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class Undoable<T> {
  T value;
  Deque<Object> history;
      
  Undoable(T t, Deque<Object> history) {
    this.value = t;
    this.history = history;
  }
  
  static <T> Undoable<T> of(T t) {
    return new Undoable<T>(t, new LinkedList<Object>());
  }

  public <R> Undoable<R> flatMap(Function<T, Undoable<R>> mapper) {
    Undoable<R> r = mapper.apply(value);
    Deque<Object> newHistory = new LinkedList<>();
    newHistory.addAll(history);
    newHistory.addAll(r.history);
    return new Undoable<R>(r.value, newHistory);
  }

  public <R> Undoable<R> undo() {
    Deque<Object> newHistory = new LinkedList<>(this.history);
    R r;
    try {
      r = (R)newHistory.removeLast(); //line A
    } catch (NoSuchElementException e) {
      throw new CannotUndoException();
    }
    return new Undoable<R>(r, newHistory);
  }
}

Given the code snippet above, let say we leave Line A as it is and ignore the compilation warning. What would happen if we

Undoable<Integer> i = Undoable.of("hello").flatMap(s -> {
    Deque<Object> history;
    history = new LinkedList<>();
    history.add(s);
    return new Undoable<Integer>(s.length(), history);
});
Undoable<Double> d = i.undo();

I get that Undoable<Integer> and Undoable<Double> erases to Undoable. But what does R in the undo() method become? Does it infer to be Double since Double is the target type of that method call?

I've tried running the code on my machine and it runs fine but I have no idea why. Can anyone shed some light? Thanks a ton!

4
  • Since what I can understand, yes, it will be cast from Integer to Double, try declaring the d variable with something different, to see it will throws an error.
    – Kaneda
    Apr 27, 2021 at 4:47
  • 1
    Right, the other question was a more general variation of this question. I was confused about how type inference and type erasure worked. Initially, what I thought was that since R is inferred to be Double, why wouldn't it throw a ClassCastException. I suspected that R ended up being erased to Object but that didn't really make sense because why would R erase to Object if R was already being inferred to be Double. Now that you and Wasserman cleared things up, I realised that R is still erased to Object and that inference is lost after checking that it is type-safe.
    – kingsbane
    Apr 27, 2021 at 5:16
  • Glad that helped, but please really test it with something that throws a cast exception, i’m curious now, try change the Double to something absurd like InputStream or something like that.
    – Kaneda
    Apr 27, 2021 at 5:22
  • I'll only get a ClassCastException if I take its value out and operate on it. I'm sorry I am still rather new to Java so I have no idea how the InputStream type works. But to put it into context, I will get a ClassCastException if I do something like System.out.println(d.value/2);. It only when we operate on it that Java realises it doesn't match. I hope I demonstrated what you were looking for hahaha.
    – kingsbane
    Apr 27, 2021 at 5:30

1 Answer 1

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The R type it will become Object, even when inferred during the method call, this is because of R been of no use, since you never explicit declared it, like this i.<Double>undo(), in most use cases, parametric types are used in methods to infer the types of the method parameters. About your code flow, even with a Undone the d.value is a string, it's because d Undone type will be compiled to object, since the R type could be anything, doesn't have how to compare, in compile time, the type inferred result of the method call with your declaration. If you put Undone<Double> d = i.<String>undo() it will throw an error, otherwise if you don't explicit declare, never will throw a cast exception.

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