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!
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.