/**
* A member type of the type with actual type arguments to the receiving type and invocation.
*
* @param member the declaration of a member type of this type
* @param typeArguments the type arguments of the invocation
*/
public ProducedType getTypeMember(TypeDeclaration member, List<ProducedType> typeArguments) {
ProducedType declaringType = getSupertype((TypeDeclaration) member.getContainer());
ProducedType pt = new ProducedType();
pt.setDeclaration(member);
pt.setQualifyingType(declaringType);
Map<TypeParameter, ProducedType> map = arguments(member, declaringType, typeArguments);
// map.putAll(sub(map));
pt.setTypeArguments(map);
return pt;
}
private ProducedType substitutedType(
Declaration dec, ProducedType pt, Map<TypeParameter, ProducedType> substitutions) {
ProducedType type = new ProducedType();
type.setDeclaration(dec);
ProducedType qt = pt.getQualifyingType();
if (qt != null) {
type.setQualifyingType(substitute(qt, substitutions));
}
type.setTypeArguments(substitutedTypeArguments(pt, substitutions));
return type;
}
/**
* Get a produced type for this declaration by binding explicit or inferred type arguments and
* type arguments of the type of which this declaration is a member, in the case that this is a
* nested type.
*
* @param qualifyingType the qualifying produced type or null if this is not a nested type dec
* @param typeArguments arguments to the type parameters of this declaration
*/
public ProducedType getProducedType(
ProducedType qualifyingType, List<ProducedType> typeArguments) {
if (qualifyingType != null && qualifyingType.isNothing()) {
return qualifyingType;
}
ProducedType pt = new ProducedType();
pt.setDeclaration(this);
pt.setQualifyingType(qualifyingType);
pt.setTypeArguments(getTypeArgumentMap(this, qualifyingType, typeArguments));
return pt;
}
@Override
public ProducedType getReference() {
ProducedType pt = new ProducedType();
if (isMember()) {
pt.setQualifyingType(((ClassOrInterface) getContainer()).getType());
}
pt.setDeclaration(this);
pt.setTypeArguments(
getTypeArgumentMap(this, pt.getQualifyingType(), Collections.<ProducedType>emptyList()));
return pt;
}
/**
* The type of the declaration as seen from within the body of the declaration itself.
*
* <p>Note that for certain special types which we happen to know don't have type arguments, we
* use this as a convenience method to quickly get a produced type for use outside the body of the
* declaration, but this is not really correct!
*/
public ProducedType getType() {
ProducedType type = new ProducedType();
if (isMember()) {
type.setQualifyingType(((ClassOrInterface) getContainer()).getType());
}
type.setDeclaration(this);
// each type parameter is its own argument
List<TypeParameter> typeParameters = getTypeParameters();
if (typeParameters.isEmpty()) {
type.setTypeArguments(Collections.<TypeParameter, ProducedType>emptyMap());
} else {
Map<TypeParameter, ProducedType> map = new HashMap<TypeParameter, ProducedType>();
for (TypeParameter p : typeParameters) {
ProducedType pta = new ProducedType();
pta.setDeclaration(p);
map.put(p, pta);
}
type.setTypeArguments(map);
}
return type;
}
private ProducedType qualifiedByDeclaringType() {
ProducedType qt = getQualifyingType();
if (qt == null) {
return this;
} else {
ProducedType pt = new ProducedType();
pt.setDeclaration(getDeclaration());
pt.setTypeArguments(getTypeArguments());
// replace the qualifying type with
// the supertype of the qualifying
// type that declares this nested
// type, substituting type arguments
ProducedType declaringType =
qt.getSupertype((TypeDeclaration) getDeclaration().getContainer());
pt.setQualifyingType(declaringType);
return pt;
}
}