private void CheckUniqueArgument(List<Arg> names, Arg arg)
{
if (arg != null && arg.Name != null) {
string name = arg.Name;
for (int i = 0; i < names.Count; i++) {
if (names[i].Name == arg.Name) {
ReportSyntaxError("duplicate keyword argument");
}
}
}
}
// arglist:
// expression rest_of_arguments
// expression "=" expression rest_of_arguments
// expression "for" gen_expr_rest
//
private Arg[] FinishArgListOrGenExpr(out List<string> commaWhiteSpace, out bool ateTerminator)
{
Arg a = null;
commaWhiteSpace = MakeWhiteSpaceList();
Token t = PeekToken();
if (t.Kind != TokenKind.RightParenthesis && t.Kind != TokenKind.Multiply && t.Kind != TokenKind.Power) {
Expression e = ParseExpression();
if (e is ErrorExpression) {
ateTerminator = false;
return new[] { new Arg(e) };
}
if (MaybeEat(TokenKind.Assign)) { // Keyword argument
a = FinishKeywordArgument(e);
} else if (PeekToken(Tokens.KeywordForToken)) { // Generator expression
var genExpr = ParseGeneratorExpression(e);
AddIsAltForm(genExpr);
a = new Arg(genExpr);
ateTerminator = Eat(TokenKind.RightParenthesis);
a.SetLoc(e.StartIndex, GetEnd());
return new Arg[1] { a }; // Generator expression is the argument
} else {
a = new Arg(e);
a.SetLoc(e.StartIndex, e.EndIndex);
}
// Was this all?
//
if (MaybeEat(TokenKind.Comma)) {
if (commaWhiteSpace != null) {
commaWhiteSpace.Add(_tokenWhiteSpace);
}
} else {
ateTerminator = Eat(TokenKind.RightParenthesis);
a.SetLoc(e.StartIndex, GetEnd());
return new Arg[1] { a };
}
}
return FinishArgumentList(a, commaWhiteSpace, out ateTerminator); // TODO: Use ateTerminator
}
private Arg FinishKeywordArgument(Expression t)
{
Debug.Assert(_token.Token.Kind == TokenKind.Assign);
string equalWhiteSpace = _tokenWhiteSpace;
NameExpression n = t as NameExpression;
string name;
if (n == null) {
ReportSyntaxError(t.StartIndex, t.EndIndex, "expected name");
name = null;
} else {
name = n.Name;
}
Expression val = ParseExpression();
Arg arg = new Arg(t, val);
arg.SetLoc(t.StartIndex, val.EndIndex);
if (_verbatim) {
AddPreceedingWhiteSpace(arg, equalWhiteSpace);
}
// we're losing the name expression...
return arg;
}
//classdef: 'class' NAME ['(' testlist ')'] ':' suite
private Statement ParseClassDef()
{
Eat(TokenKind.KeywordClass);
string classWhiteSpace = _tokenWhiteSpace;
var start = GetStart();
var name = ReadName();
var nameExpr = MakeName(name);
nameExpr.SetLoc(GetStart(), GetEnd());
string nameWhiteSpace = _tokenWhiteSpace;
if (name.RealName == null) {
// no name, assume there's no class.
return ErrorStmt(_verbatim ? (classWhiteSpace + "class") : null);
}
bool isParenFree = false;
string leftParenWhiteSpace = null, rightParenWhiteSpace = null;
List<string> commaWhiteSpace = null;
Arg[] args;
bool ateTerminator = true;
if (MaybeEat(TokenKind.LeftParenthesis)) {
leftParenWhiteSpace = _tokenWhiteSpace;
commaWhiteSpace = MakeWhiteSpaceList();
if (_langVersion.Is7x()) {
args = FinishArgumentList(null, commaWhiteSpace, out ateTerminator);
rightParenWhiteSpace = _tokenWhiteSpace;
} else {
bool trailingComma;
List<Expression> l = ParseTestListAsExpr(null, out commaWhiteSpace, out trailingComma);
if (l.Count == 1 && l[0] is ErrorExpression) {
// error handling, classes is incomplete.
