembers = new List <Executable>();
while (!tokens.PopIfPresent("}"))
{
Executable executable = ExecutableParser.Parse(parser, tokens, false, false, true, namespaceInstance);
if (executable is FunctionDefinition ||
executable is ClassDefinition ||
executable is EnumDefinition ||
executable is ConstStatement ||
executable is Namespace)
{
namespaceMembers.Add(executable);
}
else
{
throw new ParserException(executable.FirstToken, "Only function, class, and nested namespace declarations may exist as direct members of a namespace.");
}
}
namespaceInstance.Code = namespaceMembers.ToArray();
parser.PopNamespacePrefix();
return(namespaceInstance);
}
private static FieldDeclaration ParseField(TokenStream tokens, ClassDefinition owner)
{
bool isStatic = tokens.PopIfPresent("static");
Token fieldToken = tokens.PopExpected("field");
Token nameToken = tokens.Pop();
Parser.VerifyIdentifier(nameToken);
FieldDeclaration fd = new FieldDeclaration(fieldToken, nameToken, owner, isStatic);
if (tokens.PopIfPresent("="))
{
fd.DefaultValue = ExpressionParser.Parse(tokens, owner);
}
tokens.PopExpected(";");
return(fd);
}
private FieldDeclaration ParseField(TokenStream tokens, ClassDefinition owner)
{
bool isStatic = tokens.PopIfPresent(this.parser.Keywords.STATIC);
Token fieldToken = tokens.PopExpected(this.parser.Keywords.FIELD);
Token nameToken = tokens.Pop();
this.parser.VerifyIdentifier(nameToken);
FieldDeclaration fd = new FieldDeclaration(fieldToken, nameToken, owner, isStatic);
if (tokens.PopIfPresent("="))
{
fd.DefaultValue = this.parser.ExpressionParser.Parse(tokens, owner);
}
tokens.PopExpected(";");
return(fd);
}
private static Expression ParseNullCoalescing(TokenStream tokens, Executable owner)
{
Expression root = ParseBooleanCombination(tokens, owner);
if (tokens.PopIfPresent("??"))
{
Expression secondaryExpression = ParseNullCoalescing(tokens, owner);
return new NullCoalescer(root, secondaryExpression, owner);
}
return root;
}
private void Initialize(Token annotationToken, TokenStream proxyTokenStream)
{
this.Token = annotationToken;
Token token = proxyTokenStream.Pop();
if (!Parser.IsValidIdentifier(token.Value))
{
throw new ParserException(annotationToken, "Invalid type");
}
this.Name = token.Value;
while (proxyTokenStream.PopIfPresent("."))
{
this.Name += ".";
this.Name += proxyTokenStream.PopValue();
}
List <AnnotatedType> generics = new List <AnnotatedType>();
if (proxyTokenStream.PopIfPresent("<"))
{
while (proxyTokenStream.HasMore && !proxyTokenStream.IsNext(">"))
{
if (generics.Count > 0 && !proxyTokenStream.PopIfPresent(","))
{
throw new ParserException(annotationToken, "Expected comma in generic list");
}
AnnotatedType genericItem = new AnnotatedType(annotationToken, proxyTokenStream);
generics.Add(genericItem);
}
if (!proxyTokenStream.PopIfPresent(">"))
{
throw new ParserException(annotationToken, "Unclosed generic bracket.");
}
}
this.Generics = generics.ToArray();
}
private static Expression ParseNullCoalescing(TokenStream tokens, Executable owner)
{
Expression root = ParseBooleanCombination(tokens, owner);
if (tokens.PopIfPresent("??"))
{
Expression secondaryExpression = ParseNullCoalescing(tokens, owner);
return(new NullCoalescer(root, secondaryExpression, owner));
}
return(root);
}
public static Annotation ParseAnnotation(TokenStream tokens)
{
Token annotationToken = tokens.PopExpected("@");
Token typeToken = tokens.Pop();
Parser.VerifyIdentifier(typeToken);
List<Expression> args = new List<Expression>();
if (tokens.PopIfPresent("("))
{
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(ExpressionParser.Parse(tokens, null));
}
}
return new Annotation(annotationToken, typeToken, args);
}
private static Executable ParseReturn(TokenStream tokens, Executable owner)
{
Token returnToken = tokens.PopExpected("return");
Expression expr = null;
if (!tokens.PopIfPresent(";"))
{
expr = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(";");
}
return(new ReturnStatement(returnToken, expr, owner));
}
public string PopClassNameWithFirstTokenAlreadyPopped(TokenStream tokens, Token firstToken)
{
this.VerifyIdentifier(firstToken);
string name = firstToken.Value;
while (tokens.PopIfPresent("."))
{
Token nameNext = tokens.Pop();
this.VerifyIdentifier(nameNext);
name += "." + nameNext.Value;
}
return(name);
}
public static Annotation ParseAnnotation(TokenStream tokens)
{
Token annotationToken = tokens.PopExpected("@");
Token typeToken = tokens.Pop();
Parser.VerifyIdentifier(typeToken);
List <Expression> args = new List <Expression>();
if (tokens.PopIfPresent("("))
{
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(ExpressionParser.Parse(tokens, null));
}
}
return(new Annotation(annotationToken, typeToken, args));
}
private Executable ParseReturn(TokenStream tokens, TopLevelConstruct owner)
{
Token returnToken = tokens.PopExpected(this.parser.Keywords.RETURN);
Expression expr = null;
if (!tokens.PopIfPresent(";"))
{
expr = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(";");
}
return(new ReturnStatement(returnToken, expr, owner));
}
private static string PopClassName(TokenStream tokens, Token firstToken)
{
Parser.VerifyIdentifier(firstToken);
string name = firstToken.Value;
while (tokens.PopIfPresent("."))
{
Token nameNext = tokens.Pop();
Parser.VerifyIdentifier(nameNext);
name += "." + nameNext.Value;
}
return(name);
}
private static Expression ParseTernary(TokenStream tokens, Executable owner)
{
Expression root = ParseNullCoalescing(tokens, owner);
if (tokens.PopIfPresent("?"))
{
Expression trueExpr = ParseTernary(tokens, owner);
tokens.PopExpected(":");
Expression falseExpr = ParseTernary(tokens, owner);
return new Ternary(root, trueExpr, falseExpr, owner);
}
return root;
}
private static Expression ParseTernary(TokenStream tokens, Executable owner)
{
Expression root = ParseNullCoalescing(tokens, owner);
if (tokens.PopIfPresent("?"))
{
Expression trueExpr = ParseTernary(tokens, owner);
tokens.PopExpected(":");
Expression falseExpr = ParseTernary(tokens, owner);
return(new Ternary(root, trueExpr, falseExpr, owner));
}
return(root);
}
private void Initialize(Token annotationToken, TokenStream proxyTokenStream)
{
this.Token = annotationToken;
Token token = proxyTokenStream.Pop();
if (!Parser.IsValidIdentifier(token.Value)) throw new ParserException(annotationToken, "Invalid type");
this.Name = token.Value;
while (proxyTokenStream.PopIfPresent("."))
