First, let's explain the practical issue here.
Assuming you have a definition like
The following is syntactically accepted, and works as expected:
op = x -> x;
That is, we have an identity function on
int assigned to the
op variable. But if
= had a higher priority, we'd expect Java to interpret this as
(op = x) -> x;
Which is not syntactically valid, thus should be a compile error. Hence, assignment does not, in practice, have higher precedence than the arrow.
But the following is also OK (assume
t is a class/instance variable of type
op = x -> t = x;
This compiles, and the function, if applied, assigns the value of the operand to
t and also returns it.
This means that the arrow doesn't have higher precedence than the assignment
t = x. Otherwise it would have been interpreted as
op = ( x -> t ) = x
and clearly, this is not what happens.
So it seems that the operations have equal precedence. What's more, that they are right-associative. This is implied from the grammar at JLS chapter 19:
LambdaParameters -> LambdaBody
So the right side of the lambda body gets us back to
Expression, which means we can either have a (higher priority) lambda inside it, or a (higher priority) assignment in it. What I mean by "higher priority" is that the deeper you go through the production rules, the earlier the expression will be evaluated.
The same is true for the assignment operator:
LeftHandSide AssignmentOperator Expression
Once again, the right side of the assignment throws us back to
Expression, so we can have a lambda expression or an assignment there.
So rather than relying on the JLS text, the grammar gives us a well defined description of the situation.