Causality in JMM seems to be the most confusing part of it. I have a few questions regarding JMM causality, and allowed behaviors in concurrent programs.
As I understand, the current JMM always prohibits causality loops. (Am I right?)
Now, as per the JSR-133 document, page 24, Fig.16, we have an example where:
x = y = 0
r3 = x; if (r3 == 0) x = 42; r1 = x; y = r1;
r2 = y; x = r2;
r1 = r2 = r3 = 42 seems impossible. However, it is not only mentioned as possible, but also 'allowed' in JMM.
For the possibility, the explanation from the document which I fail to understand is:
A compiler could determine that the only values ever assigned to
xare 0 and 42. From that, the compiler could deduce that, at the point where we execute
r1 = x, either we had just performed a write of 42 to
x, or we had just read
xand seen the value 42. In either case, it would be legal for a read of
xto see the value 42. It could then change
r1 = xto
r1 = 42; this would allow
y = r1to be transformed to
y = 42and performed earlier, resulting in the behavior in question. In this case, the write to
yis committed first.
My question is, what kind of compiler optimization is it really? (I am compiler-ignorant.) Since 42 is written only conditionally, when the
if statement is satisfied, how can the compiler decide to go with the writing of
Secondly, even if compiler does this speculative optimization, and commits
y = 42 and
then finally makes
r3 = 42 , isn't it a violation of causality loop, since there is no cause and effect distinction left now?
In fact there is one example in the same document (page 15, Figure 7) where a similar causal loop is mentioned as unacceptable.
So how come this execution order is legal in JMM?