{
this.Name += ".";
this.Name += proxyTokenStream.PopValue();
}
List<AnnotatedType> generics = new List<AnnotatedType>();
if (proxyTokenStream.PopIfPresent("<"))
{
while (proxyTokenStream.HasMore && !proxyTokenStream.IsNext(">"))
{
if (generics.Count > 0 && !proxyTokenStream.PopIfPresent(","))
{
throw new ParserException(annotationToken, "Expected comma in generic list");
}
AnnotatedType genericItem = new AnnotatedType(annotationToken, proxyTokenStream);
generics.Add(genericItem);
}
if (!proxyTokenStream.PopIfPresent(">"))
{
throw new ParserException(annotationToken, "Unclosed generic bracket.");
}
}
this.Generics = generics.ToArray();
}
private EnumDefinition ParseEnumDefinition(TokenStream tokens, TopLevelConstruct owner, FileScope fileScope)
{
Token enumToken = tokens.PopExpected(this.parser.Keywords.ENUM);
Token nameToken = tokens.Pop();
this.parser.VerifyIdentifier(nameToken);
string name = nameToken.Value;
EnumDefinition ed = new EnumDefinition(enumToken, nameToken, parser.CurrentNamespace, owner, parser.CurrentLibrary, fileScope);
tokens.PopExpected("{");
bool nextForbidden = false;
List <Token> items = new List <Token>();
List <Expression> values = new List <Expression>();
while (!tokens.PopIfPresent("}"))
{
if (nextForbidden)
{
tokens.PopExpected("}"); // crash
}
Token enumItem = tokens.Pop();
this.parser.VerifyIdentifier(enumItem);
if (tokens.PopIfPresent("="))
{
values.Add(this.parser.ExpressionParser.Parse(tokens, ed));
}
else
{
values.Add(null);
}
nextForbidden = !tokens.PopIfPresent(",");
items.Add(enumItem);
}
ed.SetItems(items, values);
return(ed);
}
private Expression ParseInstantiate(TokenStream tokens, Executable owner)
{
Token newToken = tokens.PopExpected(this.parser.Keywords.NEW);
Token classNameToken = tokens.Pop();
string name = this.parser.PopClassNameWithFirstTokenAlreadyPopped(tokens, classNameToken);
List <Expression> args = new List <Expression>();
tokens.PopExpected("(");
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(Parse(tokens, owner));
}
return(new Instantiate(newToken, classNameToken, name, args, owner));
}
private static Expression ParseInstantiate(TokenStream tokens, Executable owner)
{
Token newToken = tokens.PopExpected("new");
Token classNameToken = tokens.Pop();
string name = PopClassName(tokens, classNameToken);
List <Expression> args = new List <Expression>();
tokens.PopExpected("(");
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(Parse(tokens, owner));
}
return(new Instantiate(newToken, classNameToken, name, args, owner));
}
private Executable ParseIf(TokenStream tokens, TopLevelConstruct owner)
{
Token ifToken = tokens.PopExpected(this.parser.Keywords.IF);
tokens.PopExpected("(");
Expression condition = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
IList <Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
IList <Executable> elseBody;
if (tokens.PopIfPresent(this.parser.Keywords.ELSE))
{
elseBody = Parser.ParseBlock(parser, tokens, false, owner);
}
else
{
elseBody = new Executable[0];
}
return(new IfStatement(ifToken, condition, body, elseBody, owner));
}
private static Executable ParseIf(Parser parser, TokenStream tokens, Executable owner)
{
Token ifToken = tokens.PopExpected("if");
tokens.PopExpected("(");
Expression condition = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
IList <Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
IList <Executable> elseBody;
if (tokens.PopIfPresent("else"))
{
elseBody = Parser.ParseBlock(parser, tokens, false, owner);
}
else
{
elseBody = new Executable[0];
}
return(new IfStatement(ifToken, condition, body, elseBody, owner));
}
private static Executable ParseTry(Parser parser, TokenStream tokens, Executable owner)
{
Token tryToken = tokens.PopExpected("try");
IList <Executable> tryBlock = Parser.ParseBlock(parser, tokens, true, owner);
Token catchToken = null;
IList <Executable> catchBlock = null;
Token exceptionToken = null;
Token finallyToken = null;
IList <Executable> finallyBlock = null;
if (tokens.IsNext("catch"))
{
catchToken = tokens.Pop();
if (tokens.PopIfPresent("("))
{
exceptionToken = tokens.Pop();
char firstChar = exceptionToken.Value[0];
if (firstChar != '_' &&
!(firstChar >= 'a' && firstChar <= 'z') &&
!(firstChar >= 'A' && firstChar <= 'Z'))
{
throw new ParserException(exceptionToken, "Invalid name for variable.");
}
tokens.PopExpected(")");
}
catchBlock = Parser.ParseBlock(parser, tokens, true, owner);
}
if (tokens.IsNext("finally"))
{
finallyToken = tokens.Pop();
finallyBlock = Parser.ParseBlock(parser, tokens, true, owner);
}
return(new TryStatement(tryToken, tryBlock, catchToken, exceptionToken, catchBlock, finallyToken, finallyBlock, owner));
}
private static Expression ParseEntityWithoutSuffixChain(TokenStream tokens, Executable owner)
{
string next = tokens.PeekValue();
if (next == "null")
{
return(new NullConstant(tokens.Pop(), owner));
}
if (next == "true")
{
return(new BooleanConstant(tokens.Pop(), true, owner));
}
if (next == "false")
{
return(new BooleanConstant(tokens.Pop(), false, owner));
}
Token peekToken = tokens.Peek();
if (next.StartsWith("'"))
{
return(new StringConstant(tokens.Pop(), StringConstant.ParseOutRawValue(peekToken), owner));
}
if (next.StartsWith("\""))
{
return(new StringConstant(tokens.Pop(), StringConstant.ParseOutRawValue(peekToken), owner));
}
if (next == "new")
{
return(ParseInstantiate(tokens, owner));
}
char firstChar = next[0];
if (VARIABLE_STARTER.Contains(firstChar))
{
Token varToken = tokens.Pop();
return(new Variable(varToken, varToken.Value, owner));
}
if (firstChar == '[')
{
Token bracketToken = tokens.PopExpected("[");
List <Expression> elements = new List <Expression>();
bool previousHasCommaOrFirst = true;
while (!tokens.PopIfPresent("]"))
{
if (!previousHasCommaOrFirst)
{
tokens.PopExpected("]"); // throws appropriate error
}
elements.Add(Parse(tokens, owner));
previousHasCommaOrFirst = tokens.PopIfPresent(",");
}
return(new ListDefinition(bracketToken, elements, owner));
}
if (firstChar == '{')
{
Token braceToken = tokens.PopExpected("{");
List <Expression> keys = new List <Expression>();
List <Expression> values = new List <Expression>();
bool previousHasCommaOrFirst = true;
while (!tokens.PopIfPresent("}"))
{
if (!previousHasCommaOrFirst)
{
tokens.PopExpected("}"); // throws appropriate error
}
keys.Add(Parse(tokens, owner));
tokens.PopExpected(":");
values.Add(Parse(tokens, owner));
previousHasCommaOrFirst = tokens.PopIfPresent(",");
}
return(new DictionaryDefinition(braceToken, keys, values, owner));
}
if (next.Length > 2 && next.Substring(0, 2) == "0x")
{
Token intToken = tokens.Pop();
int intValue = IntegerConstant.ParseIntConstant(intToken, intToken.Value);
return(new IntegerConstant(intToken, intValue, owner));
}
if (Parser.IsInteger(next))
{
Token numberToken = tokens.Pop();
string numberValue = numberToken.Value;
if (tokens.IsNext("."))
