It depends on whether the classes A
, B
, C
, D
, E
, F
and G
have a common base class or interface.
Common base type
If not, you could, for example, create an interface like this:
interface Nameable {
String getName();
}
and then make each of the classes implement this interface. Then you can easily just call the getName()
method on each of the objects:
for (Nameable nameable : listContainingDifferentObjects) {
str.add(nameable.getName());
}
instanceof
Otherwise, if the classes will not or cannot implement a common interface or extend a base class, then the classes are unrelated, despite having a field with the same name.
In that case, you end up having to check each type, cast it and use the field1:
for (Nameable nameable : listContainingDifferentObjects) {
if (obj instanceof A) {
str.add(((A) obj).name);
}
else if (obj instanceof B) {
str.add(((B) obj).name);
}
// et cetera
}
If your classes don't implement a common type, but still have a field with the same name, I would rethink the design.
Reflection
vsfDawg came up with using reflection to dynamically invoke the getName()
method or access the name
field. While one could indeed make it work, you should avoid to use it if that's possible, and only use it if there's no other way. ➤ More details
1 Since version 16, Java supports pattern matching, which simplifies the ceremony of checking type, casting and using the value. For instance:
for (Object obj : listContainingDifferentObjects) {
if (obj instanceof A a) {
str.add(a.name());
}
else if (obj instanceof B b) {
str.add(b.name());
}
// et cetera
}
See this article for more details.