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I have a generic class, CodominantPopulation, which is a subclass of another generic class, SexualPopulation, which is itself a subclass of a generic class (Population). The aforementioned classes are defined as follows:

public class CodominantPopulation<O extends CodominantOrganism> extends SexualPopulation<O> {

public CodominantPopulation(List<O> organisms) {

public class SexualPopulation<O extends SexualOrganism> extends Population<O> {
    public SexualPopulation(List<O> organisms){

The CodominiantOrganism above is a subclass of SexualOrganism, which is itself a subclass (as may be expected) of an Organism. Within CodominantPopulation, I call a function that is only available to CodominantOrganisms, called as follows:

// in CodominantPopulation
for (O organism : population){
    // organism must be a CodominantOrganism
    CodominantGenotype.Dominance dominance = organism.getTraitDominance(trait);

Nonetheless, the runtime throws:

Exception in thread "main" java.lang.ClassCastException: SexualOrganism cannot be cast to util.CodominantOrganism
    at CodominantPopulation.countDominance(

I am not exactly sure how to interpret/fix this error. I have done some research and it seems as though this could be related to Java's type erasure - is this possible? I am passing objects of type CodominantOrganism to CodominantPopulation before the program is compiled.

Edit: The definition for Population is as follows:

public class Population<O extends Organism> {
    List<O> population;

    public Population(List<O> organisms){
        this.population = new ArrayList<>();
share|improve this question
What is population? I see that you pass organisms to super in your constructors. Perhaps it's something like a List<O> in the SexualPopulation class, in which case type erasure makes the casted type of O in your enhanced for loop to be SexualOrganism. – rgettman Apr 8 '14 at 17:28
The compiler is not throwing this exception. The runtime is throwing it. The type O is correctly resolving to CodominantOrganism at compile time, so there must be some other non type safe shenanigans going on at runtime. – Judge Mental Apr 8 '14 at 17:30
Noted, Judge Mental. And rgettman, Population has been added to the post above. – nmagerko Apr 8 '14 at 17:34
@nmagerko What happens when you change for (O organism : population){ to for (CodominantOrganism organism : population) {? – Elliott Frisch Apr 8 '14 at 17:36
The variable called population, not the class, is what we need. But I contend that the fact that this code compiles and runs at all means you're doing something else unkosher. "Erasure", while an abomination, is probably the wrong punching bag in this case. – Judge Mental Apr 8 '14 at 17:37

1 Answer 1

My guess is that is less an issue with generic types, but with inheritance, based on passing a not yet ready object to a super. Maybe you have factory methods or constructors that try to pass a not yet made CodominantOrganism.

This can happen is several ways.

class A
    A (X y) { f(y); }
    protected void f(X x) { }

class B
    B (X y) { super(y); f(y); }
    protected void f(X x) { }

Here the in A's constructor indeed B's f is called, but with an unready B.

With a bit of luck the IDE warns about using non-final methods in the constructor, but other patterns of the same kind are possible. Maybe use FindBugs for checking code inconsistencies.

I might be wrong, but generic types does not seem the culprit.

share|improve this answer
I will certainly take that into consideration - I do have a factory method, and I believe it was static, but I will check on whether or not there are other methods that could be related to your suggestion. – nmagerko Apr 8 '14 at 18:40

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