{
Token decimalToken = tokens.Pop();
if (decimalToken.HasWhitespacePrefix)
{
throw new ParserException(decimalToken, "Decimals cannot have whitespace before them.");
}
Token afterDecimal = tokens.Pop();
if (afterDecimal.HasWhitespacePrefix)
{
throw new ParserException(afterDecimal, "Cannot have whitespace after the decimal.");
}
if (!Parser.IsInteger(afterDecimal.Value))
{
throw new ParserException(afterDecimal, "Decimal must be followed by an integer.");
}
numberValue += "." + afterDecimal.Value;
double floatValue = FloatConstant.ParseValue(numberToken, numberValue);
return(new FloatConstant(numberToken, floatValue, owner));
}
int intValue = IntegerConstant.ParseIntConstant(numberToken, numberToken.Value);
return(new IntegerConstant(numberToken, intValue, owner));
}
if (tokens.IsNext("."))
{
Token dotToken = tokens.PopExpected(".");
string numberValue = "0.";
Token postDecimal = tokens.Pop();
if (postDecimal.HasWhitespacePrefix || !Parser.IsInteger(postDecimal.Value))
{
throw new ParserException(dotToken, "Unexpected dot.");
}
numberValue += postDecimal.Value;
double floatValue;
if (double.TryParse(numberValue, out floatValue))
{
return(new FloatConstant(dotToken, floatValue, owner));
}
throw new ParserException(dotToken, "Invalid float literal.");
}
throw new ParserException(tokens.Peek(), "Encountered unexpected token: '" + tokens.PeekValue() + "'");
}
private static Executable ParseEnumDefinition(Parser parser, TokenStream tokens, Executable owner)
{
Token enumToken = tokens.PopExpected("enum");
Token nameToken = tokens.Pop();
Parser.VerifyIdentifier(nameToken);
string name = nameToken.Value;
tokens.PopExpected("{");
bool nextForbidden = false;
List<Token> items = new List<Token>();
List<Expression> values = new List<Expression>();
while (!tokens.PopIfPresent("}"))
{
if (nextForbidden) tokens.PopExpected("}"); // crash
Token enumItem = tokens.Pop();
Parser.VerifyIdentifier(enumItem);
if (tokens.PopIfPresent("="))
{
values.Add(ExpressionParser.Parse(tokens, owner));
}
else
{
values.Add(null);
}
nextForbidden = !tokens.PopIfPresent(",");
items.Add(enumItem);
}
return new EnumDefinition(enumToken, nameToken, parser.CurrentNamespace, items, values, owner);
}
private static Executable ParseClassDefinition(Parser parser, TokenStream tokens, Executable owner)
{
Token classToken = tokens.PopExpected("class");
Token classNameToken = tokens.Pop();
Parser.VerifyIdentifier(classNameToken);
List<Token> baseClassTokens = new List<Token>();
List<string> baseClassStrings = new List<string>();
if (tokens.PopIfPresent(":"))
{
if (baseClassTokens.Count > 0)
{
tokens.PopExpected(",");
}
Token baseClassToken = tokens.Pop();
string baseClassName = baseClassToken.Value;
Parser.VerifyIdentifier(baseClassToken);
while (tokens.PopIfPresent("."))
{
Token baseClassTokenNext = tokens.Pop();
Parser.VerifyIdentifier(baseClassTokenNext);
baseClassName += "." + baseClassTokenNext.Value;
}
baseClassTokens.Add(baseClassToken);
baseClassStrings.Add(baseClassName);
}
ClassDefinition cd = new ClassDefinition(
classToken,
classNameToken,
baseClassTokens,
baseClassStrings,
parser.CurrentNamespace,
owner);
tokens.PopExpected("{");
List<FunctionDefinition> methods = new List<FunctionDefinition>();
List<FieldDeclaration> fields = new List<FieldDeclaration>();
ConstructorDefinition constructorDef = null;
ConstructorDefinition staticConstructorDef = null;
while (!tokens.PopIfPresent("}"))
{
if (tokens.IsNext("function") || tokens.AreNext("static", "function"))
{
methods.Add((FunctionDefinition)ExecutableParser.ParseFunction(parser, tokens, cd));
}
else if (tokens.IsNext("constructor"))
{
if (constructorDef != null)
{
throw new ParserException(tokens.Pop(), "Multiple constructors are not allowed. Use optional arguments.");
}
constructorDef = (ConstructorDefinition)ExecutableParser.ParseConstructor(parser, tokens, cd);
}
else if (tokens.AreNext("static", "constructor"))
{
tokens.Pop(); // static token
if (staticConstructorDef != null)
{
throw new ParserException(tokens.Pop(), "Multiple static constructors are not allowed.");
}
staticConstructorDef = (ConstructorDefinition)ExecutableParser.ParseConstructor(parser, tokens, cd);
}
else if (tokens.IsNext("field") || tokens.AreNext("static", "field"))
{
fields.Add(ExecutableParser.ParseField(tokens, cd));
}
else
{
tokens.PopExpected("}");
}
}
cd.Methods = methods.ToArray();
cd.Constructor = constructorDef;
cd.StaticConstructor = staticConstructorDef;
cd.Fields = fields.ToArray();
return cd;
}
private static Expression ParseEntityWithoutSuffixChain(TokenStream tokens, Executable owner)
{
string next = tokens.PeekValue();
if (next == "null") return new NullConstant(tokens.Pop(), owner);
if (next == "true") return new BooleanConstant(tokens.Pop(), true, owner);
if (next == "false") return new BooleanConstant(tokens.Pop(), false, owner);
Token peekToken = tokens.Peek();
if (next.StartsWith("'")) return new StringConstant(tokens.Pop(), StringConstant.ParseOutRawValue(peekToken), owner);
if (next.StartsWith("\"")) return new StringConstant(tokens.Pop(), StringConstant.ParseOutRawValue(peekToken), owner);
if (next == "new") return ParseInstantiate(tokens, owner);
char firstChar = next[0];
if (VARIABLE_STARTER.Contains(firstChar))
{
Token varToken = tokens.Pop();
return new Variable(varToken, varToken.Value, owner);
}
if (firstChar == '[')
{
Token bracketToken = tokens.PopExpected("[");
List<Expression> elements = new List<Expression>();
bool previousHasCommaOrFirst = true;
while (!tokens.PopIfPresent("]"))
{
if (!previousHasCommaOrFirst) tokens.PopExpected("]"); // throws appropriate error
elements.Add(Parse(tokens, owner));
previousHasCommaOrFirst = tokens.PopIfPresent(",");
}
return new ListDefinition(bracketToken, elements, owner);
}
if (firstChar == '{')
{
Token braceToken = tokens.PopExpected("{");
List<Expression> keys = new List<Expression>();
List<Expression> values = new List<Expression>();
bool previousHasCommaOrFirst = true;
while (!tokens.PopIfPresent("}"))
{
if (!previousHasCommaOrFirst) tokens.PopExpected("}"); // throws appropriate error
keys.Add(Parse(tokens, owner));
tokens.PopExpected(":");
values.Add(Parse(tokens, owner));
previousHasCommaOrFirst = tokens.PopIfPresent(",");
}
return new DictionaryDefinition(braceToken, keys, values, owner);
}
if (next.Length > 2 && next.Substring(0, 2) == "0x")
{
Token intToken = tokens.Pop();
int intValue = IntegerConstant.ParseIntConstant(intToken, intToken.Value);
return new IntegerConstant(intToken, intValue, owner);
}
if (Parser.IsInteger(next))
{
Token numberToken = tokens.Pop();
string numberValue = numberToken.Value;
if (tokens.IsNext("."))
