I'm trying to determine whether the following statements are guaranteed to be true:
((Boolean)true) == Boolean.TRUE ((Boolean)true) == Boolean.valueOf(true) ((Integer)1) == Integer.valueOf(1)
I've always assumed that autoboxing was equivalent to calling
valueOf() on the corresponding type. Every discussion that I've seen on the topic seems to support my assumption. But all I could find in the JLS was the following (§5.1.7):
If the value
pbeing boxed is an integer literal of type
127inclusive (§3.10.1), or the boolean literal
false(§3.10.3), or a character literal between
'\u007f'inclusive (§3.10.4), then let
bbe the results of any two boxing conversions of
p. It is always the case that
a == b.
That describes behavior
identical similar* to that of
valueOf(). But there doesn't seem to be any guarantee that
valueOf() is actually invoked, meaning there could theoretically be an implementation that keeps a separate, dedicated cache for autoboxed values. In such a case, there might not be identity equality between cached autoboxed values and regular cached boxed values.
Oracle's autoboxing tutorial states matter-of-factly that
li.add(i) is compiled to
i is an
int. But I don't know whether the tutorial should be considered an authoritative source.
*It's a slightly weaker guarantee than
valueOf(), as it only refers to literal values.
valueOf(); my question is whether the JLS makes any guarantee in that regard.
valueOf, or if javac switched to another solution, then any new bytecode emitted would be incompatible with old bytecode, since the old bytecode used
valueOffor the autoboxing, and two autoboxed values must (at least under some circumstances) be referentially equivalent. Now to tie this up to a formal proof one would have to find something in JLS stating certain guarantees for split compilations. I doubt JLS covers such topics though.
valueOf(), since there would be no behavioral difference.
valueOfcontinues to do the right thing, I see no reason not to call it in a compiled class. Anything more fancy could be injected by the JVM, replacing the call, at runtime. Just like it may already happen today.