return ErrorStmt(
_verbatim ? (classWhiteSpace + "class" + nameWhiteSpace + name.VerbatimName + leftParenWhiteSpace + "(" + ((ErrorExpression)l[0]).VerbatimImage) : null
);
}
args = new Arg[l.Count];
for (int i = 0; i < l.Count; i++) {
args[i] = new Arg(l[i]);
}
ateTerminator = Eat(TokenKind.RightParenthesis);
rightParenWhiteSpace = _tokenWhiteSpace;
}
} else {
isParenFree = true;
args = new Arg[0];
}
var mid = GetEnd();
// Save private prefix
string savedPrefix = SetPrivatePrefix(name.VerbatimName);
_classDepth++;
// Parse the class body
Statement body = ParseClassOrFuncBody();
_classDepth--;
// Restore the private prefix
_privatePrefix = savedPrefix;
ClassDefinition ret = new ClassDefinition(nameExpr, args, body);
AddVerbatimName(name, ret);
if (_verbatim) {
if (isParenFree) {
AddIsAltForm(ret);
}
AddPreceedingWhiteSpace(ret, classWhiteSpace);
AddSecondPreceedingWhiteSpace(ret, nameWhiteSpace);
if (leftParenWhiteSpace != null) {
AddThirdPreceedingWhiteSpace(ret, leftParenWhiteSpace);
}
if (rightParenWhiteSpace != null) {
AddFourthPreceedingWhiteSpace(ret, rightParenWhiteSpace);
}
if (commaWhiteSpace != null) {
AddListWhiteSpace(ret, commaWhiteSpace.ToArray());
}
if (!ateTerminator) {
AddErrorMissingCloseGrouping(ret);
}
}
ret.HeaderIndex = mid;
ret.SetLoc(start, body.EndIndex);
return ret;
}
//arglist: (argument ',')* (argument [',']| '*' expression [',' '**' expression] | '**' expression)
//argument: [expression '='] expression # Really [keyword '='] expression
private Arg[] FinishArgumentList(Arg first, List<string> commaWhiteSpace, out bool ateTerminator)
{
const TokenKind terminator = TokenKind.RightParenthesis;
List<Arg> l = new List<Arg>();
if (first != null) {
l.Add(first);
}
// Parse remaining arguments
while (true) {
if (MaybeEat(terminator)) {
ateTerminator = true;
break;
}
int start;
Arg a;
if (MaybeEat(TokenKind.Multiply)) {
string starWhiteSpace = _tokenWhiteSpace;
start = GetStart();
Expression t = ParseExpression();
var name = new NameExpression("*");
a = new Arg(name, t);
if (_verbatim) {
AddPreceedingWhiteSpace(name, starWhiteSpace);
}
} else if (MaybeEat(TokenKind.Power)) {
string starStarWhiteSpace = _tokenWhiteSpace;
start = GetStart();
Expression t = ParseExpression();
var name = new NameExpression("**");
a = new Arg(name, t);
if (_verbatim) {
AddPreceedingWhiteSpace(name, starStarWhiteSpace);
}
} else {
Expression e = ParseExpression();
start = e.StartIndex;
if (MaybeEat(TokenKind.Assign)) {
a = FinishKeywordArgument(e);
CheckUniqueArgument(l, a);
} else {
a = new Arg(e);
}
}
a.SetLoc(start, GetEnd());
l.Add(a);
if (MaybeEat(TokenKind.Comma)) {
if (commaWhiteSpace != null) {
commaWhiteSpace.Add(_tokenWhiteSpace);
}
} else {
ateTerminator = Eat(terminator);
break;
}
}
return l.ToArray();
}
private JVariable _variable; // Variable corresponding to the class name
#endregion Fields
#region Constructors
public ClassDefinition(NameExpression/*!*/ name, Arg[] bases, Statement body)
{
_name = name;
_bases = bases;
_body = body;
}
public CallExpression(Expression target, Arg[] args)
{
_target = target;
_args = args;
}
// Arg
public override bool Walk(Arg node)
{
return ShouldWalkWorker(node);
}
public override void PostWalk(Arg node)
{
PostWalkWorker(node);
}