{
Token decimalToken = tokens.Pop();
if (decimalToken.HasWhitespacePrefix)
{
throw new ParserException(decimalToken, "Decimals cannot have whitespace before them.");
}
Token afterDecimal = tokens.Pop();
if (afterDecimal.HasWhitespacePrefix) throw new ParserException(afterDecimal, "Cannot have whitespace after the decimal.");
if (!Parser.IsInteger(afterDecimal.Value)) throw new ParserException(afterDecimal, "Decimal must be followed by an integer.");
numberValue += "." + afterDecimal.Value;
double floatValue = FloatConstant.ParseValue(numberToken, numberValue);
return new FloatConstant(numberToken, floatValue, owner);
}
int intValue = IntegerConstant.ParseIntConstant(numberToken, numberToken.Value);
return new IntegerConstant(numberToken, intValue, owner);
}
if (tokens.IsNext("."))
{
Token dotToken = tokens.PopExpected(".");
string numberValue = "0.";
Token postDecimal = tokens.Pop();
if (postDecimal.HasWhitespacePrefix || !Parser.IsInteger(postDecimal.Value))
{
throw new ParserException(dotToken, "Unexpected dot.");
}
numberValue += postDecimal.Value;
double floatValue;
if (double.TryParse(numberValue, out floatValue))
{
return new FloatConstant(dotToken, floatValue, owner);
}
throw new ParserException(dotToken, "Invalid float literal.");
}
throw new ParserException(tokens.Peek(), "Encountered unexpected token: '" + tokens.PeekValue() + "'");
}
private ClassDefinition ParseClassDefinition(TokenStream tokens, TopLevelConstruct owner, Token staticToken, Token finalToken, FileScope fileScope)
{
Token classToken = tokens.PopExpected(this.parser.Keywords.CLASS);
Token classNameToken = tokens.Pop();
this.parser.VerifyIdentifier(classNameToken);
List <Token> baseClassTokens = new List <Token>();
List <string> baseClassStrings = new List <string>();
if (tokens.PopIfPresent(":"))
{
if (baseClassTokens.Count > 0)
{
tokens.PopExpected(",");
}
Token baseClassToken = tokens.Pop();
string baseClassName = baseClassToken.Value;
this.parser.VerifyIdentifier(baseClassToken);
while (tokens.PopIfPresent("."))
{
Token baseClassTokenNext = tokens.Pop();
this.parser.VerifyIdentifier(baseClassTokenNext);
baseClassName += "." + baseClassTokenNext.Value;
}
baseClassTokens.Add(baseClassToken);
baseClassStrings.Add(baseClassName);
}
ClassDefinition cd = new ClassDefinition(
classToken,
classNameToken,
baseClassTokens,
baseClassStrings,
parser.CurrentNamespace,
owner,
parser.CurrentLibrary,
staticToken,
finalToken,
fileScope);
tokens.PopExpected("{");
List <FunctionDefinition> methods = new List <FunctionDefinition>();
List <FieldDeclaration> fields = new List <FieldDeclaration>();
ConstructorDefinition constructorDef = null;
ConstructorDefinition staticConstructorDef = null;
while (!tokens.PopIfPresent("}"))
{
Dictionary <string, List <Annotation> > annotations = null;
while (tokens.IsNext("@"))
{
annotations = annotations ?? new Dictionary <string, List <Annotation> >();
Annotation annotation = this.parser.AnnotationParser.ParseAnnotation(tokens);
if (!annotations.ContainsKey(annotation.Type))
{
annotations[annotation.Type] = new List <Annotation>();
}
annotations[annotation.Type].Add(annotation);
}
if (tokens.IsNext(this.parser.Keywords.FUNCTION) ||
tokens.AreNext(this.parser.Keywords.STATIC, this.parser.Keywords.FUNCTION))
{
methods.Add((FunctionDefinition)this.parser.ExecutableParser.ParseFunction(tokens, cd, fileScope));
}
else if (tokens.IsNext(this.parser.Keywords.CONSTRUCTOR))
{
if (constructorDef != null)
{
throw new ParserException(tokens.Pop(), "Multiple constructors are not allowed. Use optional arguments.");
}
constructorDef = (ConstructorDefinition)this.parser.ExecutableParser.ParseConstructor(tokens, cd);
if (annotations != null && annotations.ContainsKey(this.parser.Keywords.PRIVATE))
{
constructorDef.PrivateAnnotation = annotations[this.parser.Keywords.PRIVATE][0];
annotations[this.parser.Keywords.PRIVATE].RemoveAt(0);
}
}
else if (tokens.AreNext(this.parser.Keywords.STATIC, this.parser.Keywords.CONSTRUCTOR))
{
tokens.Pop(); // static token
if (staticConstructorDef != null)
{
throw new ParserException(tokens.Pop(), "Multiple static constructors are not allowed.");
}
staticConstructorDef = (ConstructorDefinition)this.parser.ExecutableParser.ParseConstructor(tokens, cd);
}
else if (tokens.IsNext(this.parser.Keywords.FIELD) ||
tokens.AreNext(this.parser.Keywords.STATIC, this.parser.Keywords.FIELD))
{
fields.Add(this.parser.ExecutableParser.ParseField(tokens, cd));
}
else
{
tokens.PopExpected("}");
}
if (annotations != null)
{
foreach (List <Annotation> annotationsOfType in annotations.Values)
{
if (annotationsOfType.Count > 0)
{
throw new ParserException(annotationsOfType[0].FirstToken, "Unused or extra annotation.");
}
}
}
}
cd.Methods = methods.ToArray();
cd.Constructor = constructorDef;
cd.StaticConstructor = staticConstructorDef;
cd.Fields = fields.ToArray();
return(cd);
}
public static Executable Parse(Parser parser, TokenStream tokens, bool simpleOnly, bool semicolonPresent, bool isRoot, Executable owner)
{
string value = tokens.PeekValue();
if (!simpleOnly)
{
if (parser.IsTranslateMode && value == "struct")
{
if (!isRoot)
{
throw new ParserException(tokens.Peek(), "structs cannot be nested into any other construct.");
}
// struct is special. If you are not compiling in JS mode,
if (Parser.IsValidIdentifier(tokens.PeekValue(1)) && tokens.PeekValue(2) == "{")
{
return ParseStruct(tokens, owner);
}
}
if (!isRoot && (value == "function" || value == "class"))
{
throw new ParserException(tokens.Peek(), (value == "function" ? "Function" : "Class") + " definition cannot be nested in another construct.");
}
if (value == "import")
{
Token importToken = tokens.PopExpected("import");
bool inline = parser.IsTranslateMode && tokens.PopIfPresent("inline");
if (inline)
{
Token fileToken = tokens.Pop();
char c = fileToken.Value[0];
if (c != '\'' && c != '"') throw new ParserException(fileToken, "Inline imports are supposed to be strings.");
tokens.PopExpected(";");
string inlineImportFileName = fileToken.Value.Substring(1, fileToken.Value.Length - 2);
string inlineImportFileContents = Util.ReadFileInternally(inlineImportFileName);
// TODO: Anti-pattern alert. Clean this up.
