protected Node typeCheckNullTarget(
TypeChecker tc, List<Type> paramTypes, List<Type> explicitTypeArgs) throws SemanticException {
JL5TypeSystem ts = (JL5TypeSystem) tc.typeSystem();
JL5NodeFactory nf = (JL5NodeFactory) tc.nodeFactory();
JL5Context c = (JL5Context) tc.context();
// the target is null, and thus implicit
// let's find the target, using the context, and
// set the target appropriately, and then type check
// the result
JL5MethodInstance mi = c.findJL5Method(this.name(), paramTypes, explicitTypeArgs);
Receiver r;
if (mi.flags().isStatic()) {
r = nf.CanonicalTypeNode(position(), mi.container()).type(mi.container());
} else {
// The method is non-static, so we must prepend with "this", but we
// need to determine if the "this" should be qualified. Get the
// enclosing class which brought the method into scope. This is
// different from mi.container(). mi.container() returns a super
// type
// of the class we want.
ClassType scope = c.findMethodScope(name);
if (!ts.equals(scope, c.currentClass())) {
r = nf.This(position(), nf.CanonicalTypeNode(position(), scope)).type(scope);
} else {
r = nf.This(position()).type(scope);
}
}
// we call typeCheck on the reciever too.
r = (Receiver) r.del().typeCheck(tc);
return this.targetImplicit(true).target(r).del().typeCheck(tc);
}
public Node typeCheck(TypeChecker tc) throws SemanticException {
JL5Call_c n = null;
JL5TypeSystem ts = (JL5TypeSystem) tc.typeSystem();
JL5Context c = (JL5Context) tc.context();
ReferenceType targetType = null;
List<Type> explicitTypeArgs = null;
List<Type> paramTypes = new ArrayList<Type>();
if (typeArguments != null && !typeArguments.isEmpty()) {
explicitTypeArgs = new ArrayList<Type>();
if (target() == null) {
// should not actually happen. grammar doesn't allow it
throw new SemanticException(
"Explicit target required when using explicit type arguments", position());
}
for (Iterator it = typeArguments().iterator(); it.hasNext(); ) {
explicitTypeArgs.add(((TypeNode) it.next()).type());
}
}
for (Iterator i = this.arguments().iterator(); i.hasNext(); ) {
Expr e = (Expr) i.next();
paramTypes.add(e.type());
}
JL5MethodInstance mi;
// JLS 15.12.1
if (target == null) {
return typeCheckNullTarget(tc, paramTypes, explicitTypeArgs);
} else {
targetType = this.findTargetType();
mi = ts.findJL5Method(targetType, name, paramTypes, explicitTypeArgs, c);
}
boolean staticContext = (this.target instanceof TypeNode);
if (staticContext && !mi.flags().isStatic()) {
throw new SemanticException(
"Cannot call non-static method "
+ this.name
+ " of "
+ targetType
+ " in static "
+ "context.",
this.position());
}
if (this.target instanceof Special
&& ((Special) this.target).kind() == Special.SUPER
&& mi.flags().isAbstract()) {
throw new SemanticException(
"Cannot call an abstract method " + "of the super class", this.position());
}
n = (JL5Call_c) this.methodInstance(mi).type(mi.returnType());
// n.checkConsistency(c);
return n;
}