if (inlineImportFileContents.Contains("%%%"))
{
Dictionary<string, string> replacements = parser.NullablePlatform.InterpreterCompiler.BuildReplacementsDictionary();
inlineImportFileContents = Constants.DoReplacements(inlineImportFileContents, replacements);
}
TokenStream inlineTokens = Tokenizer.Tokenize(inlineImportFileName, inlineImportFileContents, 0, true);
// OMGHAX - insert the inline import into the current token stream.
tokens.InsertTokens(inlineTokens);
return ExecutableParser.Parse(parser, tokens, simpleOnly, semicolonPresent, isRoot, owner); // start exectuable parser anew.
}
if (!isRoot)
{
throw new ParserException(tokens.Peek(), "Imports can only be made from the root of a file and cannot be nested inside other constructs.");
}
List<string> importPathBuilder = new List<string>();
while (!tokens.PopIfPresent(";"))
{
if (importPathBuilder.Count > 0)
{
tokens.PopExpected(".");
}
Token pathToken = tokens.Pop();
Parser.VerifyIdentifier(pathToken);
importPathBuilder.Add(pathToken.Value);
}
string importPath = string.Join(".", importPathBuilder);
return new ImportStatement(importToken, importPath);
}
if (value == "enum")
{
if (!isRoot)
{
throw new ParserException(tokens.Peek(), "Enums can only be defined from the root of a file and cannot be nested inside functions/loops/etc.");
}
return ParseEnumDefinition(parser, tokens, owner);
}
if (value == "namespace")
{
if (!isRoot)
{
throw new ParserException(tokens.Peek(), "Namespace declarations cannot be nested in other constructs.");
}
}
switch (value)
{
case "namespace": return ParseNamespace(parser, tokens, owner);
case "function": return ParseFunction(parser, tokens, owner);
case "class": return ParseClassDefinition(parser, tokens, owner);
case "enum": return ParseEnumDefinition(parser, tokens, owner);
case "for": return ParseFor(parser, tokens, owner);
case "while": return ParseWhile(parser, tokens, owner);
case "do": return ParseDoWhile(parser, tokens, owner);
case "switch": return ParseSwitch(parser, tokens, owner);
case "if": return ParseIf(parser, tokens, owner);
case "try": return ParseTry(parser, tokens, owner);
case "return": return ParseReturn(tokens, owner);
case "break": return ParseBreak(tokens, owner);
case "continue": return ParseContinue(tokens, owner);
case "const": return ParseConst(parser, tokens, owner);
case "constructor": return ParseConstructor(parser, tokens, owner);
default: break;
}
}
Expression expr = ExpressionParser.Parse(tokens, owner);
value = tokens.PeekValue();
if (ASSIGNMENT_OPS.Contains(value))
{
Token assignment = tokens.Pop();
Expression assignmentValue = ExpressionParser.Parse(tokens, owner);
if (semicolonPresent) tokens.PopExpected(";");
return new Assignment(expr, assignment, assignment.Value, assignmentValue, owner);
}
if (semicolonPresent)
{
tokens.PopExpected(";");
}
return new ExpressionAsExecutable(expr, owner);
}
public TopLevelConstruct ParseTopLevel(
TokenStream tokens,
TopLevelConstruct owner,
FileScope fileScope)
{
string value = tokens.PeekValue();
Token staticToken = null;
Token finalToken = null;
while (value == this.parser.Keywords.STATIC || value == this.parser.Keywords.FINAL)
{
if (value == this.parser.Keywords.STATIC && staticToken == null)
{
staticToken = tokens.Pop();
value = tokens.PeekValue();
}
if (value == this.parser.Keywords.FINAL && finalToken == null)
{
finalToken = tokens.Pop();
value = tokens.PeekValue();
}
}
if (staticToken != null || finalToken != null)
{
if (value != this.parser.Keywords.CLASS)
{
if (staticToken != null)
{
throw new ParserException(staticToken, "Only classes, methods, and fields may be marked as static");
}
else
{
throw new ParserException(finalToken, "Only classes may be marked as final.");
}
}
if (staticToken != null && finalToken != null)
{
throw new ParserException(staticToken, "Classes cannot be both static and final.");
}
}
if (value == parser.Keywords.IMPORT)
{
Token importToken = tokens.PopExpected(parser.Keywords.IMPORT);
List <string> importPathBuilder = new List <string>();
while (!tokens.PopIfPresent(";"))
{
if (importPathBuilder.Count > 0)
{
tokens.PopExpected(".");
}
Token pathToken = tokens.Pop();
parser.VerifyIdentifier(pathToken);
importPathBuilder.Add(pathToken.Value);
}
string importPath = string.Join(".", importPathBuilder);
return(new ImportStatement(importToken, importPath, parser.CurrentLibrary, fileScope));
}
if (value == this.parser.Keywords.ENUM)
{
return(this.ParseEnumDefinition(tokens, owner, fileScope));
}
if (value == this.parser.Keywords.NAMESPACE)
{
return(this.ParseNamespace(tokens, owner, fileScope));
}
if (value == this.parser.Keywords.CONST)
{
return(this.ParseConst(tokens, owner, fileScope));
}
if (value == this.parser.Keywords.FUNCTION)
{
return(this.ParseFunction(tokens, owner, fileScope));
}
if (value == this.parser.Keywords.CLASS)
{
return(this.ParseClassDefinition(tokens, owner, staticToken, finalToken, fileScope));
}
if (value == this.parser.Keywords.ENUM)
{
return(this.ParseEnumDefinition(tokens, owner, fileScope));
}
if (value == this.parser.Keywords.CONSTRUCTOR)
{
return(this.ParseConstructor(tokens, owner));
}
throw new ParserException(tokens.Peek(), "Unrecognized token.");
}
private static Executable ParseIf(Parser parser, TokenStream tokens, Executable owner)
{
Token ifToken = tokens.PopExpected("if");
tokens.PopExpected("(");
Expression condition = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
IList<Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
IList<Executable> elseBody;
if (tokens.PopIfPresent("else"))
{
elseBody = Parser.ParseBlock(parser, tokens, false, owner);
}
else
{
elseBody = new Executable[0];
}
return new IfStatement(ifToken, condition, body, elseBody, owner);
}
private static Executable ParseReturn(TokenStream tokens, Executable owner)
{
Token returnToken = tokens.PopExpected("return");
Expression expr = null;
if (!tokens.PopIfPresent(";"))
{
expr = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(";");
}
return new ReturnStatement(returnToken, expr, owner);
}
private static Executable ParseConstructor(Parser parser, TokenStream tokens, Executable owner)
{
Token constructorToken = tokens.PopExpected("constructor");
tokens.PopExpected("(");
List<Token> argNames = new List<Token>();
List<Expression> argValues = new List<Expression>();
bool optionalArgFound = false;
while (!tokens.PopIfPresent(")"))
{
if (argNames.Count > 0)
{
tokens.PopExpected(",");
}
Token argName = tokens.Pop();
Parser.VerifyIdentifier(argName);
Expression defaultValue = null;
if (tokens.PopIfPresent("="))
{
defaultValue = ExpressionParser.Parse(tokens, owner);
optionalArgFound = true;
}
else if (optionalArgFound)
{
throw new ParserException(argName, "All optional arguments must come at the end of the argument list.");
}
argNames.Add(argName);
argValues.Add(defaultValue);
}
List<Expression> baseArgs = new List<Expression>();
Token baseToken = null;
if (tokens.PopIfPresent(":"))
{
baseToken = tokens.PopExpected("base");
tokens.PopExpected("(");
while (!tokens.PopIfPresent(")"))
{
if (baseArgs.Count > 0)
{
tokens.PopExpected(",");
}
baseArgs.Add(ExpressionParser.Parse(tokens, owner));
}
}
IList<Executable> code = Parser.ParseBlock(parser, tokens, true, owner);
return new ConstructorDefinition(constructorToken, argNames, argValues, baseArgs, code, baseToken, owner);
}
private static FieldDeclaration ParseField(TokenStream tokens, ClassDefinition owner)
{
bool isStatic = tokens.PopIfPresent("static");
Token fieldToken = tokens.PopExpected("field");
Token nameToken = tokens.Pop();
Parser.VerifyIdentifier(nameToken);
FieldDeclaration fd = new FieldDeclaration(fieldToken, nameToken, owner, isStatic);
if (tokens.PopIfPresent("="))
{
fd.DefaultValue = ExpressionParser.Parse(tokens, owner);
}
tokens.PopExpected(";");
return fd;
}
private static Expression ParseEntity(TokenStream tokens, Executable owner)
{
Expression root;
if (tokens.PopIfPresent("("))
{
root = Parse(tokens, owner);
tokens.PopExpected(")");
}
else
{
root = ParseEntityWithoutSuffixChain(tokens, owner);
}
bool anySuffixes = true;
while (anySuffixes)
{
if (tokens.IsNext("."))
{
Token dotToken = tokens.Pop();
Token stepToken = tokens.Pop();
Parser.VerifyIdentifier(stepToken);
root = new DotStep(root, dotToken, stepToken, owner);
}
else if (tokens.IsNext("["))
{
Token openBracket = tokens.Pop();
List<Expression> sliceComponents = new List<Expression>();
if (tokens.IsNext(":"))
{
sliceComponents.Add(null);
}
else
{
sliceComponents.Add(Parse(tokens, owner));
}
for (int i = 0; i < 2; ++i)
{
if (tokens.PopIfPresent(":"))
{
if (tokens.IsNext(":") || tokens.IsNext("]"))
{
sliceComponents.Add(null);
}
else
{
sliceComponents.Add(Parse(tokens, owner));
}
}
}
tokens.PopExpected("]");
if (sliceComponents.Count == 1)
{
Expression index = sliceComponents[0];
root = new BracketIndex(root, openBracket, index, owner);
}
else
{
root = new ListSlice(root, sliceComponents, openBracket, owner);
}
}
else if (tokens.IsNext("("))
{
Token openParen = tokens.Pop();
List<Expression> args = new List<Expression>();
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(Parse(tokens, owner));
}
root = new FunctionCall(root, openParen, args, owner);
}
else
{
anySuffixes = false;
}
}
return root;
}
private FunctionDefinition ParseFunction(TokenStream tokens, TopLevelConstruct nullableOwner, FileScope fileScope)
{
bool isStatic =
nullableOwner != null &&
nullableOwner is ClassDefinition &&
tokens.PopIfPresent(this.parser.Keywords.STATIC);
Token functionToken = tokens.PopExpected(this.parser.Keywords.FUNCTION);
List <Annotation> functionAnnotations = new List <Annotation>();
while (tokens.IsNext("@"))
{
functionAnnotations.Add(this.parser.AnnotationParser.ParseAnnotation(tokens));
}
Token functionNameToken = tokens.Pop();
this.parser.VerifyIdentifier(functionNameToken);
FunctionDefinition fd = new FunctionDefinition(functionToken, parser.CurrentLibrary, nullableOwner, isStatic, functionNameToken, functionAnnotations, parser.CurrentNamespace, fileScope);
tokens.PopExpected("(");
List <Token> argNames = new List <Token>();
List <Expression> defaultValues = new List <Expression>();
List <Annotation> argAnnotations = new List <Annotation>();
bool optionalArgFound = false;
while (!tokens.PopIfPresent(")"))
{
if (argNames.Count > 0)
{
tokens.PopExpected(",");
}
Annotation annotation = tokens.IsNext("@") ? this.parser.AnnotationParser.ParseAnnotation(tokens) : null;
Token argName = tokens.Pop();
Expression defaultValue = null;
this.parser.VerifyIdentifier(argName);
if (tokens.PopIfPresent("="))
{
optionalArgFound = true;
defaultValue = this.parser.ExpressionParser.Parse(tokens, fd);
}
else if (optionalArgFound)
{
throw new ParserException(argName, "All optional arguments must come at the end of the argument list.");
}
argAnnotations.Add(annotation);
argNames.Add(argName);
defaultValues.Add(defaultValue);
}
IList <Executable> code = Parser.ParseBlock(parser, tokens, true, fd);
fd.ArgNames = argNames.ToArray();
fd.DefaultValues = defaultValues.ToArray();
fd.ArgAnnotations = argAnnotations.ToArray();
fd.Code = code.ToArray();
return(fd);
}
private static Executable ParseStruct(TokenStream tokens, Executable owner)
{
Token structToken = tokens.PopExpected("struct");
Token structNameToken = tokens.Pop();
Parser.VerifyIdentifier(structNameToken);
tokens.PopExpected("{");
List<Token> fieldTokens = new List<Token>();
List<Annotation> typeAnnotations = new List<Annotation>();
bool nextForbidden = false;
while (!tokens.PopIfPresent("}"))
{
if (nextForbidden) tokens.PopExpected("}"); // crash
Annotation annotation = tokens.IsNext("@") ? AnnotationParser.ParseAnnotation(tokens) : null;
Token fieldToken = tokens.Pop();
Parser.VerifyIdentifier(fieldToken);
nextForbidden = !tokens.PopIfPresent(",");
fieldTokens.Add(fieldToken);
typeAnnotations.Add(annotation);
}
return new StructDefinition(structToken, structNameToken, fieldTokens, typeAnnotations, owner);
}
private Executable ParseSwitch(TokenStream tokens, TopLevelConstruct owner)
{
Token switchToken = tokens.PopExpected(this.parser.Keywords.SWITCH);
Expression explicitMax = null;
Token explicitMaxToken = null;
if (tokens.IsNext("{"))
{
explicitMaxToken = tokens.Pop();
explicitMax = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected("}");
}
tokens.PopExpected("(");
Expression condition = this.parser.ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
tokens.PopExpected("{");
List <List <Expression> > cases = new List <List <Expression> >();
List <Token> firstTokens = new List <Token>();
List <List <Executable> > code = new List <List <Executable> >();
char state = '?'; // ? - first, O - code, A - case
bool defaultEncountered = false;
while (!tokens.PopIfPresent("}"))
{
if (tokens.IsNext(this.parser.Keywords.CASE))
{
if (defaultEncountered)
{
throw new ParserException(tokens.Peek(), "default condition in a switch statement must be the last condition.");
}
Token caseToken = tokens.PopExpected(this.parser.Keywords.CASE);
if (state != 'A')
{
cases.Add(new List <Expression>());
firstTokens.Add(caseToken);
code.Add(null);
state = 'A';
}
cases[cases.Count - 1].Add(this.parser.ExpressionParser.Parse(tokens, owner));
tokens.PopExpected(":");
}
else if (tokens.IsNext(this.parser.Keywords.DEFAULT))
{
Token defaultToken = tokens.PopExpected(this.parser.Keywords.DEFAULT);
if (state != 'A')
{
cases.Add(new List <Expression>());
firstTokens.Add(defaultToken);
code.Add(null);
state = 'A';
}
cases[cases.Count - 1].Add(null);
tokens.PopExpected(":");
defaultEncountered = true;
}
else
{
if (state != 'O')
{
cases.Add(null);
firstTokens.Add(null);
code.Add(new List <Executable>());
state = 'O';
}
code[code.Count - 1].Add(this.parser.ExecutableParser.Parse(tokens, false, true, owner));
}
}
return(new SwitchStatement(switchToken, condition, firstTokens, cases, code, explicitMax, explicitMaxToken, owner));
}
private static Executable ParseNamespace(Parser parser, TokenStream tokens, Executable owner)
{
Token namespaceToken = tokens.PopExpected("namespace");
Token first = tokens.Pop();
Parser.VerifyIdentifier(first);
List<Token> namespacePieces = new List<Token>() { first };
while (tokens.PopIfPresent("."))
{
Token nsToken = tokens.Pop();
Parser.VerifyIdentifier(nsToken);
namespacePieces.Add(nsToken);
}
string name = string.Join(".", namespacePieces.Select<Token, string>(t => t.Value));
parser.PushNamespacePrefix(name);
Namespace namespaceInstance = new Namespace(namespaceToken, name, owner);
tokens.PopExpected("{");
List<Executable> namespaceMembers = new List<Executable>();
while (!tokens.PopIfPresent("}"))
{
Executable executable = ExecutableParser.Parse(parser, tokens, false, false, true, namespaceInstance);
if (executable is FunctionDefinition ||
executable is ClassDefinition ||
executable is Namespace)
{
namespaceMembers.Add(executable);
}
else
{
throw new ParserException(executable.FirstToken, "Only function, class, and nested namespace declarations may exist as direct members of a namespace.");
}
}
namespaceInstance.Code = namespaceMembers.ToArray();
parser.PopNamespacePrefix();
return namespaceInstance;
}
private Executable ParseTry(TokenStream tokens, TopLevelConstruct owner)
{
Token tryToken = tokens.PopExpected(this.parser.Keywords.TRY);
IList <Executable> tryBlock = Parser.ParseBlock(parser, tokens, true, owner);
List <Token> catchTokens = new List <Token>();
List <string[]> exceptionTypes = new List <string[]>();
List <Token[]> exceptionTypeTokens = new List <Token[]>();
List <Token> exceptionVariables = new List <Token>();
List <Executable[]> catchBlocks = new List <Executable[]>();
Token finallyToken = null;
IList <Executable> finallyBlock = null;
while (tokens.IsNext(this.parser.Keywords.CATCH))
{
/*
* Parse patterns:
* All exceptions:
* 1a: catch { ... }
* 1b: catch (e) { ... }
*
* A certain exception:
* 2a: catch (ExceptionName) { ... }
* 2b: catch (ExceptionName e) { ... }
*
* Certain exceptions:
* 3a: catch (ExceptionName1 | ExceptionName2) { ... }
* 3b: catch (ExceptionName1 | ExceptionName2 e) { ... }
*
* Non-Context-Free alert:
* Note that if the exception variable does not contain a '.' character, 1b and 2a are
* ambiguous at parse time. Treat them both as 1b and then if the classname resolution
* fails, treat this as a variable.
*
* This is actually kind of bad because a typo in the classname will not be known.
* e.g "catch (Excpetion) {" will compile as a variable called "Excpetion"
*
* End-user workarounds:
* - always use a variable name OR
* - always fully qualify exception types e.g. Core.Exception
* Long-term plan:
* - add warning support and emit warnings for:
* - unused variables
* - style-breaking uppercase variables.
*/
Token catchToken = tokens.PopExpected(this.parser.Keywords.CATCH);
List <string> classNames = new List <string>();
List <Token> classTokens = new List <Token>();
Token variableToken = null;
if (tokens.PopIfPresent("("))
{
// This first one might actually be a variable. Assume class for now and sort it out later.
// (and by "later" I mean the ResolveNames phase)
Token classFirstToken = tokens.Pop();
string className = this.parser.PopClassNameWithFirstTokenAlreadyPopped(tokens, classFirstToken);
classNames.Add(className);
classTokens.Add(classFirstToken);
while (tokens.PopIfPresent("|"))
{
classFirstToken = tokens.Pop();
className = this.parser.PopClassNameWithFirstTokenAlreadyPopped(tokens, classFirstToken);
classNames.Add(className);
classTokens.Add(classFirstToken);
}
if (!tokens.IsNext(")"))
{
variableToken = tokens.Pop();
this.parser.VerifyIdentifier(variableToken);
}
tokens.PopExpected(")");
}
else
{
classNames.Add(null);
classTokens.Add(null);
}
Executable[] catchBlockCode = Parser.ParseBlock(parser, tokens, true, owner).ToArray();
catchTokens.Add(catchToken);
exceptionTypes.Add(classNames.ToArray());
exceptionTypeTokens.Add(classTokens.ToArray());
exceptionVariables.Add(variableToken);
catchBlocks.Add(catchBlockCode);
}
if (tokens.IsNext(this.parser.Keywords.FINALLY))
{
finallyToken = tokens.Pop();
finallyBlock = Parser.ParseBlock(parser, tokens, true, owner);
}
return(new TryStatement(tryToken, tryBlock, catchTokens, exceptionVariables, exceptionTypeTokens, exceptionTypes, catchBlocks, finallyToken, finallyBlock, owner));
}
private static Executable ParseFunction(Parser parser, TokenStream tokens, Executable nullableOwner)
{
bool isStatic =
nullableOwner != null &&
nullableOwner is ClassDefinition &&
tokens.PopIfPresent("static");
Token functionToken = tokens.PopExpected("function");
List<Annotation> functionAnnotations = new List<Annotation>();
while (tokens.IsNext("@"))
{
functionAnnotations.Add(AnnotationParser.ParseAnnotation(tokens));
}
Token functionNameToken = tokens.Pop();
Parser.VerifyIdentifier(functionNameToken);
FunctionDefinition fd = new FunctionDefinition(functionToken, nullableOwner, isStatic, functionNameToken, functionAnnotations, parser.CurrentNamespace);
tokens.PopExpected("(");
List<Token> argNames = new List<Token>();
List<Expression> defaultValues = new List<Expression>();
List<Annotation> argAnnotations = new List<Annotation>();
bool optionalArgFound = false;
while (!tokens.PopIfPresent(")"))
{
if (argNames.Count > 0) tokens.PopExpected(",");
Annotation annotation = tokens.IsNext("@") ? AnnotationParser.ParseAnnotation(tokens) : null;
Token argName = tokens.Pop();
Expression defaultValue = null;
Parser.VerifyIdentifier(argName);
if (tokens.PopIfPresent("="))
{
optionalArgFound = true;
defaultValue = ExpressionParser.Parse(tokens, fd);
}
else if (optionalArgFound)
{
throw new ParserException(argName, "All optional arguments must come at the end of the argument list.");
}
argAnnotations.Add(annotation);
argNames.Add(argName);
defaultValues.Add(defaultValue);
}
IList<Executable> code = Parser.ParseBlock(parser, tokens, true, fd);
fd.ArgNames = argNames.ToArray();
fd.DefaultValues = defaultValues.ToArray();
fd.ArgAnnotations = argAnnotations.ToArray();
fd.Code = code.ToArray();
return fd;
}
internal static IList<Executable> ParseBlock(Parser parser, TokenStream tokens, bool bracketsRequired, Executable owner)
{
List<Executable> output = new List<Executable>();
if (tokens.PopIfPresent("{"))
{
while (!tokens.PopIfPresent("}"))
{
output.Add(ExecutableParser.Parse(parser, tokens, false, true, false, owner));
}
}
else
{
if (bracketsRequired)
{
tokens.PopExpected("{"); // throws with reasonable exception message.
}
if (tokens.PopIfPresent(";"))
{
return output;
}
output.Add(ExecutableParser.Parse(parser, tokens, false, true, false, owner));
}
return output;
}
private static Executable ParseFor(Parser parser, TokenStream tokens, Executable owner)
{
Token forToken = tokens.PopExpected("for");
tokens.PopExpected("(");
if (Parser.IsValidIdentifier(tokens.PeekValue()) && tokens.PeekValue(1) == ":")
{
Token iteratorToken = tokens.Pop();
if (Parser.IsReservedKeyword(iteratorToken.Value))
{
throw new ParserException(iteratorToken, "Cannot use this name for an iterator.");
}
tokens.PopExpected(":");
Expression iterationExpression = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
IList<Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
return new ForEachLoop(forToken, iteratorToken, iterationExpression, body, owner);
}
else
{
List<Executable> init = new List<Executable>();
while (!tokens.PopIfPresent(";"))
{
if (init.Count > 0) tokens.PopExpected(",");
init.Add(Parse(parser, tokens, true, false, false, owner));
}
Expression condition = null;
if (!tokens.PopIfPresent(";"))
{
condition = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(";");
}
List<Executable> step = new List<Executable>();
while (!tokens.PopIfPresent(")"))
{
if (step.Count > 0) tokens.PopExpected(",");
step.Add(Parse(parser, tokens, true, false, false, owner));
}
IList<Executable> body = Parser.ParseBlock(parser, tokens, false, owner);
return new ForLoop(forToken, init, condition, step, body, owner);
}
}
private static Executable ParseSwitch(Parser parser, TokenStream tokens, Executable owner)
{
Token switchToken = tokens.PopExpected("switch");
Expression explicitMax = null;
Token explicitMaxToken = null;
if (tokens.IsNext("{"))
{
explicitMaxToken = tokens.Pop();
explicitMax = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected("}");
}
tokens.PopExpected("(");
Expression condition = ExpressionParser.Parse(tokens, owner);
tokens.PopExpected(")");
tokens.PopExpected("{");
List<List<Expression>> cases = new List<List<Expression>>();
List<Token> firstTokens = new List<Token>();
List<List<Executable>> code = new List<List<Executable>>();
char state = '?'; // ? - first, O - code, A - case
bool defaultEncountered = false;
while (!tokens.PopIfPresent("}"))
{
if (tokens.IsNext("case"))
{
if (defaultEncountered)
{
throw new ParserException(tokens.Peek(), "default condition in a switch statement must be the last condition.");
}
Token caseToken = tokens.PopExpected("case");
if (state != 'A')
{
cases.Add(new List<Expression>());
firstTokens.Add(caseToken);
code.Add(null);
state = 'A';
}
cases[cases.Count - 1].Add(ExpressionParser.Parse(tokens, owner));
tokens.PopExpected(":");
}
else if (tokens.IsNext("default"))
{
Token defaultToken = tokens.PopExpected("default");
if (state != 'A')
{
cases.Add(new List<Expression>());
firstTokens.Add(defaultToken);
code.Add(null);
state = 'A';
}
cases[cases.Count - 1].Add(null);
tokens.PopExpected(":");
defaultEncountered = true;
}
else
{
if (state != 'O')
{
cases.Add(null);
firstTokens.Add(null);
code.Add(new List<Executable>());
state = 'O';
}
code[code.Count - 1].Add(ExecutableParser.Parse(parser, tokens, false, true, false, owner));
}
}
return new SwitchStatement(switchToken, condition, firstTokens, cases, code, explicitMax, explicitMaxToken, owner);
}
private static Expression ParseInstantiate(TokenStream tokens, Executable owner)
{
Token newToken = tokens.PopExpected("new");
Token classNameToken = tokens.Pop();
Parser.VerifyIdentifier(classNameToken);
string name = classNameToken.Value;
while (tokens.PopIfPresent("."))
{
Token nameNext = tokens.Pop();
Parser.VerifyIdentifier(nameNext);
name += "." + nameNext.Value;
}
List<Expression> args = new List<Expression>();
tokens.PopExpected("(");
while (!tokens.PopIfPresent(")"))
{
if (args.Count > 0)
{
tokens.PopExpected(",");
}
args.Add(Parse(tokens, owner));
}
return new Instantiate(newToken, classNameToken, name, args, owner);
}